;
+ var markupFragment;
+ if (isObject(result)) {
+ if (result.type) {
+ markupFragment = result;
+ } else {
+ if ("development" !== 'production') {
+ console.warn('The return type of `formatTooltip` is not supported: ' + makePrintable(result));
+ }
+ }
+ // else {
+ // markupText = (result as TooltipFormatResultLegacyObject).html;
+ // markers = (result as TooltipFormatResultLegacyObject).markers;
+ // if (markersExisting) {
+ // markers = zrUtil.merge(markersExisting, markers);
+ // }
+ // }
+ } else {
+ markupText = result;
+ }
+ return {
+ text: markupText,
+ // markers: markers || markersExisting,
+ frag: markupFragment
+ };
+ }
+
+ /**
+ * @param {Object} define
+ * @return See the return of `createTask`.
+ */
+ function createTask(define) {
+ return new Task(define);
+ }
+ var Task = /** @class */function () {
+ function Task(define) {
+ define = define || {};
+ this._reset = define.reset;
+ this._plan = define.plan;
+ this._count = define.count;
+ this._onDirty = define.onDirty;
+ this._dirty = true;
+ }
+ /**
+ * @param step Specified step.
+ * @param skip Skip customer perform call.
+ * @param modBy Sampling window size.
+ * @param modDataCount Sampling count.
+ * @return whether unfinished.
+ */
+ Task.prototype.perform = function (performArgs) {
+ var upTask = this._upstream;
+ var skip = performArgs && performArgs.skip;
+ // TODO some refactor.
+ // Pull data. Must pull data each time, because context.data
+ // may be updated by Series.setData.
+ if (this._dirty && upTask) {
+ var context = this.context;
+ context.data = context.outputData = upTask.context.outputData;
+ }
+ if (this.__pipeline) {
+ this.__pipeline.currentTask = this;
+ }
+ var planResult;
+ if (this._plan && !skip) {
+ planResult = this._plan(this.context);
+ }
+ // Support sharding by mod, which changes the render sequence and makes the rendered graphic
+ // elements uniformed distributed when progress, especially when moving or zooming.
+ var lastModBy = normalizeModBy(this._modBy);
+ var lastModDataCount = this._modDataCount || 0;
+ var modBy = normalizeModBy(performArgs && performArgs.modBy);
+ var modDataCount = performArgs && performArgs.modDataCount || 0;
+ if (lastModBy !== modBy || lastModDataCount !== modDataCount) {
+ planResult = 'reset';
+ }
+ function normalizeModBy(val) {
+ !(val >= 1) && (val = 1); // jshint ignore:line
+ return val;
+ }
+ var forceFirstProgress;
+ if (this._dirty || planResult === 'reset') {
+ this._dirty = false;
+ forceFirstProgress = this._doReset(skip);
+ }
+ this._modBy = modBy;
+ this._modDataCount = modDataCount;
+ var step = performArgs && performArgs.step;
+ if (upTask) {
+ if ("development" !== 'production') {
+ assert(upTask._outputDueEnd != null);
+ }
+ this._dueEnd = upTask._outputDueEnd;
+ }
+ // DataTask or overallTask
+ else {
+ if ("development" !== 'production') {
+ assert(!this._progress || this._count);
+ }
+ this._dueEnd = this._count ? this._count(this.context) : Infinity;
+ }
+ // Note: Stubs, that its host overall task let it has progress, has progress.
+ // If no progress, pass index from upstream to downstream each time plan called.
+ if (this._progress) {
+ var start = this._dueIndex;
+ var end = Math.min(step != null ? this._dueIndex + step : Infinity, this._dueEnd);
+ if (!skip && (forceFirstProgress || start < end)) {
+ var progress = this._progress;
+ if (isArray(progress)) {
+ for (var i = 0; i < progress.length; i++) {
+ this._doProgress(progress[i], start, end, modBy, modDataCount);
+ }
+ } else {
+ this._doProgress(progress, start, end, modBy, modDataCount);
+ }
+ }
+ this._dueIndex = end;
+ // If no `outputDueEnd`, assume that output data and
+ // input data is the same, so use `dueIndex` as `outputDueEnd`.
+ var outputDueEnd = this._settedOutputEnd != null ? this._settedOutputEnd : end;
+ if ("development" !== 'production') {
+ // ??? Can not rollback.
+ assert(outputDueEnd >= this._outputDueEnd);
+ }
+ this._outputDueEnd = outputDueEnd;
+ } else {
+ // (1) Some overall task has no progress.
+ // (2) Stubs, that its host overall task do not let it has progress, has no progress.
+ // This should always be performed so it can be passed to downstream.
+ this._dueIndex = this._outputDueEnd = this._settedOutputEnd != null ? this._settedOutputEnd : this._dueEnd;
+ }
+ return this.unfinished();
+ };
+ Task.prototype.dirty = function () {
+ this._dirty = true;
+ this._onDirty && this._onDirty(this.context);
+ };
+ Task.prototype._doProgress = function (progress, start, end, modBy, modDataCount) {
+ iterator.reset(start, end, modBy, modDataCount);
+ this._callingProgress = progress;
+ this._callingProgress({
+ start: start,
+ end: end,
+ count: end - start,
+ next: iterator.next
+ }, this.context);
+ };
+ Task.prototype._doReset = function (skip) {
+ this._dueIndex = this._outputDueEnd = this._dueEnd = 0;
+ this._settedOutputEnd = null;
+ var progress;
+ var forceFirstProgress;
+ if (!skip && this._reset) {
+ progress = this._reset(this.context);
+ if (progress && progress.progress) {
+ forceFirstProgress = progress.forceFirstProgress;
+ progress = progress.progress;
+ }
+ // To simplify no progress checking, array must has item.
+ if (isArray(progress) && !progress.length) {
+ progress = null;
+ }
+ }
+ this._progress = progress;
+ this._modBy = this._modDataCount = null;
+ var downstream = this._downstream;
+ downstream && downstream.dirty();
+ return forceFirstProgress;
+ };
+ Task.prototype.unfinished = function () {
+ return this._progress && this._dueIndex < this._dueEnd;
+ };
+ /**
+ * @param downTask The downstream task.
+ * @return The downstream task.
+ */
+ Task.prototype.pipe = function (downTask) {
+ if ("development" !== 'production') {
+ assert(downTask && !downTask._disposed && downTask !== this);
+ }
+ // If already downstream, do not dirty downTask.
+ if (this._downstream !== downTask || this._dirty) {
+ this._downstream = downTask;
+ downTask._upstream = this;
+ downTask.dirty();
+ }
+ };
+ Task.prototype.dispose = function () {
+ if (this._disposed) {
+ return;
+ }
+ this._upstream && (this._upstream._downstream = null);
+ this._downstream && (this._downstream._upstream = null);
+ this._dirty = false;
+ this._disposed = true;
+ };
+ Task.prototype.getUpstream = function () {
+ return this._upstream;
+ };
+ Task.prototype.getDownstream = function () {
+ return this._downstream;
+ };
+ Task.prototype.setOutputEnd = function (end) {
+ // This only happens in dataTask, dataZoom, map, currently.
+ // where dataZoom do not set end each time, but only set
+ // when reset. So we should record the set end, in case
+ // that the stub of dataZoom perform again and earse the
+ // set end by upstream.
+ this._outputDueEnd = this._settedOutputEnd = end;
+ };
+ return Task;
+ }();
+ var iterator = function () {
+ var end;
+ var current;
+ var modBy;
+ var modDataCount;
+ var winCount;
+ var it = {
+ reset: function (s, e, sStep, sCount) {
+ current = s;
+ end = e;
+ modBy = sStep;
+ modDataCount = sCount;
+ winCount = Math.ceil(modDataCount / modBy);
+ it.next = modBy > 1 && modDataCount > 0 ? modNext : sequentialNext;
+ }
+ };
+ return it;
+ function sequentialNext() {
+ return current < end ? current++ : null;
+ }
+ function modNext() {
+ var dataIndex = current % winCount * modBy + Math.ceil(current / winCount);
+ var result = current >= end ? null : dataIndex < modDataCount ? dataIndex
+ // If modDataCount is smaller than data.count() (consider `appendData` case),
+ // Use normal linear rendering mode.
+ : current;
+ current++;
+ return result;
+ }
+ }();
+ // -----------------------------------------------------------------------------
+ // For stream debug (Should be commented out after used!)
+ // @usage: printTask(this, 'begin');
+ // @usage: printTask(this, null, {someExtraProp});
+ // @usage: Use `__idxInPipeline` as conditional breakpiont.
+ //
+ // window.printTask = function (task: any, prefix: string, extra: { [key: string]: unknown }): void {
+ // window.ecTaskUID == null && (window.ecTaskUID = 0);
+ // task.uidDebug == null && (task.uidDebug = `task_${window.ecTaskUID++}`);
+ // task.agent && task.agent.uidDebug == null && (task.agent.uidDebug = `task_${window.ecTaskUID++}`);
+ // let props = [];
+ // if (task.__pipeline) {
+ // let val = `${task.__idxInPipeline}/${task.__pipeline.tail.__idxInPipeline} ${task.agent ? '(stub)' : ''}`;
+ // props.push({text: '__idxInPipeline/total', value: val});
+ // } else {
+ // let stubCount = 0;
+ // task.agentStubMap.each(() => stubCount++);
+ // props.push({text: 'idx', value: `overall (stubs: ${stubCount})`});
+ // }
+ // props.push({text: 'uid', value: task.uidDebug});
+ // if (task.__pipeline) {
+ // props.push({text: 'pipelineId', value: task.__pipeline.id});
+ // task.agent && props.push(
+ // {text: 'stubFor', value: task.agent.uidDebug}
+ // );
+ // }
+ // props.push(
+ // {text: 'dirty', value: task._dirty},
+ // {text: 'dueIndex', value: task._dueIndex},
+ // {text: 'dueEnd', value: task._dueEnd},
+ // {text: 'outputDueEnd', value: task._outputDueEnd}
+ // );
+ // if (extra) {
+ // Object.keys(extra).forEach(key => {
+ // props.push({text: key, value: extra[key]});
+ // });
+ // }
+ // let args = ['color: blue'];
+ // let msg = `%c[${prefix || 'T'}] %c` + props.map(item => (
+ // args.push('color: green', 'color: red'),
+ // `${item.text}: %c${item.value}`
+ // )).join('%c, ');
+ // console.log.apply(console, [msg].concat(args));
+ // // console.log(this);
+ // };
+ // window.printPipeline = function (task: any, prefix: string) {
+ // const pipeline = task.__pipeline;
+ // let currTask = pipeline.head;
+ // while (currTask) {
+ // window.printTask(currTask, prefix);
+ // currTask = currTask._downstream;
+ // }
+ // };
+ // window.showChain = function (chainHeadTask) {
+ // var chain = [];
+ // var task = chainHeadTask;
+ // while (task) {
+ // chain.push({
+ // task: task,
+ // up: task._upstream,
+ // down: task._downstream,
+ // idxInPipeline: task.__idxInPipeline
+ // });
+ // task = task._downstream;
+ // }
+ // return chain;
+ // };
+ // window.findTaskInChain = function (task, chainHeadTask) {
+ // let chain = window.showChain(chainHeadTask);
+ // let result = [];
+ // for (let i = 0; i < chain.length; i++) {
+ // let chainItem = chain[i];
+ // if (chainItem.task === task) {
+ // result.push(i);
+ // }
+ // }
+ // return result;
+ // };
+ // window.printChainAEachInChainB = function (chainHeadTaskA, chainHeadTaskB) {
+ // let chainA = window.showChain(chainHeadTaskA);
+ // for (let i = 0; i < chainA.length; i++) {
+ // console.log('chainAIdx:', i, 'inChainB:', window.findTaskInChain(chainA[i].task, chainHeadTaskB));
+ // }
+ // };
+
+ /**
+ * Convert raw the value in to inner value in List.
+ *
+ * [Performance sensitive]
+ *
+ * [Caution]: this is the key logic of user value parser.
+ * For backward compatibility, do not modify it until you have to!
+ */
+ function parseDataValue(value,
+ // For high performance, do not omit the second param.
+ opt) {
+ // Performance sensitive.
+ var dimType = opt && opt.type;
+ if (dimType === 'ordinal') {
+ // If given value is a category string
+ return value;
+ }
+ if (dimType === 'time'
+ // spead up when using timestamp
+ && !isNumber(value) && value != null && value !== '-') {
+ value = +parseDate(value);
+ }
+ // dimType defaults 'number'.
+ // If dimType is not ordinal and value is null or undefined or NaN or '-',
+ // parse to NaN.
+ // number-like string (like ' 123 ') can be converted to a number.
+ // where null/undefined or other string will be converted to NaN.
+ return value == null || value === '' ? NaN
+ // If string (like '-'), using '+' parse to NaN
+ // If object, also parse to NaN
+ : +value;
+ }
+ var valueParserMap = createHashMap({
+ 'number': function (val) {
+ // Do not use `numericToNumber` here. We have `numericToNumber` by default.
+ // Here the number parser can have loose rule:
+ // enable to cut suffix: "120px" => 120, "14%" => 14.
+ return parseFloat(val);
+ },
+ 'time': function (val) {
+ // return timestamp.
+ return +parseDate(val);
+ },
+ 'trim': function (val) {
+ return isString(val) ? trim(val) : val;
+ }
+ });
+ function getRawValueParser(type) {
+ return valueParserMap.get(type);
+ }
+ var ORDER_COMPARISON_OP_MAP = {
+ lt: function (lval, rval) {
+ return lval < rval;
+ },
+ lte: function (lval, rval) {
+ return lval <= rval;
+ },
+ gt: function (lval, rval) {
+ return lval > rval;
+ },
+ gte: function (lval, rval) {
+ return lval >= rval;
+ }
+ };
+ var FilterOrderComparator = /** @class */function () {
+ function FilterOrderComparator(op, rval) {
+ if (!isNumber(rval)) {
+ var errMsg = '';
+ if ("development" !== 'production') {
+ errMsg = 'rvalue of "<", ">", "<=", ">=" can only be number in filter.';
+ }
+ throwError(errMsg);
+ }
+ this._opFn = ORDER_COMPARISON_OP_MAP[op];
+ this._rvalFloat = numericToNumber(rval);
+ }
+ // Performance sensitive.
+ FilterOrderComparator.prototype.evaluate = function (lval) {
+ // Most cases is 'number', and typeof maybe 10 times faseter than parseFloat.
+ return isNumber(lval) ? this._opFn(lval, this._rvalFloat) : this._opFn(numericToNumber(lval), this._rvalFloat);
+ };
+ return FilterOrderComparator;
+ }();
+ var SortOrderComparator = /** @class */function () {
+ /**
+ * @param order by default: 'asc'
+ * @param incomparable by default: Always on the tail.
+ * That is, if 'asc' => 'max', if 'desc' => 'min'
+ * See the definition of "incomparable" in [SORT_COMPARISON_RULE].
+ */
+ function SortOrderComparator(order, incomparable) {
+ var isDesc = order === 'desc';
+ this._resultLT = isDesc ? 1 : -1;
+ if (incomparable == null) {
+ incomparable = isDesc ? 'min' : 'max';
+ }
+ this._incomparable = incomparable === 'min' ? -Infinity : Infinity;
+ }
+ // See [SORT_COMPARISON_RULE].
+ // Performance sensitive.
+ SortOrderComparator.prototype.evaluate = function (lval, rval) {
+ // Most cases is 'number', and typeof maybe 10 times faseter than parseFloat.
+ var lvalFloat = isNumber(lval) ? lval : numericToNumber(lval);
+ var rvalFloat = isNumber(rval) ? rval : numericToNumber(rval);
+ var lvalNotNumeric = isNaN(lvalFloat);
+ var rvalNotNumeric = isNaN(rvalFloat);
+ if (lvalNotNumeric) {
+ lvalFloat = this._incomparable;
+ }
+ if (rvalNotNumeric) {
+ rvalFloat = this._incomparable;
+ }
+ if (lvalNotNumeric && rvalNotNumeric) {
+ var lvalIsStr = isString(lval);
+ var rvalIsStr = isString(rval);
+ if (lvalIsStr) {
+ lvalFloat = rvalIsStr ? lval : 0;
+ }
+ if (rvalIsStr) {
+ rvalFloat = lvalIsStr ? rval : 0;
+ }
+ }
+ return lvalFloat < rvalFloat ? this._resultLT : lvalFloat > rvalFloat ? -this._resultLT : 0;
+ };
+ return SortOrderComparator;
+ }();
+ var FilterEqualityComparator = /** @class */function () {
+ function FilterEqualityComparator(isEq, rval) {
+ this._rval = rval;
+ this._isEQ = isEq;
+ this._rvalTypeof = typeof rval;
+ this._rvalFloat = numericToNumber(rval);
+ }
+ // Performance sensitive.
+ FilterEqualityComparator.prototype.evaluate = function (lval) {
+ var eqResult = lval === this._rval;
+ if (!eqResult) {
+ var lvalTypeof = typeof lval;
+ if (lvalTypeof !== this._rvalTypeof && (lvalTypeof === 'number' || this._rvalTypeof === 'number')) {
+ eqResult = numericToNumber(lval) === this._rvalFloat;
+ }
+ }
+ return this._isEQ ? eqResult : !eqResult;
+ };
+ return FilterEqualityComparator;
+ }();
+ /**
+ * [FILTER_COMPARISON_RULE]
+ * `lt`|`lte`|`gt`|`gte`:
+ * + rval must be a number. And lval will be converted to number (`numericToNumber`) to compare.
+ * `eq`:
+ * + If same type, compare with `===`.
+ * + If there is one number, convert to number (`numericToNumber`) to compare.
+ * + Else return `false`.
+ * `ne`:
+ * + Not `eq`.
+ *
+ *
+ * [SORT_COMPARISON_RULE]
+ * All the values are grouped into three categories:
+ * + "numeric" (number and numeric string)
+ * + "non-numeric-string" (string that excluding numeric string)
+ * + "others"
+ * "numeric" vs "numeric": values are ordered by number order.
+ * "non-numeric-string" vs "non-numeric-string": values are ordered by ES spec (#sec-abstract-relational-comparison).
+ * "others" vs "others": do not change order (always return 0).
+ * "numeric" vs "non-numeric-string": "non-numeric-string" is treated as "incomparable".
+ * "number" vs "others": "others" is treated as "incomparable".
+ * "non-numeric-string" vs "others": "others" is treated as "incomparable".
+ * "incomparable" will be seen as -Infinity or Infinity (depends on the settings).
+ * MEMO:
+ * Non-numeric string sort makes sense when we need to put the items with the same tag together.
+ * But if we support string sort, we still need to avoid the misleading like `'2' > '12'`,
+ * So we treat "numeric-string" sorted by number order rather than string comparison.
+ *
+ *
+ * [CHECK_LIST_OF_THE_RULE_DESIGN]
+ * + Do not support string comparison until required. And also need to
+ * avoid the misleading of "2" > "12".
+ * + Should avoid the misleading case:
+ * `" 22 " gte "22"` is `true` but `" 22 " eq "22"` is `false`.
+ * + JS bad case should be avoided: null <= 0, [] <= 0, ' ' <= 0, ...
+ * + Only "numeric" can be converted to comparable number, otherwise converted to NaN.
+ * See `util/number.ts#numericToNumber`.
+ *
+ * @return If `op` is not `RelationalOperator`, return null;
+ */
+ function createFilterComparator(op, rval) {
+ return op === 'eq' || op === 'ne' ? new FilterEqualityComparator(op === 'eq', rval) : hasOwn(ORDER_COMPARISON_OP_MAP, op) ? new FilterOrderComparator(op, rval) : null;
+ }
+
+ /**
+ * TODO: disable writable.
+ * This structure will be exposed to users.
+ */
+ var ExternalSource = /** @class */function () {
+ function ExternalSource() {}
+ ExternalSource.prototype.getRawData = function () {
+ // Only built-in transform available.
+ throw new Error('not supported');
+ };
+ ExternalSource.prototype.getRawDataItem = function (dataIndex) {
+ // Only built-in transform available.
+ throw new Error('not supported');
+ };
+ ExternalSource.prototype.cloneRawData = function () {
+ return;
+ };
+ /**
+ * @return If dimension not found, return null/undefined.
+ */
+ ExternalSource.prototype.getDimensionInfo = function (dim) {
+ return;
+ };
+ /**
+ * dimensions defined if and only if either:
+ * (a) dataset.dimensions are declared.
+ * (b) dataset data include dimensions definitions in data (detected or via specified `sourceHeader`).
+ * If dimensions are defined, `dimensionInfoAll` is corresponding to
+ * the defined dimensions.
+ * Otherwise, `dimensionInfoAll` is determined by data columns.
+ * @return Always return an array (even empty array).
+ */
+ ExternalSource.prototype.cloneAllDimensionInfo = function () {
+ return;
+ };
+ ExternalSource.prototype.count = function () {
+ return;
+ };
+ /**
+ * Only support by dimension index.
+ * No need to support by dimension name in transform function,
+ * because transform function is not case-specific, no need to use name literally.
+ */
+ ExternalSource.prototype.retrieveValue = function (dataIndex, dimIndex) {
+ return;
+ };
+ ExternalSource.prototype.retrieveValueFromItem = function (dataItem, dimIndex) {
+ return;
+ };
+ ExternalSource.prototype.convertValue = function (rawVal, dimInfo) {
+ return parseDataValue(rawVal, dimInfo);
+ };
+ return ExternalSource;
+ }();
+ function createExternalSource(internalSource, externalTransform) {
+ var extSource = new ExternalSource();
+ var data = internalSource.data;
+ var sourceFormat = extSource.sourceFormat = internalSource.sourceFormat;
+ var sourceHeaderCount = internalSource.startIndex;
+ var errMsg = '';
+ if (internalSource.seriesLayoutBy !== SERIES_LAYOUT_BY_COLUMN) {
+ // For the logic simplicity in transformer, only 'culumn' is
+ // supported in data transform. Otherwise, the `dimensionsDefine`
+ // might be detected by 'row', which probably confuses users.
+ if ("development" !== 'production') {
+ errMsg = '`seriesLayoutBy` of upstream dataset can only be "column" in data transform.';
+ }
+ throwError(errMsg);
+ }
+ // [MEMO]
+ // Create a new dimensions structure for exposing.
+ // Do not expose all dimension info to users directly.
+ // Because the dimension is probably auto detected from data and not might reliable.
+ // Should not lead the transformers to think that is reliable and return it.
+ // See [DIMENSION_INHERIT_RULE] in `sourceManager.ts`.
+ var dimensions = [];
+ var dimsByName = {};
+ var dimsDef = internalSource.dimensionsDefine;
+ if (dimsDef) {
+ each(dimsDef, function (dimDef, idx) {
+ var name = dimDef.name;
+ var dimDefExt = {
+ index: idx,
+ name: name,
+ displayName: dimDef.displayName
+ };
+ dimensions.push(dimDefExt);
+ // Users probably do not specify dimension name. For simplicity, data transform
+ // does not generate dimension name.
+ if (name != null) {
+ // Dimension name should not be duplicated.
+ // For simplicity, data transform forbids name duplication, do not generate
+ // new name like module `completeDimensions.ts` did, but just tell users.
+ var errMsg_1 = '';
+ if (hasOwn(dimsByName, name)) {
+ if ("development" !== 'production') {
+ errMsg_1 = 'dimension name "' + name + '" duplicated.';
+ }
+ throwError(errMsg_1);
+ }
+ dimsByName[name] = dimDefExt;
+ }
+ });
+ }
+ // If dimension definitions are not defined and can not be detected.
+ // e.g., pure data `[[11, 22], ...]`.
+ else {
+ for (var i = 0; i < internalSource.dimensionsDetectedCount || 0; i++) {
+ // Do not generete name or anything others. The consequence process in
+ // `transform` or `series` probably have there own name generation strategry.
+ dimensions.push({
+ index: i
+ });
+ }
+ }
+ // Implement public methods:
+ var rawItemGetter = getRawSourceItemGetter(sourceFormat, SERIES_LAYOUT_BY_COLUMN);
+ if (externalTransform.__isBuiltIn) {
+ extSource.getRawDataItem = function (dataIndex) {
+ return rawItemGetter(data, sourceHeaderCount, dimensions, dataIndex);
+ };
+ extSource.getRawData = bind(getRawData, null, internalSource);
+ }
+ extSource.cloneRawData = bind(cloneRawData, null, internalSource);
+ var rawCounter = getRawSourceDataCounter(sourceFormat, SERIES_LAYOUT_BY_COLUMN);
+ extSource.count = bind(rawCounter, null, data, sourceHeaderCount, dimensions);
+ var rawValueGetter = getRawSourceValueGetter(sourceFormat);
+ extSource.retrieveValue = function (dataIndex, dimIndex) {
+ var rawItem = rawItemGetter(data, sourceHeaderCount, dimensions, dataIndex);
+ return retrieveValueFromItem(rawItem, dimIndex);
+ };
+ var retrieveValueFromItem = extSource.retrieveValueFromItem = function (dataItem, dimIndex) {
+ if (dataItem == null) {
+ return;
+ }
+ var dimDef = dimensions[dimIndex];
+ // When `dimIndex` is `null`, `rawValueGetter` return the whole item.
+ if (dimDef) {
+ return rawValueGetter(dataItem, dimIndex, dimDef.name);
+ }
+ };
+ extSource.getDimensionInfo = bind(getDimensionInfo, null, dimensions, dimsByName);
+ extSource.cloneAllDimensionInfo = bind(cloneAllDimensionInfo, null, dimensions);
+ return extSource;
+ }
+ function getRawData(upstream) {
+ var sourceFormat = upstream.sourceFormat;
+ if (!isSupportedSourceFormat(sourceFormat)) {
+ var errMsg = '';
+ if ("development" !== 'production') {
+ errMsg = '`getRawData` is not supported in source format ' + sourceFormat;
+ }
+ throwError(errMsg);
+ }
+ return upstream.data;
+ }
+ function cloneRawData(upstream) {
+ var sourceFormat = upstream.sourceFormat;
+ var data = upstream.data;
+ if (!isSupportedSourceFormat(sourceFormat)) {
+ var errMsg = '';
+ if ("development" !== 'production') {
+ errMsg = '`cloneRawData` is not supported in source format ' + sourceFormat;
+ }
+ throwError(errMsg);
+ }
+ if (sourceFormat === SOURCE_FORMAT_ARRAY_ROWS) {
+ var result = [];
+ for (var i = 0, len = data.length; i < len; i++) {
+ // Not strictly clone for performance
+ result.push(data[i].slice());
+ }
+ return result;
+ } else if (sourceFormat === SOURCE_FORMAT_OBJECT_ROWS) {
+ var result = [];
+ for (var i = 0, len = data.length; i < len; i++) {
+ // Not strictly clone for performance
+ result.push(extend({}, data[i]));
+ }
+ return result;
+ }
+ }
+ function getDimensionInfo(dimensions, dimsByName, dim) {
+ if (dim == null) {
+ return;
+ }
+ // Keep the same logic as `List::getDimension` did.
+ if (isNumber(dim)
+ // If being a number-like string but not being defined a dimension name.
+ || !isNaN(dim) && !hasOwn(dimsByName, dim)) {
+ return dimensions[dim];
+ } else if (hasOwn(dimsByName, dim)) {
+ return dimsByName[dim];
+ }
+ }
+ function cloneAllDimensionInfo(dimensions) {
+ return clone(dimensions);
+ }
+ var externalTransformMap = createHashMap();
+ function registerExternalTransform(externalTransform) {
+ externalTransform = clone(externalTransform);
+ var type = externalTransform.type;
+ var errMsg = '';
+ if (!type) {
+ if ("development" !== 'production') {
+ errMsg = 'Must have a `type` when `registerTransform`.';
+ }
+ throwError(errMsg);
+ }
+ var typeParsed = type.split(':');
+ if (typeParsed.length !== 2) {
+ if ("development" !== 'production') {
+ errMsg = 'Name must include namespace like "ns:regression".';
+ }
+ throwError(errMsg);
+ }
+ // Namespace 'echarts:xxx' is official namespace, where the transforms should
+ // be called directly via 'xxx' rather than 'echarts:xxx'.
+ var isBuiltIn = false;
+ if (typeParsed[0] === 'echarts') {
+ type = typeParsed[1];
+ isBuiltIn = true;
+ }
+ externalTransform.__isBuiltIn = isBuiltIn;
+ externalTransformMap.set(type, externalTransform);
+ }
+ function applyDataTransform(rawTransOption, sourceList, infoForPrint) {
+ var pipedTransOption = normalizeToArray(rawTransOption);
+ var pipeLen = pipedTransOption.length;
+ var errMsg = '';
+ if (!pipeLen) {
+ if ("development" !== 'production') {
+ errMsg = 'If `transform` declared, it should at least contain one transform.';
+ }
+ throwError(errMsg);
+ }
+ for (var i = 0, len = pipeLen; i < len; i++) {
+ var transOption = pipedTransOption[i];
+ sourceList = applySingleDataTransform(transOption, sourceList, infoForPrint, pipeLen === 1 ? null : i);
+ // piped transform only support single input, except the fist one.
+ // piped transform only support single output, except the last one.
+ if (i !== len - 1) {
+ sourceList.length = Math.max(sourceList.length, 1);
+ }
+ }
+ return sourceList;
+ }
+ function applySingleDataTransform(transOption, upSourceList, infoForPrint,
+ // If `pipeIndex` is null/undefined, no piped transform.
+ pipeIndex) {
+ var errMsg = '';
+ if (!upSourceList.length) {
+ if ("development" !== 'production') {
+ errMsg = 'Must have at least one upstream dataset.';
+ }
+ throwError(errMsg);
+ }
+ if (!isObject(transOption)) {
+ if ("development" !== 'production') {
+ errMsg = 'transform declaration must be an object rather than ' + typeof transOption + '.';
+ }
+ throwError(errMsg);
+ }
+ var transType = transOption.type;
+ var externalTransform = externalTransformMap.get(transType);
+ if (!externalTransform) {
+ if ("development" !== 'production') {
+ errMsg = 'Can not find transform on type "' + transType + '".';
+ }
+ throwError(errMsg);
+ }
+ // Prepare source
+ var extUpSourceList = map(upSourceList, function (upSource) {
+ return createExternalSource(upSource, externalTransform);
+ });
+ var resultList = normalizeToArray(externalTransform.transform({
+ upstream: extUpSourceList[0],
+ upstreamList: extUpSourceList,
+ config: clone(transOption.config)
+ }));
+ if ("development" !== 'production') {
+ if (transOption.print) {
+ var printStrArr = map(resultList, function (extSource) {
+ var pipeIndexStr = pipeIndex != null ? ' === pipe index: ' + pipeIndex : '';
+ return ['=== dataset index: ' + infoForPrint.datasetIndex + pipeIndexStr + ' ===', '- transform result data:', makePrintable(extSource.data), '- transform result dimensions:', makePrintable(extSource.dimensions)].join('\n');
+ }).join('\n');
+ log(printStrArr);
+ }
+ }
+ return map(resultList, function (result, resultIndex) {
+ var errMsg = '';
+ if (!isObject(result)) {
+ if ("development" !== 'production') {
+ errMsg = 'A transform should not return some empty results.';
+ }
+ throwError(errMsg);
+ }
+ if (!result.data) {
+ if ("development" !== 'production') {
+ errMsg = 'Transform result data should be not be null or undefined';
+ }
+ throwError(errMsg);
+ }
+ var sourceFormat = detectSourceFormat(result.data);
+ if (!isSupportedSourceFormat(sourceFormat)) {
+ if ("development" !== 'production') {
+ errMsg = 'Transform result data should be array rows or object rows.';
+ }
+ throwError(errMsg);
+ }
+ var resultMetaRawOption;
+ var firstUpSource = upSourceList[0];
+ /**
+ * Intuitively, the end users known the content of the original `dataset.source`,
+ * calucating the transform result in mind.
+ * Suppose the original `dataset.source` is:
+ * ```js
+ * [
+ * ['product', '2012', '2013', '2014', '2015'],
+ * ['AAA', 41.1, 30.4, 65.1, 53.3],
+ * ['BBB', 86.5, 92.1, 85.7, 83.1],
+ * ['CCC', 24.1, 67.2, 79.5, 86.4]
+ * ]
+ * ```
+ * The dimension info have to be detected from the source data.
+ * Some of the transformers (like filter, sort) will follow the dimension info
+ * of upstream, while others use new dimensions (like aggregate).
+ * Transformer can output a field `dimensions` to define the its own output dimensions.
+ * We also allow transformers to ignore the output `dimensions` field, and
+ * inherit the upstream dimensions definition. It can reduce the burden of handling
+ * dimensions in transformers.
+ *
+ * See also [DIMENSION_INHERIT_RULE] in `sourceManager.ts`.
+ */
+ if (firstUpSource && resultIndex === 0
+ // If transformer returns `dimensions`, it means that the transformer has different
+ // dimensions definitions. We do not inherit anything from upstream.
+ && !result.dimensions) {
+ var startIndex = firstUpSource.startIndex;
+ // We copy the header of upstream to the result, because:
+ // (1) The returned data always does not contain header line and can not be used
+ // as dimension-detection. In this case we can not use "detected dimensions" of
+ // upstream directly, because it might be detected based on different `seriesLayoutBy`.
+ // (2) We should support that the series read the upstream source in `seriesLayoutBy: 'row'`.
+ // So the original detected header should be add to the result, otherwise they can not be read.
+ if (startIndex) {
+ result.data = firstUpSource.data.slice(0, startIndex).concat(result.data);
+ }
+ resultMetaRawOption = {
+ seriesLayoutBy: SERIES_LAYOUT_BY_COLUMN,
+ sourceHeader: startIndex,
+ dimensions: firstUpSource.metaRawOption.dimensions
+ };
+ } else {
+ resultMetaRawOption = {
+ seriesLayoutBy: SERIES_LAYOUT_BY_COLUMN,
+ sourceHeader: 0,
+ dimensions: result.dimensions
+ };
+ }
+ return createSource(result.data, resultMetaRawOption, null);
+ });
+ }
+ function isSupportedSourceFormat(sourceFormat) {
+ return sourceFormat === SOURCE_FORMAT_ARRAY_ROWS || sourceFormat === SOURCE_FORMAT_OBJECT_ROWS;
+ }
+
+ var UNDEFINED = 'undefined';
+ /* global Float64Array, Int32Array, Uint32Array, Uint16Array */
+ // Caution: MUST not use `new CtorUint32Array(arr, 0, len)`, because the Ctor of array is
+ // different from the Ctor of typed array.
+ var CtorUint32Array = typeof Uint32Array === UNDEFINED ? Array : Uint32Array;
+ var CtorUint16Array = typeof Uint16Array === UNDEFINED ? Array : Uint16Array;
+ var CtorInt32Array = typeof Int32Array === UNDEFINED ? Array : Int32Array;
+ var CtorFloat64Array = typeof Float64Array === UNDEFINED ? Array : Float64Array;
+ /**
+ * Multi dimensional data store
+ */
+ var dataCtors = {
+ 'float': CtorFloat64Array,
+ 'int': CtorInt32Array,
+ // Ordinal data type can be string or int
+ 'ordinal': Array,
+ 'number': Array,
+ 'time': CtorFloat64Array
+ };
+ var defaultDimValueGetters;
+ function getIndicesCtor(rawCount) {
+ // The possible max value in this._indicies is always this._rawCount despite of filtering.
+ return rawCount > 65535 ? CtorUint32Array : CtorUint16Array;
+ }
+ function getInitialExtent() {
+ return [Infinity, -Infinity];
+ }
+ function cloneChunk(originalChunk) {
+ var Ctor = originalChunk.constructor;
+ // Only shallow clone is enough when Array.
+ return Ctor === Array ? originalChunk.slice() : new Ctor(originalChunk);
+ }
+ function prepareStore(store, dimIdx, dimType, end, append) {
+ var DataCtor = dataCtors[dimType || 'float'];
+ if (append) {
+ var oldStore = store[dimIdx];
+ var oldLen = oldStore && oldStore.length;
+ if (!(oldLen === end)) {
+ var newStore = new DataCtor(end);
+ // The cost of the copy is probably inconsiderable
+ // within the initial chunkSize.
+ for (var j = 0; j < oldLen; j++) {
+ newStore[j] = oldStore[j];
+ }
+ store[dimIdx] = newStore;
+ }
+ } else {
+ store[dimIdx] = new DataCtor(end);
+ }
+ }
+ /**
+ * Basically, DataStore API keep immutable.
+ */
+ var DataStore = /** @class */function () {
+ function DataStore() {
+ this._chunks = [];
+ // It will not be calculated until needed.
+ this._rawExtent = [];
+ this._extent = [];
+ this._count = 0;
+ this._rawCount = 0;
+ this._calcDimNameToIdx = createHashMap();
+ }
+ /**
+ * Initialize from data
+ */
+ DataStore.prototype.initData = function (provider, inputDimensions, dimValueGetter) {
+ if ("development" !== 'production') {
+ assert(isFunction(provider.getItem) && isFunction(provider.count), 'Invalid data provider.');
+ }
+ this._provider = provider;
+ // Clear
+ this._chunks = [];
+ this._indices = null;
+ this.getRawIndex = this._getRawIdxIdentity;
+ var source = provider.getSource();
+ var defaultGetter = this.defaultDimValueGetter = defaultDimValueGetters[source.sourceFormat];
+ // Default dim value getter
+ this._dimValueGetter = dimValueGetter || defaultGetter;
+ // Reset raw extent.
+ this._rawExtent = [];
+ var willRetrieveDataByName = shouldRetrieveDataByName(source);
+ this._dimensions = map(inputDimensions, function (dim) {
+ if ("development" !== 'production') {
+ if (willRetrieveDataByName) {
+ assert(dim.property != null);
+ }
+ }
+ return {
+ // Only pick these two props. Not leak other properties like orderMeta.
+ type: dim.type,
+ property: dim.property
+ };
+ });
+ this._initDataFromProvider(0, provider.count());
+ };
+ DataStore.prototype.getProvider = function () {
+ return this._provider;
+ };
+ /**
+ * Caution: even when a `source` instance owned by a series, the created data store
+ * may still be shared by different sereis (the source hash does not use all `source`
+ * props, see `sourceManager`). In this case, the `source` props that are not used in
+ * hash (like `source.dimensionDefine`) probably only belongs to a certain series and
+ * thus should not be fetch here.
+ */
+ DataStore.prototype.getSource = function () {
+ return this._provider.getSource();
+ };
+ /**
+ * @caution Only used in dataStack.
+ */
+ DataStore.prototype.ensureCalculationDimension = function (dimName, type) {
+ var calcDimNameToIdx = this._calcDimNameToIdx;
+ var dimensions = this._dimensions;
+ var calcDimIdx = calcDimNameToIdx.get(dimName);
+ if (calcDimIdx != null) {
+ if (dimensions[calcDimIdx].type === type) {
+ return calcDimIdx;
+ }
+ } else {
+ calcDimIdx = dimensions.length;
+ }
+ dimensions[calcDimIdx] = {
+ type: type
+ };
+ calcDimNameToIdx.set(dimName, calcDimIdx);
+ this._chunks[calcDimIdx] = new dataCtors[type || 'float'](this._rawCount);
+ this._rawExtent[calcDimIdx] = getInitialExtent();
+ return calcDimIdx;
+ };
+ DataStore.prototype.collectOrdinalMeta = function (dimIdx, ordinalMeta) {
+ var chunk = this._chunks[dimIdx];
+ var dim = this._dimensions[dimIdx];
+ var rawExtents = this._rawExtent;
+ var offset = dim.ordinalOffset || 0;
+ var len = chunk.length;
+ if (offset === 0) {
+ // We need to reset the rawExtent if collect is from start.
+ // Because this dimension may be guessed as number and calcuating a wrong extent.
+ rawExtents[dimIdx] = getInitialExtent();
+ }
+ var dimRawExtent = rawExtents[dimIdx];
+ // Parse from previous data offset. len may be changed after appendData
+ for (var i = offset; i < len; i++) {
+ var val = chunk[i] = ordinalMeta.parseAndCollect(chunk[i]);
+ if (!isNaN(val)) {
+ dimRawExtent[0] = Math.min(val, dimRawExtent[0]);
+ dimRawExtent[1] = Math.max(val, dimRawExtent[1]);
+ }
+ }
+ dim.ordinalMeta = ordinalMeta;
+ dim.ordinalOffset = len;
+ dim.type = 'ordinal'; // Force to be ordinal
+ };
+
+ DataStore.prototype.getOrdinalMeta = function (dimIdx) {
+ var dimInfo = this._dimensions[dimIdx];
+ var ordinalMeta = dimInfo.ordinalMeta;
+ return ordinalMeta;
+ };
+ DataStore.prototype.getDimensionProperty = function (dimIndex) {
+ var item = this._dimensions[dimIndex];
+ return item && item.property;
+ };
+ /**
+ * Caution: Can be only called on raw data (before `this._indices` created).
+ */
+ DataStore.prototype.appendData = function (data) {
+ if ("development" !== 'production') {
+ assert(!this._indices, 'appendData can only be called on raw data.');
+ }
+ var provider = this._provider;
+ var start = this.count();
+ provider.appendData(data);
+ var end = provider.count();
+ if (!provider.persistent) {
+ end += start;
+ }
+ if (start < end) {
+ this._initDataFromProvider(start, end, true);
+ }
+ return [start, end];
+ };
+ DataStore.prototype.appendValues = function (values, minFillLen) {
+ var chunks = this._chunks;
+ var dimensions = this._dimensions;
+ var dimLen = dimensions.length;
+ var rawExtent = this._rawExtent;
+ var start = this.count();
+ var end = start + Math.max(values.length, minFillLen || 0);
+ for (var i = 0; i < dimLen; i++) {
+ var dim = dimensions[i];
+ prepareStore(chunks, i, dim.type, end, true);
+ }
+ var emptyDataItem = [];
+ for (var idx = start; idx < end; idx++) {
+ var sourceIdx = idx - start;
+ // Store the data by dimensions
+ for (var dimIdx = 0; dimIdx < dimLen; dimIdx++) {
+ var dim = dimensions[dimIdx];
+ var val = defaultDimValueGetters.arrayRows.call(this, values[sourceIdx] || emptyDataItem, dim.property, sourceIdx, dimIdx);
+ chunks[dimIdx][idx] = val;
+ var dimRawExtent = rawExtent[dimIdx];
+ val < dimRawExtent[0] && (dimRawExtent[0] = val);
+ val > dimRawExtent[1] && (dimRawExtent[1] = val);
+ }
+ }
+ this._rawCount = this._count = end;
+ return {
+ start: start,
+ end: end
+ };
+ };
+ DataStore.prototype._initDataFromProvider = function (start, end, append) {
+ var provider = this._provider;
+ var chunks = this._chunks;
+ var dimensions = this._dimensions;
+ var dimLen = dimensions.length;
+ var rawExtent = this._rawExtent;
+ var dimNames = map(dimensions, function (dim) {
+ return dim.property;
+ });
+ for (var i = 0; i < dimLen; i++) {
+ var dim = dimensions[i];
+ if (!rawExtent[i]) {
+ rawExtent[i] = getInitialExtent();
+ }
+ prepareStore(chunks, i, dim.type, end, append);
+ }
+ if (provider.fillStorage) {
+ provider.fillStorage(start, end, chunks, rawExtent);
+ } else {
+ var dataItem = [];
+ for (var idx = start; idx < end; idx++) {
+ // NOTICE: Try not to write things into dataItem
+ dataItem = provider.getItem(idx, dataItem);
+ // Each data item is value
+ // [1, 2]
+ // 2
+ // Bar chart, line chart which uses category axis
+ // only gives the 'y' value. 'x' value is the indices of category
+ // Use a tempValue to normalize the value to be a (x, y) value
+ // Store the data by dimensions
+ for (var dimIdx = 0; dimIdx < dimLen; dimIdx++) {
+ var dimStorage = chunks[dimIdx];
+ // PENDING NULL is empty or zero
+ var val = this._dimValueGetter(dataItem, dimNames[dimIdx], idx, dimIdx);
+ dimStorage[idx] = val;
+ var dimRawExtent = rawExtent[dimIdx];
+ val < dimRawExtent[0] && (dimRawExtent[0] = val);
+ val > dimRawExtent[1] && (dimRawExtent[1] = val);
+ }
+ }
+ }
+ if (!provider.persistent && provider.clean) {
+ // Clean unused data if data source is typed array.
+ provider.clean();
+ }
+ this._rawCount = this._count = end;
+ // Reset data extent
+ this._extent = [];
+ };
+ DataStore.prototype.count = function () {
+ return this._count;
+ };
+ /**
+ * Get value. Return NaN if idx is out of range.
+ */
+ DataStore.prototype.get = function (dim, idx) {
+ if (!(idx >= 0 && idx < this._count)) {
+ return NaN;
+ }
+ var dimStore = this._chunks[dim];
+ return dimStore ? dimStore[this.getRawIndex(idx)] : NaN;
+ };
+ DataStore.prototype.getValues = function (dimensions, idx) {
+ var values = [];
+ var dimArr = [];
+ if (idx == null) {
+ idx = dimensions;
+ // TODO get all from store?
+ dimensions = [];
+ // All dimensions
+ for (var i = 0; i < this._dimensions.length; i++) {
+ dimArr.push(i);
+ }
+ } else {
+ dimArr = dimensions;
+ }
+ for (var i = 0, len = dimArr.length; i < len; i++) {
+ values.push(this.get(dimArr[i], idx));
+ }
+ return values;
+ };
+ /**
+ * @param dim concrete dim
+ */
+ DataStore.prototype.getByRawIndex = function (dim, rawIdx) {
+ if (!(rawIdx >= 0 && rawIdx < this._rawCount)) {
+ return NaN;
+ }
+ var dimStore = this._chunks[dim];
+ return dimStore ? dimStore[rawIdx] : NaN;
+ };
+ /**
+ * Get sum of data in one dimension
+ */
+ DataStore.prototype.getSum = function (dim) {
+ var dimData = this._chunks[dim];
+ var sum = 0;
+ if (dimData) {
+ for (var i = 0, len = this.count(); i < len; i++) {
+ var value = this.get(dim, i);
+ if (!isNaN(value)) {
+ sum += value;
+ }
+ }
+ }
+ return sum;
+ };
+ /**
+ * Get median of data in one dimension
+ */
+ DataStore.prototype.getMedian = function (dim) {
+ var dimDataArray = [];
+ // map all data of one dimension
+ this.each([dim], function (val) {
+ if (!isNaN(val)) {
+ dimDataArray.push(val);
+ }
+ });
+ // TODO
+ // Use quick select?
+ var sortedDimDataArray = dimDataArray.sort(function (a, b) {
+ return a - b;
+ });
+ var len = this.count();
+ // calculate median
+ return len === 0 ? 0 : len % 2 === 1 ? sortedDimDataArray[(len - 1) / 2] : (sortedDimDataArray[len / 2] + sortedDimDataArray[len / 2 - 1]) / 2;
+ };
+ /**
+ * Retrieve the index with given raw data index.
+ */
+ DataStore.prototype.indexOfRawIndex = function (rawIndex) {
+ if (rawIndex >= this._rawCount || rawIndex < 0) {
+ return -1;
+ }
+ if (!this._indices) {
+ return rawIndex;
+ }
+ // Indices are ascending
+ var indices = this._indices;
+ // If rawIndex === dataIndex
+ var rawDataIndex = indices[rawIndex];
+ if (rawDataIndex != null && rawDataIndex < this._count && rawDataIndex === rawIndex) {
+ return rawIndex;
+ }
+ var left = 0;
+ var right = this._count - 1;
+ while (left <= right) {
+ var mid = (left + right) / 2 | 0;
+ if (indices[mid] < rawIndex) {
+ left = mid + 1;
+ } else if (indices[mid] > rawIndex) {
+ right = mid - 1;
+ } else {
+ return mid;
+ }
+ }
+ return -1;
+ };
+ /**
+ * Retrieve the index of nearest value.
+ * @param dim
+ * @param value
+ * @param [maxDistance=Infinity]
+ * @return If and only if multiple indices have
+ * the same value, they are put to the result.
+ */
+ DataStore.prototype.indicesOfNearest = function (dim, value, maxDistance) {
+ var chunks = this._chunks;
+ var dimData = chunks[dim];
+ var nearestIndices = [];
+ if (!dimData) {
+ return nearestIndices;
+ }
+ if (maxDistance == null) {
+ maxDistance = Infinity;
+ }
+ var minDist = Infinity;
+ var minDiff = -1;
+ var nearestIndicesLen = 0;
+ // Check the test case of `test/ut/spec/data/SeriesData.js`.
+ for (var i = 0, len = this.count(); i < len; i++) {
+ var dataIndex = this.getRawIndex(i);
+ var diff = value - dimData[dataIndex];
+ var dist = Math.abs(diff);
+ if (dist <= maxDistance) {
+ // When the `value` is at the middle of `this.get(dim, i)` and `this.get(dim, i+1)`,
+ // we'd better not push both of them to `nearestIndices`, otherwise it is easy to
+ // get more than one item in `nearestIndices` (more specifically, in `tooltip`).
+ // So we choose the one that `diff >= 0` in this case.
+ // But if `this.get(dim, i)` and `this.get(dim, j)` get the same value, both of them
+ // should be push to `nearestIndices`.
+ if (dist < minDist || dist === minDist && diff >= 0 && minDiff < 0) {
+ minDist = dist;
+ minDiff = diff;
+ nearestIndicesLen = 0;
+ }
+ if (diff === minDiff) {
+ nearestIndices[nearestIndicesLen++] = i;
+ }
+ }
+ }
+ nearestIndices.length = nearestIndicesLen;
+ return nearestIndices;
+ };
+ DataStore.prototype.getIndices = function () {
+ var newIndices;
+ var indices = this._indices;
+ if (indices) {
+ var Ctor = indices.constructor;
+ var thisCount = this._count;
+ // `new Array(a, b, c)` is different from `new Uint32Array(a, b, c)`.
+ if (Ctor === Array) {
+ newIndices = new Ctor(thisCount);
+ for (var i = 0; i < thisCount; i++) {
+ newIndices[i] = indices[i];
+ }
+ } else {
+ newIndices = new Ctor(indices.buffer, 0, thisCount);
+ }
+ } else {
+ var Ctor = getIndicesCtor(this._rawCount);
+ newIndices = new Ctor(this.count());
+ for (var i = 0; i < newIndices.length; i++) {
+ newIndices[i] = i;
+ }
+ }
+ return newIndices;
+ };
+ /**
+ * Data filter.
+ */
+ DataStore.prototype.filter = function (dims, cb) {
+ if (!this._count) {
+ return this;
+ }
+ var newStore = this.clone();
+ var count = newStore.count();
+ var Ctor = getIndicesCtor(newStore._rawCount);
+ var newIndices = new Ctor(count);
+ var value = [];
+ var dimSize = dims.length;
+ var offset = 0;
+ var dim0 = dims[0];
+ var chunks = newStore._chunks;
+ for (var i = 0; i < count; i++) {
+ var keep = void 0;
+ var rawIdx = newStore.getRawIndex(i);
+ // Simple optimization
+ if (dimSize === 0) {
+ keep = cb(i);
+ } else if (dimSize === 1) {
+ var val = chunks[dim0][rawIdx];
+ keep = cb(val, i);
+ } else {
+ var k = 0;
+ for (; k < dimSize; k++) {
+ value[k] = chunks[dims[k]][rawIdx];
+ }
+ value[k] = i;
+ keep = cb.apply(null, value);
+ }
+ if (keep) {
+ newIndices[offset++] = rawIdx;
+ }
+ }
+ // Set indices after filtered.
+ if (offset < count) {
+ newStore._indices = newIndices;
+ }
+ newStore._count = offset;
+ // Reset data extent
+ newStore._extent = [];
+ newStore._updateGetRawIdx();
+ return newStore;
+ };
+ /**
+ * Select data in range. (For optimization of filter)
+ * (Manually inline code, support 5 million data filtering in data zoom.)
+ */
+ DataStore.prototype.selectRange = function (range) {
+ var newStore = this.clone();
+ var len = newStore._count;
+ if (!len) {
+ return this;
+ }
+ var dims = keys(range);
+ var dimSize = dims.length;
+ if (!dimSize) {
+ return this;
+ }
+ var originalCount = newStore.count();
+ var Ctor = getIndicesCtor(newStore._rawCount);
+ var newIndices = new Ctor(originalCount);
+ var offset = 0;
+ var dim0 = dims[0];
+ var min = range[dim0][0];
+ var max = range[dim0][1];
+ var storeArr = newStore._chunks;
+ var quickFinished = false;
+ if (!newStore._indices) {
+ // Extreme optimization for common case. About 2x faster in chrome.
+ var idx = 0;
+ if (dimSize === 1) {
+ var dimStorage = storeArr[dims[0]];
+ for (var i = 0; i < len; i++) {
+ var val = dimStorage[i];
+ // NaN will not be filtered. Consider the case, in line chart, empty
+ // value indicates the line should be broken. But for the case like
+ // scatter plot, a data item with empty value will not be rendered,
+ // but the axis extent may be effected if some other dim of the data
+ // item has value. Fortunately it is not a significant negative effect.
+ if (val >= min && val <= max || isNaN(val)) {
+ newIndices[offset++] = idx;
+ }
+ idx++;
+ }
+ quickFinished = true;
+ } else if (dimSize === 2) {
+ var dimStorage = storeArr[dims[0]];
+ var dimStorage2 = storeArr[dims[1]];
+ var min2 = range[dims[1]][0];
+ var max2 = range[dims[1]][1];
+ for (var i = 0; i < len; i++) {
+ var val = dimStorage[i];
+ var val2 = dimStorage2[i];
+ // Do not filter NaN, see comment above.
+ if ((val >= min && val <= max || isNaN(val)) && (val2 >= min2 && val2 <= max2 || isNaN(val2))) {
+ newIndices[offset++] = idx;
+ }
+ idx++;
+ }
+ quickFinished = true;
+ }
+ }
+ if (!quickFinished) {
+ if (dimSize === 1) {
+ for (var i = 0; i < originalCount; i++) {
+ var rawIndex = newStore.getRawIndex(i);
+ var val = storeArr[dims[0]][rawIndex];
+ // Do not filter NaN, see comment above.
+ if (val >= min && val <= max || isNaN(val)) {
+ newIndices[offset++] = rawIndex;
+ }
+ }
+ } else {
+ for (var i = 0; i < originalCount; i++) {
+ var keep = true;
+ var rawIndex = newStore.getRawIndex(i);
+ for (var k = 0; k < dimSize; k++) {
+ var dimk = dims[k];
+ var val = storeArr[dimk][rawIndex];
+ // Do not filter NaN, see comment above.
+ if (val < range[dimk][0] || val > range[dimk][1]) {
+ keep = false;
+ }
+ }
+ if (keep) {
+ newIndices[offset++] = newStore.getRawIndex(i);
+ }
+ }
+ }
+ }
+ // Set indices after filtered.
+ if (offset < originalCount) {
+ newStore._indices = newIndices;
+ }
+ newStore._count = offset;
+ // Reset data extent
+ newStore._extent = [];
+ newStore._updateGetRawIdx();
+ return newStore;
+ };
+ // /**
+ // * Data mapping to a plain array
+ // */
+ // mapArray(dims: DimensionIndex[], cb: MapArrayCb): any[] {
+ // const result: any[] = [];
+ // this.each(dims, function () {
+ // result.push(cb && (cb as MapArrayCb).apply(null, arguments));
+ // });
+ // return result;
+ // }
+ /**
+ * Data mapping to a new List with given dimensions
+ */
+ DataStore.prototype.map = function (dims, cb) {
+ // TODO only clone picked chunks.
+ var target = this.clone(dims);
+ this._updateDims(target, dims, cb);
+ return target;
+ };
+ /**
+ * @caution Danger!! Only used in dataStack.
+ */
+ DataStore.prototype.modify = function (dims, cb) {
+ this._updateDims(this, dims, cb);
+ };
+ DataStore.prototype._updateDims = function (target, dims, cb) {
+ var targetChunks = target._chunks;
+ var tmpRetValue = [];
+ var dimSize = dims.length;
+ var dataCount = target.count();
+ var values = [];
+ var rawExtent = target._rawExtent;
+ for (var i = 0; i < dims.length; i++) {
+ rawExtent[dims[i]] = getInitialExtent();
+ }
+ for (var dataIndex = 0; dataIndex < dataCount; dataIndex++) {
+ var rawIndex = target.getRawIndex(dataIndex);
+ for (var k = 0; k < dimSize; k++) {
+ values[k] = targetChunks[dims[k]][rawIndex];
+ }
+ values[dimSize] = dataIndex;
+ var retValue = cb && cb.apply(null, values);
+ if (retValue != null) {
+ // a number or string (in oridinal dimension)?
+ if (typeof retValue !== 'object') {
+ tmpRetValue[0] = retValue;
+ retValue = tmpRetValue;
+ }
+ for (var i = 0; i < retValue.length; i++) {
+ var dim = dims[i];
+ var val = retValue[i];
+ var rawExtentOnDim = rawExtent[dim];
+ var dimStore = targetChunks[dim];
+ if (dimStore) {
+ dimStore[rawIndex] = val;
+ }
+ if (val < rawExtentOnDim[0]) {
+ rawExtentOnDim[0] = val;
+ }
+ if (val > rawExtentOnDim[1]) {
+ rawExtentOnDim[1] = val;
+ }
+ }
+ }
+ }
+ };
+ /**
+ * Large data down sampling using largest-triangle-three-buckets
+ * @param {string} valueDimension
+ * @param {number} targetCount
+ */
+ DataStore.prototype.lttbDownSample = function (valueDimension, rate) {
+ var target = this.clone([valueDimension], true);
+ var targetStorage = target._chunks;
+ var dimStore = targetStorage[valueDimension];
+ var len = this.count();
+ var sampledIndex = 0;
+ var frameSize = Math.floor(1 / rate);
+ var currentRawIndex = this.getRawIndex(0);
+ var maxArea;
+ var area;
+ var nextRawIndex;
+ var newIndices = new (getIndicesCtor(this._rawCount))(Math.min((Math.ceil(len / frameSize) + 2) * 2, len));
+ // First frame use the first data.
+ newIndices[sampledIndex++] = currentRawIndex;
+ for (var i = 1; i < len - 1; i += frameSize) {
+ var nextFrameStart = Math.min(i + frameSize, len - 1);
+ var nextFrameEnd = Math.min(i + frameSize * 2, len);
+ var avgX = (nextFrameEnd + nextFrameStart) / 2;
+ var avgY = 0;
+ for (var idx = nextFrameStart; idx < nextFrameEnd; idx++) {
+ var rawIndex = this.getRawIndex(idx);
+ var y = dimStore[rawIndex];
+ if (isNaN(y)) {
+ continue;
+ }
+ avgY += y;
+ }
+ avgY /= nextFrameEnd - nextFrameStart;
+ var frameStart = i;
+ var frameEnd = Math.min(i + frameSize, len);
+ var pointAX = i - 1;
+ var pointAY = dimStore[currentRawIndex];
+ maxArea = -1;
+ nextRawIndex = frameStart;
+ var firstNaNIndex = -1;
+ var countNaN = 0;
+ // Find a point from current frame that construct a triangle with largest area with previous selected point
+ // And the average of next frame.
+ for (var idx = frameStart; idx < frameEnd; idx++) {
+ var rawIndex = this.getRawIndex(idx);
+ var y = dimStore[rawIndex];
+ if (isNaN(y)) {
+ countNaN++;
+ if (firstNaNIndex < 0) {
+ firstNaNIndex = rawIndex;
+ }
+ continue;
+ }
+ // Calculate triangle area over three buckets
+ area = Math.abs((pointAX - avgX) * (y - pointAY) - (pointAX - idx) * (avgY - pointAY));
+ if (area > maxArea) {
+ maxArea = area;
+ nextRawIndex = rawIndex; // Next a is this b
+ }
+ }
+
+ if (countNaN > 0 && countNaN < frameEnd - frameStart) {
+ // Append first NaN point in every bucket.
+ // It is necessary to ensure the correct order of indices.
+ newIndices[sampledIndex++] = Math.min(firstNaNIndex, nextRawIndex);
+ nextRawIndex = Math.max(firstNaNIndex, nextRawIndex);
+ }
+ newIndices[sampledIndex++] = nextRawIndex;
+ currentRawIndex = nextRawIndex; // This a is the next a (chosen b)
+ }
+ // First frame use the last data.
+ newIndices[sampledIndex++] = this.getRawIndex(len - 1);
+ target._count = sampledIndex;
+ target._indices = newIndices;
+ target.getRawIndex = this._getRawIdx;
+ return target;
+ };
+ /**
+ * Large data down sampling on given dimension
+ * @param sampleIndex Sample index for name and id
+ */
+ DataStore.prototype.downSample = function (dimension, rate, sampleValue, sampleIndex) {
+ var target = this.clone([dimension], true);
+ var targetStorage = target._chunks;
+ var frameValues = [];
+ var frameSize = Math.floor(1 / rate);
+ var dimStore = targetStorage[dimension];
+ var len = this.count();
+ var rawExtentOnDim = target._rawExtent[dimension] = getInitialExtent();
+ var newIndices = new (getIndicesCtor(this._rawCount))(Math.ceil(len / frameSize));
+ var offset = 0;
+ for (var i = 0; i < len; i += frameSize) {
+ // Last frame
+ if (frameSize > len - i) {
+ frameSize = len - i;
+ frameValues.length = frameSize;
+ }
+ for (var k = 0; k < frameSize; k++) {
+ var dataIdx = this.getRawIndex(i + k);
+ frameValues[k] = dimStore[dataIdx];
+ }
+ var value = sampleValue(frameValues);
+ var sampleFrameIdx = this.getRawIndex(Math.min(i + sampleIndex(frameValues, value) || 0, len - 1));
+ // Only write value on the filtered data
+ dimStore[sampleFrameIdx] = value;
+ if (value < rawExtentOnDim[0]) {
+ rawExtentOnDim[0] = value;
+ }
+ if (value > rawExtentOnDim[1]) {
+ rawExtentOnDim[1] = value;
+ }
+ newIndices[offset++] = sampleFrameIdx;
+ }
+ target._count = offset;
+ target._indices = newIndices;
+ target._updateGetRawIdx();
+ return target;
+ };
+ /**
+ * Data iteration
+ * @param ctx default this
+ * @example
+ * list.each('x', function (x, idx) {});
+ * list.each(['x', 'y'], function (x, y, idx) {});
+ * list.each(function (idx) {})
+ */
+ DataStore.prototype.each = function (dims, cb) {
+ if (!this._count) {
+ return;
+ }
+ var dimSize = dims.length;
+ var chunks = this._chunks;
+ for (var i = 0, len = this.count(); i < len; i++) {
+ var rawIdx = this.getRawIndex(i);
+ // Simple optimization
+ switch (dimSize) {
+ case 0:
+ cb(i);
+ break;
+ case 1:
+ cb(chunks[dims[0]][rawIdx], i);
+ break;
+ case 2:
+ cb(chunks[dims[0]][rawIdx], chunks[dims[1]][rawIdx], i);
+ break;
+ default:
+ var k = 0;
+ var value = [];
+ for (; k < dimSize; k++) {
+ value[k] = chunks[dims[k]][rawIdx];
+ }
+ // Index
+ value[k] = i;
+ cb.apply(null, value);
+ }
+ }
+ };
+ /**
+ * Get extent of data in one dimension
+ */
+ DataStore.prototype.getDataExtent = function (dim) {
+ // Make sure use concrete dim as cache name.
+ var dimData = this._chunks[dim];
+ var initialExtent = getInitialExtent();
+ if (!dimData) {
+ return initialExtent;
+ }
+ // Make more strict checkings to ensure hitting cache.
+ var currEnd = this.count();
+ // Consider the most cases when using data zoom, `getDataExtent`
+ // happened before filtering. We cache raw extent, which is not
+ // necessary to be cleared and recalculated when restore data.
+ var useRaw = !this._indices;
+ var dimExtent;
+ if (useRaw) {
+ return this._rawExtent[dim].slice();
+ }
+ dimExtent = this._extent[dim];
+ if (dimExtent) {
+ return dimExtent.slice();
+ }
+ dimExtent = initialExtent;
+ var min = dimExtent[0];
+ var max = dimExtent[1];
+ for (var i = 0; i < currEnd; i++) {
+ var rawIdx = this.getRawIndex(i);
+ var value = dimData[rawIdx];
+ value < min && (min = value);
+ value > max && (max = value);
+ }
+ dimExtent = [min, max];
+ this._extent[dim] = dimExtent;
+ return dimExtent;
+ };
+ /**
+ * Get raw data item
+ */
+ DataStore.prototype.getRawDataItem = function (idx) {
+ var rawIdx = this.getRawIndex(idx);
+ if (!this._provider.persistent) {
+ var val = [];
+ var chunks = this._chunks;
+ for (var i = 0; i < chunks.length; i++) {
+ val.push(chunks[i][rawIdx]);
+ }
+ return val;
+ } else {
+ return this._provider.getItem(rawIdx);
+ }
+ };
+ /**
+ * Clone shallow.
+ *
+ * @param clonedDims Determine which dims to clone. Will share the data if not specified.
+ */
+ DataStore.prototype.clone = function (clonedDims, ignoreIndices) {
+ var target = new DataStore();
+ var chunks = this._chunks;
+ var clonedDimsMap = clonedDims && reduce(clonedDims, function (obj, dimIdx) {
+ obj[dimIdx] = true;
+ return obj;
+ }, {});
+ if (clonedDimsMap) {
+ for (var i = 0; i < chunks.length; i++) {
+ // Not clone if dim is not picked.
+ target._chunks[i] = !clonedDimsMap[i] ? chunks[i] : cloneChunk(chunks[i]);
+ }
+ } else {
+ target._chunks = chunks;
+ }
+ this._copyCommonProps(target);
+ if (!ignoreIndices) {
+ target._indices = this._cloneIndices();
+ }
+ target._updateGetRawIdx();
+ return target;
+ };
+ DataStore.prototype._copyCommonProps = function (target) {
+ target._count = this._count;
+ target._rawCount = this._rawCount;
+ target._provider = this._provider;
+ target._dimensions = this._dimensions;
+ target._extent = clone(this._extent);
+ target._rawExtent = clone(this._rawExtent);
+ };
+ DataStore.prototype._cloneIndices = function () {
+ if (this._indices) {
+ var Ctor = this._indices.constructor;
+ var indices = void 0;
+ if (Ctor === Array) {
+ var thisCount = this._indices.length;
+ indices = new Ctor(thisCount);
+ for (var i = 0; i < thisCount; i++) {
+ indices[i] = this._indices[i];
+ }
+ } else {
+ indices = new Ctor(this._indices);
+ }
+ return indices;
+ }
+ return null;
+ };
+ DataStore.prototype._getRawIdxIdentity = function (idx) {
+ return idx;
+ };
+ DataStore.prototype._getRawIdx = function (idx) {
+ if (idx < this._count && idx >= 0) {
+ return this._indices[idx];
+ }
+ return -1;
+ };
+ DataStore.prototype._updateGetRawIdx = function () {
+ this.getRawIndex = this._indices ? this._getRawIdx : this._getRawIdxIdentity;
+ };
+ DataStore.internalField = function () {
+ function getDimValueSimply(dataItem, property, dataIndex, dimIndex) {
+ return parseDataValue(dataItem[dimIndex], this._dimensions[dimIndex]);
+ }
+ defaultDimValueGetters = {
+ arrayRows: getDimValueSimply,
+ objectRows: function (dataItem, property, dataIndex, dimIndex) {
+ return parseDataValue(dataItem[property], this._dimensions[dimIndex]);
+ },
+ keyedColumns: getDimValueSimply,
+ original: function (dataItem, property, dataIndex, dimIndex) {
+ // Performance sensitive, do not use modelUtil.getDataItemValue.
+ // If dataItem is an plain object with no value field, the let `value`
+ // will be assigned with the object, but it will be tread correctly
+ // in the `convertValue`.
+ var value = dataItem && (dataItem.value == null ? dataItem : dataItem.value);
+ return parseDataValue(value instanceof Array ? value[dimIndex]
+ // If value is a single number or something else not array.
+ : value, this._dimensions[dimIndex]);
+ },
+ typedArray: function (dataItem, property, dataIndex, dimIndex) {
+ return dataItem[dimIndex];
+ }
+ };
+ }();
+ return DataStore;
+ }();
+
+ /**
+ * [REQUIREMENT_MEMO]:
+ * (0) `metaRawOption` means `dimensions`/`sourceHeader`/`seriesLayoutBy` in raw option.
+ * (1) Keep support the feature: `metaRawOption` can be specified both on `series` and
+ * `root-dataset`. Them on `series` has higher priority.
+ * (2) Do not support to set `metaRawOption` on a `non-root-dataset`, because it might
+ * confuse users: whether those props indicate how to visit the upstream source or visit
+ * the transform result source, and some transforms has nothing to do with these props,
+ * and some transforms might have multiple upstream.
+ * (3) Transforms should specify `metaRawOption` in each output, just like they can be
+ * declared in `root-dataset`.
+ * (4) At present only support visit source in `SERIES_LAYOUT_BY_COLUMN` in transforms.
+ * That is for reducing complexity in transforms.
+ * PENDING: Whether to provide transposition transform?
+ *
+ * [IMPLEMENTAION_MEMO]:
+ * "sourceVisitConfig" are calculated from `metaRawOption` and `data`.
+ * They will not be calculated until `source` is about to be visited (to prevent from
+ * duplicate calcuation). `source` is visited only in series and input to transforms.
+ *
+ * [DIMENSION_INHERIT_RULE]:
+ * By default the dimensions are inherited from ancestors, unless a transform return
+ * a new dimensions definition.
+ * Consider the case:
+ * ```js
+ * dataset: [{
+ * source: [ ['Product', 'Sales', 'Prise'], ['Cookies', 321, 44.21], ...]
+ * }, {
+ * transform: { type: 'filter', ... }
+ * }]
+ * dataset: [{
+ * dimension: ['Product', 'Sales', 'Prise'],
+ * source: [ ['Cookies', 321, 44.21], ...]
+ * }, {
+ * transform: { type: 'filter', ... }
+ * }]
+ * ```
+ * The two types of option should have the same behavior after transform.
+ *
+ *
+ * [SCENARIO]:
+ * (1) Provide source data directly:
+ * ```js
+ * series: {
+ * encode: {...},
+ * dimensions: [...]
+ * seriesLayoutBy: 'row',
+ * data: [[...]]
+ * }
+ * ```
+ * (2) Series refer to dataset.
+ * ```js
+ * series: [{
+ * encode: {...}
+ * // Ignore datasetIndex means `datasetIndex: 0`
+ * // and the dimensions defination in dataset is used
+ * }, {
+ * encode: {...},
+ * seriesLayoutBy: 'column',
+ * datasetIndex: 1
+ * }]
+ * ```
+ * (3) dataset transform
+ * ```js
+ * dataset: [{
+ * source: [...]
+ * }, {
+ * source: [...]
+ * }, {
+ * // By default from 0.
+ * transform: { type: 'filter', config: {...} }
+ * }, {
+ * // Piped.
+ * transform: [
+ * { type: 'filter', config: {...} },
+ * { type: 'sort', config: {...} }
+ * ]
+ * }, {
+ * id: 'regressionData',
+ * fromDatasetIndex: 1,
+ * // Third-party transform
+ * transform: { type: 'ecStat:regression', config: {...} }
+ * }, {
+ * // retrieve the extra result.
+ * id: 'regressionFormula',
+ * fromDatasetId: 'regressionData',
+ * fromTransformResult: 1
+ * }]
+ * ```
+ */
+ var SourceManager = /** @class */function () {
+ function SourceManager(sourceHost) {
+ // Cached source. Do not repeat calculating if not dirty.
+ this._sourceList = [];
+ this._storeList = [];
+ // version sign of each upstream source manager.
+ this._upstreamSignList = [];
+ this._versionSignBase = 0;
+ this._dirty = true;
+ this._sourceHost = sourceHost;
+ }
+ /**
+ * Mark dirty.
+ */
+ SourceManager.prototype.dirty = function () {
+ this._setLocalSource([], []);
+ this._storeList = [];
+ this._dirty = true;
+ };
+ SourceManager.prototype._setLocalSource = function (sourceList, upstreamSignList) {
+ this._sourceList = sourceList;
+ this._upstreamSignList = upstreamSignList;
+ this._versionSignBase++;
+ if (this._versionSignBase > 9e10) {
+ this._versionSignBase = 0;
+ }
+ };
+ /**
+ * For detecting whether the upstream source is dirty, so that
+ * the local cached source (in `_sourceList`) should be discarded.
+ */
+ SourceManager.prototype._getVersionSign = function () {
+ return this._sourceHost.uid + '_' + this._versionSignBase;
+ };
+ /**
+ * Always return a source instance. Otherwise throw error.
+ */
+ SourceManager.prototype.prepareSource = function () {
+ // For the case that call `setOption` multiple time but no data changed,
+ // cache the result source to prevent from repeating transform.
+ if (this._isDirty()) {
+ this._createSource();
+ this._dirty = false;
+ }
+ };
+ SourceManager.prototype._createSource = function () {
+ this._setLocalSource([], []);
+ var sourceHost = this._sourceHost;
+ var upSourceMgrList = this._getUpstreamSourceManagers();
+ var hasUpstream = !!upSourceMgrList.length;
+ var resultSourceList;
+ var upstreamSignList;
+ if (isSeries(sourceHost)) {
+ var seriesModel = sourceHost;
+ var data = void 0;
+ var sourceFormat = void 0;
+ var upSource = void 0;
+ // Has upstream dataset
+ if (hasUpstream) {
+ var upSourceMgr = upSourceMgrList[0];
+ upSourceMgr.prepareSource();
+ upSource = upSourceMgr.getSource();
+ data = upSource.data;
+ sourceFormat = upSource.sourceFormat;
+ upstreamSignList = [upSourceMgr._getVersionSign()];
+ }
+ // Series data is from own.
+ else {
+ data = seriesModel.get('data', true);
+ sourceFormat = isTypedArray(data) ? SOURCE_FORMAT_TYPED_ARRAY : SOURCE_FORMAT_ORIGINAL;
+ upstreamSignList = [];
+ }
+ // See [REQUIREMENT_MEMO], merge settings on series and parent dataset if it is root.
+ var newMetaRawOption = this._getSourceMetaRawOption() || {};
+ var upMetaRawOption = upSource && upSource.metaRawOption || {};
+ var seriesLayoutBy = retrieve2(newMetaRawOption.seriesLayoutBy, upMetaRawOption.seriesLayoutBy) || null;
+ var sourceHeader = retrieve2(newMetaRawOption.sourceHeader, upMetaRawOption.sourceHeader);
+ // Note here we should not use `upSource.dimensionsDefine`. Consider the case:
+ // `upSource.dimensionsDefine` is detected by `seriesLayoutBy: 'column'`,
+ // but series need `seriesLayoutBy: 'row'`.
+ var dimensions = retrieve2(newMetaRawOption.dimensions, upMetaRawOption.dimensions);
+ // We share source with dataset as much as possible
+ // to avoid extra memory cost of high dimensional data.
+ var needsCreateSource = seriesLayoutBy !== upMetaRawOption.seriesLayoutBy || !!sourceHeader !== !!upMetaRawOption.sourceHeader || dimensions;
+ resultSourceList = needsCreateSource ? [createSource(data, {
+ seriesLayoutBy: seriesLayoutBy,
+ sourceHeader: sourceHeader,
+ dimensions: dimensions
+ }, sourceFormat)] : [];
+ } else {
+ var datasetModel = sourceHost;
+ // Has upstream dataset.
+ if (hasUpstream) {
+ var result = this._applyTransform(upSourceMgrList);
+ resultSourceList = result.sourceList;
+ upstreamSignList = result.upstreamSignList;
+ }
+ // Is root dataset.
+ else {
+ var sourceData = datasetModel.get('source', true);
+ resultSourceList = [createSource(sourceData, this._getSourceMetaRawOption(), null)];
+ upstreamSignList = [];
+ }
+ }
+ if ("development" !== 'production') {
+ assert(resultSourceList && upstreamSignList);
+ }
+ this._setLocalSource(resultSourceList, upstreamSignList);
+ };
+ SourceManager.prototype._applyTransform = function (upMgrList) {
+ var datasetModel = this._sourceHost;
+ var transformOption = datasetModel.get('transform', true);
+ var fromTransformResult = datasetModel.get('fromTransformResult', true);
+ if ("development" !== 'production') {
+ assert(fromTransformResult != null || transformOption != null);
+ }
+ if (fromTransformResult != null) {
+ var errMsg = '';
+ if (upMgrList.length !== 1) {
+ if ("development" !== 'production') {
+ errMsg = 'When using `fromTransformResult`, there should be only one upstream dataset';
+ }
+ doThrow(errMsg);
+ }
+ }
+ var sourceList;
+ var upSourceList = [];
+ var upstreamSignList = [];
+ each(upMgrList, function (upMgr) {
+ upMgr.prepareSource();
+ var upSource = upMgr.getSource(fromTransformResult || 0);
+ var errMsg = '';
+ if (fromTransformResult != null && !upSource) {
+ if ("development" !== 'production') {
+ errMsg = 'Can not retrieve result by `fromTransformResult`: ' + fromTransformResult;
+ }
+ doThrow(errMsg);
+ }
+ upSourceList.push(upSource);
+ upstreamSignList.push(upMgr._getVersionSign());
+ });
+ if (transformOption) {
+ sourceList = applyDataTransform(transformOption, upSourceList, {
+ datasetIndex: datasetModel.componentIndex
+ });
+ } else if (fromTransformResult != null) {
+ sourceList = [cloneSourceShallow(upSourceList[0])];
+ }
+ return {
+ sourceList: sourceList,
+ upstreamSignList: upstreamSignList
+ };
+ };
+ SourceManager.prototype._isDirty = function () {
+ if (this._dirty) {
+ return true;
+ }
+ // All sourceList is from the some upstream.
+ var upSourceMgrList = this._getUpstreamSourceManagers();
+ for (var i = 0; i < upSourceMgrList.length; i++) {
+ var upSrcMgr = upSourceMgrList[i];
+ if (
+ // Consider the case that there is ancestor diry, call it recursively.
+ // The performance is probably not an issue because usually the chain is not long.
+ upSrcMgr._isDirty() || this._upstreamSignList[i] !== upSrcMgr._getVersionSign()) {
+ return true;
+ }
+ }
+ };
+ /**
+ * @param sourceIndex By default 0, means "main source".
+ * In most cases there is only one source.
+ */
+ SourceManager.prototype.getSource = function (sourceIndex) {
+ sourceIndex = sourceIndex || 0;
+ var source = this._sourceList[sourceIndex];
+ if (!source) {
+ // Series may share source instance with dataset.
+ var upSourceMgrList = this._getUpstreamSourceManagers();
+ return upSourceMgrList[0] && upSourceMgrList[0].getSource(sourceIndex);
+ }
+ return source;
+ };
+ /**
+ *
+ * Get a data store which can be shared across series.
+ * Only available for series.
+ *
+ * @param seriesDimRequest Dimensions that are generated in series.
+ * Should have been sorted by `storeDimIndex` asc.
+ */
+ SourceManager.prototype.getSharedDataStore = function (seriesDimRequest) {
+ if ("development" !== 'production') {
+ assert(isSeries(this._sourceHost), 'Can only call getDataStore on series source manager.');
+ }
+ var schema = seriesDimRequest.makeStoreSchema();
+ return this._innerGetDataStore(schema.dimensions, seriesDimRequest.source, schema.hash);
+ };
+ SourceManager.prototype._innerGetDataStore = function (storeDims, seriesSource, sourceReadKey) {
+ // TODO Can use other sourceIndex?
+ var sourceIndex = 0;
+ var storeList = this._storeList;
+ var cachedStoreMap = storeList[sourceIndex];
+ if (!cachedStoreMap) {
+ cachedStoreMap = storeList[sourceIndex] = {};
+ }
+ var cachedStore = cachedStoreMap[sourceReadKey];
+ if (!cachedStore) {
+ var upSourceMgr = this._getUpstreamSourceManagers()[0];
+ if (isSeries(this._sourceHost) && upSourceMgr) {
+ cachedStore = upSourceMgr._innerGetDataStore(storeDims, seriesSource, sourceReadKey);
+ } else {
+ cachedStore = new DataStore();
+ // Always create store from source of series.
+ cachedStore.initData(new DefaultDataProvider(seriesSource, storeDims.length), storeDims);
+ }
+ cachedStoreMap[sourceReadKey] = cachedStore;
+ }
+ return cachedStore;
+ };
+ /**
+ * PENDING: Is it fast enough?
+ * If no upstream, return empty array.
+ */
+ SourceManager.prototype._getUpstreamSourceManagers = function () {
+ // Always get the relationship from the raw option.
+ // Do not cache the link of the dependency graph, so that
+ // there is no need to update them when change happens.
+ var sourceHost = this._sourceHost;
+ if (isSeries(sourceHost)) {
+ var datasetModel = querySeriesUpstreamDatasetModel(sourceHost);
+ return !datasetModel ? [] : [datasetModel.getSourceManager()];
+ } else {
+ return map(queryDatasetUpstreamDatasetModels(sourceHost), function (datasetModel) {
+ return datasetModel.getSourceManager();
+ });
+ }
+ };
+ SourceManager.prototype._getSourceMetaRawOption = function () {
+ var sourceHost = this._sourceHost;
+ var seriesLayoutBy;
+ var sourceHeader;
+ var dimensions;
+ if (isSeries(sourceHost)) {
+ seriesLayoutBy = sourceHost.get('seriesLayoutBy', true);
+ sourceHeader = sourceHost.get('sourceHeader', true);
+ dimensions = sourceHost.get('dimensions', true);
+ }
+ // See [REQUIREMENT_MEMO], `non-root-dataset` do not support them.
+ else if (!this._getUpstreamSourceManagers().length) {
+ var model = sourceHost;
+ seriesLayoutBy = model.get('seriesLayoutBy', true);
+ sourceHeader = model.get('sourceHeader', true);
+ dimensions = model.get('dimensions', true);
+ }
+ return {
+ seriesLayoutBy: seriesLayoutBy,
+ sourceHeader: sourceHeader,
+ dimensions: dimensions
+ };
+ };
+ return SourceManager;
+ }();
+ // Call this method after `super.init` and `super.mergeOption` to
+ // disable the transform merge, but do not disable transform clone from rawOption.
+ function disableTransformOptionMerge(datasetModel) {
+ var transformOption = datasetModel.option.transform;
+ transformOption && setAsPrimitive(datasetModel.option.transform);
+ }
+ function isSeries(sourceHost) {
+ // Avoid circular dependency with Series.ts
+ return sourceHost.mainType === 'series';
+ }
+ function doThrow(errMsg) {
+ throw new Error(errMsg);
+ }
+
+ var TOOLTIP_LINE_HEIGHT_CSS = 'line-height:1';
+ // TODO: more textStyle option
+ function getTooltipTextStyle(textStyle, renderMode) {
+ var nameFontColor = textStyle.color || '#6e7079';
+ var nameFontSize = textStyle.fontSize || 12;
+ var nameFontWeight = textStyle.fontWeight || '400';
+ var valueFontColor = textStyle.color || '#464646';
+ var valueFontSize = textStyle.fontSize || 14;
+ var valueFontWeight = textStyle.fontWeight || '900';
+ if (renderMode === 'html') {
+ // `textStyle` is probably from user input, should be encoded to reduce security risk.
+ return {
+ // eslint-disable-next-line max-len
+ nameStyle: "font-size:" + encodeHTML(nameFontSize + '') + "px;color:" + encodeHTML(nameFontColor) + ";font-weight:" + encodeHTML(nameFontWeight + ''),
+ // eslint-disable-next-line max-len
+ valueStyle: "font-size:" + encodeHTML(valueFontSize + '') + "px;color:" + encodeHTML(valueFontColor) + ";font-weight:" + encodeHTML(valueFontWeight + '')
+ };
+ } else {
+ return {
+ nameStyle: {
+ fontSize: nameFontSize,
+ fill: nameFontColor,
+ fontWeight: nameFontWeight
+ },
+ valueStyle: {
+ fontSize: valueFontSize,
+ fill: valueFontColor,
+ fontWeight: valueFontWeight
+ }
+ };
+ }
+ }
+ // See `TooltipMarkupLayoutIntent['innerGapLevel']`.
+ // (value from UI design)
+ var HTML_GAPS = [0, 10, 20, 30];
+ var RICH_TEXT_GAPS = ['', '\n', '\n\n', '\n\n\n'];
+ // eslint-disable-next-line max-len
+ function createTooltipMarkup(type, option) {
+ option.type = type;
+ return option;
+ }
+ function isSectionFragment(frag) {
+ return frag.type === 'section';
+ }
+ function getBuilder(frag) {
+ return isSectionFragment(frag) ? buildSection : buildNameValue;
+ }
+ function getBlockGapLevel(frag) {
+ if (isSectionFragment(frag)) {
+ var gapLevel_1 = 0;
+ var subBlockLen = frag.blocks.length;
+ var hasInnerGap_1 = subBlockLen > 1 || subBlockLen > 0 && !frag.noHeader;
+ each(frag.blocks, function (subBlock) {
+ var subGapLevel = getBlockGapLevel(subBlock);
+ // If the some of the sub-blocks have some gaps (like 10px) inside, this block
+ // should use a larger gap (like 20px) to distinguish those sub-blocks.
+ if (subGapLevel >= gapLevel_1) {
+ gapLevel_1 = subGapLevel + +(hasInnerGap_1 && (
+ // 0 always can not be readable gap level.
+ !subGapLevel
+ // If no header, always keep the sub gap level. Otherwise
+ // look weird in case `multipleSeries`.
+ || isSectionFragment(subBlock) && !subBlock.noHeader));
+ }
+ });
+ return gapLevel_1;
+ }
+ return 0;
+ }
+ function buildSection(ctx, fragment, topMarginForOuterGap, toolTipTextStyle) {
+ var noHeader = fragment.noHeader;
+ var gaps = getGap(getBlockGapLevel(fragment));
+ var subMarkupTextList = [];
+ var subBlocks = fragment.blocks || [];
+ assert(!subBlocks || isArray(subBlocks));
+ subBlocks = subBlocks || [];
+ var orderMode = ctx.orderMode;
+ if (fragment.sortBlocks && orderMode) {
+ subBlocks = subBlocks.slice();
+ var orderMap = {
+ valueAsc: 'asc',
+ valueDesc: 'desc'
+ };
+ if (hasOwn(orderMap, orderMode)) {
+ var comparator_1 = new SortOrderComparator(orderMap[orderMode], null);
+ subBlocks.sort(function (a, b) {
+ return comparator_1.evaluate(a.sortParam, b.sortParam);
+ });
+ }
+ // FIXME 'seriesDesc' necessary?
+ else if (orderMode === 'seriesDesc') {
+ subBlocks.reverse();
+ }
+ }
+ each(subBlocks, function (subBlock, idx) {
+ var valueFormatter = fragment.valueFormatter;
+ var subMarkupText = getBuilder(subBlock)(
+ // Inherit valueFormatter
+ valueFormatter ? extend(extend({}, ctx), {
+ valueFormatter: valueFormatter
+ }) : ctx, subBlock, idx > 0 ? gaps.html : 0, toolTipTextStyle);
+ subMarkupText != null && subMarkupTextList.push(subMarkupText);
+ });
+ var subMarkupText = ctx.renderMode === 'richText' ? subMarkupTextList.join(gaps.richText) : wrapBlockHTML(subMarkupTextList.join(''), noHeader ? topMarginForOuterGap : gaps.html);
+ if (noHeader) {
+ return subMarkupText;
+ }
+ var displayableHeader = makeValueReadable(fragment.header, 'ordinal', ctx.useUTC);
+ var nameStyle = getTooltipTextStyle(toolTipTextStyle, ctx.renderMode).nameStyle;
+ if (ctx.renderMode === 'richText') {
+ return wrapInlineNameRichText(ctx, displayableHeader, nameStyle) + gaps.richText + subMarkupText;
+ } else {
+ return wrapBlockHTML("" + encodeHTML(displayableHeader) + '
' + subMarkupText, topMarginForOuterGap);
+ }
+ }
+ function buildNameValue(ctx, fragment, topMarginForOuterGap, toolTipTextStyle) {
+ var renderMode = ctx.renderMode;
+ var noName = fragment.noName;
+ var noValue = fragment.noValue;
+ var noMarker = !fragment.markerType;
+ var name = fragment.name;
+ var useUTC = ctx.useUTC;
+ var valueFormatter = fragment.valueFormatter || ctx.valueFormatter || function (value) {
+ value = isArray(value) ? value : [value];
+ return map(value, function (val, idx) {
+ return makeValueReadable(val, isArray(valueTypeOption) ? valueTypeOption[idx] : valueTypeOption, useUTC);
+ });
+ };
+ if (noName && noValue) {
+ return;
+ }
+ var markerStr = noMarker ? '' : ctx.markupStyleCreator.makeTooltipMarker(fragment.markerType, fragment.markerColor || '#333', renderMode);
+ var readableName = noName ? '' : makeValueReadable(name, 'ordinal', useUTC);
+ var valueTypeOption = fragment.valueType;
+ var readableValueList = noValue ? [] : valueFormatter(fragment.value, fragment.dataIndex);
+ var valueAlignRight = !noMarker || !noName;
+ // It little weird if only value next to marker but far from marker.
+ var valueCloseToMarker = !noMarker && noName;
+ var _a = getTooltipTextStyle(toolTipTextStyle, renderMode),
+ nameStyle = _a.nameStyle,
+ valueStyle = _a.valueStyle;
+ return renderMode === 'richText' ? (noMarker ? '' : markerStr) + (noName ? '' : wrapInlineNameRichText(ctx, readableName, nameStyle))
+ // Value has commas inside, so use ' ' as delimiter for multiple values.
+ + (noValue ? '' : wrapInlineValueRichText(ctx, readableValueList, valueAlignRight, valueCloseToMarker, valueStyle)) : wrapBlockHTML((noMarker ? '' : markerStr) + (noName ? '' : wrapInlineNameHTML(readableName, !noMarker, nameStyle)) + (noValue ? '' : wrapInlineValueHTML(readableValueList, valueAlignRight, valueCloseToMarker, valueStyle)), topMarginForOuterGap);
+ }
+ /**
+ * @return markupText. null/undefined means no content.
+ */
+ function buildTooltipMarkup(fragment, markupStyleCreator, renderMode, orderMode, useUTC, toolTipTextStyle) {
+ if (!fragment) {
+ return;
+ }
+ var builder = getBuilder(fragment);
+ var ctx = {
+ useUTC: useUTC,
+ renderMode: renderMode,
+ orderMode: orderMode,
+ markupStyleCreator: markupStyleCreator,
+ valueFormatter: fragment.valueFormatter
+ };
+ return builder(ctx, fragment, 0, toolTipTextStyle);
+ }
+ function getGap(gapLevel) {
+ return {
+ html: HTML_GAPS[gapLevel],
+ richText: RICH_TEXT_GAPS[gapLevel]
+ };
+ }
+ function wrapBlockHTML(encodedContent, topGap) {
+ var clearfix = '';
+ var marginCSS = "margin: " + topGap + "px 0 0";
+ return "" + encodedContent + clearfix + '
';
+ }
+ function wrapInlineNameHTML(name, leftHasMarker, style) {
+ var marginCss = leftHasMarker ? 'margin-left:2px' : '';
+ return "" + encodeHTML(name) + '';
+ }
+ function wrapInlineValueHTML(valueList, alignRight, valueCloseToMarker, style) {
+ // Do not too close to marker, considering there are multiple values separated by spaces.
+ var paddingStr = valueCloseToMarker ? '10px' : '20px';
+ var alignCSS = alignRight ? "float:right;margin-left:" + paddingStr : '';
+ valueList = isArray(valueList) ? valueList : [valueList];
+ return ""
+ // Value has commas inside, so use ' ' as delimiter for multiple values.
+ + map(valueList, function (value) {
+ return encodeHTML(value);
+ }).join(' ') + '';
+ }
+ function wrapInlineNameRichText(ctx, name, style) {
+ return ctx.markupStyleCreator.wrapRichTextStyle(name, style);
+ }
+ function wrapInlineValueRichText(ctx, values, alignRight, valueCloseToMarker, style) {
+ var styles = [style];
+ var paddingLeft = valueCloseToMarker ? 10 : 20;
+ alignRight && styles.push({
+ padding: [0, 0, 0, paddingLeft],
+ align: 'right'
+ });
+ // Value has commas inside, so use ' ' as delimiter for multiple values.
+ return ctx.markupStyleCreator.wrapRichTextStyle(isArray(values) ? values.join(' ') : values, styles);
+ }
+ function retrieveVisualColorForTooltipMarker(series, dataIndex) {
+ var style = series.getData().getItemVisual(dataIndex, 'style');
+ var color = style[series.visualDrawType];
+ return convertToColorString(color);
+ }
+ function getPaddingFromTooltipModel(model, renderMode) {
+ var padding = model.get('padding');
+ return padding != null ? padding
+ // We give slightly different to look pretty.
+ : renderMode === 'richText' ? [8, 10] : 10;
+ }
+ /**
+ * The major feature is generate styles for `renderMode: 'richText'`.
+ * But it also serves `renderMode: 'html'` to provide
+ * "renderMode-independent" API.
+ */
+ var TooltipMarkupStyleCreator = /** @class */function () {
+ function TooltipMarkupStyleCreator() {
+ this.richTextStyles = {};
+ // Notice that "generate a style name" usually happens repeatedly when mouse is moving and
+ // a tooltip is displayed. So we put the `_nextStyleNameId` as a member of each creator
+ // rather than static shared by all creators (which will cause it increase to fast).
+ this._nextStyleNameId = getRandomIdBase();
+ }
+ TooltipMarkupStyleCreator.prototype._generateStyleName = function () {
+ return '__EC_aUTo_' + this._nextStyleNameId++;
+ };
+ TooltipMarkupStyleCreator.prototype.makeTooltipMarker = function (markerType, colorStr, renderMode) {
+ var markerId = renderMode === 'richText' ? this._generateStyleName() : null;
+ var marker = getTooltipMarker({
+ color: colorStr,
+ type: markerType,
+ renderMode: renderMode,
+ markerId: markerId
+ });
+ if (isString(marker)) {
+ return marker;
+ } else {
+ if ("development" !== 'production') {
+ assert(markerId);
+ }
+ this.richTextStyles[markerId] = marker.style;
+ return marker.content;
+ }
+ };
+ /**
+ * @usage
+ * ```ts
+ * const styledText = markupStyleCreator.wrapRichTextStyle([
+ * // The styles will be auto merged.
+ * {
+ * fontSize: 12,
+ * color: 'blue'
+ * },
+ * {
+ * padding: 20
+ * }
+ * ]);
+ * ```
+ */
+ TooltipMarkupStyleCreator.prototype.wrapRichTextStyle = function (text, styles) {
+ var finalStl = {};
+ if (isArray(styles)) {
+ each(styles, function (stl) {
+ return extend(finalStl, stl);
+ });
+ } else {
+ extend(finalStl, styles);
+ }
+ var styleName = this._generateStyleName();
+ this.richTextStyles[styleName] = finalStl;
+ return "{" + styleName + "|" + text + "}";
+ };
+ return TooltipMarkupStyleCreator;
+ }();
+
+ function defaultSeriesFormatTooltip(opt) {
+ var series = opt.series;
+ var dataIndex = opt.dataIndex;
+ var multipleSeries = opt.multipleSeries;
+ var data = series.getData();
+ var tooltipDims = data.mapDimensionsAll('defaultedTooltip');
+ var tooltipDimLen = tooltipDims.length;
+ var value = series.getRawValue(dataIndex);
+ var isValueArr = isArray(value);
+ var markerColor = retrieveVisualColorForTooltipMarker(series, dataIndex);
+ // Complicated rule for pretty tooltip.
+ var inlineValue;
+ var inlineValueType;
+ var subBlocks;
+ var sortParam;
+ if (tooltipDimLen > 1 || isValueArr && !tooltipDimLen) {
+ var formatArrResult = formatTooltipArrayValue(value, series, dataIndex, tooltipDims, markerColor);
+ inlineValue = formatArrResult.inlineValues;
+ inlineValueType = formatArrResult.inlineValueTypes;
+ subBlocks = formatArrResult.blocks;
+ // Only support tooltip sort by the first inline value. It's enough in most cases.
+ sortParam = formatArrResult.inlineValues[0];
+ } else if (tooltipDimLen) {
+ var dimInfo = data.getDimensionInfo(tooltipDims[0]);
+ sortParam = inlineValue = retrieveRawValue(data, dataIndex, tooltipDims[0]);
+ inlineValueType = dimInfo.type;
+ } else {
+ sortParam = inlineValue = isValueArr ? value[0] : value;
+ }
+ // Do not show generated series name. It might not be readable.
+ var seriesNameSpecified = isNameSpecified(series);
+ var seriesName = seriesNameSpecified && series.name || '';
+ var itemName = data.getName(dataIndex);
+ var inlineName = multipleSeries ? seriesName : itemName;
+ return createTooltipMarkup('section', {
+ header: seriesName,
+ // When series name is not specified, do not show a header line with only '-'.
+ // This case always happens in tooltip.trigger: 'item'.
+ noHeader: multipleSeries || !seriesNameSpecified,
+ sortParam: sortParam,
+ blocks: [createTooltipMarkup('nameValue', {
+ markerType: 'item',
+ markerColor: markerColor,
+ // Do not mix display seriesName and itemName in one tooltip,
+ // which might confuses users.
+ name: inlineName,
+ // name dimension might be auto assigned, where the name might
+ // be not readable. So we check trim here.
+ noName: !trim(inlineName),
+ value: inlineValue,
+ valueType: inlineValueType,
+ dataIndex: dataIndex
+ })].concat(subBlocks || [])
+ });
+ }
+ function formatTooltipArrayValue(value, series, dataIndex, tooltipDims, colorStr) {
+ // check: category-no-encode-has-axis-data in dataset.html
+ var data = series.getData();
+ var isValueMultipleLine = reduce(value, function (isValueMultipleLine, val, idx) {
+ var dimItem = data.getDimensionInfo(idx);
+ return isValueMultipleLine = isValueMultipleLine || dimItem && dimItem.tooltip !== false && dimItem.displayName != null;
+ }, false);
+ var inlineValues = [];
+ var inlineValueTypes = [];
+ var blocks = [];
+ tooltipDims.length ? each(tooltipDims, function (dim) {
+ setEachItem(retrieveRawValue(data, dataIndex, dim), dim);
+ })
+ // By default, all dims is used on tooltip.
+ : each(value, setEachItem);
+ function setEachItem(val, dim) {
+ var dimInfo = data.getDimensionInfo(dim);
+ // If `dimInfo.tooltip` is not set, show tooltip.
+ if (!dimInfo || dimInfo.otherDims.tooltip === false) {
+ return;
+ }
+ if (isValueMultipleLine) {
+ blocks.push(createTooltipMarkup('nameValue', {
+ markerType: 'subItem',
+ markerColor: colorStr,
+ name: dimInfo.displayName,
+ value: val,
+ valueType: dimInfo.type
+ }));
+ } else {
+ inlineValues.push(val);
+ inlineValueTypes.push(dimInfo.type);
+ }
+ }
+ return {
+ inlineValues: inlineValues,
+ inlineValueTypes: inlineValueTypes,
+ blocks: blocks
+ };
+ }
+
+ var inner$1 = makeInner();
+ function getSelectionKey(data, dataIndex) {
+ return data.getName(dataIndex) || data.getId(dataIndex);
+ }
+ var SERIES_UNIVERSAL_TRANSITION_PROP = '__universalTransitionEnabled';
+ var SeriesModel = /** @class */function (_super) {
+ __extends(SeriesModel, _super);
+ function SeriesModel() {
+ // [Caution]: Because this class or desecendants can be used as `XXX.extend(subProto)`,
+ // the class members must not be initialized in constructor or declaration place.
+ // Otherwise there is bad case:
+ // class A {xxx = 1;}
+ // enableClassExtend(A);
+ // class B extends A {}
+ // var C = B.extend({xxx: 5});
+ // var c = new C();
+ // console.log(c.xxx); // expect 5 but always 1.
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ // ---------------------------------------
+ // Props about data selection
+ // ---------------------------------------
+ _this._selectedDataIndicesMap = {};
+ return _this;
+ }
+ SeriesModel.prototype.init = function (option, parentModel, ecModel) {
+ this.seriesIndex = this.componentIndex;
+ this.dataTask = createTask({
+ count: dataTaskCount,
+ reset: dataTaskReset
+ });
+ this.dataTask.context = {
+ model: this
+ };
+ this.mergeDefaultAndTheme(option, ecModel);
+ var sourceManager = inner$1(this).sourceManager = new SourceManager(this);
+ sourceManager.prepareSource();
+ var data = this.getInitialData(option, ecModel);
+ wrapData(data, this);
+ this.dataTask.context.data = data;
+ if ("development" !== 'production') {
+ assert(data, 'getInitialData returned invalid data.');
+ }
+ inner$1(this).dataBeforeProcessed = data;
+ // If we reverse the order (make data firstly, and then make
+ // dataBeforeProcessed by cloneShallow), cloneShallow will
+ // cause data.graph.data !== data when using
+ // module:echarts/data/Graph or module:echarts/data/Tree.
+ // See module:echarts/data/helper/linkSeriesData
+ // Theoretically, it is unreasonable to call `seriesModel.getData()` in the model
+ // init or merge stage, because the data can be restored. So we do not `restoreData`
+ // and `setData` here, which forbids calling `seriesModel.getData()` in this stage.
+ // Call `seriesModel.getRawData()` instead.
+ // this.restoreData();
+ autoSeriesName(this);
+ this._initSelectedMapFromData(data);
+ };
+ /**
+ * Util for merge default and theme to option
+ */
+ SeriesModel.prototype.mergeDefaultAndTheme = function (option, ecModel) {
+ var layoutMode = fetchLayoutMode(this);
+ var inputPositionParams = layoutMode ? getLayoutParams(option) : {};
+ // Backward compat: using subType on theme.
+ // But if name duplicate between series subType
+ // (for example: parallel) add component mainType,
+ // add suffix 'Series'.
+ var themeSubType = this.subType;
+ if (ComponentModel.hasClass(themeSubType)) {
+ themeSubType += 'Series';
+ }
+ merge(option, ecModel.getTheme().get(this.subType));
+ merge(option, this.getDefaultOption());
+ // Default label emphasis `show`
+ defaultEmphasis(option, 'label', ['show']);
+ this.fillDataTextStyle(option.data);
+ if (layoutMode) {
+ mergeLayoutParam(option, inputPositionParams, layoutMode);
+ }
+ };
+ SeriesModel.prototype.mergeOption = function (newSeriesOption, ecModel) {
+ // this.settingTask.dirty();
+ newSeriesOption = merge(this.option, newSeriesOption, true);
+ this.fillDataTextStyle(newSeriesOption.data);
+ var layoutMode = fetchLayoutMode(this);
+ if (layoutMode) {
+ mergeLayoutParam(this.option, newSeriesOption, layoutMode);
+ }
+ var sourceManager = inner$1(this).sourceManager;
+ sourceManager.dirty();
+ sourceManager.prepareSource();
+ var data = this.getInitialData(newSeriesOption, ecModel);
+ wrapData(data, this);
+ this.dataTask.dirty();
+ this.dataTask.context.data = data;
+ inner$1(this).dataBeforeProcessed = data;
+ autoSeriesName(this);
+ this._initSelectedMapFromData(data);
+ };
+ SeriesModel.prototype.fillDataTextStyle = function (data) {
+ // Default data label emphasis `show`
+ // FIXME Tree structure data ?
+ // FIXME Performance ?
+ if (data && !isTypedArray(data)) {
+ var props = ['show'];
+ for (var i = 0; i < data.length; i++) {
+ if (data[i] && data[i].label) {
+ defaultEmphasis(data[i], 'label', props);
+ }
+ }
+ }
+ };
+ /**
+ * Init a data structure from data related option in series
+ * Must be overridden.
+ */
+ SeriesModel.prototype.getInitialData = function (option, ecModel) {
+ return;
+ };
+ /**
+ * Append data to list
+ */
+ SeriesModel.prototype.appendData = function (params) {
+ // FIXME ???
+ // (1) If data from dataset, forbidden append.
+ // (2) support append data of dataset.
+ var data = this.getRawData();
+ data.appendData(params.data);
+ };
+ /**
+ * Consider some method like `filter`, `map` need make new data,
+ * We should make sure that `seriesModel.getData()` get correct
+ * data in the stream procedure. So we fetch data from upstream
+ * each time `task.perform` called.
+ */
+ SeriesModel.prototype.getData = function (dataType) {
+ var task = getCurrentTask(this);
+ if (task) {
+ var data = task.context.data;
+ return dataType == null ? data : data.getLinkedData(dataType);
+ } else {
+ // When series is not alive (that may happen when click toolbox
+ // restore or setOption with not merge mode), series data may
+ // be still need to judge animation or something when graphic
+ // elements want to know whether fade out.
+ return inner$1(this).data;
+ }
+ };
+ SeriesModel.prototype.getAllData = function () {
+ var mainData = this.getData();
+ return mainData && mainData.getLinkedDataAll ? mainData.getLinkedDataAll() : [{
+ data: mainData
+ }];
+ };
+ SeriesModel.prototype.setData = function (data) {
+ var task = getCurrentTask(this);
+ if (task) {
+ var context = task.context;
+ // Consider case: filter, data sample.
+ // FIXME:TS never used, so comment it
+ // if (context.data !== data && task.modifyOutputEnd) {
+ // task.setOutputEnd(data.count());
+ // }
+ context.outputData = data;
+ // Caution: setData should update context.data,
+ // Because getData may be called multiply in a
+ // single stage and expect to get the data just
+ // set. (For example, AxisProxy, x y both call
+ // getData and setDate sequentially).
+ // So the context.data should be fetched from
+ // upstream each time when a stage starts to be
+ // performed.
+ if (task !== this.dataTask) {
+ context.data = data;
+ }
+ }
+ inner$1(this).data = data;
+ };
+ SeriesModel.prototype.getEncode = function () {
+ var encode = this.get('encode', true);
+ if (encode) {
+ return createHashMap(encode);
+ }
+ };
+ SeriesModel.prototype.getSourceManager = function () {
+ return inner$1(this).sourceManager;
+ };
+ SeriesModel.prototype.getSource = function () {
+ return this.getSourceManager().getSource();
+ };
+ /**
+ * Get data before processed
+ */
+ SeriesModel.prototype.getRawData = function () {
+ return inner$1(this).dataBeforeProcessed;
+ };
+ SeriesModel.prototype.getColorBy = function () {
+ var colorBy = this.get('colorBy');
+ return colorBy || 'series';
+ };
+ SeriesModel.prototype.isColorBySeries = function () {
+ return this.getColorBy() === 'series';
+ };
+ /**
+ * Get base axis if has coordinate system and has axis.
+ * By default use coordSys.getBaseAxis();
+ * Can be overridden for some chart.
+ * @return {type} description
+ */
+ SeriesModel.prototype.getBaseAxis = function () {
+ var coordSys = this.coordinateSystem;
+ // @ts-ignore
+ return coordSys && coordSys.getBaseAxis && coordSys.getBaseAxis();
+ };
+ /**
+ * Default tooltip formatter
+ *
+ * @param dataIndex
+ * @param multipleSeries
+ * @param dataType
+ * @param renderMode valid values: 'html'(by default) and 'richText'.
+ * 'html' is used for rendering tooltip in extra DOM form, and the result
+ * string is used as DOM HTML content.
+ * 'richText' is used for rendering tooltip in rich text form, for those where
+ * DOM operation is not supported.
+ * @return formatted tooltip with `html` and `markers`
+ * Notice: The override method can also return string
+ */
+ SeriesModel.prototype.formatTooltip = function (dataIndex, multipleSeries, dataType) {
+ return defaultSeriesFormatTooltip({
+ series: this,
+ dataIndex: dataIndex,
+ multipleSeries: multipleSeries
+ });
+ };
+ SeriesModel.prototype.isAnimationEnabled = function () {
+ var ecModel = this.ecModel;
+ // Disable animation if using echarts in node but not give ssr flag.
+ // In ssr mode, renderToString will generate svg with css animation.
+ if (env.node && !(ecModel && ecModel.ssr)) {
+ return false;
+ }
+ var animationEnabled = this.getShallow('animation');
+ if (animationEnabled) {
+ if (this.getData().count() > this.getShallow('animationThreshold')) {
+ animationEnabled = false;
+ }
+ }
+ return !!animationEnabled;
+ };
+ SeriesModel.prototype.restoreData = function () {
+ this.dataTask.dirty();
+ };
+ SeriesModel.prototype.getColorFromPalette = function (name, scope, requestColorNum) {
+ var ecModel = this.ecModel;
+ // PENDING
+ var color = PaletteMixin.prototype.getColorFromPalette.call(this, name, scope, requestColorNum);
+ if (!color) {
+ color = ecModel.getColorFromPalette(name, scope, requestColorNum);
+ }
+ return color;
+ };
+ /**
+ * Use `data.mapDimensionsAll(coordDim)` instead.
+ * @deprecated
+ */
+ SeriesModel.prototype.coordDimToDataDim = function (coordDim) {
+ return this.getRawData().mapDimensionsAll(coordDim);
+ };
+ /**
+ * Get progressive rendering count each step
+ */
+ SeriesModel.prototype.getProgressive = function () {
+ return this.get('progressive');
+ };
+ /**
+ * Get progressive rendering count each step
+ */
+ SeriesModel.prototype.getProgressiveThreshold = function () {
+ return this.get('progressiveThreshold');
+ };
+ // PENGING If selectedMode is null ?
+ SeriesModel.prototype.select = function (innerDataIndices, dataType) {
+ this._innerSelect(this.getData(dataType), innerDataIndices);
+ };
+ SeriesModel.prototype.unselect = function (innerDataIndices, dataType) {
+ var selectedMap = this.option.selectedMap;
+ if (!selectedMap) {
+ return;
+ }
+ var selectedMode = this.option.selectedMode;
+ var data = this.getData(dataType);
+ if (selectedMode === 'series' || selectedMap === 'all') {
+ this.option.selectedMap = {};
+ this._selectedDataIndicesMap = {};
+ return;
+ }
+ for (var i = 0; i < innerDataIndices.length; i++) {
+ var dataIndex = innerDataIndices[i];
+ var nameOrId = getSelectionKey(data, dataIndex);
+ selectedMap[nameOrId] = false;
+ this._selectedDataIndicesMap[nameOrId] = -1;
+ }
+ };
+ SeriesModel.prototype.toggleSelect = function (innerDataIndices, dataType) {
+ var tmpArr = [];
+ for (var i = 0; i < innerDataIndices.length; i++) {
+ tmpArr[0] = innerDataIndices[i];
+ this.isSelected(innerDataIndices[i], dataType) ? this.unselect(tmpArr, dataType) : this.select(tmpArr, dataType);
+ }
+ };
+ SeriesModel.prototype.getSelectedDataIndices = function () {
+ if (this.option.selectedMap === 'all') {
+ return [].slice.call(this.getData().getIndices());
+ }
+ var selectedDataIndicesMap = this._selectedDataIndicesMap;
+ var nameOrIds = keys(selectedDataIndicesMap);
+ var dataIndices = [];
+ for (var i = 0; i < nameOrIds.length; i++) {
+ var dataIndex = selectedDataIndicesMap[nameOrIds[i]];
+ if (dataIndex >= 0) {
+ dataIndices.push(dataIndex);
+ }
+ }
+ return dataIndices;
+ };
+ SeriesModel.prototype.isSelected = function (dataIndex, dataType) {
+ var selectedMap = this.option.selectedMap;
+ if (!selectedMap) {
+ return false;
+ }
+ var data = this.getData(dataType);
+ return (selectedMap === 'all' || selectedMap[getSelectionKey(data, dataIndex)]) && !data.getItemModel(dataIndex).get(['select', 'disabled']);
+ };
+ SeriesModel.prototype.isUniversalTransitionEnabled = function () {
+ if (this[SERIES_UNIVERSAL_TRANSITION_PROP]) {
+ return true;
+ }
+ var universalTransitionOpt = this.option.universalTransition;
+ // Quick reject
+ if (!universalTransitionOpt) {
+ return false;
+ }
+ if (universalTransitionOpt === true) {
+ return true;
+ }
+ // Can be simply 'universalTransition: true'
+ return universalTransitionOpt && universalTransitionOpt.enabled;
+ };
+ SeriesModel.prototype._innerSelect = function (data, innerDataIndices) {
+ var _a, _b;
+ var option = this.option;
+ var selectedMode = option.selectedMode;
+ var len = innerDataIndices.length;
+ if (!selectedMode || !len) {
+ return;
+ }
+ if (selectedMode === 'series') {
+ option.selectedMap = 'all';
+ } else if (selectedMode === 'multiple') {
+ if (!isObject(option.selectedMap)) {
+ option.selectedMap = {};
+ }
+ var selectedMap = option.selectedMap;
+ for (var i = 0; i < len; i++) {
+ var dataIndex = innerDataIndices[i];
+ // TODO different types of data share same object.
+ var nameOrId = getSelectionKey(data, dataIndex);
+ selectedMap[nameOrId] = true;
+ this._selectedDataIndicesMap[nameOrId] = data.getRawIndex(dataIndex);
+ }
+ } else if (selectedMode === 'single' || selectedMode === true) {
+ var lastDataIndex = innerDataIndices[len - 1];
+ var nameOrId = getSelectionKey(data, lastDataIndex);
+ option.selectedMap = (_a = {}, _a[nameOrId] = true, _a);
+ this._selectedDataIndicesMap = (_b = {}, _b[nameOrId] = data.getRawIndex(lastDataIndex), _b);
+ }
+ };
+ SeriesModel.prototype._initSelectedMapFromData = function (data) {
+ // Ignore select info in data if selectedMap exists.
+ // NOTE It's only for legacy usage. edge data is not supported.
+ if (this.option.selectedMap) {
+ return;
+ }
+ var dataIndices = [];
+ if (data.hasItemOption) {
+ data.each(function (idx) {
+ var rawItem = data.getRawDataItem(idx);
+ if (rawItem && rawItem.selected) {
+ dataIndices.push(idx);
+ }
+ });
+ }
+ if (dataIndices.length > 0) {
+ this._innerSelect(data, dataIndices);
+ }
+ };
+ // /**
+ // * @see {module:echarts/stream/Scheduler}
+ // */
+ // abstract pipeTask: null
+ SeriesModel.registerClass = function (clz) {
+ return ComponentModel.registerClass(clz);
+ };
+ SeriesModel.protoInitialize = function () {
+ var proto = SeriesModel.prototype;
+ proto.type = 'series.__base__';
+ proto.seriesIndex = 0;
+ proto.ignoreStyleOnData = false;
+ proto.hasSymbolVisual = false;
+ proto.defaultSymbol = 'circle';
+ // Make sure the values can be accessed!
+ proto.visualStyleAccessPath = 'itemStyle';
+ proto.visualDrawType = 'fill';
+ }();
+ return SeriesModel;
+ }(ComponentModel);
+ mixin(SeriesModel, DataFormatMixin);
+ mixin(SeriesModel, PaletteMixin);
+ mountExtend(SeriesModel, ComponentModel);
+ /**
+ * MUST be called after `prepareSource` called
+ * Here we need to make auto series, especially for auto legend. But we
+ * do not modify series.name in option to avoid side effects.
+ */
+ function autoSeriesName(seriesModel) {
+ // User specified name has higher priority, otherwise it may cause
+ // series can not be queried unexpectedly.
+ var name = seriesModel.name;
+ if (!isNameSpecified(seriesModel)) {
+ seriesModel.name = getSeriesAutoName(seriesModel) || name;
+ }
+ }
+ function getSeriesAutoName(seriesModel) {
+ var data = seriesModel.getRawData();
+ var dataDims = data.mapDimensionsAll('seriesName');
+ var nameArr = [];
+ each(dataDims, function (dataDim) {
+ var dimInfo = data.getDimensionInfo(dataDim);
+ dimInfo.displayName && nameArr.push(dimInfo.displayName);
+ });
+ return nameArr.join(' ');
+ }
+ function dataTaskCount(context) {
+ return context.model.getRawData().count();
+ }
+ function dataTaskReset(context) {
+ var seriesModel = context.model;
+ seriesModel.setData(seriesModel.getRawData().cloneShallow());
+ return dataTaskProgress;
+ }
+ function dataTaskProgress(param, context) {
+ // Avoid repeat cloneShallow when data just created in reset.
+ if (context.outputData && param.end > context.outputData.count()) {
+ context.model.getRawData().cloneShallow(context.outputData);
+ }
+ }
+ // TODO refactor
+ function wrapData(data, seriesModel) {
+ each(concatArray(data.CHANGABLE_METHODS, data.DOWNSAMPLE_METHODS), function (methodName) {
+ data.wrapMethod(methodName, curry(onDataChange, seriesModel));
+ });
+ }
+ function onDataChange(seriesModel, newList) {
+ var task = getCurrentTask(seriesModel);
+ if (task) {
+ // Consider case: filter, selectRange
+ task.setOutputEnd((newList || this).count());
+ }
+ return newList;
+ }
+ function getCurrentTask(seriesModel) {
+ var scheduler = (seriesModel.ecModel || {}).scheduler;
+ var pipeline = scheduler && scheduler.getPipeline(seriesModel.uid);
+ if (pipeline) {
+ // When pipline finished, the currrentTask keep the last
+ // task (renderTask).
+ var task = pipeline.currentTask;
+ if (task) {
+ var agentStubMap = task.agentStubMap;
+ if (agentStubMap) {
+ task = agentStubMap.get(seriesModel.uid);
+ }
+ }
+ return task;
+ }
+ }
+
+ var ComponentView = /** @class */function () {
+ function ComponentView() {
+ this.group = new Group();
+ this.uid = getUID('viewComponent');
+ }
+ ComponentView.prototype.init = function (ecModel, api) {};
+ ComponentView.prototype.render = function (model, ecModel, api, payload) {};
+ ComponentView.prototype.dispose = function (ecModel, api) {};
+ ComponentView.prototype.updateView = function (model, ecModel, api, payload) {
+ // Do nothing;
+ };
+ ComponentView.prototype.updateLayout = function (model, ecModel, api, payload) {
+ // Do nothing;
+ };
+ ComponentView.prototype.updateVisual = function (model, ecModel, api, payload) {
+ // Do nothing;
+ };
+ /**
+ * Hook for toggle blur target series.
+ * Can be used in marker for blur or leave blur the markers
+ */
+ ComponentView.prototype.toggleBlurSeries = function (seriesModels, isBlur, ecModel) {
+ // Do nothing;
+ };
+ /**
+ * Traverse the new rendered elements.
+ *
+ * It will traverse the new added element in progressive rendering.
+ * And traverse all in normal rendering.
+ */
+ ComponentView.prototype.eachRendered = function (cb) {
+ var group = this.group;
+ if (group) {
+ group.traverse(cb);
+ }
+ };
+ return ComponentView;
+ }();
+ enableClassExtend(ComponentView);
+ enableClassManagement(ComponentView);
+
+ /**
+ * @return {string} If large mode changed, return string 'reset';
+ */
+ function createRenderPlanner() {
+ var inner = makeInner();
+ return function (seriesModel) {
+ var fields = inner(seriesModel);
+ var pipelineContext = seriesModel.pipelineContext;
+ var originalLarge = !!fields.large;
+ var originalProgressive = !!fields.progressiveRender;
+ // FIXME: if the planner works on a filtered series, `pipelineContext` does not
+ // exists. See #11611 . Probably we need to modify this structure, see the comment
+ // on `performRawSeries` in `Schedular.js`.
+ var large = fields.large = !!(pipelineContext && pipelineContext.large);
+ var progressive = fields.progressiveRender = !!(pipelineContext && pipelineContext.progressiveRender);
+ return !!(originalLarge !== large || originalProgressive !== progressive) && 'reset';
+ };
+ }
+
+ var inner$2 = makeInner();
+ var renderPlanner = createRenderPlanner();
+ var ChartView = /** @class */function () {
+ function ChartView() {
+ this.group = new Group();
+ this.uid = getUID('viewChart');
+ this.renderTask = createTask({
+ plan: renderTaskPlan,
+ reset: renderTaskReset
+ });
+ this.renderTask.context = {
+ view: this
+ };
+ }
+ ChartView.prototype.init = function (ecModel, api) {};
+ ChartView.prototype.render = function (seriesModel, ecModel, api, payload) {
+ if ("development" !== 'production') {
+ throw new Error('render method must been implemented');
+ }
+ };
+ /**
+ * Highlight series or specified data item.
+ */
+ ChartView.prototype.highlight = function (seriesModel, ecModel, api, payload) {
+ var data = seriesModel.getData(payload && payload.dataType);
+ if (!data) {
+ if ("development" !== 'production') {
+ error("Unknown dataType " + payload.dataType);
+ }
+ return;
+ }
+ toggleHighlight(data, payload, 'emphasis');
+ };
+ /**
+ * Downplay series or specified data item.
+ */
+ ChartView.prototype.downplay = function (seriesModel, ecModel, api, payload) {
+ var data = seriesModel.getData(payload && payload.dataType);
+ if (!data) {
+ if ("development" !== 'production') {
+ error("Unknown dataType " + payload.dataType);
+ }
+ return;
+ }
+ toggleHighlight(data, payload, 'normal');
+ };
+ /**
+ * Remove self.
+ */
+ ChartView.prototype.remove = function (ecModel, api) {
+ this.group.removeAll();
+ };
+ /**
+ * Dispose self.
+ */
+ ChartView.prototype.dispose = function (ecModel, api) {};
+ ChartView.prototype.updateView = function (seriesModel, ecModel, api, payload) {
+ this.render(seriesModel, ecModel, api, payload);
+ };
+ // FIXME never used?
+ ChartView.prototype.updateLayout = function (seriesModel, ecModel, api, payload) {
+ this.render(seriesModel, ecModel, api, payload);
+ };
+ // FIXME never used?
+ ChartView.prototype.updateVisual = function (seriesModel, ecModel, api, payload) {
+ this.render(seriesModel, ecModel, api, payload);
+ };
+ /**
+ * Traverse the new rendered elements.
+ *
+ * It will traverse the new added element in progressive rendering.
+ * And traverse all in normal rendering.
+ */
+ ChartView.prototype.eachRendered = function (cb) {
+ traverseElements(this.group, cb);
+ };
+ ChartView.markUpdateMethod = function (payload, methodName) {
+ inner$2(payload).updateMethod = methodName;
+ };
+ ChartView.protoInitialize = function () {
+ var proto = ChartView.prototype;
+ proto.type = 'chart';
+ }();
+ return ChartView;
+ }();
+ /**
+ * Set state of single element
+ */
+ function elSetState(el, state, highlightDigit) {
+ if (el && isHighDownDispatcher(el)) {
+ (state === 'emphasis' ? enterEmphasis : leaveEmphasis)(el, highlightDigit);
+ }
+ }
+ function toggleHighlight(data, payload, state) {
+ var dataIndex = queryDataIndex(data, payload);
+ var highlightDigit = payload && payload.highlightKey != null ? getHighlightDigit(payload.highlightKey) : null;
+ if (dataIndex != null) {
+ each(normalizeToArray(dataIndex), function (dataIdx) {
+ elSetState(data.getItemGraphicEl(dataIdx), state, highlightDigit);
+ });
+ } else {
+ data.eachItemGraphicEl(function (el) {
+ elSetState(el, state, highlightDigit);
+ });
+ }
+ }
+ enableClassExtend(ChartView, ['dispose']);
+ enableClassManagement(ChartView);
+ function renderTaskPlan(context) {
+ return renderPlanner(context.model);
+ }
+ function renderTaskReset(context) {
+ var seriesModel = context.model;
+ var ecModel = context.ecModel;
+ var api = context.api;
+ var payload = context.payload;
+ // FIXME: remove updateView updateVisual
+ var progressiveRender = seriesModel.pipelineContext.progressiveRender;
+ var view = context.view;
+ var updateMethod = payload && inner$2(payload).updateMethod;
+ var methodName = progressiveRender ? 'incrementalPrepareRender' : updateMethod && view[updateMethod] ? updateMethod
+ // `appendData` is also supported when data amount
+ // is less than progressive threshold.
+ : 'render';
+ if (methodName !== 'render') {
+ view[methodName](seriesModel, ecModel, api, payload);
+ }
+ return progressMethodMap[methodName];
+ }
+ var progressMethodMap = {
+ incrementalPrepareRender: {
+ progress: function (params, context) {
+ context.view.incrementalRender(params, context.model, context.ecModel, context.api, context.payload);
+ }
+ },
+ render: {
+ // Put view.render in `progress` to support appendData. But in this case
+ // view.render should not be called in reset, otherwise it will be called
+ // twise. Use `forceFirstProgress` to make sure that view.render is called
+ // in any cases.
+ forceFirstProgress: true,
+ progress: function (params, context) {
+ context.view.render(context.model, context.ecModel, context.api, context.payload);
+ }
+ }
+ };
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+
+
+ /**
+ * AUTO-GENERATED FILE. DO NOT MODIFY.
+ */
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+ var ORIGIN_METHOD = '\0__throttleOriginMethod';
+ var RATE = '\0__throttleRate';
+ var THROTTLE_TYPE = '\0__throttleType';
+ /**
+ * @public
+ * @param {(Function)} fn
+ * @param {number} [delay=0] Unit: ms.
+ * @param {boolean} [debounce=false]
+ * true: If call interval less than `delay`, only the last call works.
+ * false: If call interval less than `delay, call works on fixed rate.
+ * @return {(Function)} throttled fn.
+ */
+ function throttle(fn, delay, debounce) {
+ var currCall;
+ var lastCall = 0;
+ var lastExec = 0;
+ var timer = null;
+ var diff;
+ var scope;
+ var args;
+ var debounceNextCall;
+ delay = delay || 0;
+ function exec() {
+ lastExec = new Date().getTime();
+ timer = null;
+ fn.apply(scope, args || []);
+ }
+ var cb = function () {
+ var cbArgs = [];
+ for (var _i = 0; _i < arguments.length; _i++) {
+ cbArgs[_i] = arguments[_i];
+ }
+ currCall = new Date().getTime();
+ scope = this;
+ args = cbArgs;
+ var thisDelay = debounceNextCall || delay;
+ var thisDebounce = debounceNextCall || debounce;
+ debounceNextCall = null;
+ diff = currCall - (thisDebounce ? lastCall : lastExec) - thisDelay;
+ clearTimeout(timer);
+ // Here we should make sure that: the `exec` SHOULD NOT be called later
+ // than a new call of `cb`, that is, preserving the command order. Consider
+ // calculating "scale rate" when roaming as an example. When a call of `cb`
+ // happens, either the `exec` is called dierectly, or the call is delayed.
+ // But the delayed call should never be later than next call of `cb`. Under
+ // this assurance, we can simply update view state each time `dispatchAction`
+ // triggered by user roaming, but not need to add extra code to avoid the
+ // state being "rolled-back".
+ if (thisDebounce) {
+ timer = setTimeout(exec, thisDelay);
+ } else {
+ if (diff >= 0) {
+ exec();
+ } else {
+ timer = setTimeout(exec, -diff);
+ }
+ }
+ lastCall = currCall;
+ };
+ /**
+ * Clear throttle.
+ * @public
+ */
+ cb.clear = function () {
+ if (timer) {
+ clearTimeout(timer);
+ timer = null;
+ }
+ };
+ /**
+ * Enable debounce once.
+ */
+ cb.debounceNextCall = function (debounceDelay) {
+ debounceNextCall = debounceDelay;
+ };
+ return cb;
+ }
+ /**
+ * Create throttle method or update throttle rate.
+ *
+ * @example
+ * ComponentView.prototype.render = function () {
+ * ...
+ * throttle.createOrUpdate(
+ * this,
+ * '_dispatchAction',
+ * this.model.get('throttle'),
+ * 'fixRate'
+ * );
+ * };
+ * ComponentView.prototype.remove = function () {
+ * throttle.clear(this, '_dispatchAction');
+ * };
+ * ComponentView.prototype.dispose = function () {
+ * throttle.clear(this, '_dispatchAction');
+ * };
+ *
+ */
+ function createOrUpdate(obj, fnAttr, rate, throttleType) {
+ var fn = obj[fnAttr];
+ if (!fn) {
+ return;
+ }
+ var originFn = fn[ORIGIN_METHOD] || fn;
+ var lastThrottleType = fn[THROTTLE_TYPE];
+ var lastRate = fn[RATE];
+ if (lastRate !== rate || lastThrottleType !== throttleType) {
+ if (rate == null || !throttleType) {
+ return obj[fnAttr] = originFn;
+ }
+ fn = obj[fnAttr] = throttle(originFn, rate, throttleType === 'debounce');
+ fn[ORIGIN_METHOD] = originFn;
+ fn[THROTTLE_TYPE] = throttleType;
+ fn[RATE] = rate;
+ }
+ return fn;
+ }
+ /**
+ * Clear throttle. Example see throttle.createOrUpdate.
+ */
+ function clear(obj, fnAttr) {
+ var fn = obj[fnAttr];
+ if (fn && fn[ORIGIN_METHOD]) {
+ // Clear throttle
+ fn.clear && fn.clear();
+ obj[fnAttr] = fn[ORIGIN_METHOD];
+ }
+ }
+
+ var inner$3 = makeInner();
+ var defaultStyleMappers = {
+ itemStyle: makeStyleMapper(ITEM_STYLE_KEY_MAP, true),
+ lineStyle: makeStyleMapper(LINE_STYLE_KEY_MAP, true)
+ };
+ var defaultColorKey = {
+ lineStyle: 'stroke',
+ itemStyle: 'fill'
+ };
+ function getStyleMapper(seriesModel, stylePath) {
+ var styleMapper = seriesModel.visualStyleMapper || defaultStyleMappers[stylePath];
+ if (!styleMapper) {
+ console.warn("Unknown style type '" + stylePath + "'.");
+ return defaultStyleMappers.itemStyle;
+ }
+ return styleMapper;
+ }
+ function getDefaultColorKey(seriesModel, stylePath) {
+ // return defaultColorKey[stylePath] ||
+ var colorKey = seriesModel.visualDrawType || defaultColorKey[stylePath];
+ if (!colorKey) {
+ console.warn("Unknown style type '" + stylePath + "'.");
+ return 'fill';
+ }
+ return colorKey;
+ }
+ var seriesStyleTask = {
+ createOnAllSeries: true,
+ performRawSeries: true,
+ reset: function (seriesModel, ecModel) {
+ var data = seriesModel.getData();
+ var stylePath = seriesModel.visualStyleAccessPath || 'itemStyle';
+ // Set in itemStyle
+ var styleModel = seriesModel.getModel(stylePath);
+ var getStyle = getStyleMapper(seriesModel, stylePath);
+ var globalStyle = getStyle(styleModel);
+ var decalOption = styleModel.getShallow('decal');
+ if (decalOption) {
+ data.setVisual('decal', decalOption);
+ decalOption.dirty = true;
+ }
+ // TODO
+ var colorKey = getDefaultColorKey(seriesModel, stylePath);
+ var color = globalStyle[colorKey];
+ // TODO style callback
+ var colorCallback = isFunction(color) ? color : null;
+ var hasAutoColor = globalStyle.fill === 'auto' || globalStyle.stroke === 'auto';
+ // Get from color palette by default.
+ if (!globalStyle[colorKey] || colorCallback || hasAutoColor) {
+ // Note: If some series has color specified (e.g., by itemStyle.color), we DO NOT
+ // make it effect palette. Because some scenarios users need to make some series
+ // transparent or as background, which should better not effect the palette.
+ var colorPalette = seriesModel.getColorFromPalette(
+ // TODO series count changed.
+ seriesModel.name, null, ecModel.getSeriesCount());
+ if (!globalStyle[colorKey]) {
+ globalStyle[colorKey] = colorPalette;
+ data.setVisual('colorFromPalette', true);
+ }
+ globalStyle.fill = globalStyle.fill === 'auto' || isFunction(globalStyle.fill) ? colorPalette : globalStyle.fill;
+ globalStyle.stroke = globalStyle.stroke === 'auto' || isFunction(globalStyle.stroke) ? colorPalette : globalStyle.stroke;
+ }
+ data.setVisual('style', globalStyle);
+ data.setVisual('drawType', colorKey);
+ // Only visible series has each data be visual encoded
+ if (!ecModel.isSeriesFiltered(seriesModel) && colorCallback) {
+ data.setVisual('colorFromPalette', false);
+ return {
+ dataEach: function (data, idx) {
+ var dataParams = seriesModel.getDataParams(idx);
+ var itemStyle = extend({}, globalStyle);
+ itemStyle[colorKey] = colorCallback(dataParams);
+ data.setItemVisual(idx, 'style', itemStyle);
+ }
+ };
+ }
+ }
+ };
+ var sharedModel = new Model();
+ var dataStyleTask = {
+ createOnAllSeries: true,
+ performRawSeries: true,
+ reset: function (seriesModel, ecModel) {
+ if (seriesModel.ignoreStyleOnData || ecModel.isSeriesFiltered(seriesModel)) {
+ return;
+ }
+ var data = seriesModel.getData();
+ var stylePath = seriesModel.visualStyleAccessPath || 'itemStyle';
+ // Set in itemStyle
+ var getStyle = getStyleMapper(seriesModel, stylePath);
+ var colorKey = data.getVisual('drawType');
+ return {
+ dataEach: data.hasItemOption ? function (data, idx) {
+ // Not use getItemModel for performance considuration
+ var rawItem = data.getRawDataItem(idx);
+ if (rawItem && rawItem[stylePath]) {
+ sharedModel.option = rawItem[stylePath];
+ var style = getStyle(sharedModel);
+ var existsStyle = data.ensureUniqueItemVisual(idx, 'style');
+ extend(existsStyle, style);
+ if (sharedModel.option.decal) {
+ data.setItemVisual(idx, 'decal', sharedModel.option.decal);
+ sharedModel.option.decal.dirty = true;
+ }
+ if (colorKey in style) {
+ data.setItemVisual(idx, 'colorFromPalette', false);
+ }
+ }
+ } : null
+ };
+ }
+ };
+ // Pick color from palette for the data which has not been set with color yet.
+ // Note: do not support stream rendering. No such cases yet.
+ var dataColorPaletteTask = {
+ performRawSeries: true,
+ overallReset: function (ecModel) {
+ // Each type of series uses one scope.
+ // Pie and funnel are using different scopes.
+ var paletteScopeGroupByType = createHashMap();
+ ecModel.eachSeries(function (seriesModel) {
+ var colorBy = seriesModel.getColorBy();
+ if (seriesModel.isColorBySeries()) {
+ return;
+ }
+ var key = seriesModel.type + '-' + colorBy;
+ var colorScope = paletteScopeGroupByType.get(key);
+ if (!colorScope) {
+ colorScope = {};
+ paletteScopeGroupByType.set(key, colorScope);
+ }
+ inner$3(seriesModel).scope = colorScope;
+ });
+ ecModel.eachSeries(function (seriesModel) {
+ if (seriesModel.isColorBySeries() || ecModel.isSeriesFiltered(seriesModel)) {
+ return;
+ }
+ var dataAll = seriesModel.getRawData();
+ var idxMap = {};
+ var data = seriesModel.getData();
+ var colorScope = inner$3(seriesModel).scope;
+ var stylePath = seriesModel.visualStyleAccessPath || 'itemStyle';
+ var colorKey = getDefaultColorKey(seriesModel, stylePath);
+ data.each(function (idx) {
+ var rawIdx = data.getRawIndex(idx);
+ idxMap[rawIdx] = idx;
+ });
+ // Iterate on data before filtered. To make sure color from palette can be
+ // Consistent when toggling legend.
+ dataAll.each(function (rawIdx) {
+ var idx = idxMap[rawIdx];
+ var fromPalette = data.getItemVisual(idx, 'colorFromPalette');
+ // Get color from palette for each data only when the color is inherited from series color, which is
+ // also picked from color palette. So following situation is not in the case:
+ // 1. series.itemStyle.color is set
+ // 2. color is encoded by visualMap
+ if (fromPalette) {
+ var itemStyle = data.ensureUniqueItemVisual(idx, 'style');
+ var name_1 = dataAll.getName(rawIdx) || rawIdx + '';
+ var dataCount = dataAll.count();
+ itemStyle[colorKey] = seriesModel.getColorFromPalette(name_1, colorScope, dataCount);
+ }
+ });
+ });
+ }
+ };
+
+ var PI$3 = Math.PI;
+ /**
+ * @param {module:echarts/ExtensionAPI} api
+ * @param {Object} [opts]
+ * @param {string} [opts.text]
+ * @param {string} [opts.color]
+ * @param {string} [opts.textColor]
+ * @return {module:zrender/Element}
+ */
+ function defaultLoading(api, opts) {
+ opts = opts || {};
+ defaults(opts, {
+ text: 'loading',
+ textColor: '#000',
+ fontSize: 12,
+ fontWeight: 'normal',
+ fontStyle: 'normal',
+ fontFamily: 'sans-serif',
+ maskColor: 'rgba(255, 255, 255, 0.8)',
+ showSpinner: true,
+ color: '#5470c6',
+ spinnerRadius: 10,
+ lineWidth: 5,
+ zlevel: 0
+ });
+ var group = new Group();
+ var mask = new Rect({
+ style: {
+ fill: opts.maskColor
+ },
+ zlevel: opts.zlevel,
+ z: 10000
+ });
+ group.add(mask);
+ var textContent = new ZRText({
+ style: {
+ text: opts.text,
+ fill: opts.textColor,
+ fontSize: opts.fontSize,
+ fontWeight: opts.fontWeight,
+ fontStyle: opts.fontStyle,
+ fontFamily: opts.fontFamily
+ },
+ zlevel: opts.zlevel,
+ z: 10001
+ });
+ var labelRect = new Rect({
+ style: {
+ fill: 'none'
+ },
+ textContent: textContent,
+ textConfig: {
+ position: 'right',
+ distance: 10
+ },
+ zlevel: opts.zlevel,
+ z: 10001
+ });
+ group.add(labelRect);
+ var arc;
+ if (opts.showSpinner) {
+ arc = new Arc({
+ shape: {
+ startAngle: -PI$3 / 2,
+ endAngle: -PI$3 / 2 + 0.1,
+ r: opts.spinnerRadius
+ },
+ style: {
+ stroke: opts.color,
+ lineCap: 'round',
+ lineWidth: opts.lineWidth
+ },
+ zlevel: opts.zlevel,
+ z: 10001
+ });
+ arc.animateShape(true).when(1000, {
+ endAngle: PI$3 * 3 / 2
+ }).start('circularInOut');
+ arc.animateShape(true).when(1000, {
+ startAngle: PI$3 * 3 / 2
+ }).delay(300).start('circularInOut');
+ group.add(arc);
+ }
+ // Inject resize
+ group.resize = function () {
+ var textWidth = textContent.getBoundingRect().width;
+ var r = opts.showSpinner ? opts.spinnerRadius : 0;
+ // cx = (containerWidth - arcDiameter - textDistance - textWidth) / 2
+ // textDistance needs to be calculated when both animation and text exist
+ var cx = (api.getWidth() - r * 2 - (opts.showSpinner && textWidth ? 10 : 0) - textWidth) / 2 - (opts.showSpinner && textWidth ? 0 : 5 + textWidth / 2)
+ // only show the text
+ + (opts.showSpinner ? 0 : textWidth / 2)
+ // only show the spinner
+ + (textWidth ? 0 : r);
+ var cy = api.getHeight() / 2;
+ opts.showSpinner && arc.setShape({
+ cx: cx,
+ cy: cy
+ });
+ labelRect.setShape({
+ x: cx - r,
+ y: cy - r,
+ width: r * 2,
+ height: r * 2
+ });
+ mask.setShape({
+ x: 0,
+ y: 0,
+ width: api.getWidth(),
+ height: api.getHeight()
+ });
+ };
+ group.resize();
+ return group;
+ }
+
+ var Scheduler = /** @class */function () {
+ function Scheduler(ecInstance, api, dataProcessorHandlers, visualHandlers) {
+ // key: handlerUID
+ this._stageTaskMap = createHashMap();
+ this.ecInstance = ecInstance;
+ this.api = api;
+ // Fix current processors in case that in some rear cases that
+ // processors might be registered after echarts instance created.
+ // Register processors incrementally for a echarts instance is
+ // not supported by this stream architecture.
+ dataProcessorHandlers = this._dataProcessorHandlers = dataProcessorHandlers.slice();
+ visualHandlers = this._visualHandlers = visualHandlers.slice();
+ this._allHandlers = dataProcessorHandlers.concat(visualHandlers);
+ }
+ Scheduler.prototype.restoreData = function (ecModel, payload) {
+ // TODO: Only restore needed series and components, but not all components.
+ // Currently `restoreData` of all of the series and component will be called.
+ // But some independent components like `title`, `legend`, `graphic`, `toolbox`,
+ // `tooltip`, `axisPointer`, etc, do not need series refresh when `setOption`,
+ // and some components like coordinate system, axes, dataZoom, visualMap only
+ // need their target series refresh.
+ // (1) If we are implementing this feature some day, we should consider these cases:
+ // if a data processor depends on a component (e.g., dataZoomProcessor depends
+ // on the settings of `dataZoom`), it should be re-performed if the component
+ // is modified by `setOption`.
+ // (2) If a processor depends on sevral series, speicified by its `getTargetSeries`,
+ // it should be re-performed when the result array of `getTargetSeries` changed.
+ // We use `dependencies` to cover these issues.
+ // (3) How to update target series when coordinate system related components modified.
+ // TODO: simply the dirty mechanism? Check whether only the case here can set tasks dirty,
+ // and this case all of the tasks will be set as dirty.
+ ecModel.restoreData(payload);
+ // Theoretically an overall task not only depends on each of its target series, but also
+ // depends on all of the series.
+ // The overall task is not in pipeline, and `ecModel.restoreData` only set pipeline tasks
+ // dirty. If `getTargetSeries` of an overall task returns nothing, we should also ensure
+ // that the overall task is set as dirty and to be performed, otherwise it probably cause
+ // state chaos. So we have to set dirty of all of the overall tasks manually, otherwise it
+ // probably cause state chaos (consider `dataZoomProcessor`).
+ this._stageTaskMap.each(function (taskRecord) {
+ var overallTask = taskRecord.overallTask;
+ overallTask && overallTask.dirty();
+ });
+ };
+ // If seriesModel provided, incremental threshold is check by series data.
+ Scheduler.prototype.getPerformArgs = function (task, isBlock) {
+ // For overall task
+ if (!task.__pipeline) {
+ return;
+ }
+ var pipeline = this._pipelineMap.get(task.__pipeline.id);
+ var pCtx = pipeline.context;
+ var incremental = !isBlock && pipeline.progressiveEnabled && (!pCtx || pCtx.progressiveRender) && task.__idxInPipeline > pipeline.blockIndex;
+ var step = incremental ? pipeline.step : null;
+ var modDataCount = pCtx && pCtx.modDataCount;
+ var modBy = modDataCount != null ? Math.ceil(modDataCount / step) : null;
+ return {
+ step: step,
+ modBy: modBy,
+ modDataCount: modDataCount
+ };
+ };
+ Scheduler.prototype.getPipeline = function (pipelineId) {
+ return this._pipelineMap.get(pipelineId);
+ };
+ /**
+ * Current, progressive rendering starts from visual and layout.
+ * Always detect render mode in the same stage, avoiding that incorrect
+ * detection caused by data filtering.
+ * Caution:
+ * `updateStreamModes` use `seriesModel.getData()`.
+ */
+ Scheduler.prototype.updateStreamModes = function (seriesModel, view) {
+ var pipeline = this._pipelineMap.get(seriesModel.uid);
+ var data = seriesModel.getData();
+ var dataLen = data.count();
+ // `progressiveRender` means that can render progressively in each
+ // animation frame. Note that some types of series do not provide
+ // `view.incrementalPrepareRender` but support `chart.appendData`. We
+ // use the term `incremental` but not `progressive` to describe the
+ // case that `chart.appendData`.
+ var progressiveRender = pipeline.progressiveEnabled && view.incrementalPrepareRender && dataLen >= pipeline.threshold;
+ var large = seriesModel.get('large') && dataLen >= seriesModel.get('largeThreshold');
+ // TODO: modDataCount should not updated if `appendData`, otherwise cause whole repaint.
+ // see `test/candlestick-large3.html`
+ var modDataCount = seriesModel.get('progressiveChunkMode') === 'mod' ? dataLen : null;
+ seriesModel.pipelineContext = pipeline.context = {
+ progressiveRender: progressiveRender,
+ modDataCount: modDataCount,
+ large: large
+ };
+ };
+ Scheduler.prototype.restorePipelines = function (ecModel) {
+ var scheduler = this;
+ var pipelineMap = scheduler._pipelineMap = createHashMap();
+ ecModel.eachSeries(function (seriesModel) {
+ var progressive = seriesModel.getProgressive();
+ var pipelineId = seriesModel.uid;
+ pipelineMap.set(pipelineId, {
+ id: pipelineId,
+ head: null,
+ tail: null,
+ threshold: seriesModel.getProgressiveThreshold(),
+ progressiveEnabled: progressive && !(seriesModel.preventIncremental && seriesModel.preventIncremental()),
+ blockIndex: -1,
+ step: Math.round(progressive || 700),
+ count: 0
+ });
+ scheduler._pipe(seriesModel, seriesModel.dataTask);
+ });
+ };
+ Scheduler.prototype.prepareStageTasks = function () {
+ var stageTaskMap = this._stageTaskMap;
+ var ecModel = this.api.getModel();
+ var api = this.api;
+ each(this._allHandlers, function (handler) {
+ var record = stageTaskMap.get(handler.uid) || stageTaskMap.set(handler.uid, {});
+ var errMsg = '';
+ if ("development" !== 'production') {
+ // Currently do not need to support to sepecify them both.
+ errMsg = '"reset" and "overallReset" must not be both specified.';
+ }
+ assert(!(handler.reset && handler.overallReset), errMsg);
+ handler.reset && this._createSeriesStageTask(handler, record, ecModel, api);
+ handler.overallReset && this._createOverallStageTask(handler, record, ecModel, api);
+ }, this);
+ };
+ Scheduler.prototype.prepareView = function (view, model, ecModel, api) {
+ var renderTask = view.renderTask;
+ var context = renderTask.context;
+ context.model = model;
+ context.ecModel = ecModel;
+ context.api = api;
+ renderTask.__block = !view.incrementalPrepareRender;
+ this._pipe(model, renderTask);
+ };
+ Scheduler.prototype.performDataProcessorTasks = function (ecModel, payload) {
+ // If we do not use `block` here, it should be considered when to update modes.
+ this._performStageTasks(this._dataProcessorHandlers, ecModel, payload, {
+ block: true
+ });
+ };
+ Scheduler.prototype.performVisualTasks = function (ecModel, payload, opt) {
+ this._performStageTasks(this._visualHandlers, ecModel, payload, opt);
+ };
+ Scheduler.prototype._performStageTasks = function (stageHandlers, ecModel, payload, opt) {
+ opt = opt || {};
+ var unfinished = false;
+ var scheduler = this;
+ each(stageHandlers, function (stageHandler, idx) {
+ if (opt.visualType && opt.visualType !== stageHandler.visualType) {
+ return;
+ }
+ var stageHandlerRecord = scheduler._stageTaskMap.get(stageHandler.uid);
+ var seriesTaskMap = stageHandlerRecord.seriesTaskMap;
+ var overallTask = stageHandlerRecord.overallTask;
+ if (overallTask) {
+ var overallNeedDirty_1;
+ var agentStubMap = overallTask.agentStubMap;
+ agentStubMap.each(function (stub) {
+ if (needSetDirty(opt, stub)) {
+ stub.dirty();
+ overallNeedDirty_1 = true;
+ }
+ });
+ overallNeedDirty_1 && overallTask.dirty();
+ scheduler.updatePayload(overallTask, payload);
+ var performArgs_1 = scheduler.getPerformArgs(overallTask, opt.block);
+ // Execute stubs firstly, which may set the overall task dirty,
+ // then execute the overall task. And stub will call seriesModel.setData,
+ // which ensures that in the overallTask seriesModel.getData() will not
+ // return incorrect data.
+ agentStubMap.each(function (stub) {
+ stub.perform(performArgs_1);
+ });
+ if (overallTask.perform(performArgs_1)) {
+ unfinished = true;
+ }
+ } else if (seriesTaskMap) {
+ seriesTaskMap.each(function (task, pipelineId) {
+ if (needSetDirty(opt, task)) {
+ task.dirty();
+ }
+ var performArgs = scheduler.getPerformArgs(task, opt.block);
+ // FIXME
+ // if intending to declare `performRawSeries` in handlers, only
+ // stream-independent (specifically, data item independent) operations can be
+ // performed. Because if a series is filtered, most of the tasks will not
+ // be performed. A stream-dependent operation probably cause wrong biz logic.
+ // Perhaps we should not provide a separate callback for this case instead
+ // of providing the config `performRawSeries`. The stream-dependent operations
+ // and stream-independent operations should better not be mixed.
+ performArgs.skip = !stageHandler.performRawSeries && ecModel.isSeriesFiltered(task.context.model);
+ scheduler.updatePayload(task, payload);
+ if (task.perform(performArgs)) {
+ unfinished = true;
+ }
+ });
+ }
+ });
+ function needSetDirty(opt, task) {
+ return opt.setDirty && (!opt.dirtyMap || opt.dirtyMap.get(task.__pipeline.id));
+ }
+ this.unfinished = unfinished || this.unfinished;
+ };
+ Scheduler.prototype.performSeriesTasks = function (ecModel) {
+ var unfinished;
+ ecModel.eachSeries(function (seriesModel) {
+ // Progress to the end for dataInit and dataRestore.
+ unfinished = seriesModel.dataTask.perform() || unfinished;
+ });
+ this.unfinished = unfinished || this.unfinished;
+ };
+ Scheduler.prototype.plan = function () {
+ // Travel pipelines, check block.
+ this._pipelineMap.each(function (pipeline) {
+ var task = pipeline.tail;
+ do {
+ if (task.__block) {
+ pipeline.blockIndex = task.__idxInPipeline;
+ break;
+ }
+ task = task.getUpstream();
+ } while (task);
+ });
+ };
+ Scheduler.prototype.updatePayload = function (task, payload) {
+ payload !== 'remain' && (task.context.payload = payload);
+ };
+ Scheduler.prototype._createSeriesStageTask = function (stageHandler, stageHandlerRecord, ecModel, api) {
+ var scheduler = this;
+ var oldSeriesTaskMap = stageHandlerRecord.seriesTaskMap;
+ // The count of stages are totally about only several dozen, so
+ // do not need to reuse the map.
+ var newSeriesTaskMap = stageHandlerRecord.seriesTaskMap = createHashMap();
+ var seriesType = stageHandler.seriesType;
+ var getTargetSeries = stageHandler.getTargetSeries;
+ // If a stageHandler should cover all series, `createOnAllSeries` should be declared mandatorily,
+ // to avoid some typo or abuse. Otherwise if an extension do not specify a `seriesType`,
+ // it works but it may cause other irrelevant charts blocked.
+ if (stageHandler.createOnAllSeries) {
+ ecModel.eachRawSeries(create);
+ } else if (seriesType) {
+ ecModel.eachRawSeriesByType(seriesType, create);
+ } else if (getTargetSeries) {
+ getTargetSeries(ecModel, api).each(create);
+ }
+ function create(seriesModel) {
+ var pipelineId = seriesModel.uid;
+ // Init tasks for each seriesModel only once.
+ // Reuse original task instance.
+ var task = newSeriesTaskMap.set(pipelineId, oldSeriesTaskMap && oldSeriesTaskMap.get(pipelineId) || createTask({
+ plan: seriesTaskPlan,
+ reset: seriesTaskReset,
+ count: seriesTaskCount
+ }));
+ task.context = {
+ model: seriesModel,
+ ecModel: ecModel,
+ api: api,
+ // PENDING: `useClearVisual` not used?
+ useClearVisual: stageHandler.isVisual && !stageHandler.isLayout,
+ plan: stageHandler.plan,
+ reset: stageHandler.reset,
+ scheduler: scheduler
+ };
+ scheduler._pipe(seriesModel, task);
+ }
+ };
+ Scheduler.prototype._createOverallStageTask = function (stageHandler, stageHandlerRecord, ecModel, api) {
+ var scheduler = this;
+ var overallTask = stageHandlerRecord.overallTask = stageHandlerRecord.overallTask
+ // For overall task, the function only be called on reset stage.
+ || createTask({
+ reset: overallTaskReset
+ });
+ overallTask.context = {
+ ecModel: ecModel,
+ api: api,
+ overallReset: stageHandler.overallReset,
+ scheduler: scheduler
+ };
+ var oldAgentStubMap = overallTask.agentStubMap;
+ // The count of stages are totally about only several dozen, so
+ // do not need to reuse the map.
+ var newAgentStubMap = overallTask.agentStubMap = createHashMap();
+ var seriesType = stageHandler.seriesType;
+ var getTargetSeries = stageHandler.getTargetSeries;
+ var overallProgress = true;
+ var shouldOverallTaskDirty = false;
+ // FIXME:TS never used, so comment it
+ // let modifyOutputEnd = stageHandler.modifyOutputEnd;
+ // An overall task with seriesType detected or has `getTargetSeries`, we add
+ // stub in each pipelines, it will set the overall task dirty when the pipeline
+ // progress. Moreover, to avoid call the overall task each frame (too frequent),
+ // we set the pipeline block.
+ var errMsg = '';
+ if ("development" !== 'production') {
+ errMsg = '"createOnAllSeries" is not supported for "overallReset", ' + 'because it will block all streams.';
+ }
+ assert(!stageHandler.createOnAllSeries, errMsg);
+ if (seriesType) {
+ ecModel.eachRawSeriesByType(seriesType, createStub);
+ } else if (getTargetSeries) {
+ getTargetSeries(ecModel, api).each(createStub);
+ }
+ // Otherwise, (usually it is legacy case), the overall task will only be
+ // executed when upstream is dirty. Otherwise the progressive rendering of all
+ // pipelines will be disabled unexpectedly. But it still needs stubs to receive
+ // dirty info from upstream.
+ else {
+ overallProgress = false;
+ each(ecModel.getSeries(), createStub);
+ }
+ function createStub(seriesModel) {
+ var pipelineId = seriesModel.uid;
+ var stub = newAgentStubMap.set(pipelineId, oldAgentStubMap && oldAgentStubMap.get(pipelineId) || (
+ // When the result of `getTargetSeries` changed, the overallTask
+ // should be set as dirty and re-performed.
+ shouldOverallTaskDirty = true, createTask({
+ reset: stubReset,
+ onDirty: stubOnDirty
+ })));
+ stub.context = {
+ model: seriesModel,
+ overallProgress: overallProgress
+ // FIXME:TS never used, so comment it
+ // modifyOutputEnd: modifyOutputEnd
+ };
+
+ stub.agent = overallTask;
+ stub.__block = overallProgress;
+ scheduler._pipe(seriesModel, stub);
+ }
+ if (shouldOverallTaskDirty) {
+ overallTask.dirty();
+ }
+ };
+ Scheduler.prototype._pipe = function (seriesModel, task) {
+ var pipelineId = seriesModel.uid;
+ var pipeline = this._pipelineMap.get(pipelineId);
+ !pipeline.head && (pipeline.head = task);
+ pipeline.tail && pipeline.tail.pipe(task);
+ pipeline.tail = task;
+ task.__idxInPipeline = pipeline.count++;
+ task.__pipeline = pipeline;
+ };
+ Scheduler.wrapStageHandler = function (stageHandler, visualType) {
+ if (isFunction(stageHandler)) {
+ stageHandler = {
+ overallReset: stageHandler,
+ seriesType: detectSeriseType(stageHandler)
+ };
+ }
+ stageHandler.uid = getUID('stageHandler');
+ visualType && (stageHandler.visualType = visualType);
+ return stageHandler;
+ };
+ return Scheduler;
+ }();
+ function overallTaskReset(context) {
+ context.overallReset(context.ecModel, context.api, context.payload);
+ }
+ function stubReset(context) {
+ return context.overallProgress && stubProgress;
+ }
+ function stubProgress() {
+ this.agent.dirty();
+ this.getDownstream().dirty();
+ }
+ function stubOnDirty() {
+ this.agent && this.agent.dirty();
+ }
+ function seriesTaskPlan(context) {
+ return context.plan ? context.plan(context.model, context.ecModel, context.api, context.payload) : null;
+ }
+ function seriesTaskReset(context) {
+ if (context.useClearVisual) {
+ context.data.clearAllVisual();
+ }
+ var resetDefines = context.resetDefines = normalizeToArray(context.reset(context.model, context.ecModel, context.api, context.payload));
+ return resetDefines.length > 1 ? map(resetDefines, function (v, idx) {
+ return makeSeriesTaskProgress(idx);
+ }) : singleSeriesTaskProgress;
+ }
+ var singleSeriesTaskProgress = makeSeriesTaskProgress(0);
+ function makeSeriesTaskProgress(resetDefineIdx) {
+ return function (params, context) {
+ var data = context.data;
+ var resetDefine = context.resetDefines[resetDefineIdx];
+ if (resetDefine && resetDefine.dataEach) {
+ for (var i = params.start; i < params.end; i++) {
+ resetDefine.dataEach(data, i);
+ }
+ } else if (resetDefine && resetDefine.progress) {
+ resetDefine.progress(params, data);
+ }
+ };
+ }
+ function seriesTaskCount(context) {
+ return context.data.count();
+ }
+ /**
+ * Only some legacy stage handlers (usually in echarts extensions) are pure function.
+ * To ensure that they can work normally, they should work in block mode, that is,
+ * they should not be started util the previous tasks finished. So they cause the
+ * progressive rendering disabled. We try to detect the series type, to narrow down
+ * the block range to only the series type they concern, but not all series.
+ */
+ function detectSeriseType(legacyFunc) {
+ seriesType = null;
+ try {
+ // Assume there is no async when calling `eachSeriesByType`.
+ legacyFunc(ecModelMock, apiMock);
+ } catch (e) {}
+ return seriesType;
+ }
+ var ecModelMock = {};
+ var apiMock = {};
+ var seriesType;
+ mockMethods(ecModelMock, GlobalModel);
+ mockMethods(apiMock, ExtensionAPI);
+ ecModelMock.eachSeriesByType = ecModelMock.eachRawSeriesByType = function (type) {
+ seriesType = type;
+ };
+ ecModelMock.eachComponent = function (cond) {
+ if (cond.mainType === 'series' && cond.subType) {
+ seriesType = cond.subType;
+ }
+ };
+ function mockMethods(target, Clz) {
+ /* eslint-disable */
+ for (var name_1 in Clz.prototype) {
+ // Do not use hasOwnProperty
+ target[name_1] = noop;
+ }
+ /* eslint-enable */
+ }
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+
+
+ /**
+ * AUTO-GENERATED FILE. DO NOT MODIFY.
+ */
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+ var colorAll = ['#37A2DA', '#32C5E9', '#67E0E3', '#9FE6B8', '#FFDB5C', '#ff9f7f', '#fb7293', '#E062AE', '#E690D1', '#e7bcf3', '#9d96f5', '#8378EA', '#96BFFF'];
+ var lightTheme = {
+ color: colorAll,
+ colorLayer: [['#37A2DA', '#ffd85c', '#fd7b5f'], ['#37A2DA', '#67E0E3', '#FFDB5C', '#ff9f7f', '#E062AE', '#9d96f5'], ['#37A2DA', '#32C5E9', '#9FE6B8', '#FFDB5C', '#ff9f7f', '#fb7293', '#e7bcf3', '#8378EA', '#96BFFF'], colorAll]
+ };
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+
+
+ /**
+ * AUTO-GENERATED FILE. DO NOT MODIFY.
+ */
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+ var contrastColor = '#B9B8CE';
+ var backgroundColor = '#100C2A';
+ var axisCommon = function () {
+ return {
+ axisLine: {
+ lineStyle: {
+ color: contrastColor
+ }
+ },
+ splitLine: {
+ lineStyle: {
+ color: '#484753'
+ }
+ },
+ splitArea: {
+ areaStyle: {
+ color: ['rgba(255,255,255,0.02)', 'rgba(255,255,255,0.05)']
+ }
+ },
+ minorSplitLine: {
+ lineStyle: {
+ color: '#20203B'
+ }
+ }
+ };
+ };
+ var colorPalette = ['#4992ff', '#7cffb2', '#fddd60', '#ff6e76', '#58d9f9', '#05c091', '#ff8a45', '#8d48e3', '#dd79ff'];
+ var theme = {
+ darkMode: true,
+ color: colorPalette,
+ backgroundColor: backgroundColor,
+ axisPointer: {
+ lineStyle: {
+ color: '#817f91'
+ },
+ crossStyle: {
+ color: '#817f91'
+ },
+ label: {
+ // TODO Contrast of label backgorundColor
+ color: '#fff'
+ }
+ },
+ legend: {
+ textStyle: {
+ color: contrastColor
+ }
+ },
+ textStyle: {
+ color: contrastColor
+ },
+ title: {
+ textStyle: {
+ color: '#EEF1FA'
+ },
+ subtextStyle: {
+ color: '#B9B8CE'
+ }
+ },
+ toolbox: {
+ iconStyle: {
+ borderColor: contrastColor
+ }
+ },
+ dataZoom: {
+ borderColor: '#71708A',
+ textStyle: {
+ color: contrastColor
+ },
+ brushStyle: {
+ color: 'rgba(135,163,206,0.3)'
+ },
+ handleStyle: {
+ color: '#353450',
+ borderColor: '#C5CBE3'
+ },
+ moveHandleStyle: {
+ color: '#B0B6C3',
+ opacity: 0.3
+ },
+ fillerColor: 'rgba(135,163,206,0.2)',
+ emphasis: {
+ handleStyle: {
+ borderColor: '#91B7F2',
+ color: '#4D587D'
+ },
+ moveHandleStyle: {
+ color: '#636D9A',
+ opacity: 0.7
+ }
+ },
+ dataBackground: {
+ lineStyle: {
+ color: '#71708A',
+ width: 1
+ },
+ areaStyle: {
+ color: '#71708A'
+ }
+ },
+ selectedDataBackground: {
+ lineStyle: {
+ color: '#87A3CE'
+ },
+ areaStyle: {
+ color: '#87A3CE'
+ }
+ }
+ },
+ visualMap: {
+ textStyle: {
+ color: contrastColor
+ }
+ },
+ timeline: {
+ lineStyle: {
+ color: contrastColor
+ },
+ label: {
+ color: contrastColor
+ },
+ controlStyle: {
+ color: contrastColor,
+ borderColor: contrastColor
+ }
+ },
+ calendar: {
+ itemStyle: {
+ color: backgroundColor
+ },
+ dayLabel: {
+ color: contrastColor
+ },
+ monthLabel: {
+ color: contrastColor
+ },
+ yearLabel: {
+ color: contrastColor
+ }
+ },
+ timeAxis: axisCommon(),
+ logAxis: axisCommon(),
+ valueAxis: axisCommon(),
+ categoryAxis: axisCommon(),
+ line: {
+ symbol: 'circle'
+ },
+ graph: {
+ color: colorPalette
+ },
+ gauge: {
+ title: {
+ color: contrastColor
+ },
+ axisLine: {
+ lineStyle: {
+ color: [[1, 'rgba(207,212,219,0.2)']]
+ }
+ },
+ axisLabel: {
+ color: contrastColor
+ },
+ detail: {
+ color: '#EEF1FA'
+ }
+ },
+ candlestick: {
+ itemStyle: {
+ color: '#f64e56',
+ color0: '#54ea92',
+ borderColor: '#f64e56',
+ borderColor0: '#54ea92'
+ // borderColor: '#ca2824',
+ // borderColor0: '#09a443'
+ }
+ }
+ };
+
+ theme.categoryAxis.splitLine.show = false;
+
+ /**
+ * Usage of query:
+ * `chart.on('click', query, handler);`
+ * The `query` can be:
+ * + The component type query string, only `mainType` or `mainType.subType`,
+ * like: 'xAxis', 'series', 'xAxis.category' or 'series.line'.
+ * + The component query object, like:
+ * `{seriesIndex: 2}`, `{seriesName: 'xx'}`, `{seriesId: 'some'}`,
+ * `{xAxisIndex: 2}`, `{xAxisName: 'xx'}`, `{xAxisId: 'some'}`.
+ * + The data query object, like:
+ * `{dataIndex: 123}`, `{dataType: 'link'}`, `{name: 'some'}`.
+ * + The other query object (cmponent customized query), like:
+ * `{element: 'some'}` (only available in custom series).
+ *
+ * Caveat: If a prop in the `query` object is `null/undefined`, it is the
+ * same as there is no such prop in the `query` object.
+ */
+ var ECEventProcessor = /** @class */function () {
+ function ECEventProcessor() {}
+ ECEventProcessor.prototype.normalizeQuery = function (query) {
+ var cptQuery = {};
+ var dataQuery = {};
+ var otherQuery = {};
+ // `query` is `mainType` or `mainType.subType` of component.
+ if (isString(query)) {
+ var condCptType = parseClassType(query);
+ // `.main` and `.sub` may be ''.
+ cptQuery.mainType = condCptType.main || null;
+ cptQuery.subType = condCptType.sub || null;
+ }
+ // `query` is an object, convert to {mainType, index, name, id}.
+ else {
+ // `xxxIndex`, `xxxName`, `xxxId`, `name`, `dataIndex`, `dataType` is reserved,
+ // can not be used in `compomentModel.filterForExposedEvent`.
+ var suffixes_1 = ['Index', 'Name', 'Id'];
+ var dataKeys_1 = {
+ name: 1,
+ dataIndex: 1,
+ dataType: 1
+ };
+ each(query, function (val, key) {
+ var reserved = false;
+ for (var i = 0; i < suffixes_1.length; i++) {
+ var propSuffix = suffixes_1[i];
+ var suffixPos = key.lastIndexOf(propSuffix);
+ if (suffixPos > 0 && suffixPos === key.length - propSuffix.length) {
+ var mainType = key.slice(0, suffixPos);
+ // Consider `dataIndex`.
+ if (mainType !== 'data') {
+ cptQuery.mainType = mainType;
+ cptQuery[propSuffix.toLowerCase()] = val;
+ reserved = true;
+ }
+ }
+ }
+ if (dataKeys_1.hasOwnProperty(key)) {
+ dataQuery[key] = val;
+ reserved = true;
+ }
+ if (!reserved) {
+ otherQuery[key] = val;
+ }
+ });
+ }
+ return {
+ cptQuery: cptQuery,
+ dataQuery: dataQuery,
+ otherQuery: otherQuery
+ };
+ };
+ ECEventProcessor.prototype.filter = function (eventType, query) {
+ // They should be assigned before each trigger call.
+ var eventInfo = this.eventInfo;
+ if (!eventInfo) {
+ return true;
+ }
+ var targetEl = eventInfo.targetEl;
+ var packedEvent = eventInfo.packedEvent;
+ var model = eventInfo.model;
+ var view = eventInfo.view;
+ // For event like 'globalout'.
+ if (!model || !view) {
+ return true;
+ }
+ var cptQuery = query.cptQuery;
+ var dataQuery = query.dataQuery;
+ return check(cptQuery, model, 'mainType') && check(cptQuery, model, 'subType') && check(cptQuery, model, 'index', 'componentIndex') && check(cptQuery, model, 'name') && check(cptQuery, model, 'id') && check(dataQuery, packedEvent, 'name') && check(dataQuery, packedEvent, 'dataIndex') && check(dataQuery, packedEvent, 'dataType') && (!view.filterForExposedEvent || view.filterForExposedEvent(eventType, query.otherQuery, targetEl, packedEvent));
+ function check(query, host, prop, propOnHost) {
+ return query[prop] == null || host[propOnHost || prop] === query[prop];
+ }
+ };
+ ECEventProcessor.prototype.afterTrigger = function () {
+ // Make sure the eventInfo won't be used in next trigger.
+ this.eventInfo = null;
+ };
+ return ECEventProcessor;
+ }();
+
+ var SYMBOL_PROPS_WITH_CB = ['symbol', 'symbolSize', 'symbolRotate', 'symbolOffset'];
+ var SYMBOL_PROPS = SYMBOL_PROPS_WITH_CB.concat(['symbolKeepAspect']);
+ // Encoding visual for all series include which is filtered for legend drawing
+ var seriesSymbolTask = {
+ createOnAllSeries: true,
+ // For legend.
+ performRawSeries: true,
+ reset: function (seriesModel, ecModel) {
+ var data = seriesModel.getData();
+ if (seriesModel.legendIcon) {
+ data.setVisual('legendIcon', seriesModel.legendIcon);
+ }
+ if (!seriesModel.hasSymbolVisual) {
+ return;
+ }
+ var symbolOptions = {};
+ var symbolOptionsCb = {};
+ var hasCallback = false;
+ for (var i = 0; i < SYMBOL_PROPS_WITH_CB.length; i++) {
+ var symbolPropName = SYMBOL_PROPS_WITH_CB[i];
+ var val = seriesModel.get(symbolPropName);
+ if (isFunction(val)) {
+ hasCallback = true;
+ symbolOptionsCb[symbolPropName] = val;
+ } else {
+ symbolOptions[symbolPropName] = val;
+ }
+ }
+ symbolOptions.symbol = symbolOptions.symbol || seriesModel.defaultSymbol;
+ data.setVisual(extend({
+ legendIcon: seriesModel.legendIcon || symbolOptions.symbol,
+ symbolKeepAspect: seriesModel.get('symbolKeepAspect')
+ }, symbolOptions));
+ // Only visible series has each data be visual encoded
+ if (ecModel.isSeriesFiltered(seriesModel)) {
+ return;
+ }
+ var symbolPropsCb = keys(symbolOptionsCb);
+ function dataEach(data, idx) {
+ var rawValue = seriesModel.getRawValue(idx);
+ var params = seriesModel.getDataParams(idx);
+ for (var i = 0; i < symbolPropsCb.length; i++) {
+ var symbolPropName = symbolPropsCb[i];
+ data.setItemVisual(idx, symbolPropName, symbolOptionsCb[symbolPropName](rawValue, params));
+ }
+ }
+ return {
+ dataEach: hasCallback ? dataEach : null
+ };
+ }
+ };
+ var dataSymbolTask = {
+ createOnAllSeries: true,
+ // For legend.
+ performRawSeries: true,
+ reset: function (seriesModel, ecModel) {
+ if (!seriesModel.hasSymbolVisual) {
+ return;
+ }
+ // Only visible series has each data be visual encoded
+ if (ecModel.isSeriesFiltered(seriesModel)) {
+ return;
+ }
+ var data = seriesModel.getData();
+ function dataEach(data, idx) {
+ var itemModel = data.getItemModel(idx);
+ for (var i = 0; i < SYMBOL_PROPS.length; i++) {
+ var symbolPropName = SYMBOL_PROPS[i];
+ var val = itemModel.getShallow(symbolPropName, true);
+ if (val != null) {
+ data.setItemVisual(idx, symbolPropName, val);
+ }
+ }
+ }
+ return {
+ dataEach: data.hasItemOption ? dataEach : null
+ };
+ }
+ };
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+
+
+ /**
+ * AUTO-GENERATED FILE. DO NOT MODIFY.
+ */
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+ function getItemVisualFromData(data, dataIndex, key) {
+ switch (key) {
+ case 'color':
+ var style = data.getItemVisual(dataIndex, 'style');
+ return style[data.getVisual('drawType')];
+ case 'opacity':
+ return data.getItemVisual(dataIndex, 'style').opacity;
+ case 'symbol':
+ case 'symbolSize':
+ case 'liftZ':
+ return data.getItemVisual(dataIndex, key);
+ default:
+ if ("development" !== 'production') {
+ console.warn("Unknown visual type " + key);
+ }
+ }
+ }
+ function getVisualFromData(data, key) {
+ switch (key) {
+ case 'color':
+ var style = data.getVisual('style');
+ return style[data.getVisual('drawType')];
+ case 'opacity':
+ return data.getVisual('style').opacity;
+ case 'symbol':
+ case 'symbolSize':
+ case 'liftZ':
+ return data.getVisual(key);
+ default:
+ if ("development" !== 'production') {
+ console.warn("Unknown visual type " + key);
+ }
+ }
+ }
+ function setItemVisualFromData(data, dataIndex, key, value) {
+ switch (key) {
+ case 'color':
+ // Make sure not sharing style object.
+ var style = data.ensureUniqueItemVisual(dataIndex, 'style');
+ style[data.getVisual('drawType')] = value;
+ // Mark the color has been changed, not from palette anymore
+ data.setItemVisual(dataIndex, 'colorFromPalette', false);
+ break;
+ case 'opacity':
+ data.ensureUniqueItemVisual(dataIndex, 'style').opacity = value;
+ break;
+ case 'symbol':
+ case 'symbolSize':
+ case 'liftZ':
+ data.setItemVisual(dataIndex, key, value);
+ break;
+ default:
+ if ("development" !== 'production') {
+ console.warn("Unknown visual type " + key);
+ }
+ }
+ }
+
+ // Legacy data selection action.
+ // Includes: pieSelect, pieUnSelect, pieToggleSelect, mapSelect, mapUnSelect, mapToggleSelect
+ function createLegacyDataSelectAction(seriesType, ecRegisterAction) {
+ function getSeriesIndices(ecModel, payload) {
+ var seriesIndices = [];
+ ecModel.eachComponent({
+ mainType: 'series',
+ subType: seriesType,
+ query: payload
+ }, function (seriesModel) {
+ seriesIndices.push(seriesModel.seriesIndex);
+ });
+ return seriesIndices;
+ }
+ each([[seriesType + 'ToggleSelect', 'toggleSelect'], [seriesType + 'Select', 'select'], [seriesType + 'UnSelect', 'unselect']], function (eventsMap) {
+ ecRegisterAction(eventsMap[0], function (payload, ecModel, api) {
+ payload = extend({}, payload);
+ if ("development" !== 'production') {
+ deprecateReplaceLog(payload.type, eventsMap[1]);
+ }
+ api.dispatchAction(extend(payload, {
+ type: eventsMap[1],
+ seriesIndex: getSeriesIndices(ecModel, payload)
+ }));
+ });
+ });
+ }
+ function handleSeriesLegacySelectEvents(type, eventPostfix, ecIns, ecModel, payload) {
+ var legacyEventName = type + eventPostfix;
+ if (!ecIns.isSilent(legacyEventName)) {
+ if ("development" !== 'production') {
+ deprecateLog("event " + legacyEventName + " is deprecated.");
+ }
+ ecModel.eachComponent({
+ mainType: 'series',
+ subType: 'pie'
+ }, function (seriesModel) {
+ var seriesIndex = seriesModel.seriesIndex;
+ var selectedMap = seriesModel.option.selectedMap;
+ var selected = payload.selected;
+ for (var i = 0; i < selected.length; i++) {
+ if (selected[i].seriesIndex === seriesIndex) {
+ var data = seriesModel.getData();
+ var dataIndex = queryDataIndex(data, payload.fromActionPayload);
+ ecIns.trigger(legacyEventName, {
+ type: legacyEventName,
+ seriesId: seriesModel.id,
+ name: isArray(dataIndex) ? data.getName(dataIndex[0]) : data.getName(dataIndex),
+ selected: isString(selectedMap) ? selectedMap : extend({}, selectedMap)
+ });
+ }
+ }
+ });
+ }
+ }
+ function handleLegacySelectEvents(messageCenter, ecIns, api) {
+ messageCenter.on('selectchanged', function (params) {
+ var ecModel = api.getModel();
+ if (params.isFromClick) {
+ handleSeriesLegacySelectEvents('map', 'selectchanged', ecIns, ecModel, params);
+ handleSeriesLegacySelectEvents('pie', 'selectchanged', ecIns, ecModel, params);
+ } else if (params.fromAction === 'select') {
+ handleSeriesLegacySelectEvents('map', 'selected', ecIns, ecModel, params);
+ handleSeriesLegacySelectEvents('pie', 'selected', ecIns, ecModel, params);
+ } else if (params.fromAction === 'unselect') {
+ handleSeriesLegacySelectEvents('map', 'unselected', ecIns, ecModel, params);
+ handleSeriesLegacySelectEvents('pie', 'unselected', ecIns, ecModel, params);
+ }
+ });
+ }
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+
+
+ /**
+ * AUTO-GENERATED FILE. DO NOT MODIFY.
+ */
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+ function findEventDispatcher(target, det, returnFirstMatch) {
+ var found;
+ while (target) {
+ if (det(target)) {
+ found = target;
+ if (returnFirstMatch) {
+ break;
+ }
+ }
+ target = target.__hostTarget || target.parent;
+ }
+ return found;
+ }
+
+ var wmUniqueIndex = Math.round(Math.random() * 9);
+ var supportDefineProperty = typeof Object.defineProperty === 'function';
+ var WeakMap = (function () {
+ function WeakMap() {
+ this._id = '__ec_inner_' + wmUniqueIndex++;
+ }
+ WeakMap.prototype.get = function (key) {
+ return this._guard(key)[this._id];
+ };
+ WeakMap.prototype.set = function (key, value) {
+ var target = this._guard(key);
+ if (supportDefineProperty) {
+ Object.defineProperty(target, this._id, {
+ value: value,
+ enumerable: false,
+ configurable: true
+ });
+ }
+ else {
+ target[this._id] = value;
+ }
+ return this;
+ };
+ WeakMap.prototype["delete"] = function (key) {
+ if (this.has(key)) {
+ delete this._guard(key)[this._id];
+ return true;
+ }
+ return false;
+ };
+ WeakMap.prototype.has = function (key) {
+ return !!this._guard(key)[this._id];
+ };
+ WeakMap.prototype._guard = function (key) {
+ if (key !== Object(key)) {
+ throw TypeError('Value of WeakMap is not a non-null object.');
+ }
+ return key;
+ };
+ return WeakMap;
+ }());
+
+ /**
+ * Triangle shape
+ * @inner
+ */
+ var Triangle = Path.extend({
+ type: 'triangle',
+ shape: {
+ cx: 0,
+ cy: 0,
+ width: 0,
+ height: 0
+ },
+ buildPath: function (path, shape) {
+ var cx = shape.cx;
+ var cy = shape.cy;
+ var width = shape.width / 2;
+ var height = shape.height / 2;
+ path.moveTo(cx, cy - height);
+ path.lineTo(cx + width, cy + height);
+ path.lineTo(cx - width, cy + height);
+ path.closePath();
+ }
+ });
+ /**
+ * Diamond shape
+ * @inner
+ */
+ var Diamond = Path.extend({
+ type: 'diamond',
+ shape: {
+ cx: 0,
+ cy: 0,
+ width: 0,
+ height: 0
+ },
+ buildPath: function (path, shape) {
+ var cx = shape.cx;
+ var cy = shape.cy;
+ var width = shape.width / 2;
+ var height = shape.height / 2;
+ path.moveTo(cx, cy - height);
+ path.lineTo(cx + width, cy);
+ path.lineTo(cx, cy + height);
+ path.lineTo(cx - width, cy);
+ path.closePath();
+ }
+ });
+ /**
+ * Pin shape
+ * @inner
+ */
+ var Pin = Path.extend({
+ type: 'pin',
+ shape: {
+ // x, y on the cusp
+ x: 0,
+ y: 0,
+ width: 0,
+ height: 0
+ },
+ buildPath: function (path, shape) {
+ var x = shape.x;
+ var y = shape.y;
+ var w = shape.width / 5 * 3;
+ // Height must be larger than width
+ var h = Math.max(w, shape.height);
+ var r = w / 2;
+ // Dist on y with tangent point and circle center
+ var dy = r * r / (h - r);
+ var cy = y - h + r + dy;
+ var angle = Math.asin(dy / r);
+ // Dist on x with tangent point and circle center
+ var dx = Math.cos(angle) * r;
+ var tanX = Math.sin(angle);
+ var tanY = Math.cos(angle);
+ var cpLen = r * 0.6;
+ var cpLen2 = r * 0.7;
+ path.moveTo(x - dx, cy + dy);
+ path.arc(x, cy, r, Math.PI - angle, Math.PI * 2 + angle);
+ path.bezierCurveTo(x + dx - tanX * cpLen, cy + dy + tanY * cpLen, x, y - cpLen2, x, y);
+ path.bezierCurveTo(x, y - cpLen2, x - dx + tanX * cpLen, cy + dy + tanY * cpLen, x - dx, cy + dy);
+ path.closePath();
+ }
+ });
+ /**
+ * Arrow shape
+ * @inner
+ */
+ var Arrow = Path.extend({
+ type: 'arrow',
+ shape: {
+ x: 0,
+ y: 0,
+ width: 0,
+ height: 0
+ },
+ buildPath: function (ctx, shape) {
+ var height = shape.height;
+ var width = shape.width;
+ var x = shape.x;
+ var y = shape.y;
+ var dx = width / 3 * 2;
+ ctx.moveTo(x, y);
+ ctx.lineTo(x + dx, y + height);
+ ctx.lineTo(x, y + height / 4 * 3);
+ ctx.lineTo(x - dx, y + height);
+ ctx.lineTo(x, y);
+ ctx.closePath();
+ }
+ });
+ /**
+ * Map of path constructors
+ */
+ // TODO Use function to build symbol path.
+ var symbolCtors = {
+ line: Line,
+ rect: Rect,
+ roundRect: Rect,
+ square: Rect,
+ circle: Circle,
+ diamond: Diamond,
+ pin: Pin,
+ arrow: Arrow,
+ triangle: Triangle
+ };
+ var symbolShapeMakers = {
+ line: function (x, y, w, h, shape) {
+ shape.x1 = x;
+ shape.y1 = y + h / 2;
+ shape.x2 = x + w;
+ shape.y2 = y + h / 2;
+ },
+ rect: function (x, y, w, h, shape) {
+ shape.x = x;
+ shape.y = y;
+ shape.width = w;
+ shape.height = h;
+ },
+ roundRect: function (x, y, w, h, shape) {
+ shape.x = x;
+ shape.y = y;
+ shape.width = w;
+ shape.height = h;
+ shape.r = Math.min(w, h) / 4;
+ },
+ square: function (x, y, w, h, shape) {
+ var size = Math.min(w, h);
+ shape.x = x;
+ shape.y = y;
+ shape.width = size;
+ shape.height = size;
+ },
+ circle: function (x, y, w, h, shape) {
+ // Put circle in the center of square
+ shape.cx = x + w / 2;
+ shape.cy = y + h / 2;
+ shape.r = Math.min(w, h) / 2;
+ },
+ diamond: function (x, y, w, h, shape) {
+ shape.cx = x + w / 2;
+ shape.cy = y + h / 2;
+ shape.width = w;
+ shape.height = h;
+ },
+ pin: function (x, y, w, h, shape) {
+ shape.x = x + w / 2;
+ shape.y = y + h / 2;
+ shape.width = w;
+ shape.height = h;
+ },
+ arrow: function (x, y, w, h, shape) {
+ shape.x = x + w / 2;
+ shape.y = y + h / 2;
+ shape.width = w;
+ shape.height = h;
+ },
+ triangle: function (x, y, w, h, shape) {
+ shape.cx = x + w / 2;
+ shape.cy = y + h / 2;
+ shape.width = w;
+ shape.height = h;
+ }
+ };
+ var symbolBuildProxies = {};
+ each(symbolCtors, function (Ctor, name) {
+ symbolBuildProxies[name] = new Ctor();
+ });
+ var SymbolClz = Path.extend({
+ type: 'symbol',
+ shape: {
+ symbolType: '',
+ x: 0,
+ y: 0,
+ width: 0,
+ height: 0
+ },
+ calculateTextPosition: function (out, config, rect) {
+ var res = calculateTextPosition(out, config, rect);
+ var shape = this.shape;
+ if (shape && shape.symbolType === 'pin' && config.position === 'inside') {
+ res.y = rect.y + rect.height * 0.4;
+ }
+ return res;
+ },
+ buildPath: function (ctx, shape, inBundle) {
+ var symbolType = shape.symbolType;
+ if (symbolType !== 'none') {
+ var proxySymbol = symbolBuildProxies[symbolType];
+ if (!proxySymbol) {
+ // Default rect
+ symbolType = 'rect';
+ proxySymbol = symbolBuildProxies[symbolType];
+ }
+ symbolShapeMakers[symbolType](shape.x, shape.y, shape.width, shape.height, proxySymbol.shape);
+ proxySymbol.buildPath(ctx, proxySymbol.shape, inBundle);
+ }
+ }
+ });
+ // Provide setColor helper method to avoid determine if set the fill or stroke outside
+ function symbolPathSetColor(color, innerColor) {
+ if (this.type !== 'image') {
+ var symbolStyle = this.style;
+ if (this.__isEmptyBrush) {
+ symbolStyle.stroke = color;
+ symbolStyle.fill = innerColor || '#fff';
+ // TODO Same width with lineStyle in LineView
+ symbolStyle.lineWidth = 2;
+ } else if (this.shape.symbolType === 'line') {
+ symbolStyle.stroke = color;
+ } else {
+ symbolStyle.fill = color;
+ }
+ this.markRedraw();
+ }
+ }
+ /**
+ * Create a symbol element with given symbol configuration: shape, x, y, width, height, color
+ */
+ function createSymbol(symbolType, x, y, w, h, color,
+ // whether to keep the ratio of w/h,
+ keepAspect) {
+ // TODO Support image object, DynamicImage.
+ var isEmpty = symbolType.indexOf('empty') === 0;
+ if (isEmpty) {
+ symbolType = symbolType.substr(5, 1).toLowerCase() + symbolType.substr(6);
+ }
+ var symbolPath;
+ if (symbolType.indexOf('image://') === 0) {
+ symbolPath = makeImage(symbolType.slice(8), new BoundingRect(x, y, w, h), keepAspect ? 'center' : 'cover');
+ } else if (symbolType.indexOf('path://') === 0) {
+ symbolPath = makePath(symbolType.slice(7), {}, new BoundingRect(x, y, w, h), keepAspect ? 'center' : 'cover');
+ } else {
+ symbolPath = new SymbolClz({
+ shape: {
+ symbolType: symbolType,
+ x: x,
+ y: y,
+ width: w,
+ height: h
+ }
+ });
+ }
+ symbolPath.__isEmptyBrush = isEmpty;
+ // TODO Should deprecate setColor
+ symbolPath.setColor = symbolPathSetColor;
+ if (color) {
+ symbolPath.setColor(color);
+ }
+ return symbolPath;
+ }
+ function normalizeSymbolSize(symbolSize) {
+ if (!isArray(symbolSize)) {
+ symbolSize = [+symbolSize, +symbolSize];
+ }
+ return [symbolSize[0] || 0, symbolSize[1] || 0];
+ }
+ function normalizeSymbolOffset(symbolOffset, symbolSize) {
+ if (symbolOffset == null) {
+ return;
+ }
+ if (!isArray(symbolOffset)) {
+ symbolOffset = [symbolOffset, symbolOffset];
+ }
+ return [parsePercent$1(symbolOffset[0], symbolSize[0]) || 0, parsePercent$1(retrieve2(symbolOffset[1], symbolOffset[0]), symbolSize[1]) || 0];
+ }
+
+ function isSafeNum(num) {
+ return isFinite(num);
+ }
+ function createLinearGradient(ctx, obj, rect) {
+ var x = obj.x == null ? 0 : obj.x;
+ var x2 = obj.x2 == null ? 1 : obj.x2;
+ var y = obj.y == null ? 0 : obj.y;
+ var y2 = obj.y2 == null ? 0 : obj.y2;
+ if (!obj.global) {
+ x = x * rect.width + rect.x;
+ x2 = x2 * rect.width + rect.x;
+ y = y * rect.height + rect.y;
+ y2 = y2 * rect.height + rect.y;
+ }
+ x = isSafeNum(x) ? x : 0;
+ x2 = isSafeNum(x2) ? x2 : 1;
+ y = isSafeNum(y) ? y : 0;
+ y2 = isSafeNum(y2) ? y2 : 0;
+ var canvasGradient = ctx.createLinearGradient(x, y, x2, y2);
+ return canvasGradient;
+ }
+ function createRadialGradient(ctx, obj, rect) {
+ var width = rect.width;
+ var height = rect.height;
+ var min = Math.min(width, height);
+ var x = obj.x == null ? 0.5 : obj.x;
+ var y = obj.y == null ? 0.5 : obj.y;
+ var r = obj.r == null ? 0.5 : obj.r;
+ if (!obj.global) {
+ x = x * width + rect.x;
+ y = y * height + rect.y;
+ r = r * min;
+ }
+ x = isSafeNum(x) ? x : 0.5;
+ y = isSafeNum(y) ? y : 0.5;
+ r = r >= 0 && isSafeNum(r) ? r : 0.5;
+ var canvasGradient = ctx.createRadialGradient(x, y, 0, x, y, r);
+ return canvasGradient;
+ }
+ function getCanvasGradient(ctx, obj, rect) {
+ var canvasGradient = obj.type === 'radial'
+ ? createRadialGradient(ctx, obj, rect)
+ : createLinearGradient(ctx, obj, rect);
+ var colorStops = obj.colorStops;
+ for (var i = 0; i < colorStops.length; i++) {
+ canvasGradient.addColorStop(colorStops[i].offset, colorStops[i].color);
+ }
+ return canvasGradient;
+ }
+ function isClipPathChanged(clipPaths, prevClipPaths) {
+ if (clipPaths === prevClipPaths || (!clipPaths && !prevClipPaths)) {
+ return false;
+ }
+ if (!clipPaths || !prevClipPaths || (clipPaths.length !== prevClipPaths.length)) {
+ return true;
+ }
+ for (var i = 0; i < clipPaths.length; i++) {
+ if (clipPaths[i] !== prevClipPaths[i]) {
+ return true;
+ }
+ }
+ return false;
+ }
+ function parseInt10(val) {
+ return parseInt(val, 10);
+ }
+ function getSize(root, whIdx, opts) {
+ var wh = ['width', 'height'][whIdx];
+ var cwh = ['clientWidth', 'clientHeight'][whIdx];
+ var plt = ['paddingLeft', 'paddingTop'][whIdx];
+ var prb = ['paddingRight', 'paddingBottom'][whIdx];
+ if (opts[wh] != null && opts[wh] !== 'auto') {
+ return parseFloat(opts[wh]);
+ }
+ var stl = document.defaultView.getComputedStyle(root);
+ return ((root[cwh] || parseInt10(stl[wh]) || parseInt10(root.style[wh]))
+ - (parseInt10(stl[plt]) || 0)
+ - (parseInt10(stl[prb]) || 0)) | 0;
+ }
+
+ function normalizeLineDash(lineType, lineWidth) {
+ if (!lineType || lineType === 'solid' || !(lineWidth > 0)) {
+ return null;
+ }
+ return lineType === 'dashed'
+ ? [4 * lineWidth, 2 * lineWidth]
+ : lineType === 'dotted'
+ ? [lineWidth]
+ : isNumber(lineType)
+ ? [lineType] : isArray(lineType) ? lineType : null;
+ }
+ function getLineDash(el) {
+ var style = el.style;
+ var lineDash = style.lineDash && style.lineWidth > 0 && normalizeLineDash(style.lineDash, style.lineWidth);
+ var lineDashOffset = style.lineDashOffset;
+ if (lineDash) {
+ var lineScale_1 = (style.strokeNoScale && el.getLineScale) ? el.getLineScale() : 1;
+ if (lineScale_1 && lineScale_1 !== 1) {
+ lineDash = map(lineDash, function (rawVal) {
+ return rawVal / lineScale_1;
+ });
+ lineDashOffset /= lineScale_1;
+ }
+ }
+ return [lineDash, lineDashOffset];
+ }
+
+ var pathProxyForDraw = new PathProxy(true);
+ function styleHasStroke(style) {
+ var stroke = style.stroke;
+ return !(stroke == null || stroke === 'none' || !(style.lineWidth > 0));
+ }
+ function isValidStrokeFillStyle(strokeOrFill) {
+ return typeof strokeOrFill === 'string' && strokeOrFill !== 'none';
+ }
+ function styleHasFill(style) {
+ var fill = style.fill;
+ return fill != null && fill !== 'none';
+ }
+ function doFillPath(ctx, style) {
+ if (style.fillOpacity != null && style.fillOpacity !== 1) {
+ var originalGlobalAlpha = ctx.globalAlpha;
+ ctx.globalAlpha = style.fillOpacity * style.opacity;
+ ctx.fill();
+ ctx.globalAlpha = originalGlobalAlpha;
+ }
+ else {
+ ctx.fill();
+ }
+ }
+ function doStrokePath(ctx, style) {
+ if (style.strokeOpacity != null && style.strokeOpacity !== 1) {
+ var originalGlobalAlpha = ctx.globalAlpha;
+ ctx.globalAlpha = style.strokeOpacity * style.opacity;
+ ctx.stroke();
+ ctx.globalAlpha = originalGlobalAlpha;
+ }
+ else {
+ ctx.stroke();
+ }
+ }
+ function createCanvasPattern(ctx, pattern, el) {
+ var image = createOrUpdateImage(pattern.image, pattern.__image, el);
+ if (isImageReady(image)) {
+ var canvasPattern = ctx.createPattern(image, pattern.repeat || 'repeat');
+ if (typeof DOMMatrix === 'function'
+ && canvasPattern
+ && canvasPattern.setTransform) {
+ var matrix = new DOMMatrix();
+ matrix.translateSelf((pattern.x || 0), (pattern.y || 0));
+ matrix.rotateSelf(0, 0, (pattern.rotation || 0) * RADIAN_TO_DEGREE);
+ matrix.scaleSelf((pattern.scaleX || 1), (pattern.scaleY || 1));
+ canvasPattern.setTransform(matrix);
+ }
+ return canvasPattern;
+ }
+ }
+ function brushPath(ctx, el, style, inBatch) {
+ var _a;
+ var hasStroke = styleHasStroke(style);
+ var hasFill = styleHasFill(style);
+ var strokePercent = style.strokePercent;
+ var strokePart = strokePercent < 1;
+ var firstDraw = !el.path;
+ if ((!el.silent || strokePart) && firstDraw) {
+ el.createPathProxy();
+ }
+ var path = el.path || pathProxyForDraw;
+ var dirtyFlag = el.__dirty;
+ if (!inBatch) {
+ var fill = style.fill;
+ var stroke = style.stroke;
+ var hasFillGradient = hasFill && !!fill.colorStops;
+ var hasStrokeGradient = hasStroke && !!stroke.colorStops;
+ var hasFillPattern = hasFill && !!fill.image;
+ var hasStrokePattern = hasStroke && !!stroke.image;
+ var fillGradient = void 0;
+ var strokeGradient = void 0;
+ var fillPattern = void 0;
+ var strokePattern = void 0;
+ var rect = void 0;
+ if (hasFillGradient || hasStrokeGradient) {
+ rect = el.getBoundingRect();
+ }
+ if (hasFillGradient) {
+ fillGradient = dirtyFlag
+ ? getCanvasGradient(ctx, fill, rect)
+ : el.__canvasFillGradient;
+ el.__canvasFillGradient = fillGradient;
+ }
+ if (hasStrokeGradient) {
+ strokeGradient = dirtyFlag
+ ? getCanvasGradient(ctx, stroke, rect)
+ : el.__canvasStrokeGradient;
+ el.__canvasStrokeGradient = strokeGradient;
+ }
+ if (hasFillPattern) {
+ fillPattern = (dirtyFlag || !el.__canvasFillPattern)
+ ? createCanvasPattern(ctx, fill, el)
+ : el.__canvasFillPattern;
+ el.__canvasFillPattern = fillPattern;
+ }
+ if (hasStrokePattern) {
+ strokePattern = (dirtyFlag || !el.__canvasStrokePattern)
+ ? createCanvasPattern(ctx, stroke, el)
+ : el.__canvasStrokePattern;
+ el.__canvasStrokePattern = fillPattern;
+ }
+ if (hasFillGradient) {
+ ctx.fillStyle = fillGradient;
+ }
+ else if (hasFillPattern) {
+ if (fillPattern) {
+ ctx.fillStyle = fillPattern;
+ }
+ else {
+ hasFill = false;
+ }
+ }
+ if (hasStrokeGradient) {
+ ctx.strokeStyle = strokeGradient;
+ }
+ else if (hasStrokePattern) {
+ if (strokePattern) {
+ ctx.strokeStyle = strokePattern;
+ }
+ else {
+ hasStroke = false;
+ }
+ }
+ }
+ var scale = el.getGlobalScale();
+ path.setScale(scale[0], scale[1], el.segmentIgnoreThreshold);
+ var lineDash;
+ var lineDashOffset;
+ if (ctx.setLineDash && style.lineDash) {
+ _a = getLineDash(el), lineDash = _a[0], lineDashOffset = _a[1];
+ }
+ var needsRebuild = true;
+ if (firstDraw || (dirtyFlag & SHAPE_CHANGED_BIT)) {
+ path.setDPR(ctx.dpr);
+ if (strokePart) {
+ path.setContext(null);
+ }
+ else {
+ path.setContext(ctx);
+ needsRebuild = false;
+ }
+ path.reset();
+ el.buildPath(path, el.shape, inBatch);
+ path.toStatic();
+ el.pathUpdated();
+ }
+ if (needsRebuild) {
+ path.rebuildPath(ctx, strokePart ? strokePercent : 1);
+ }
+ if (lineDash) {
+ ctx.setLineDash(lineDash);
+ ctx.lineDashOffset = lineDashOffset;
+ }
+ if (!inBatch) {
+ if (style.strokeFirst) {
+ if (hasStroke) {
+ doStrokePath(ctx, style);
+ }
+ if (hasFill) {
+ doFillPath(ctx, style);
+ }
+ }
+ else {
+ if (hasFill) {
+ doFillPath(ctx, style);
+ }
+ if (hasStroke) {
+ doStrokePath(ctx, style);
+ }
+ }
+ }
+ if (lineDash) {
+ ctx.setLineDash([]);
+ }
+ }
+ function brushImage(ctx, el, style) {
+ var image = el.__image = createOrUpdateImage(style.image, el.__image, el, el.onload);
+ if (!image || !isImageReady(image)) {
+ return;
+ }
+ var x = style.x || 0;
+ var y = style.y || 0;
+ var width = el.getWidth();
+ var height = el.getHeight();
+ var aspect = image.width / image.height;
+ if (width == null && height != null) {
+ width = height * aspect;
+ }
+ else if (height == null && width != null) {
+ height = width / aspect;
+ }
+ else if (width == null && height == null) {
+ width = image.width;
+ height = image.height;
+ }
+ if (style.sWidth && style.sHeight) {
+ var sx = style.sx || 0;
+ var sy = style.sy || 0;
+ ctx.drawImage(image, sx, sy, style.sWidth, style.sHeight, x, y, width, height);
+ }
+ else if (style.sx && style.sy) {
+ var sx = style.sx;
+ var sy = style.sy;
+ var sWidth = width - sx;
+ var sHeight = height - sy;
+ ctx.drawImage(image, sx, sy, sWidth, sHeight, x, y, width, height);
+ }
+ else {
+ ctx.drawImage(image, x, y, width, height);
+ }
+ }
+ function brushText(ctx, el, style) {
+ var _a;
+ var text = style.text;
+ text != null && (text += '');
+ if (text) {
+ ctx.font = style.font || DEFAULT_FONT;
+ ctx.textAlign = style.textAlign;
+ ctx.textBaseline = style.textBaseline;
+ var lineDash = void 0;
+ var lineDashOffset = void 0;
+ if (ctx.setLineDash && style.lineDash) {
+ _a = getLineDash(el), lineDash = _a[0], lineDashOffset = _a[1];
+ }
+ if (lineDash) {
+ ctx.setLineDash(lineDash);
+ ctx.lineDashOffset = lineDashOffset;
+ }
+ if (style.strokeFirst) {
+ if (styleHasStroke(style)) {
+ ctx.strokeText(text, style.x, style.y);
+ }
+ if (styleHasFill(style)) {
+ ctx.fillText(text, style.x, style.y);
+ }
+ }
+ else {
+ if (styleHasFill(style)) {
+ ctx.fillText(text, style.x, style.y);
+ }
+ if (styleHasStroke(style)) {
+ ctx.strokeText(text, style.x, style.y);
+ }
+ }
+ if (lineDash) {
+ ctx.setLineDash([]);
+ }
+ }
+ }
+ var SHADOW_NUMBER_PROPS = ['shadowBlur', 'shadowOffsetX', 'shadowOffsetY'];
+ var STROKE_PROPS = [
+ ['lineCap', 'butt'], ['lineJoin', 'miter'], ['miterLimit', 10]
+ ];
+ function bindCommonProps(ctx, style, prevStyle, forceSetAll, scope) {
+ var styleChanged = false;
+ if (!forceSetAll) {
+ prevStyle = prevStyle || {};
+ if (style === prevStyle) {
+ return false;
+ }
+ }
+ if (forceSetAll || style.opacity !== prevStyle.opacity) {
+ flushPathDrawn(ctx, scope);
+ styleChanged = true;
+ var opacity = Math.max(Math.min(style.opacity, 1), 0);
+ ctx.globalAlpha = isNaN(opacity) ? DEFAULT_COMMON_STYLE.opacity : opacity;
+ }
+ if (forceSetAll || style.blend !== prevStyle.blend) {
+ if (!styleChanged) {
+ flushPathDrawn(ctx, scope);
+ styleChanged = true;
+ }
+ ctx.globalCompositeOperation = style.blend || DEFAULT_COMMON_STYLE.blend;
+ }
+ for (var i = 0; i < SHADOW_NUMBER_PROPS.length; i++) {
+ var propName = SHADOW_NUMBER_PROPS[i];
+ if (forceSetAll || style[propName] !== prevStyle[propName]) {
+ if (!styleChanged) {
+ flushPathDrawn(ctx, scope);
+ styleChanged = true;
+ }
+ ctx[propName] = ctx.dpr * (style[propName] || 0);
+ }
+ }
+ if (forceSetAll || style.shadowColor !== prevStyle.shadowColor) {
+ if (!styleChanged) {
+ flushPathDrawn(ctx, scope);
+ styleChanged = true;
+ }
+ ctx.shadowColor = style.shadowColor || DEFAULT_COMMON_STYLE.shadowColor;
+ }
+ return styleChanged;
+ }
+ function bindPathAndTextCommonStyle(ctx, el, prevEl, forceSetAll, scope) {
+ var style = getStyle(el, scope.inHover);
+ var prevStyle = forceSetAll
+ ? null
+ : (prevEl && getStyle(prevEl, scope.inHover) || {});
+ if (style === prevStyle) {
+ return false;
+ }
+ var styleChanged = bindCommonProps(ctx, style, prevStyle, forceSetAll, scope);
+ if (forceSetAll || style.fill !== prevStyle.fill) {
+ if (!styleChanged) {
+ flushPathDrawn(ctx, scope);
+ styleChanged = true;
+ }
+ isValidStrokeFillStyle(style.fill) && (ctx.fillStyle = style.fill);
+ }
+ if (forceSetAll || style.stroke !== prevStyle.stroke) {
+ if (!styleChanged) {
+ flushPathDrawn(ctx, scope);
+ styleChanged = true;
+ }
+ isValidStrokeFillStyle(style.stroke) && (ctx.strokeStyle = style.stroke);
+ }
+ if (forceSetAll || style.opacity !== prevStyle.opacity) {
+ if (!styleChanged) {
+ flushPathDrawn(ctx, scope);
+ styleChanged = true;
+ }
+ ctx.globalAlpha = style.opacity == null ? 1 : style.opacity;
+ }
+ if (el.hasStroke()) {
+ var lineWidth = style.lineWidth;
+ var newLineWidth = lineWidth / ((style.strokeNoScale && el.getLineScale) ? el.getLineScale() : 1);
+ if (ctx.lineWidth !== newLineWidth) {
+ if (!styleChanged) {
+ flushPathDrawn(ctx, scope);
+ styleChanged = true;
+ }
+ ctx.lineWidth = newLineWidth;
+ }
+ }
+ for (var i = 0; i < STROKE_PROPS.length; i++) {
+ var prop = STROKE_PROPS[i];
+ var propName = prop[0];
+ if (forceSetAll || style[propName] !== prevStyle[propName]) {
+ if (!styleChanged) {
+ flushPathDrawn(ctx, scope);
+ styleChanged = true;
+ }
+ ctx[propName] = style[propName] || prop[1];
+ }
+ }
+ return styleChanged;
+ }
+ function bindImageStyle(ctx, el, prevEl, forceSetAll, scope) {
+ return bindCommonProps(ctx, getStyle(el, scope.inHover), prevEl && getStyle(prevEl, scope.inHover), forceSetAll, scope);
+ }
+ function setContextTransform(ctx, el) {
+ var m = el.transform;
+ var dpr = ctx.dpr || 1;
+ if (m) {
+ ctx.setTransform(dpr * m[0], dpr * m[1], dpr * m[2], dpr * m[3], dpr * m[4], dpr * m[5]);
+ }
+ else {
+ ctx.setTransform(dpr, 0, 0, dpr, 0, 0);
+ }
+ }
+ function updateClipStatus(clipPaths, ctx, scope) {
+ var allClipped = false;
+ for (var i = 0; i < clipPaths.length; i++) {
+ var clipPath = clipPaths[i];
+ allClipped = allClipped || clipPath.isZeroArea();
+ setContextTransform(ctx, clipPath);
+ ctx.beginPath();
+ clipPath.buildPath(ctx, clipPath.shape);
+ ctx.clip();
+ }
+ scope.allClipped = allClipped;
+ }
+ function isTransformChanged(m0, m1) {
+ if (m0 && m1) {
+ return m0[0] !== m1[0]
+ || m0[1] !== m1[1]
+ || m0[2] !== m1[2]
+ || m0[3] !== m1[3]
+ || m0[4] !== m1[4]
+ || m0[5] !== m1[5];
+ }
+ else if (!m0 && !m1) {
+ return false;
+ }
+ return true;
+ }
+ var DRAW_TYPE_PATH = 1;
+ var DRAW_TYPE_IMAGE = 2;
+ var DRAW_TYPE_TEXT = 3;
+ var DRAW_TYPE_INCREMENTAL = 4;
+ function canPathBatch(style) {
+ var hasFill = styleHasFill(style);
+ var hasStroke = styleHasStroke(style);
+ return !(style.lineDash
+ || !(+hasFill ^ +hasStroke)
+ || (hasFill && typeof style.fill !== 'string')
+ || (hasStroke && typeof style.stroke !== 'string')
+ || style.strokePercent < 1
+ || style.strokeOpacity < 1
+ || style.fillOpacity < 1);
+ }
+ function flushPathDrawn(ctx, scope) {
+ scope.batchFill && ctx.fill();
+ scope.batchStroke && ctx.stroke();
+ scope.batchFill = '';
+ scope.batchStroke = '';
+ }
+ function getStyle(el, inHover) {
+ return inHover ? (el.__hoverStyle || el.style) : el.style;
+ }
+ function brushSingle(ctx, el) {
+ brush(ctx, el, { inHover: false, viewWidth: 0, viewHeight: 0 }, true);
+ }
+ function brush(ctx, el, scope, isLast) {
+ var m = el.transform;
+ if (!el.shouldBePainted(scope.viewWidth, scope.viewHeight, false, false)) {
+ el.__dirty &= ~REDRAW_BIT;
+ el.__isRendered = false;
+ return;
+ }
+ var clipPaths = el.__clipPaths;
+ var prevElClipPaths = scope.prevElClipPaths;
+ var forceSetTransform = false;
+ var forceSetStyle = false;
+ if (!prevElClipPaths || isClipPathChanged(clipPaths, prevElClipPaths)) {
+ if (prevElClipPaths && prevElClipPaths.length) {
+ flushPathDrawn(ctx, scope);
+ ctx.restore();
+ forceSetStyle = forceSetTransform = true;
+ scope.prevElClipPaths = null;
+ scope.allClipped = false;
+ scope.prevEl = null;
+ }
+ if (clipPaths && clipPaths.length) {
+ flushPathDrawn(ctx, scope);
+ ctx.save();
+ updateClipStatus(clipPaths, ctx, scope);
+ forceSetTransform = true;
+ }
+ scope.prevElClipPaths = clipPaths;
+ }
+ if (scope.allClipped) {
+ el.__isRendered = false;
+ return;
+ }
+ el.beforeBrush && el.beforeBrush();
+ el.innerBeforeBrush();
+ var prevEl = scope.prevEl;
+ if (!prevEl) {
+ forceSetStyle = forceSetTransform = true;
+ }
+ var canBatchPath = el instanceof Path
+ && el.autoBatch
+ && canPathBatch(el.style);
+ if (forceSetTransform || isTransformChanged(m, prevEl.transform)) {
+ flushPathDrawn(ctx, scope);
+ setContextTransform(ctx, el);
+ }
+ else if (!canBatchPath) {
+ flushPathDrawn(ctx, scope);
+ }
+ var style = getStyle(el, scope.inHover);
+ if (el instanceof Path) {
+ if (scope.lastDrawType !== DRAW_TYPE_PATH) {
+ forceSetStyle = true;
+ scope.lastDrawType = DRAW_TYPE_PATH;
+ }
+ bindPathAndTextCommonStyle(ctx, el, prevEl, forceSetStyle, scope);
+ if (!canBatchPath || (!scope.batchFill && !scope.batchStroke)) {
+ ctx.beginPath();
+ }
+ brushPath(ctx, el, style, canBatchPath);
+ if (canBatchPath) {
+ scope.batchFill = style.fill || '';
+ scope.batchStroke = style.stroke || '';
+ }
+ }
+ else {
+ if (el instanceof TSpan) {
+ if (scope.lastDrawType !== DRAW_TYPE_TEXT) {
+ forceSetStyle = true;
+ scope.lastDrawType = DRAW_TYPE_TEXT;
+ }
+ bindPathAndTextCommonStyle(ctx, el, prevEl, forceSetStyle, scope);
+ brushText(ctx, el, style);
+ }
+ else if (el instanceof ZRImage) {
+ if (scope.lastDrawType !== DRAW_TYPE_IMAGE) {
+ forceSetStyle = true;
+ scope.lastDrawType = DRAW_TYPE_IMAGE;
+ }
+ bindImageStyle(ctx, el, prevEl, forceSetStyle, scope);
+ brushImage(ctx, el, style);
+ }
+ else if (el.getTemporalDisplayables) {
+ if (scope.lastDrawType !== DRAW_TYPE_INCREMENTAL) {
+ forceSetStyle = true;
+ scope.lastDrawType = DRAW_TYPE_INCREMENTAL;
+ }
+ brushIncremental(ctx, el, scope);
+ }
+ }
+ if (canBatchPath && isLast) {
+ flushPathDrawn(ctx, scope);
+ }
+ el.innerAfterBrush();
+ el.afterBrush && el.afterBrush();
+ scope.prevEl = el;
+ el.__dirty = 0;
+ el.__isRendered = true;
+ }
+ function brushIncremental(ctx, el, scope) {
+ var displayables = el.getDisplayables();
+ var temporalDisplayables = el.getTemporalDisplayables();
+ ctx.save();
+ var innerScope = {
+ prevElClipPaths: null,
+ prevEl: null,
+ allClipped: false,
+ viewWidth: scope.viewWidth,
+ viewHeight: scope.viewHeight,
+ inHover: scope.inHover
+ };
+ var i;
+ var len;
+ for (i = el.getCursor(), len = displayables.length; i < len; i++) {
+ var displayable = displayables[i];
+ displayable.beforeBrush && displayable.beforeBrush();
+ displayable.innerBeforeBrush();
+ brush(ctx, displayable, innerScope, i === len - 1);
+ displayable.innerAfterBrush();
+ displayable.afterBrush && displayable.afterBrush();
+ innerScope.prevEl = displayable;
+ }
+ for (var i_1 = 0, len_1 = temporalDisplayables.length; i_1 < len_1; i_1++) {
+ var displayable = temporalDisplayables[i_1];
+ displayable.beforeBrush && displayable.beforeBrush();
+ displayable.innerBeforeBrush();
+ brush(ctx, displayable, innerScope, i_1 === len_1 - 1);
+ displayable.innerAfterBrush();
+ displayable.afterBrush && displayable.afterBrush();
+ innerScope.prevEl = displayable;
+ }
+ el.clearTemporalDisplayables();
+ el.notClear = true;
+ ctx.restore();
+ }
+
+ var decalMap = new WeakMap();
+ var decalCache = new LRU(100);
+ var decalKeys = ['symbol', 'symbolSize', 'symbolKeepAspect', 'color', 'backgroundColor', 'dashArrayX', 'dashArrayY', 'maxTileWidth', 'maxTileHeight'];
+ /**
+ * Create or update pattern image from decal options
+ *
+ * @param {InnerDecalObject | 'none'} decalObject decal options, 'none' if no decal
+ * @return {Pattern} pattern with generated image, null if no decal
+ */
+ function createOrUpdatePatternFromDecal(decalObject, api) {
+ if (decalObject === 'none') {
+ return null;
+ }
+ var dpr = api.getDevicePixelRatio();
+ var zr = api.getZr();
+ var isSVG = zr.painter.type === 'svg';
+ if (decalObject.dirty) {
+ decalMap["delete"](decalObject);
+ }
+ var oldPattern = decalMap.get(decalObject);
+ if (oldPattern) {
+ return oldPattern;
+ }
+ var decalOpt = defaults(decalObject, {
+ symbol: 'rect',
+ symbolSize: 1,
+ symbolKeepAspect: true,
+ color: 'rgba(0, 0, 0, 0.2)',
+ backgroundColor: null,
+ dashArrayX: 5,
+ dashArrayY: 5,
+ rotation: 0,
+ maxTileWidth: 512,
+ maxTileHeight: 512
+ });
+ if (decalOpt.backgroundColor === 'none') {
+ decalOpt.backgroundColor = null;
+ }
+ var pattern = {
+ repeat: 'repeat'
+ };
+ setPatternnSource(pattern);
+ pattern.rotation = decalOpt.rotation;
+ pattern.scaleX = pattern.scaleY = isSVG ? 1 : 1 / dpr;
+ decalMap.set(decalObject, pattern);
+ decalObject.dirty = false;
+ return pattern;
+ function setPatternnSource(pattern) {
+ var keys = [dpr];
+ var isValidKey = true;
+ for (var i = 0; i < decalKeys.length; ++i) {
+ var value = decalOpt[decalKeys[i]];
+ if (value != null && !isArray(value) && !isString(value) && !isNumber(value) && typeof value !== 'boolean') {
+ isValidKey = false;
+ break;
+ }
+ keys.push(value);
+ }
+ var cacheKey;
+ if (isValidKey) {
+ cacheKey = keys.join(',') + (isSVG ? '-svg' : '');
+ var cache = decalCache.get(cacheKey);
+ if (cache) {
+ isSVG ? pattern.svgElement = cache : pattern.image = cache;
+ }
+ }
+ var dashArrayX = normalizeDashArrayX(decalOpt.dashArrayX);
+ var dashArrayY = normalizeDashArrayY(decalOpt.dashArrayY);
+ var symbolArray = normalizeSymbolArray(decalOpt.symbol);
+ var lineBlockLengthsX = getLineBlockLengthX(dashArrayX);
+ var lineBlockLengthY = getLineBlockLengthY(dashArrayY);
+ var canvas = !isSVG && platformApi.createCanvas();
+ var svgRoot = isSVG && {
+ tag: 'g',
+ attrs: {},
+ key: 'dcl',
+ children: []
+ };
+ var pSize = getPatternSize();
+ var ctx;
+ if (canvas) {
+ canvas.width = pSize.width * dpr;
+ canvas.height = pSize.height * dpr;
+ ctx = canvas.getContext('2d');
+ }
+ brushDecal();
+ if (isValidKey) {
+ decalCache.put(cacheKey, canvas || svgRoot);
+ }
+ pattern.image = canvas;
+ pattern.svgElement = svgRoot;
+ pattern.svgWidth = pSize.width;
+ pattern.svgHeight = pSize.height;
+ /**
+ * Get minimum length that can make a repeatable pattern.
+ *
+ * @return {Object} pattern width and height
+ */
+ function getPatternSize() {
+ /**
+ * For example, if dash is [[3, 2], [2, 1]] for X, it looks like
+ * |--- --- --- --- --- ...
+ * |-- -- -- -- -- -- -- -- ...
+ * |--- --- --- --- --- ...
+ * |-- -- -- -- -- -- -- -- ...
+ * So the minimum length of X is 15,
+ * which is the least common multiple of `3 + 2` and `2 + 1`
+ * |--- --- --- |--- --- ...
+ * |-- -- -- -- -- |-- -- -- ...
+ */
+ var width = 1;
+ for (var i = 0, xlen = lineBlockLengthsX.length; i < xlen; ++i) {
+ width = getLeastCommonMultiple(width, lineBlockLengthsX[i]);
+ }
+ var symbolRepeats = 1;
+ for (var i = 0, xlen = symbolArray.length; i < xlen; ++i) {
+ symbolRepeats = getLeastCommonMultiple(symbolRepeats, symbolArray[i].length);
+ }
+ width *= symbolRepeats;
+ var height = lineBlockLengthY * lineBlockLengthsX.length * symbolArray.length;
+ if ("development" !== 'production') {
+ var warn = function (attrName) {
+ /* eslint-disable-next-line */
+ console.warn("Calculated decal size is greater than " + attrName + " due to decal option settings so " + attrName + " is used for the decal size. Please consider changing the decal option to make a smaller decal or set " + attrName + " to be larger to avoid incontinuity.");
+ };
+ if (width > decalOpt.maxTileWidth) {
+ warn('maxTileWidth');
+ }
+ if (height > decalOpt.maxTileHeight) {
+ warn('maxTileHeight');
+ }
+ }
+ return {
+ width: Math.max(1, Math.min(width, decalOpt.maxTileWidth)),
+ height: Math.max(1, Math.min(height, decalOpt.maxTileHeight))
+ };
+ }
+ function brushDecal() {
+ if (ctx) {
+ ctx.clearRect(0, 0, canvas.width, canvas.height);
+ if (decalOpt.backgroundColor) {
+ ctx.fillStyle = decalOpt.backgroundColor;
+ ctx.fillRect(0, 0, canvas.width, canvas.height);
+ }
+ }
+ var ySum = 0;
+ for (var i = 0; i < dashArrayY.length; ++i) {
+ ySum += dashArrayY[i];
+ }
+ if (ySum <= 0) {
+ // dashArrayY is 0, draw nothing
+ return;
+ }
+ var y = -lineBlockLengthY;
+ var yId = 0;
+ var yIdTotal = 0;
+ var xId0 = 0;
+ while (y < pSize.height) {
+ if (yId % 2 === 0) {
+ var symbolYId = yIdTotal / 2 % symbolArray.length;
+ var x = 0;
+ var xId1 = 0;
+ var xId1Total = 0;
+ while (x < pSize.width * 2) {
+ var xSum = 0;
+ for (var i = 0; i < dashArrayX[xId0].length; ++i) {
+ xSum += dashArrayX[xId0][i];
+ }
+ if (xSum <= 0) {
+ // Skip empty line
+ break;
+ }
+ // E.g., [15, 5, 20, 5] draws only for 15 and 20
+ if (xId1 % 2 === 0) {
+ var size = (1 - decalOpt.symbolSize) * 0.5;
+ var left = x + dashArrayX[xId0][xId1] * size;
+ var top_1 = y + dashArrayY[yId] * size;
+ var width = dashArrayX[xId0][xId1] * decalOpt.symbolSize;
+ var height = dashArrayY[yId] * decalOpt.symbolSize;
+ var symbolXId = xId1Total / 2 % symbolArray[symbolYId].length;
+ brushSymbol(left, top_1, width, height, symbolArray[symbolYId][symbolXId]);
+ }
+ x += dashArrayX[xId0][xId1];
+ ++xId1Total;
+ ++xId1;
+ if (xId1 === dashArrayX[xId0].length) {
+ xId1 = 0;
+ }
+ }
+ ++xId0;
+ if (xId0 === dashArrayX.length) {
+ xId0 = 0;
+ }
+ }
+ y += dashArrayY[yId];
+ ++yIdTotal;
+ ++yId;
+ if (yId === dashArrayY.length) {
+ yId = 0;
+ }
+ }
+ function brushSymbol(x, y, width, height, symbolType) {
+ var scale = isSVG ? 1 : dpr;
+ var symbol = createSymbol(symbolType, x * scale, y * scale, width * scale, height * scale, decalOpt.color, decalOpt.symbolKeepAspect);
+ if (isSVG) {
+ var symbolVNode = zr.painter.renderOneToVNode(symbol);
+ if (symbolVNode) {
+ svgRoot.children.push(symbolVNode);
+ }
+ } else {
+ // Paint to canvas for all other renderers.
+ brushSingle(ctx, symbol);
+ }
+ }
+ }
+ }
+ }
+ /**
+ * Convert symbol array into normalized array
+ *
+ * @param {string | (string | string[])[]} symbol symbol input
+ * @return {string[][]} normolized symbol array
+ */
+ function normalizeSymbolArray(symbol) {
+ if (!symbol || symbol.length === 0) {
+ return [['rect']];
+ }
+ if (isString(symbol)) {
+ return [[symbol]];
+ }
+ var isAllString = true;
+ for (var i = 0; i < symbol.length; ++i) {
+ if (!isString(symbol[i])) {
+ isAllString = false;
+ break;
+ }
+ }
+ if (isAllString) {
+ return normalizeSymbolArray([symbol]);
+ }
+ var result = [];
+ for (var i = 0; i < symbol.length; ++i) {
+ if (isString(symbol[i])) {
+ result.push([symbol[i]]);
+ } else {
+ result.push(symbol[i]);
+ }
+ }
+ return result;
+ }
+ /**
+ * Convert dash input into dashArray
+ *
+ * @param {DecalDashArrayX} dash dash input
+ * @return {number[][]} normolized dash array
+ */
+ function normalizeDashArrayX(dash) {
+ if (!dash || dash.length === 0) {
+ return [[0, 0]];
+ }
+ if (isNumber(dash)) {
+ var dashValue = Math.ceil(dash);
+ return [[dashValue, dashValue]];
+ }
+ /**
+ * [20, 5] should be normalized into [[20, 5]],
+ * while [20, [5, 10]] should be normalized into [[20, 20], [5, 10]]
+ */
+ var isAllNumber = true;
+ for (var i = 0; i < dash.length; ++i) {
+ if (!isNumber(dash[i])) {
+ isAllNumber = false;
+ break;
+ }
+ }
+ if (isAllNumber) {
+ return normalizeDashArrayX([dash]);
+ }
+ var result = [];
+ for (var i = 0; i < dash.length; ++i) {
+ if (isNumber(dash[i])) {
+ var dashValue = Math.ceil(dash[i]);
+ result.push([dashValue, dashValue]);
+ } else {
+ var dashValue = map(dash[i], function (n) {
+ return Math.ceil(n);
+ });
+ if (dashValue.length % 2 === 1) {
+ // [4, 2, 1] means |---- - -- |---- - -- |
+ // so normalize it to be [4, 2, 1, 4, 2, 1]
+ result.push(dashValue.concat(dashValue));
+ } else {
+ result.push(dashValue);
+ }
+ }
+ }
+ return result;
+ }
+ /**
+ * Convert dash input into dashArray
+ *
+ * @param {DecalDashArrayY} dash dash input
+ * @return {number[]} normolized dash array
+ */
+ function normalizeDashArrayY(dash) {
+ if (!dash || typeof dash === 'object' && dash.length === 0) {
+ return [0, 0];
+ }
+ if (isNumber(dash)) {
+ var dashValue_1 = Math.ceil(dash);
+ return [dashValue_1, dashValue_1];
+ }
+ var dashValue = map(dash, function (n) {
+ return Math.ceil(n);
+ });
+ return dash.length % 2 ? dashValue.concat(dashValue) : dashValue;
+ }
+ /**
+ * Get block length of each line. A block is the length of dash line and space.
+ * For example, a line with [4, 1] has a dash line of 4 and a space of 1 after
+ * that, so the block length of this line is 5.
+ *
+ * @param {number[][]} dash dash array of X or Y
+ * @return {number[]} block length of each line
+ */
+ function getLineBlockLengthX(dash) {
+ return map(dash, function (line) {
+ return getLineBlockLengthY(line);
+ });
+ }
+ function getLineBlockLengthY(dash) {
+ var blockLength = 0;
+ for (var i = 0; i < dash.length; ++i) {
+ blockLength += dash[i];
+ }
+ if (dash.length % 2 === 1) {
+ // [4, 2, 1] means |---- - -- |---- - -- |
+ // So total length is (4 + 2 + 1) * 2
+ return blockLength * 2;
+ }
+ return blockLength;
+ }
+
+ function decalVisual(ecModel, api) {
+ ecModel.eachRawSeries(function (seriesModel) {
+ if (ecModel.isSeriesFiltered(seriesModel)) {
+ return;
+ }
+ var data = seriesModel.getData();
+ if (data.hasItemVisual()) {
+ data.each(function (idx) {
+ var decal = data.getItemVisual(idx, 'decal');
+ if (decal) {
+ var itemStyle = data.ensureUniqueItemVisual(idx, 'style');
+ itemStyle.decal = createOrUpdatePatternFromDecal(decal, api);
+ }
+ });
+ }
+ var decal = data.getVisual('decal');
+ if (decal) {
+ var style = data.getVisual('style');
+ style.decal = createOrUpdatePatternFromDecal(decal, api);
+ }
+ });
+ }
+
+ var lifecycle = new Eventful();
+
+ // Implementation of exported APIs. For example registerMap, getMap.
+ // The implementations will be registered when installing the component.
+ // Avoid these code being bundled to the core module.
+ var implsStore = {};
+ // TODO Type
+ function registerImpl(name, impl) {
+ if ("development" !== 'production') {
+ if (implsStore[name]) {
+ error("Already has an implementation of " + name + ".");
+ }
+ }
+ implsStore[name] = impl;
+ }
+ function getImpl(name) {
+ if ("development" !== 'production') {
+ if (!implsStore[name]) {
+ error("Implementation of " + name + " doesn't exists.");
+ }
+ }
+ return implsStore[name];
+ }
+
+ var version$1 = '5.5.0';
+ var dependencies = {
+ zrender: '5.5.0'
+ };
+ var TEST_FRAME_REMAIN_TIME = 1;
+ var PRIORITY_PROCESSOR_SERIES_FILTER = 800;
+ // Some data processors depends on the stack result dimension (to calculate data extent).
+ // So data stack stage should be in front of data processing stage.
+ var PRIORITY_PROCESSOR_DATASTACK = 900;
+ // "Data filter" will block the stream, so it should be
+ // put at the beginning of data processing.
+ var PRIORITY_PROCESSOR_FILTER = 1000;
+ var PRIORITY_PROCESSOR_DEFAULT = 2000;
+ var PRIORITY_PROCESSOR_STATISTIC = 5000;
+ var PRIORITY_VISUAL_LAYOUT = 1000;
+ var PRIORITY_VISUAL_PROGRESSIVE_LAYOUT = 1100;
+ var PRIORITY_VISUAL_GLOBAL = 2000;
+ var PRIORITY_VISUAL_CHART = 3000;
+ var PRIORITY_VISUAL_COMPONENT = 4000;
+ // Visual property in data. Greater than `PRIORITY_VISUAL_COMPONENT` to enable to
+ // overwrite the viusal result of component (like `visualMap`)
+ // using data item specific setting (like itemStyle.xxx on data item)
+ var PRIORITY_VISUAL_CHART_DATA_CUSTOM = 4500;
+ // Greater than `PRIORITY_VISUAL_CHART_DATA_CUSTOM` to enable to layout based on
+ // visual result like `symbolSize`.
+ var PRIORITY_VISUAL_POST_CHART_LAYOUT = 4600;
+ var PRIORITY_VISUAL_BRUSH = 5000;
+ var PRIORITY_VISUAL_ARIA = 6000;
+ var PRIORITY_VISUAL_DECAL = 7000;
+ var PRIORITY = {
+ PROCESSOR: {
+ FILTER: PRIORITY_PROCESSOR_FILTER,
+ SERIES_FILTER: PRIORITY_PROCESSOR_SERIES_FILTER,
+ STATISTIC: PRIORITY_PROCESSOR_STATISTIC
+ },
+ VISUAL: {
+ LAYOUT: PRIORITY_VISUAL_LAYOUT,
+ PROGRESSIVE_LAYOUT: PRIORITY_VISUAL_PROGRESSIVE_LAYOUT,
+ GLOBAL: PRIORITY_VISUAL_GLOBAL,
+ CHART: PRIORITY_VISUAL_CHART,
+ POST_CHART_LAYOUT: PRIORITY_VISUAL_POST_CHART_LAYOUT,
+ COMPONENT: PRIORITY_VISUAL_COMPONENT,
+ BRUSH: PRIORITY_VISUAL_BRUSH,
+ CHART_ITEM: PRIORITY_VISUAL_CHART_DATA_CUSTOM,
+ ARIA: PRIORITY_VISUAL_ARIA,
+ DECAL: PRIORITY_VISUAL_DECAL
+ }
+ };
+ // Main process have three entries: `setOption`, `dispatchAction` and `resize`,
+ // where they must not be invoked nestedly, except the only case: invoke
+ // dispatchAction with updateMethod "none" in main process.
+ // This flag is used to carry out this rule.
+ // All events will be triggered out side main process (i.e. when !this[IN_MAIN_PROCESS]).
+ var IN_MAIN_PROCESS_KEY = '__flagInMainProcess';
+ var PENDING_UPDATE = '__pendingUpdate';
+ var STATUS_NEEDS_UPDATE_KEY = '__needsUpdateStatus';
+ var ACTION_REG = /^[a-zA-Z0-9_]+$/;
+ var CONNECT_STATUS_KEY = '__connectUpdateStatus';
+ var CONNECT_STATUS_PENDING = 0;
+ var CONNECT_STATUS_UPDATING = 1;
+ var CONNECT_STATUS_UPDATED = 2;
+ function createRegisterEventWithLowercaseECharts(method) {
+ return function () {
+ var args = [];
+ for (var _i = 0; _i < arguments.length; _i++) {
+ args[_i] = arguments[_i];
+ }
+ if (this.isDisposed()) {
+ disposedWarning(this.id);
+ return;
+ }
+ return toLowercaseNameAndCallEventful(this, method, args);
+ };
+ }
+ function createRegisterEventWithLowercaseMessageCenter(method) {
+ return function () {
+ var args = [];
+ for (var _i = 0; _i < arguments.length; _i++) {
+ args[_i] = arguments[_i];
+ }
+ return toLowercaseNameAndCallEventful(this, method, args);
+ };
+ }
+ function toLowercaseNameAndCallEventful(host, method, args) {
+ // `args[0]` is event name. Event name is all lowercase.
+ args[0] = args[0] && args[0].toLowerCase();
+ return Eventful.prototype[method].apply(host, args);
+ }
+ var MessageCenter = /** @class */function (_super) {
+ __extends(MessageCenter, _super);
+ function MessageCenter() {
+ return _super !== null && _super.apply(this, arguments) || this;
+ }
+ return MessageCenter;
+ }(Eventful);
+ var messageCenterProto = MessageCenter.prototype;
+ messageCenterProto.on = createRegisterEventWithLowercaseMessageCenter('on');
+ messageCenterProto.off = createRegisterEventWithLowercaseMessageCenter('off');
+ // ---------------------------------------
+ // Internal method names for class ECharts
+ // ---------------------------------------
+ var prepare;
+ var prepareView;
+ var updateDirectly;
+ var updateMethods;
+ var doConvertPixel;
+ var updateStreamModes;
+ var doDispatchAction;
+ var flushPendingActions;
+ var triggerUpdatedEvent;
+ var bindRenderedEvent;
+ var bindMouseEvent;
+ var render;
+ var renderComponents;
+ var renderSeries;
+ var createExtensionAPI;
+ var enableConnect;
+ var markStatusToUpdate;
+ var applyChangedStates;
+ var ECharts = /** @class */function (_super) {
+ __extends(ECharts, _super);
+ function ECharts(dom,
+ // Theme name or themeOption.
+ theme, opts) {
+ var _this = _super.call(this, new ECEventProcessor()) || this;
+ _this._chartsViews = [];
+ _this._chartsMap = {};
+ _this._componentsViews = [];
+ _this._componentsMap = {};
+ // Can't dispatch action during rendering procedure
+ _this._pendingActions = [];
+ opts = opts || {};
+ // Get theme by name
+ if (isString(theme)) {
+ theme = themeStorage[theme];
+ }
+ _this._dom = dom;
+ var defaultRenderer = 'canvas';
+ var defaultCoarsePointer = 'auto';
+ var defaultUseDirtyRect = false;
+ if ("development" !== 'production') {
+ var root = /* eslint-disable-next-line */
+ env.hasGlobalWindow ? window : global;
+ if (root) {
+ defaultRenderer = retrieve2(root.__ECHARTS__DEFAULT__RENDERER__, defaultRenderer);
+ defaultCoarsePointer = retrieve2(root.__ECHARTS__DEFAULT__COARSE_POINTER, defaultCoarsePointer);
+ defaultUseDirtyRect = retrieve2(root.__ECHARTS__DEFAULT__USE_DIRTY_RECT__, defaultUseDirtyRect);
+ }
+ }
+ if (opts.ssr) {
+ registerSSRDataGetter(function (el) {
+ var ecData = getECData(el);
+ var dataIndex = ecData.dataIndex;
+ if (dataIndex == null) {
+ return;
+ }
+ var hashMap = createHashMap();
+ hashMap.set('series_index', ecData.seriesIndex);
+ hashMap.set('data_index', dataIndex);
+ ecData.ssrType && hashMap.set('ssr_type', ecData.ssrType);
+ return hashMap;
+ });
+ }
+ var zr = _this._zr = init(dom, {
+ renderer: opts.renderer || defaultRenderer,
+ devicePixelRatio: opts.devicePixelRatio,
+ width: opts.width,
+ height: opts.height,
+ ssr: opts.ssr,
+ useDirtyRect: retrieve2(opts.useDirtyRect, defaultUseDirtyRect),
+ useCoarsePointer: retrieve2(opts.useCoarsePointer, defaultCoarsePointer),
+ pointerSize: opts.pointerSize
+ });
+ _this._ssr = opts.ssr;
+ // Expect 60 fps.
+ _this._throttledZrFlush = throttle(bind(zr.flush, zr), 17);
+ theme = clone(theme);
+ theme && globalBackwardCompat(theme, true);
+ _this._theme = theme;
+ _this._locale = createLocaleObject(opts.locale || SYSTEM_LANG);
+ _this._coordSysMgr = new CoordinateSystemManager();
+ var api = _this._api = createExtensionAPI(_this);
+ // Sort on demand
+ function prioritySortFunc(a, b) {
+ return a.__prio - b.__prio;
+ }
+ sort(visualFuncs, prioritySortFunc);
+ sort(dataProcessorFuncs, prioritySortFunc);
+ _this._scheduler = new Scheduler(_this, api, dataProcessorFuncs, visualFuncs);
+ _this._messageCenter = new MessageCenter();
+ // Init mouse events
+ _this._initEvents();
+ // In case some people write `window.onresize = chart.resize`
+ _this.resize = bind(_this.resize, _this);
+ zr.animation.on('frame', _this._onframe, _this);
+ bindRenderedEvent(zr, _this);
+ bindMouseEvent(zr, _this);
+ // ECharts instance can be used as value.
+ setAsPrimitive(_this);
+ return _this;
+ }
+ ECharts.prototype._onframe = function () {
+ if (this._disposed) {
+ return;
+ }
+ applyChangedStates(this);
+ var scheduler = this._scheduler;
+ // Lazy update
+ if (this[PENDING_UPDATE]) {
+ var silent = this[PENDING_UPDATE].silent;
+ this[IN_MAIN_PROCESS_KEY] = true;
+ try {
+ prepare(this);
+ updateMethods.update.call(this, null, this[PENDING_UPDATE].updateParams);
+ } catch (e) {
+ this[IN_MAIN_PROCESS_KEY] = false;
+ this[PENDING_UPDATE] = null;
+ throw e;
+ }
+ // At present, in each frame, zrender performs:
+ // (1) animation step forward.
+ // (2) trigger('frame') (where this `_onframe` is called)
+ // (3) zrender flush (render).
+ // If we do nothing here, since we use `setToFinal: true`, the step (3) above
+ // will render the final state of the elements before the real animation started.
+ this._zr.flush();
+ this[IN_MAIN_PROCESS_KEY] = false;
+ this[PENDING_UPDATE] = null;
+ flushPendingActions.call(this, silent);
+ triggerUpdatedEvent.call(this, silent);
+ }
+ // Avoid do both lazy update and progress in one frame.
+ else if (scheduler.unfinished) {
+ // Stream progress.
+ var remainTime = TEST_FRAME_REMAIN_TIME;
+ var ecModel = this._model;
+ var api = this._api;
+ scheduler.unfinished = false;
+ do {
+ var startTime = +new Date();
+ scheduler.performSeriesTasks(ecModel);
+ // Currently dataProcessorFuncs do not check threshold.
+ scheduler.performDataProcessorTasks(ecModel);
+ updateStreamModes(this, ecModel);
+ // Do not update coordinate system here. Because that coord system update in
+ // each frame is not a good user experience. So we follow the rule that
+ // the extent of the coordinate system is determined in the first frame (the
+ // frame is executed immediately after task reset.
+ // this._coordSysMgr.update(ecModel, api);
+ // console.log('--- ec frame visual ---', remainTime);
+ scheduler.performVisualTasks(ecModel);
+ renderSeries(this, this._model, api, 'remain', {});
+ remainTime -= +new Date() - startTime;
+ } while (remainTime > 0 && scheduler.unfinished);
+ // Call flush explicitly for trigger finished event.
+ if (!scheduler.unfinished) {
+ this._zr.flush();
+ }
+ // Else, zr flushing be ensue within the same frame,
+ // because zr flushing is after onframe event.
+ }
+ };
+
+ ECharts.prototype.getDom = function () {
+ return this._dom;
+ };
+ ECharts.prototype.getId = function () {
+ return this.id;
+ };
+ ECharts.prototype.getZr = function () {
+ return this._zr;
+ };
+ ECharts.prototype.isSSR = function () {
+ return this._ssr;
+ };
+ /* eslint-disable-next-line */
+ ECharts.prototype.setOption = function (option, notMerge, lazyUpdate) {
+ if (this[IN_MAIN_PROCESS_KEY]) {
+ if ("development" !== 'production') {
+ error('`setOption` should not be called during main process.');
+ }
+ return;
+ }
+ if (this._disposed) {
+ disposedWarning(this.id);
+ return;
+ }
+ var silent;
+ var replaceMerge;
+ var transitionOpt;
+ if (isObject(notMerge)) {
+ lazyUpdate = notMerge.lazyUpdate;
+ silent = notMerge.silent;
+ replaceMerge = notMerge.replaceMerge;
+ transitionOpt = notMerge.transition;
+ notMerge = notMerge.notMerge;
+ }
+ this[IN_MAIN_PROCESS_KEY] = true;
+ if (!this._model || notMerge) {
+ var optionManager = new OptionManager(this._api);
+ var theme = this._theme;
+ var ecModel = this._model = new GlobalModel();
+ ecModel.scheduler = this._scheduler;
+ ecModel.ssr = this._ssr;
+ ecModel.init(null, null, null, theme, this._locale, optionManager);
+ }
+ this._model.setOption(option, {
+ replaceMerge: replaceMerge
+ }, optionPreprocessorFuncs);
+ var updateParams = {
+ seriesTransition: transitionOpt,
+ optionChanged: true
+ };
+ if (lazyUpdate) {
+ this[PENDING_UPDATE] = {
+ silent: silent,
+ updateParams: updateParams
+ };
+ this[IN_MAIN_PROCESS_KEY] = false;
+ // `setOption(option, {lazyMode: true})` may be called when zrender has been slept.
+ // It should wake it up to make sure zrender start to render at the next frame.
+ this.getZr().wakeUp();
+ } else {
+ try {
+ prepare(this);
+ updateMethods.update.call(this, null, updateParams);
+ } catch (e) {
+ this[PENDING_UPDATE] = null;
+ this[IN_MAIN_PROCESS_KEY] = false;
+ throw e;
+ }
+ // Ensure zr refresh sychronously, and then pixel in canvas can be
+ // fetched after `setOption`.
+ if (!this._ssr) {
+ // not use flush when using ssr mode.
+ this._zr.flush();
+ }
+ this[PENDING_UPDATE] = null;
+ this[IN_MAIN_PROCESS_KEY] = false;
+ flushPendingActions.call(this, silent);
+ triggerUpdatedEvent.call(this, silent);
+ }
+ };
+ /**
+ * @deprecated
+ */
+ ECharts.prototype.setTheme = function () {
+ deprecateLog('ECharts#setTheme() is DEPRECATED in ECharts 3.0');
+ };
+ // We don't want developers to use getModel directly.
+ ECharts.prototype.getModel = function () {
+ return this._model;
+ };
+ ECharts.prototype.getOption = function () {
+ return this._model && this._model.getOption();
+ };
+ ECharts.prototype.getWidth = function () {
+ return this._zr.getWidth();
+ };
+ ECharts.prototype.getHeight = function () {
+ return this._zr.getHeight();
+ };
+ ECharts.prototype.getDevicePixelRatio = function () {
+ return this._zr.painter.dpr
+ /* eslint-disable-next-line */ || env.hasGlobalWindow && window.devicePixelRatio || 1;
+ };
+ /**
+ * Get canvas which has all thing rendered
+ * @deprecated Use renderToCanvas instead.
+ */
+ ECharts.prototype.getRenderedCanvas = function (opts) {
+ if ("development" !== 'production') {
+ deprecateReplaceLog('getRenderedCanvas', 'renderToCanvas');
+ }
+ return this.renderToCanvas(opts);
+ };
+ ECharts.prototype.renderToCanvas = function (opts) {
+ opts = opts || {};
+ var painter = this._zr.painter;
+ if ("development" !== 'production') {
+ if (painter.type !== 'canvas') {
+ throw new Error('renderToCanvas can only be used in the canvas renderer.');
+ }
+ }
+ return painter.getRenderedCanvas({
+ backgroundColor: opts.backgroundColor || this._model.get('backgroundColor'),
+ pixelRatio: opts.pixelRatio || this.getDevicePixelRatio()
+ });
+ };
+ ECharts.prototype.renderToSVGString = function (opts) {
+ opts = opts || {};
+ var painter = this._zr.painter;
+ if ("development" !== 'production') {
+ if (painter.type !== 'svg') {
+ throw new Error('renderToSVGString can only be used in the svg renderer.');
+ }
+ }
+ return painter.renderToString({
+ useViewBox: opts.useViewBox
+ });
+ };
+ /**
+ * Get svg data url
+ */
+ ECharts.prototype.getSvgDataURL = function () {
+ if (!env.svgSupported) {
+ return;
+ }
+ var zr = this._zr;
+ var list = zr.storage.getDisplayList();
+ // Stop animations
+ each(list, function (el) {
+ el.stopAnimation(null, true);
+ });
+ return zr.painter.toDataURL();
+ };
+ ECharts.prototype.getDataURL = function (opts) {
+ if (this._disposed) {
+ disposedWarning(this.id);
+ return;
+ }
+ opts = opts || {};
+ var excludeComponents = opts.excludeComponents;
+ var ecModel = this._model;
+ var excludesComponentViews = [];
+ var self = this;
+ each(excludeComponents, function (componentType) {
+ ecModel.eachComponent({
+ mainType: componentType
+ }, function (component) {
+ var view = self._componentsMap[component.__viewId];
+ if (!view.group.ignore) {
+ excludesComponentViews.push(view);
+ view.group.ignore = true;
+ }
+ });
+ });
+ var url = this._zr.painter.getType() === 'svg' ? this.getSvgDataURL() : this.renderToCanvas(opts).toDataURL('image/' + (opts && opts.type || 'png'));
+ each(excludesComponentViews, function (view) {
+ view.group.ignore = false;
+ });
+ return url;
+ };
+ ECharts.prototype.getConnectedDataURL = function (opts) {
+ if (this._disposed) {
+ disposedWarning(this.id);
+ return;
+ }
+ var isSvg = opts.type === 'svg';
+ var groupId = this.group;
+ var mathMin = Math.min;
+ var mathMax = Math.max;
+ var MAX_NUMBER = Infinity;
+ if (connectedGroups[groupId]) {
+ var left_1 = MAX_NUMBER;
+ var top_1 = MAX_NUMBER;
+ var right_1 = -MAX_NUMBER;
+ var bottom_1 = -MAX_NUMBER;
+ var canvasList_1 = [];
+ var dpr_1 = opts && opts.pixelRatio || this.getDevicePixelRatio();
+ each(instances$1, function (chart, id) {
+ if (chart.group === groupId) {
+ var canvas = isSvg ? chart.getZr().painter.getSvgDom().innerHTML : chart.renderToCanvas(clone(opts));
+ var boundingRect = chart.getDom().getBoundingClientRect();
+ left_1 = mathMin(boundingRect.left, left_1);
+ top_1 = mathMin(boundingRect.top, top_1);
+ right_1 = mathMax(boundingRect.right, right_1);
+ bottom_1 = mathMax(boundingRect.bottom, bottom_1);
+ canvasList_1.push({
+ dom: canvas,
+ left: boundingRect.left,
+ top: boundingRect.top
+ });
+ }
+ });
+ left_1 *= dpr_1;
+ top_1 *= dpr_1;
+ right_1 *= dpr_1;
+ bottom_1 *= dpr_1;
+ var width = right_1 - left_1;
+ var height = bottom_1 - top_1;
+ var targetCanvas = platformApi.createCanvas();
+ var zr_1 = init(targetCanvas, {
+ renderer: isSvg ? 'svg' : 'canvas'
+ });
+ zr_1.resize({
+ width: width,
+ height: height
+ });
+ if (isSvg) {
+ var content_1 = '';
+ each(canvasList_1, function (item) {
+ var x = item.left - left_1;
+ var y = item.top - top_1;
+ content_1 += '' + item.dom + '';
+ });
+ zr_1.painter.getSvgRoot().innerHTML = content_1;
+ if (opts.connectedBackgroundColor) {
+ zr_1.painter.setBackgroundColor(opts.connectedBackgroundColor);
+ }
+ zr_1.refreshImmediately();
+ return zr_1.painter.toDataURL();
+ } else {
+ // Background between the charts
+ if (opts.connectedBackgroundColor) {
+ zr_1.add(new Rect({
+ shape: {
+ x: 0,
+ y: 0,
+ width: width,
+ height: height
+ },
+ style: {
+ fill: opts.connectedBackgroundColor
+ }
+ }));
+ }
+ each(canvasList_1, function (item) {
+ var img = new ZRImage({
+ style: {
+ x: item.left * dpr_1 - left_1,
+ y: item.top * dpr_1 - top_1,
+ image: item.dom
+ }
+ });
+ zr_1.add(img);
+ });
+ zr_1.refreshImmediately();
+ return targetCanvas.toDataURL('image/' + (opts && opts.type || 'png'));
+ }
+ } else {
+ return this.getDataURL(opts);
+ }
+ };
+ ECharts.prototype.convertToPixel = function (finder, value) {
+ return doConvertPixel(this, 'convertToPixel', finder, value);
+ };
+ ECharts.prototype.convertFromPixel = function (finder, value) {
+ return doConvertPixel(this, 'convertFromPixel', finder, value);
+ };
+ /**
+ * Is the specified coordinate systems or components contain the given pixel point.
+ * @param {Array|number} value
+ * @return {boolean} result
+ */
+ ECharts.prototype.containPixel = function (finder, value) {
+ if (this._disposed) {
+ disposedWarning(this.id);
+ return;
+ }
+ var ecModel = this._model;
+ var result;
+ var findResult = parseFinder(ecModel, finder);
+ each(findResult, function (models, key) {
+ key.indexOf('Models') >= 0 && each(models, function (model) {
+ var coordSys = model.coordinateSystem;
+ if (coordSys && coordSys.containPoint) {
+ result = result || !!coordSys.containPoint(value);
+ } else if (key === 'seriesModels') {
+ var view = this._chartsMap[model.__viewId];
+ if (view && view.containPoint) {
+ result = result || view.containPoint(value, model);
+ } else {
+ if ("development" !== 'production') {
+ warn(key + ': ' + (view ? 'The found component do not support containPoint.' : 'No view mapping to the found component.'));
+ }
+ }
+ } else {
+ if ("development" !== 'production') {
+ warn(key + ': containPoint is not supported');
+ }
+ }
+ }, this);
+ }, this);
+ return !!result;
+ };
+ /**
+ * Get visual from series or data.
+ * @param finder
+ * If string, e.g., 'series', means {seriesIndex: 0}.
+ * If Object, could contain some of these properties below:
+ * {
+ * seriesIndex / seriesId / seriesName,
+ * dataIndex / dataIndexInside
+ * }
+ * If dataIndex is not specified, series visual will be fetched,
+ * but not data item visual.
+ * If all of seriesIndex, seriesId, seriesName are not specified,
+ * visual will be fetched from first series.
+ * @param visualType 'color', 'symbol', 'symbolSize'
+ */
+ ECharts.prototype.getVisual = function (finder, visualType) {
+ var ecModel = this._model;
+ var parsedFinder = parseFinder(ecModel, finder, {
+ defaultMainType: 'series'
+ });
+ var seriesModel = parsedFinder.seriesModel;
+ if ("development" !== 'production') {
+ if (!seriesModel) {
+ warn('There is no specified series model');
+ }
+ }
+ var data = seriesModel.getData();
+ var dataIndexInside = parsedFinder.hasOwnProperty('dataIndexInside') ? parsedFinder.dataIndexInside : parsedFinder.hasOwnProperty('dataIndex') ? data.indexOfRawIndex(parsedFinder.dataIndex) : null;
+ return dataIndexInside != null ? getItemVisualFromData(data, dataIndexInside, visualType) : getVisualFromData(data, visualType);
+ };
+ /**
+ * Get view of corresponding component model
+ */
+ ECharts.prototype.getViewOfComponentModel = function (componentModel) {
+ return this._componentsMap[componentModel.__viewId];
+ };
+ /**
+ * Get view of corresponding series model
+ */
+ ECharts.prototype.getViewOfSeriesModel = function (seriesModel) {
+ return this._chartsMap[seriesModel.__viewId];
+ };
+ ECharts.prototype._initEvents = function () {
+ var _this = this;
+ each(MOUSE_EVENT_NAMES, function (eveName) {
+ var handler = function (e) {
+ var ecModel = _this.getModel();
+ var el = e.target;
+ var params;
+ var isGlobalOut = eveName === 'globalout';
+ // no e.target when 'globalout'.
+ if (isGlobalOut) {
+ params = {};
+ } else {
+ el && findEventDispatcher(el, function (parent) {
+ var ecData = getECData(parent);
+ if (ecData && ecData.dataIndex != null) {
+ var dataModel = ecData.dataModel || ecModel.getSeriesByIndex(ecData.seriesIndex);
+ params = dataModel && dataModel.getDataParams(ecData.dataIndex, ecData.dataType, el) || {};
+ return true;
+ }
+ // If element has custom eventData of components
+ else if (ecData.eventData) {
+ params = extend({}, ecData.eventData);
+ return true;
+ }
+ }, true);
+ }
+ // Contract: if params prepared in mouse event,
+ // these properties must be specified:
+ // {
+ // componentType: string (component main type)
+ // componentIndex: number
+ // }
+ // Otherwise event query can not work.
+ if (params) {
+ var componentType = params.componentType;
+ var componentIndex = params.componentIndex;
+ // Special handling for historic reason: when trigger by
+ // markLine/markPoint/markArea, the componentType is
+ // 'markLine'/'markPoint'/'markArea', but we should better
+ // enable them to be queried by seriesIndex, since their
+ // option is set in each series.
+ if (componentType === 'markLine' || componentType === 'markPoint' || componentType === 'markArea') {
+ componentType = 'series';
+ componentIndex = params.seriesIndex;
+ }
+ var model = componentType && componentIndex != null && ecModel.getComponent(componentType, componentIndex);
+ var view = model && _this[model.mainType === 'series' ? '_chartsMap' : '_componentsMap'][model.__viewId];
+ if ("development" !== 'production') {
+ // `event.componentType` and `event[componentTpype + 'Index']` must not
+ // be missed, otherwise there is no way to distinguish source component.
+ // See `dataFormat.getDataParams`.
+ if (!isGlobalOut && !(model && view)) {
+ warn('model or view can not be found by params');
+ }
+ }
+ params.event = e;
+ params.type = eveName;
+ _this._$eventProcessor.eventInfo = {
+ targetEl: el,
+ packedEvent: params,
+ model: model,
+ view: view
+ };
+ _this.trigger(eveName, params);
+ }
+ };
+ // Consider that some component (like tooltip, brush, ...)
+ // register zr event handler, but user event handler might
+ // do anything, such as call `setOption` or `dispatchAction`,
+ // which probably update any of the content and probably
+ // cause problem if it is called previous other inner handlers.
+ handler.zrEventfulCallAtLast = true;
+ _this._zr.on(eveName, handler, _this);
+ });
+ each(eventActionMap, function (actionType, eventType) {
+ _this._messageCenter.on(eventType, function (event) {
+ this.trigger(eventType, event);
+ }, _this);
+ });
+ // Extra events
+ // TODO register?
+ each(['selectchanged'], function (eventType) {
+ _this._messageCenter.on(eventType, function (event) {
+ this.trigger(eventType, event);
+ }, _this);
+ });
+ handleLegacySelectEvents(this._messageCenter, this, this._api);
+ };
+ ECharts.prototype.isDisposed = function () {
+ return this._disposed;
+ };
+ ECharts.prototype.clear = function () {
+ if (this._disposed) {
+ disposedWarning(this.id);
+ return;
+ }
+ this.setOption({
+ series: []
+ }, true);
+ };
+ ECharts.prototype.dispose = function () {
+ if (this._disposed) {
+ disposedWarning(this.id);
+ return;
+ }
+ this._disposed = true;
+ var dom = this.getDom();
+ if (dom) {
+ setAttribute(this.getDom(), DOM_ATTRIBUTE_KEY, '');
+ }
+ var chart = this;
+ var api = chart._api;
+ var ecModel = chart._model;
+ each(chart._componentsViews, function (component) {
+ component.dispose(ecModel, api);
+ });
+ each(chart._chartsViews, function (chart) {
+ chart.dispose(ecModel, api);
+ });
+ // Dispose after all views disposed
+ chart._zr.dispose();
+ // Set properties to null.
+ // To reduce the memory cost in case the top code still holds this instance unexpectedly.
+ chart._dom = chart._model = chart._chartsMap = chart._componentsMap = chart._chartsViews = chart._componentsViews = chart._scheduler = chart._api = chart._zr = chart._throttledZrFlush = chart._theme = chart._coordSysMgr = chart._messageCenter = null;
+ delete instances$1[chart.id];
+ };
+ /**
+ * Resize the chart
+ */
+ ECharts.prototype.resize = function (opts) {
+ if (this[IN_MAIN_PROCESS_KEY]) {
+ if ("development" !== 'production') {
+ error('`resize` should not be called during main process.');
+ }
+ return;
+ }
+ if (this._disposed) {
+ disposedWarning(this.id);
+ return;
+ }
+ this._zr.resize(opts);
+ var ecModel = this._model;
+ // Resize loading effect
+ this._loadingFX && this._loadingFX.resize();
+ if (!ecModel) {
+ return;
+ }
+ var needPrepare = ecModel.resetOption('media');
+ var silent = opts && opts.silent;
+ // There is some real cases that:
+ // chart.setOption(option, { lazyUpdate: true });
+ // chart.resize();
+ if (this[PENDING_UPDATE]) {
+ if (silent == null) {
+ silent = this[PENDING_UPDATE].silent;
+ }
+ needPrepare = true;
+ this[PENDING_UPDATE] = null;
+ }
+ this[IN_MAIN_PROCESS_KEY] = true;
+ try {
+ needPrepare && prepare(this);
+ updateMethods.update.call(this, {
+ type: 'resize',
+ animation: extend({
+ // Disable animation
+ duration: 0
+ }, opts && opts.animation)
+ });
+ } catch (e) {
+ this[IN_MAIN_PROCESS_KEY] = false;
+ throw e;
+ }
+ this[IN_MAIN_PROCESS_KEY] = false;
+ flushPendingActions.call(this, silent);
+ triggerUpdatedEvent.call(this, silent);
+ };
+ ECharts.prototype.showLoading = function (name, cfg) {
+ if (this._disposed) {
+ disposedWarning(this.id);
+ return;
+ }
+ if (isObject(name)) {
+ cfg = name;
+ name = '';
+ }
+ name = name || 'default';
+ this.hideLoading();
+ if (!loadingEffects[name]) {
+ if ("development" !== 'production') {
+ warn('Loading effects ' + name + ' not exists.');
+ }
+ return;
+ }
+ var el = loadingEffects[name](this._api, cfg);
+ var zr = this._zr;
+ this._loadingFX = el;
+ zr.add(el);
+ };
+ /**
+ * Hide loading effect
+ */
+ ECharts.prototype.hideLoading = function () {
+ if (this._disposed) {
+ disposedWarning(this.id);
+ return;
+ }
+ this._loadingFX && this._zr.remove(this._loadingFX);
+ this._loadingFX = null;
+ };
+ ECharts.prototype.makeActionFromEvent = function (eventObj) {
+ var payload = extend({}, eventObj);
+ payload.type = eventActionMap[eventObj.type];
+ return payload;
+ };
+ /**
+ * @param opt If pass boolean, means opt.silent
+ * @param opt.silent Default `false`. Whether trigger events.
+ * @param opt.flush Default `undefined`.
+ * true: Flush immediately, and then pixel in canvas can be fetched
+ * immediately. Caution: it might affect performance.
+ * false: Not flush.
+ * undefined: Auto decide whether perform flush.
+ */
+ ECharts.prototype.dispatchAction = function (payload, opt) {
+ if (this._disposed) {
+ disposedWarning(this.id);
+ return;
+ }
+ if (!isObject(opt)) {
+ opt = {
+ silent: !!opt
+ };
+ }
+ if (!actions[payload.type]) {
+ return;
+ }
+ // Avoid dispatch action before setOption. Especially in `connect`.
+ if (!this._model) {
+ return;
+ }
+ // May dispatchAction in rendering procedure
+ if (this[IN_MAIN_PROCESS_KEY]) {
+ this._pendingActions.push(payload);
+ return;
+ }
+ var silent = opt.silent;
+ doDispatchAction.call(this, payload, silent);
+ var flush = opt.flush;
+ if (flush) {
+ this._zr.flush();
+ } else if (flush !== false && env.browser.weChat) {
+ // In WeChat embedded browser, `requestAnimationFrame` and `setInterval`
+ // hang when sliding page (on touch event), which cause that zr does not
+ // refresh until user interaction finished, which is not expected.
+ // But `dispatchAction` may be called too frequently when pan on touch
+ // screen, which impacts performance if do not throttle them.
+ this._throttledZrFlush();
+ }
+ flushPendingActions.call(this, silent);
+ triggerUpdatedEvent.call(this, silent);
+ };
+ ECharts.prototype.updateLabelLayout = function () {
+ lifecycle.trigger('series:layoutlabels', this._model, this._api, {
+ // Not adding series labels.
+ // TODO
+ updatedSeries: []
+ });
+ };
+ ECharts.prototype.appendData = function (params) {
+ if (this._disposed) {
+ disposedWarning(this.id);
+ return;
+ }
+ var seriesIndex = params.seriesIndex;
+ var ecModel = this.getModel();
+ var seriesModel = ecModel.getSeriesByIndex(seriesIndex);
+ if ("development" !== 'production') {
+ assert(params.data && seriesModel);
+ }
+ seriesModel.appendData(params);
+ // Note: `appendData` does not support that update extent of coordinate
+ // system, util some scenario require that. In the expected usage of
+ // `appendData`, the initial extent of coordinate system should better
+ // be fixed by axis `min`/`max` setting or initial data, otherwise if
+ // the extent changed while `appendData`, the location of the painted
+ // graphic elements have to be changed, which make the usage of
+ // `appendData` meaningless.
+ this._scheduler.unfinished = true;
+ this.getZr().wakeUp();
+ };
+ // A work around for no `internal` modifier in ts yet but
+ // need to strictly hide private methods to JS users.
+ ECharts.internalField = function () {
+ prepare = function (ecIns) {
+ var scheduler = ecIns._scheduler;
+ scheduler.restorePipelines(ecIns._model);
+ scheduler.prepareStageTasks();
+ prepareView(ecIns, true);
+ prepareView(ecIns, false);
+ scheduler.plan();
+ };
+ /**
+ * Prepare view instances of charts and components
+ */
+ prepareView = function (ecIns, isComponent) {
+ var ecModel = ecIns._model;
+ var scheduler = ecIns._scheduler;
+ var viewList = isComponent ? ecIns._componentsViews : ecIns._chartsViews;
+ var viewMap = isComponent ? ecIns._componentsMap : ecIns._chartsMap;
+ var zr = ecIns._zr;
+ var api = ecIns._api;
+ for (var i = 0; i < viewList.length; i++) {
+ viewList[i].__alive = false;
+ }
+ isComponent ? ecModel.eachComponent(function (componentType, model) {
+ componentType !== 'series' && doPrepare(model);
+ }) : ecModel.eachSeries(doPrepare);
+ function doPrepare(model) {
+ // By default view will be reused if possible for the case that `setOption` with "notMerge"
+ // mode and need to enable transition animation. (Usually, when they have the same id, or
+ // especially no id but have the same type & name & index. See the `model.id` generation
+ // rule in `makeIdAndName` and `viewId` generation rule here).
+ // But in `replaceMerge` mode, this feature should be able to disabled when it is clear that
+ // the new model has nothing to do with the old model.
+ var requireNewView = model.__requireNewView;
+ // This command should not work twice.
+ model.__requireNewView = false;
+ // Consider: id same and type changed.
+ var viewId = '_ec_' + model.id + '_' + model.type;
+ var view = !requireNewView && viewMap[viewId];
+ if (!view) {
+ var classType = parseClassType(model.type);
+ var Clazz = isComponent ? ComponentView.getClass(classType.main, classType.sub) :
+ // FIXME:TS
+ // (ChartView as ChartViewConstructor).getClass('series', classType.sub)
+ // For backward compat, still support a chart type declared as only subType
+ // like "liquidfill", but recommend "series.liquidfill"
+ // But need a base class to make a type series.
+ ChartView.getClass(classType.sub);
+ if ("development" !== 'production') {
+ assert(Clazz, classType.sub + ' does not exist.');
+ }
+ view = new Clazz();
+ view.init(ecModel, api);
+ viewMap[viewId] = view;
+ viewList.push(view);
+ zr.add(view.group);
+ }
+ model.__viewId = view.__id = viewId;
+ view.__alive = true;
+ view.__model = model;
+ view.group.__ecComponentInfo = {
+ mainType: model.mainType,
+ index: model.componentIndex
+ };
+ !isComponent && scheduler.prepareView(view, model, ecModel, api);
+ }
+ for (var i = 0; i < viewList.length;) {
+ var view = viewList[i];
+ if (!view.__alive) {
+ !isComponent && view.renderTask.dispose();
+ zr.remove(view.group);
+ view.dispose(ecModel, api);
+ viewList.splice(i, 1);
+ if (viewMap[view.__id] === view) {
+ delete viewMap[view.__id];
+ }
+ view.__id = view.group.__ecComponentInfo = null;
+ } else {
+ i++;
+ }
+ }
+ };
+ updateDirectly = function (ecIns, method, payload, mainType, subType) {
+ var ecModel = ecIns._model;
+ ecModel.setUpdatePayload(payload);
+ // broadcast
+ if (!mainType) {
+ // FIXME
+ // Chart will not be update directly here, except set dirty.
+ // But there is no such scenario now.
+ each([].concat(ecIns._componentsViews).concat(ecIns._chartsViews), callView);
+ return;
+ }
+ var query = {};
+ query[mainType + 'Id'] = payload[mainType + 'Id'];
+ query[mainType + 'Index'] = payload[mainType + 'Index'];
+ query[mainType + 'Name'] = payload[mainType + 'Name'];
+ var condition = {
+ mainType: mainType,
+ query: query
+ };
+ subType && (condition.subType = subType); // subType may be '' by parseClassType;
+ var excludeSeriesId = payload.excludeSeriesId;
+ var excludeSeriesIdMap;
+ if (excludeSeriesId != null) {
+ excludeSeriesIdMap = createHashMap();
+ each(normalizeToArray(excludeSeriesId), function (id) {
+ var modelId = convertOptionIdName(id, null);
+ if (modelId != null) {
+ excludeSeriesIdMap.set(modelId, true);
+ }
+ });
+ }
+ // If dispatchAction before setOption, do nothing.
+ ecModel && ecModel.eachComponent(condition, function (model) {
+ var isExcluded = excludeSeriesIdMap && excludeSeriesIdMap.get(model.id) != null;
+ if (isExcluded) {
+ return;
+ }
+ if (isHighDownPayload(payload)) {
+ if (model instanceof SeriesModel) {
+ if (payload.type === HIGHLIGHT_ACTION_TYPE && !payload.notBlur && !model.get(['emphasis', 'disabled'])) {
+ blurSeriesFromHighlightPayload(model, payload, ecIns._api);
+ }
+ } else {
+ var _a = findComponentHighDownDispatchers(model.mainType, model.componentIndex, payload.name, ecIns._api),
+ focusSelf = _a.focusSelf,
+ dispatchers = _a.dispatchers;
+ if (payload.type === HIGHLIGHT_ACTION_TYPE && focusSelf && !payload.notBlur) {
+ blurComponent(model.mainType, model.componentIndex, ecIns._api);
+ }
+ // PENDING:
+ // Whether to put this "enter emphasis" code in `ComponentView`,
+ // which will be the same as `ChartView` but might be not necessary
+ // and will be far from this logic.
+ if (dispatchers) {
+ each(dispatchers, function (dispatcher) {
+ payload.type === HIGHLIGHT_ACTION_TYPE ? enterEmphasis(dispatcher) : leaveEmphasis(dispatcher);
+ });
+ }
+ }
+ } else if (isSelectChangePayload(payload)) {
+ // TODO geo
+ if (model instanceof SeriesModel) {
+ toggleSelectionFromPayload(model, payload, ecIns._api);
+ updateSeriesElementSelection(model);
+ markStatusToUpdate(ecIns);
+ }
+ }
+ }, ecIns);
+ ecModel && ecModel.eachComponent(condition, function (model) {
+ var isExcluded = excludeSeriesIdMap && excludeSeriesIdMap.get(model.id) != null;
+ if (isExcluded) {
+ return;
+ }
+ callView(ecIns[mainType === 'series' ? '_chartsMap' : '_componentsMap'][model.__viewId]);
+ }, ecIns);
+ function callView(view) {
+ view && view.__alive && view[method] && view[method](view.__model, ecModel, ecIns._api, payload);
+ }
+ };
+ updateMethods = {
+ prepareAndUpdate: function (payload) {
+ prepare(this);
+ updateMethods.update.call(this, payload, {
+ // Needs to mark option changed if newOption is given.
+ // It's from MagicType.
+ // TODO If use a separate flag optionChanged in payload?
+ optionChanged: payload.newOption != null
+ });
+ },
+ update: function (payload, updateParams) {
+ var ecModel = this._model;
+ var api = this._api;
+ var zr = this._zr;
+ var coordSysMgr = this._coordSysMgr;
+ var scheduler = this._scheduler;
+ // update before setOption
+ if (!ecModel) {
+ return;
+ }
+ ecModel.setUpdatePayload(payload);
+ scheduler.restoreData(ecModel, payload);
+ scheduler.performSeriesTasks(ecModel);
+ // TODO
+ // Save total ecModel here for undo/redo (after restoring data and before processing data).
+ // Undo (restoration of total ecModel) can be carried out in 'action' or outside API call.
+ // Create new coordinate system each update
+ // In LineView may save the old coordinate system and use it to get the original point.
+ coordSysMgr.create(ecModel, api);
+ scheduler.performDataProcessorTasks(ecModel, payload);
+ // Current stream render is not supported in data process. So we can update
+ // stream modes after data processing, where the filtered data is used to
+ // determine whether to use progressive rendering.
+ updateStreamModes(this, ecModel);
+ // We update stream modes before coordinate system updated, then the modes info
+ // can be fetched when coord sys updating (consider the barGrid extent fix). But
+ // the drawback is the full coord info can not be fetched. Fortunately this full
+ // coord is not required in stream mode updater currently.
+ coordSysMgr.update(ecModel, api);
+ clearColorPalette(ecModel);
+ scheduler.performVisualTasks(ecModel, payload);
+ render(this, ecModel, api, payload, updateParams);
+ // Set background
+ var backgroundColor = ecModel.get('backgroundColor') || 'transparent';
+ var darkMode = ecModel.get('darkMode');
+ zr.setBackgroundColor(backgroundColor);
+ // Force set dark mode.
+ if (darkMode != null && darkMode !== 'auto') {
+ zr.setDarkMode(darkMode);
+ }
+ lifecycle.trigger('afterupdate', ecModel, api);
+ },
+ updateTransform: function (payload) {
+ var _this = this;
+ var ecModel = this._model;
+ var api = this._api;
+ // update before setOption
+ if (!ecModel) {
+ return;
+ }
+ ecModel.setUpdatePayload(payload);
+ // ChartView.markUpdateMethod(payload, 'updateTransform');
+ var componentDirtyList = [];
+ ecModel.eachComponent(function (componentType, componentModel) {
+ if (componentType === 'series') {
+ return;
+ }
+ var componentView = _this.getViewOfComponentModel(componentModel);
+ if (componentView && componentView.__alive) {
+ if (componentView.updateTransform) {
+ var result = componentView.updateTransform(componentModel, ecModel, api, payload);
+ result && result.update && componentDirtyList.push(componentView);
+ } else {
+ componentDirtyList.push(componentView);
+ }
+ }
+ });
+ var seriesDirtyMap = createHashMap();
+ ecModel.eachSeries(function (seriesModel) {
+ var chartView = _this._chartsMap[seriesModel.__viewId];
+ if (chartView.updateTransform) {
+ var result = chartView.updateTransform(seriesModel, ecModel, api, payload);
+ result && result.update && seriesDirtyMap.set(seriesModel.uid, 1);
+ } else {
+ seriesDirtyMap.set(seriesModel.uid, 1);
+ }
+ });
+ clearColorPalette(ecModel);
+ // Keep pipe to the exist pipeline because it depends on the render task of the full pipeline.
+ // this._scheduler.performVisualTasks(ecModel, payload, 'layout', true);
+ this._scheduler.performVisualTasks(ecModel, payload, {
+ setDirty: true,
+ dirtyMap: seriesDirtyMap
+ });
+ // Currently, not call render of components. Geo render cost a lot.
+ // renderComponents(ecIns, ecModel, api, payload, componentDirtyList);
+ renderSeries(this, ecModel, api, payload, {}, seriesDirtyMap);
+ lifecycle.trigger('afterupdate', ecModel, api);
+ },
+ updateView: function (payload) {
+ var ecModel = this._model;
+ // update before setOption
+ if (!ecModel) {
+ return;
+ }
+ ecModel.setUpdatePayload(payload);
+ ChartView.markUpdateMethod(payload, 'updateView');
+ clearColorPalette(ecModel);
+ // Keep pipe to the exist pipeline because it depends on the render task of the full pipeline.
+ this._scheduler.performVisualTasks(ecModel, payload, {
+ setDirty: true
+ });
+ render(this, ecModel, this._api, payload, {});
+ lifecycle.trigger('afterupdate', ecModel, this._api);
+ },
+ updateVisual: function (payload) {
+ // updateMethods.update.call(this, payload);
+ var _this = this;
+ var ecModel = this._model;
+ // update before setOption
+ if (!ecModel) {
+ return;
+ }
+ ecModel.setUpdatePayload(payload);
+ // clear all visual
+ ecModel.eachSeries(function (seriesModel) {
+ seriesModel.getData().clearAllVisual();
+ });
+ // Perform visual
+ ChartView.markUpdateMethod(payload, 'updateVisual');
+ clearColorPalette(ecModel);
+ // Keep pipe to the exist pipeline because it depends on the render task of the full pipeline.
+ this._scheduler.performVisualTasks(ecModel, payload, {
+ visualType: 'visual',
+ setDirty: true
+ });
+ ecModel.eachComponent(function (componentType, componentModel) {
+ if (componentType !== 'series') {
+ var componentView = _this.getViewOfComponentModel(componentModel);
+ componentView && componentView.__alive && componentView.updateVisual(componentModel, ecModel, _this._api, payload);
+ }
+ });
+ ecModel.eachSeries(function (seriesModel) {
+ var chartView = _this._chartsMap[seriesModel.__viewId];
+ chartView.updateVisual(seriesModel, ecModel, _this._api, payload);
+ });
+ lifecycle.trigger('afterupdate', ecModel, this._api);
+ },
+ updateLayout: function (payload) {
+ updateMethods.update.call(this, payload);
+ }
+ };
+ doConvertPixel = function (ecIns, methodName, finder, value) {
+ if (ecIns._disposed) {
+ disposedWarning(ecIns.id);
+ return;
+ }
+ var ecModel = ecIns._model;
+ var coordSysList = ecIns._coordSysMgr.getCoordinateSystems();
+ var result;
+ var parsedFinder = parseFinder(ecModel, finder);
+ for (var i = 0; i < coordSysList.length; i++) {
+ var coordSys = coordSysList[i];
+ if (coordSys[methodName] && (result = coordSys[methodName](ecModel, parsedFinder, value)) != null) {
+ return result;
+ }
+ }
+ if ("development" !== 'production') {
+ warn('No coordinate system that supports ' + methodName + ' found by the given finder.');
+ }
+ };
+ updateStreamModes = function (ecIns, ecModel) {
+ var chartsMap = ecIns._chartsMap;
+ var scheduler = ecIns._scheduler;
+ ecModel.eachSeries(function (seriesModel) {
+ scheduler.updateStreamModes(seriesModel, chartsMap[seriesModel.__viewId]);
+ });
+ };
+ doDispatchAction = function (payload, silent) {
+ var _this = this;
+ var ecModel = this.getModel();
+ var payloadType = payload.type;
+ var escapeConnect = payload.escapeConnect;
+ var actionWrap = actions[payloadType];
+ var actionInfo = actionWrap.actionInfo;
+ var cptTypeTmp = (actionInfo.update || 'update').split(':');
+ var updateMethod = cptTypeTmp.pop();
+ var cptType = cptTypeTmp[0] != null && parseClassType(cptTypeTmp[0]);
+ this[IN_MAIN_PROCESS_KEY] = true;
+ var payloads = [payload];
+ var batched = false;
+ // Batch action
+ if (payload.batch) {
+ batched = true;
+ payloads = map(payload.batch, function (item) {
+ item = defaults(extend({}, item), payload);
+ item.batch = null;
+ return item;
+ });
+ }
+ var eventObjBatch = [];
+ var eventObj;
+ var isSelectChange = isSelectChangePayload(payload);
+ var isHighDown = isHighDownPayload(payload);
+ // Only leave blur once if there are multiple batches.
+ if (isHighDown) {
+ allLeaveBlur(this._api);
+ }
+ each(payloads, function (batchItem) {
+ // Action can specify the event by return it.
+ eventObj = actionWrap.action(batchItem, _this._model, _this._api);
+ // Emit event outside
+ eventObj = eventObj || extend({}, batchItem);
+ // Convert type to eventType
+ eventObj.type = actionInfo.event || eventObj.type;
+ eventObjBatch.push(eventObj);
+ // light update does not perform data process, layout and visual.
+ if (isHighDown) {
+ var _a = preParseFinder(payload),
+ queryOptionMap = _a.queryOptionMap,
+ mainTypeSpecified = _a.mainTypeSpecified;
+ var componentMainType = mainTypeSpecified ? queryOptionMap.keys()[0] : 'series';
+ updateDirectly(_this, updateMethod, batchItem, componentMainType);
+ markStatusToUpdate(_this);
+ } else if (isSelectChange) {
+ // At present `dispatchAction({ type: 'select', ... })` is not supported on components.
+ // geo still use 'geoselect'.
+ updateDirectly(_this, updateMethod, batchItem, 'series');
+ markStatusToUpdate(_this);
+ } else if (cptType) {
+ updateDirectly(_this, updateMethod, batchItem, cptType.main, cptType.sub);
+ }
+ });
+ if (updateMethod !== 'none' && !isHighDown && !isSelectChange && !cptType) {
+ try {
+ // Still dirty
+ if (this[PENDING_UPDATE]) {
+ prepare(this);
+ updateMethods.update.call(this, payload);
+ this[PENDING_UPDATE] = null;
+ } else {
+ updateMethods[updateMethod].call(this, payload);
+ }
+ } catch (e) {
+ this[IN_MAIN_PROCESS_KEY] = false;
+ throw e;
+ }
+ }
+ // Follow the rule of action batch
+ if (batched) {
+ eventObj = {
+ type: actionInfo.event || payloadType,
+ escapeConnect: escapeConnect,
+ batch: eventObjBatch
+ };
+ } else {
+ eventObj = eventObjBatch[0];
+ }
+ this[IN_MAIN_PROCESS_KEY] = false;
+ if (!silent) {
+ var messageCenter = this._messageCenter;
+ messageCenter.trigger(eventObj.type, eventObj);
+ // Extra triggered 'selectchanged' event
+ if (isSelectChange) {
+ var newObj = {
+ type: 'selectchanged',
+ escapeConnect: escapeConnect,
+ selected: getAllSelectedIndices(ecModel),
+ isFromClick: payload.isFromClick || false,
+ fromAction: payload.type,
+ fromActionPayload: payload
+ };
+ messageCenter.trigger(newObj.type, newObj);
+ }
+ }
+ };
+ flushPendingActions = function (silent) {
+ var pendingActions = this._pendingActions;
+ while (pendingActions.length) {
+ var payload = pendingActions.shift();
+ doDispatchAction.call(this, payload, silent);
+ }
+ };
+ triggerUpdatedEvent = function (silent) {
+ !silent && this.trigger('updated');
+ };
+ /**
+ * Event `rendered` is triggered when zr
+ * rendered. It is useful for realtime
+ * snapshot (reflect animation).
+ *
+ * Event `finished` is triggered when:
+ * (1) zrender rendering finished.
+ * (2) initial animation finished.
+ * (3) progressive rendering finished.
+ * (4) no pending action.
+ * (5) no delayed setOption needs to be processed.
+ */
+ bindRenderedEvent = function (zr, ecIns) {
+ zr.on('rendered', function (params) {
+ ecIns.trigger('rendered', params);
+ // The `finished` event should not be triggered repeatedly,
+ // so it should only be triggered when rendering indeed happens
+ // in zrender. (Consider the case that dipatchAction is keep
+ // triggering when mouse move).
+ if (
+ // Although zr is dirty if initial animation is not finished
+ // and this checking is called on frame, we also check
+ // animation finished for robustness.
+ zr.animation.isFinished() && !ecIns[PENDING_UPDATE] && !ecIns._scheduler.unfinished && !ecIns._pendingActions.length) {
+ ecIns.trigger('finished');
+ }
+ });
+ };
+ bindMouseEvent = function (zr, ecIns) {
+ zr.on('mouseover', function (e) {
+ var el = e.target;
+ var dispatcher = findEventDispatcher(el, isHighDownDispatcher);
+ if (dispatcher) {
+ handleGlobalMouseOverForHighDown(dispatcher, e, ecIns._api);
+ markStatusToUpdate(ecIns);
+ }
+ }).on('mouseout', function (e) {
+ var el = e.target;
+ var dispatcher = findEventDispatcher(el, isHighDownDispatcher);
+ if (dispatcher) {
+ handleGlobalMouseOutForHighDown(dispatcher, e, ecIns._api);
+ markStatusToUpdate(ecIns);
+ }
+ }).on('click', function (e) {
+ var el = e.target;
+ var dispatcher = findEventDispatcher(el, function (target) {
+ return getECData(target).dataIndex != null;
+ }, true);
+ if (dispatcher) {
+ var actionType = dispatcher.selected ? 'unselect' : 'select';
+ var ecData = getECData(dispatcher);
+ ecIns._api.dispatchAction({
+ type: actionType,
+ dataType: ecData.dataType,
+ dataIndexInside: ecData.dataIndex,
+ seriesIndex: ecData.seriesIndex,
+ isFromClick: true
+ });
+ }
+ });
+ };
+ function clearColorPalette(ecModel) {
+ ecModel.clearColorPalette();
+ ecModel.eachSeries(function (seriesModel) {
+ seriesModel.clearColorPalette();
+ });
+ }
+ // Allocate zlevels for series and components
+ function allocateZlevels(ecModel) {
+ var componentZLevels = [];
+ var seriesZLevels = [];
+ var hasSeparateZLevel = false;
+ ecModel.eachComponent(function (componentType, componentModel) {
+ var zlevel = componentModel.get('zlevel') || 0;
+ var z = componentModel.get('z') || 0;
+ var zlevelKey = componentModel.getZLevelKey();
+ hasSeparateZLevel = hasSeparateZLevel || !!zlevelKey;
+ (componentType === 'series' ? seriesZLevels : componentZLevels).push({
+ zlevel: zlevel,
+ z: z,
+ idx: componentModel.componentIndex,
+ type: componentType,
+ key: zlevelKey
+ });
+ });
+ if (hasSeparateZLevel) {
+ // Series after component
+ var zLevels = componentZLevels.concat(seriesZLevels);
+ var lastSeriesZLevel_1;
+ var lastSeriesKey_1;
+ sort(zLevels, function (a, b) {
+ if (a.zlevel === b.zlevel) {
+ return a.z - b.z;
+ }
+ return a.zlevel - b.zlevel;
+ });
+ each(zLevels, function (item) {
+ var componentModel = ecModel.getComponent(item.type, item.idx);
+ var zlevel = item.zlevel;
+ var key = item.key;
+ if (lastSeriesZLevel_1 != null) {
+ zlevel = Math.max(lastSeriesZLevel_1, zlevel);
+ }
+ if (key) {
+ if (zlevel === lastSeriesZLevel_1 && key !== lastSeriesKey_1) {
+ zlevel++;
+ }
+ lastSeriesKey_1 = key;
+ } else if (lastSeriesKey_1) {
+ if (zlevel === lastSeriesZLevel_1) {
+ zlevel++;
+ }
+ lastSeriesKey_1 = '';
+ }
+ lastSeriesZLevel_1 = zlevel;
+ componentModel.setZLevel(zlevel);
+ });
+ }
+ }
+ render = function (ecIns, ecModel, api, payload, updateParams) {
+ allocateZlevels(ecModel);
+ renderComponents(ecIns, ecModel, api, payload, updateParams);
+ each(ecIns._chartsViews, function (chart) {
+ chart.__alive = false;
+ });
+ renderSeries(ecIns, ecModel, api, payload, updateParams);
+ // Remove groups of unrendered charts
+ each(ecIns._chartsViews, function (chart) {
+ if (!chart.__alive) {
+ chart.remove(ecModel, api);
+ }
+ });
+ };
+ renderComponents = function (ecIns, ecModel, api, payload, updateParams, dirtyList) {
+ each(dirtyList || ecIns._componentsViews, function (componentView) {
+ var componentModel = componentView.__model;
+ clearStates(componentModel, componentView);
+ componentView.render(componentModel, ecModel, api, payload);
+ updateZ(componentModel, componentView);
+ updateStates(componentModel, componentView);
+ });
+ };
+ /**
+ * Render each chart and component
+ */
+ renderSeries = function (ecIns, ecModel, api, payload, updateParams, dirtyMap) {
+ // Render all charts
+ var scheduler = ecIns._scheduler;
+ updateParams = extend(updateParams || {}, {
+ updatedSeries: ecModel.getSeries()
+ });
+ // TODO progressive?
+ lifecycle.trigger('series:beforeupdate', ecModel, api, updateParams);
+ var unfinished = false;
+ ecModel.eachSeries(function (seriesModel) {
+ var chartView = ecIns._chartsMap[seriesModel.__viewId];
+ chartView.__alive = true;
+ var renderTask = chartView.renderTask;
+ scheduler.updatePayload(renderTask, payload);
+ // TODO states on marker.
+ clearStates(seriesModel, chartView);
+ if (dirtyMap && dirtyMap.get(seriesModel.uid)) {
+ renderTask.dirty();
+ }
+ if (renderTask.perform(scheduler.getPerformArgs(renderTask))) {
+ unfinished = true;
+ }
+ chartView.group.silent = !!seriesModel.get('silent');
+ // Should not call markRedraw on group, because it will disable zrender
+ // incremental render (always render from the __startIndex each frame)
+ // chartView.group.markRedraw();
+ updateBlend(seriesModel, chartView);
+ updateSeriesElementSelection(seriesModel);
+ });
+ scheduler.unfinished = unfinished || scheduler.unfinished;
+ lifecycle.trigger('series:layoutlabels', ecModel, api, updateParams);
+ // transition after label is layouted.
+ lifecycle.trigger('series:transition', ecModel, api, updateParams);
+ ecModel.eachSeries(function (seriesModel) {
+ var chartView = ecIns._chartsMap[seriesModel.__viewId];
+ // Update Z after labels updated. Before applying states.
+ updateZ(seriesModel, chartView);
+ // NOTE: Update states after label is updated.
+ // label should be in normal status when layouting.
+ updateStates(seriesModel, chartView);
+ });
+ // If use hover layer
+ updateHoverLayerStatus(ecIns, ecModel);
+ lifecycle.trigger('series:afterupdate', ecModel, api, updateParams);
+ };
+ markStatusToUpdate = function (ecIns) {
+ ecIns[STATUS_NEEDS_UPDATE_KEY] = true;
+ // Wake up zrender if it's sleep. Let it update states in the next frame.
+ ecIns.getZr().wakeUp();
+ };
+ applyChangedStates = function (ecIns) {
+ if (!ecIns[STATUS_NEEDS_UPDATE_KEY]) {
+ return;
+ }
+ ecIns.getZr().storage.traverse(function (el) {
+ // Not applied on removed elements, it may still in fading.
+ if (isElementRemoved(el)) {
+ return;
+ }
+ applyElementStates(el);
+ });
+ ecIns[STATUS_NEEDS_UPDATE_KEY] = false;
+ };
+ function applyElementStates(el) {
+ var newStates = [];
+ var oldStates = el.currentStates;
+ // Keep other states.
+ for (var i = 0; i < oldStates.length; i++) {
+ var stateName = oldStates[i];
+ if (!(stateName === 'emphasis' || stateName === 'blur' || stateName === 'select')) {
+ newStates.push(stateName);
+ }
+ }
+ // Only use states when it's exists.
+ if (el.selected && el.states.select) {
+ newStates.push('select');
+ }
+ if (el.hoverState === HOVER_STATE_EMPHASIS && el.states.emphasis) {
+ newStates.push('emphasis');
+ } else if (el.hoverState === HOVER_STATE_BLUR && el.states.blur) {
+ newStates.push('blur');
+ }
+ el.useStates(newStates);
+ }
+ function updateHoverLayerStatus(ecIns, ecModel) {
+ var zr = ecIns._zr;
+ var storage = zr.storage;
+ var elCount = 0;
+ storage.traverse(function (el) {
+ if (!el.isGroup) {
+ elCount++;
+ }
+ });
+ if (elCount > ecModel.get('hoverLayerThreshold') && !env.node && !env.worker) {
+ ecModel.eachSeries(function (seriesModel) {
+ if (seriesModel.preventUsingHoverLayer) {
+ return;
+ }
+ var chartView = ecIns._chartsMap[seriesModel.__viewId];
+ if (chartView.__alive) {
+ chartView.eachRendered(function (el) {
+ if (el.states.emphasis) {
+ el.states.emphasis.hoverLayer = true;
+ }
+ });
+ }
+ });
+ }
+ }
+ /**
+ * Update chart and blend.
+ */
+ function updateBlend(seriesModel, chartView) {
+ var blendMode = seriesModel.get('blendMode') || null;
+ chartView.eachRendered(function (el) {
+ // FIXME marker and other components
+ if (!el.isGroup) {
+ // DON'T mark the element dirty. In case element is incremental and don't want to rerender.
+ el.style.blend = blendMode;
+ }
+ });
+ }
+ function updateZ(model, view) {
+ if (model.preventAutoZ) {
+ return;
+ }
+ var z = model.get('z') || 0;
+ var zlevel = model.get('zlevel') || 0;
+ // Set z and zlevel
+ view.eachRendered(function (el) {
+ doUpdateZ(el, z, zlevel, -Infinity);
+ // Don't traverse the children because it has been traversed in _updateZ.
+ return true;
+ });
+ }
+ function doUpdateZ(el, z, zlevel, maxZ2) {
+ // Group may also have textContent
+ var label = el.getTextContent();
+ var labelLine = el.getTextGuideLine();
+ var isGroup = el.isGroup;
+ if (isGroup) {
+ // set z & zlevel of children elements of Group
+ var children = el.childrenRef();
+ for (var i = 0; i < children.length; i++) {
+ maxZ2 = Math.max(doUpdateZ(children[i], z, zlevel, maxZ2), maxZ2);
+ }
+ } else {
+ // not Group
+ el.z = z;
+ el.zlevel = zlevel;
+ maxZ2 = Math.max(el.z2, maxZ2);
+ }
+ // always set z and zlevel if label/labelLine exists
+ if (label) {
+ label.z = z;
+ label.zlevel = zlevel;
+ // lift z2 of text content
+ // TODO if el.emphasis.z2 is spcefied, what about textContent.
+ isFinite(maxZ2) && (label.z2 = maxZ2 + 2);
+ }
+ if (labelLine) {
+ var textGuideLineConfig = el.textGuideLineConfig;
+ labelLine.z = z;
+ labelLine.zlevel = zlevel;
+ isFinite(maxZ2) && (labelLine.z2 = maxZ2 + (textGuideLineConfig && textGuideLineConfig.showAbove ? 1 : -1));
+ }
+ return maxZ2;
+ }
+ // Clear states without animation.
+ // TODO States on component.
+ function clearStates(model, view) {
+ view.eachRendered(function (el) {
+ // Not applied on removed elements, it may still in fading.
+ if (isElementRemoved(el)) {
+ return;
+ }
+ var textContent = el.getTextContent();
+ var textGuide = el.getTextGuideLine();
+ if (el.stateTransition) {
+ el.stateTransition = null;
+ }
+ if (textContent && textContent.stateTransition) {
+ textContent.stateTransition = null;
+ }
+ if (textGuide && textGuide.stateTransition) {
+ textGuide.stateTransition = null;
+ }
+ // TODO If el is incremental.
+ if (el.hasState()) {
+ el.prevStates = el.currentStates;
+ el.clearStates();
+ } else if (el.prevStates) {
+ el.prevStates = null;
+ }
+ });
+ }
+ function updateStates(model, view) {
+ var stateAnimationModel = model.getModel('stateAnimation');
+ var enableAnimation = model.isAnimationEnabled();
+ var duration = stateAnimationModel.get('duration');
+ var stateTransition = duration > 0 ? {
+ duration: duration,
+ delay: stateAnimationModel.get('delay'),
+ easing: stateAnimationModel.get('easing')
+ // additive: stateAnimationModel.get('additive')
+ } : null;
+ view.eachRendered(function (el) {
+ if (el.states && el.states.emphasis) {
+ // Not applied on removed elements, it may still in fading.
+ if (isElementRemoved(el)) {
+ return;
+ }
+ if (el instanceof Path) {
+ savePathStates(el);
+ }
+ // Only updated on changed element. In case element is incremental and don't want to rerender.
+ // TODO, a more proper way?
+ if (el.__dirty) {
+ var prevStates = el.prevStates;
+ // Restore states without animation
+ if (prevStates) {
+ el.useStates(prevStates);
+ }
+ }
+ // Update state transition and enable animation again.
+ if (enableAnimation) {
+ el.stateTransition = stateTransition;
+ var textContent = el.getTextContent();
+ var textGuide = el.getTextGuideLine();
+ // TODO Is it necessary to animate label?
+ if (textContent) {
+ textContent.stateTransition = stateTransition;
+ }
+ if (textGuide) {
+ textGuide.stateTransition = stateTransition;
+ }
+ }
+ // Use highlighted and selected flag to toggle states.
+ if (el.__dirty) {
+ applyElementStates(el);
+ }
+ }
+ });
+ }
+ createExtensionAPI = function (ecIns) {
+ return new ( /** @class */function (_super) {
+ __extends(class_1, _super);
+ function class_1() {
+ return _super !== null && _super.apply(this, arguments) || this;
+ }
+ class_1.prototype.getCoordinateSystems = function () {
+ return ecIns._coordSysMgr.getCoordinateSystems();
+ };
+ class_1.prototype.getComponentByElement = function (el) {
+ while (el) {
+ var modelInfo = el.__ecComponentInfo;
+ if (modelInfo != null) {
+ return ecIns._model.getComponent(modelInfo.mainType, modelInfo.index);
+ }
+ el = el.parent;
+ }
+ };
+ class_1.prototype.enterEmphasis = function (el, highlightDigit) {
+ enterEmphasis(el, highlightDigit);
+ markStatusToUpdate(ecIns);
+ };
+ class_1.prototype.leaveEmphasis = function (el, highlightDigit) {
+ leaveEmphasis(el, highlightDigit);
+ markStatusToUpdate(ecIns);
+ };
+ class_1.prototype.enterBlur = function (el) {
+ enterBlur(el);
+ markStatusToUpdate(ecIns);
+ };
+ class_1.prototype.leaveBlur = function (el) {
+ leaveBlur(el);
+ markStatusToUpdate(ecIns);
+ };
+ class_1.prototype.enterSelect = function (el) {
+ enterSelect(el);
+ markStatusToUpdate(ecIns);
+ };
+ class_1.prototype.leaveSelect = function (el) {
+ leaveSelect(el);
+ markStatusToUpdate(ecIns);
+ };
+ class_1.prototype.getModel = function () {
+ return ecIns.getModel();
+ };
+ class_1.prototype.getViewOfComponentModel = function (componentModel) {
+ return ecIns.getViewOfComponentModel(componentModel);
+ };
+ class_1.prototype.getViewOfSeriesModel = function (seriesModel) {
+ return ecIns.getViewOfSeriesModel(seriesModel);
+ };
+ return class_1;
+ }(ExtensionAPI))(ecIns);
+ };
+ enableConnect = function (chart) {
+ function updateConnectedChartsStatus(charts, status) {
+ for (var i = 0; i < charts.length; i++) {
+ var otherChart = charts[i];
+ otherChart[CONNECT_STATUS_KEY] = status;
+ }
+ }
+ each(eventActionMap, function (actionType, eventType) {
+ chart._messageCenter.on(eventType, function (event) {
+ if (connectedGroups[chart.group] && chart[CONNECT_STATUS_KEY] !== CONNECT_STATUS_PENDING) {
+ if (event && event.escapeConnect) {
+ return;
+ }
+ var action_1 = chart.makeActionFromEvent(event);
+ var otherCharts_1 = [];
+ each(instances$1, function (otherChart) {
+ if (otherChart !== chart && otherChart.group === chart.group) {
+ otherCharts_1.push(otherChart);
+ }
+ });
+ updateConnectedChartsStatus(otherCharts_1, CONNECT_STATUS_PENDING);
+ each(otherCharts_1, function (otherChart) {
+ if (otherChart[CONNECT_STATUS_KEY] !== CONNECT_STATUS_UPDATING) {
+ otherChart.dispatchAction(action_1);
+ }
+ });
+ updateConnectedChartsStatus(otherCharts_1, CONNECT_STATUS_UPDATED);
+ }
+ });
+ });
+ };
+ }();
+ return ECharts;
+ }(Eventful);
+ var echartsProto = ECharts.prototype;
+ echartsProto.on = createRegisterEventWithLowercaseECharts('on');
+ echartsProto.off = createRegisterEventWithLowercaseECharts('off');
+ /**
+ * @deprecated
+ */
+ // @ts-ignore
+ echartsProto.one = function (eventName, cb, ctx) {
+ var self = this;
+ deprecateLog('ECharts#one is deprecated.');
+ function wrapped() {
+ var args2 = [];
+ for (var _i = 0; _i < arguments.length; _i++) {
+ args2[_i] = arguments[_i];
+ }
+ cb && cb.apply && cb.apply(this, args2);
+ // @ts-ignore
+ self.off(eventName, wrapped);
+ }
+ // @ts-ignore
+ this.on.call(this, eventName, wrapped, ctx);
+ };
+ var MOUSE_EVENT_NAMES = ['click', 'dblclick', 'mouseover', 'mouseout', 'mousemove', 'mousedown', 'mouseup', 'globalout', 'contextmenu'];
+ function disposedWarning(id) {
+ if ("development" !== 'production') {
+ warn('Instance ' + id + ' has been disposed');
+ }
+ }
+ var actions = {};
+ /**
+ * Map eventType to actionType
+ */
+ var eventActionMap = {};
+ var dataProcessorFuncs = [];
+ var optionPreprocessorFuncs = [];
+ var visualFuncs = [];
+ var themeStorage = {};
+ var loadingEffects = {};
+ var instances$1 = {};
+ var connectedGroups = {};
+ var idBase = +new Date() - 0;
+ var groupIdBase = +new Date() - 0;
+ var DOM_ATTRIBUTE_KEY = '_echarts_instance_';
+ /**
+ * @param opts.devicePixelRatio Use window.devicePixelRatio by default
+ * @param opts.renderer Can choose 'canvas' or 'svg' to render the chart.
+ * @param opts.width Use clientWidth of the input `dom` by default.
+ * Can be 'auto' (the same as null/undefined)
+ * @param opts.height Use clientHeight of the input `dom` by default.
+ * Can be 'auto' (the same as null/undefined)
+ * @param opts.locale Specify the locale.
+ * @param opts.useDirtyRect Enable dirty rectangle rendering or not.
+ */
+ function init$1(dom, theme, opts) {
+ var isClient = !(opts && opts.ssr);
+ if (isClient) {
+ if ("development" !== 'production') {
+ if (!dom) {
+ throw new Error('Initialize failed: invalid dom.');
+ }
+ }
+ var existInstance = getInstanceByDom(dom);
+ if (existInstance) {
+ if ("development" !== 'production') {
+ warn('There is a chart instance already initialized on the dom.');
+ }
+ return existInstance;
+ }
+ if ("development" !== 'production') {
+ if (isDom(dom) && dom.nodeName.toUpperCase() !== 'CANVAS' && (!dom.clientWidth && (!opts || opts.width == null) || !dom.clientHeight && (!opts || opts.height == null))) {
+ warn('Can\'t get DOM width or height. Please check ' + 'dom.clientWidth and dom.clientHeight. They should not be 0.' + 'For example, you may need to call this in the callback ' + 'of window.onload.');
+ }
+ }
+ }
+ var chart = new ECharts(dom, theme, opts);
+ chart.id = 'ec_' + idBase++;
+ instances$1[chart.id] = chart;
+ isClient && setAttribute(dom, DOM_ATTRIBUTE_KEY, chart.id);
+ enableConnect(chart);
+ lifecycle.trigger('afterinit', chart);
+ return chart;
+ }
+ /**
+ * @usage
+ * (A)
+ * ```js
+ * let chart1 = echarts.init(dom1);
+ * let chart2 = echarts.init(dom2);
+ * chart1.group = 'xxx';
+ * chart2.group = 'xxx';
+ * echarts.connect('xxx');
+ * ```
+ * (B)
+ * ```js
+ * let chart1 = echarts.init(dom1);
+ * let chart2 = echarts.init(dom2);
+ * echarts.connect('xxx', [chart1, chart2]);
+ * ```
+ */
+ function connect(groupId) {
+ // Is array of charts
+ if (isArray(groupId)) {
+ var charts = groupId;
+ groupId = null;
+ // If any chart has group
+ each(charts, function (chart) {
+ if (chart.group != null) {
+ groupId = chart.group;
+ }
+ });
+ groupId = groupId || 'g_' + groupIdBase++;
+ each(charts, function (chart) {
+ chart.group = groupId;
+ });
+ }
+ connectedGroups[groupId] = true;
+ return groupId;
+ }
+ function disconnect(groupId) {
+ connectedGroups[groupId] = false;
+ }
+ /**
+ * Alias and backward compatibility
+ * @deprecated
+ */
+ var disConnect = disconnect;
+ /**
+ * Dispose a chart instance
+ */
+ function dispose$1(chart) {
+ if (isString(chart)) {
+ chart = instances$1[chart];
+ } else if (!(chart instanceof ECharts)) {
+ // Try to treat as dom
+ chart = getInstanceByDom(chart);
+ }
+ if (chart instanceof ECharts && !chart.isDisposed()) {
+ chart.dispose();
+ }
+ }
+ function getInstanceByDom(dom) {
+ return instances$1[getAttribute(dom, DOM_ATTRIBUTE_KEY)];
+ }
+ function getInstanceById(key) {
+ return instances$1[key];
+ }
+ /**
+ * Register theme
+ */
+ function registerTheme(name, theme) {
+ themeStorage[name] = theme;
+ }
+ /**
+ * Register option preprocessor
+ */
+ function registerPreprocessor(preprocessorFunc) {
+ if (indexOf(optionPreprocessorFuncs, preprocessorFunc) < 0) {
+ optionPreprocessorFuncs.push(preprocessorFunc);
+ }
+ }
+ function registerProcessor(priority, processor) {
+ normalizeRegister(dataProcessorFuncs, priority, processor, PRIORITY_PROCESSOR_DEFAULT);
+ }
+ /**
+ * Register postIniter
+ * @param {Function} postInitFunc
+ */
+ function registerPostInit(postInitFunc) {
+ registerUpdateLifecycle('afterinit', postInitFunc);
+ }
+ /**
+ * Register postUpdater
+ * @param {Function} postUpdateFunc
+ */
+ function registerPostUpdate(postUpdateFunc) {
+ registerUpdateLifecycle('afterupdate', postUpdateFunc);
+ }
+ function registerUpdateLifecycle(name, cb) {
+ lifecycle.on(name, cb);
+ }
+ function registerAction(actionInfo, eventName, action) {
+ if (isFunction(eventName)) {
+ action = eventName;
+ eventName = '';
+ }
+ var actionType = isObject(actionInfo) ? actionInfo.type : [actionInfo, actionInfo = {
+ event: eventName
+ }][0];
+ // Event name is all lowercase
+ actionInfo.event = (actionInfo.event || actionType).toLowerCase();
+ eventName = actionInfo.event;
+ if (eventActionMap[eventName]) {
+ // Already registered.
+ return;
+ }
+ // Validate action type and event name.
+ assert(ACTION_REG.test(actionType) && ACTION_REG.test(eventName));
+ if (!actions[actionType]) {
+ actions[actionType] = {
+ action: action,
+ actionInfo: actionInfo
+ };
+ }
+ eventActionMap[eventName] = actionType;
+ }
+ function registerCoordinateSystem(type, coordSysCreator) {
+ CoordinateSystemManager.register(type, coordSysCreator);
+ }
+ /**
+ * Get dimensions of specified coordinate system.
+ * @param {string} type
+ * @return {Array.}
+ */
+ function getCoordinateSystemDimensions(type) {
+ var coordSysCreator = CoordinateSystemManager.get(type);
+ if (coordSysCreator) {
+ return coordSysCreator.getDimensionsInfo ? coordSysCreator.getDimensionsInfo() : coordSysCreator.dimensions.slice();
+ }
+ }
+ function registerLayout(priority, layoutTask) {
+ normalizeRegister(visualFuncs, priority, layoutTask, PRIORITY_VISUAL_LAYOUT, 'layout');
+ }
+ function registerVisual(priority, visualTask) {
+ normalizeRegister(visualFuncs, priority, visualTask, PRIORITY_VISUAL_CHART, 'visual');
+ }
+ var registeredTasks = [];
+ function normalizeRegister(targetList, priority, fn, defaultPriority, visualType) {
+ if (isFunction(priority) || isObject(priority)) {
+ fn = priority;
+ priority = defaultPriority;
+ }
+ if ("development" !== 'production') {
+ if (isNaN(priority) || priority == null) {
+ throw new Error('Illegal priority');
+ }
+ // Check duplicate
+ each(targetList, function (wrap) {
+ assert(wrap.__raw !== fn);
+ });
+ }
+ // Already registered
+ if (indexOf(registeredTasks, fn) >= 0) {
+ return;
+ }
+ registeredTasks.push(fn);
+ var stageHandler = Scheduler.wrapStageHandler(fn, visualType);
+ stageHandler.__prio = priority;
+ stageHandler.__raw = fn;
+ targetList.push(stageHandler);
+ }
+ function registerLoading(name, loadingFx) {
+ loadingEffects[name] = loadingFx;
+ }
+ /**
+ * ZRender need a canvas context to do measureText.
+ * But in node environment canvas may be created by node-canvas.
+ * So we need to specify how to create a canvas instead of using document.createElement('canvas')
+ *
+ *
+ * @deprecated use setPlatformAPI({ createCanvas }) instead.
+ *
+ * @example
+ * let Canvas = require('canvas');
+ * let echarts = require('echarts');
+ * echarts.setCanvasCreator(function () {
+ * // Small size is enough.
+ * return new Canvas(32, 32);
+ * });
+ */
+ function setCanvasCreator(creator) {
+ if ("development" !== 'production') {
+ deprecateLog('setCanvasCreator is deprecated. Use setPlatformAPI({ createCanvas }) instead.');
+ }
+ setPlatformAPI({
+ createCanvas: creator
+ });
+ }
+ /**
+ * The parameters and usage: see `geoSourceManager.registerMap`.
+ * Compatible with previous `echarts.registerMap`.
+ */
+ function registerMap(mapName, geoJson, specialAreas) {
+ var registerMap = getImpl('registerMap');
+ registerMap && registerMap(mapName, geoJson, specialAreas);
+ }
+ function getMap(mapName) {
+ var getMap = getImpl('getMap');
+ return getMap && getMap(mapName);
+ }
+ var registerTransform = registerExternalTransform;
+ /**
+ * Globa dispatchAction to a specified chart instance.
+ */
+ // export function dispatchAction(payload: { chartId: string } & Payload, opt?: Parameters[1]) {
+ // if (!payload || !payload.chartId) {
+ // // Must have chartId to find chart
+ // return;
+ // }
+ // const chart = instances[payload.chartId];
+ // if (chart) {
+ // chart.dispatchAction(payload, opt);
+ // }
+ // }
+ // Builtin global visual
+ registerVisual(PRIORITY_VISUAL_GLOBAL, seriesStyleTask);
+ registerVisual(PRIORITY_VISUAL_CHART_DATA_CUSTOM, dataStyleTask);
+ registerVisual(PRIORITY_VISUAL_CHART_DATA_CUSTOM, dataColorPaletteTask);
+ registerVisual(PRIORITY_VISUAL_GLOBAL, seriesSymbolTask);
+ registerVisual(PRIORITY_VISUAL_CHART_DATA_CUSTOM, dataSymbolTask);
+ registerVisual(PRIORITY_VISUAL_DECAL, decalVisual);
+ registerPreprocessor(globalBackwardCompat);
+ registerProcessor(PRIORITY_PROCESSOR_DATASTACK, dataStack);
+ registerLoading('default', defaultLoading);
+ // Default actions
+ registerAction({
+ type: HIGHLIGHT_ACTION_TYPE,
+ event: HIGHLIGHT_ACTION_TYPE,
+ update: HIGHLIGHT_ACTION_TYPE
+ }, noop);
+ registerAction({
+ type: DOWNPLAY_ACTION_TYPE,
+ event: DOWNPLAY_ACTION_TYPE,
+ update: DOWNPLAY_ACTION_TYPE
+ }, noop);
+ registerAction({
+ type: SELECT_ACTION_TYPE,
+ event: SELECT_ACTION_TYPE,
+ update: SELECT_ACTION_TYPE
+ }, noop);
+ registerAction({
+ type: UNSELECT_ACTION_TYPE,
+ event: UNSELECT_ACTION_TYPE,
+ update: UNSELECT_ACTION_TYPE
+ }, noop);
+ registerAction({
+ type: TOGGLE_SELECT_ACTION_TYPE,
+ event: TOGGLE_SELECT_ACTION_TYPE,
+ update: TOGGLE_SELECT_ACTION_TYPE
+ }, noop);
+ // Default theme
+ registerTheme('light', lightTheme);
+ registerTheme('dark', theme);
+ // For backward compatibility, where the namespace `dataTool` will
+ // be mounted on `echarts` is the extension `dataTool` is imported.
+ var dataTool = {};
+
+ var extensions = [];
+ var extensionRegisters = {
+ registerPreprocessor: registerPreprocessor,
+ registerProcessor: registerProcessor,
+ registerPostInit: registerPostInit,
+ registerPostUpdate: registerPostUpdate,
+ registerUpdateLifecycle: registerUpdateLifecycle,
+ registerAction: registerAction,
+ registerCoordinateSystem: registerCoordinateSystem,
+ registerLayout: registerLayout,
+ registerVisual: registerVisual,
+ registerTransform: registerTransform,
+ registerLoading: registerLoading,
+ registerMap: registerMap,
+ registerImpl: registerImpl,
+ PRIORITY: PRIORITY,
+ ComponentModel: ComponentModel,
+ ComponentView: ComponentView,
+ SeriesModel: SeriesModel,
+ ChartView: ChartView,
+ // TODO Use ComponentModel and SeriesModel instead of Constructor
+ registerComponentModel: function (ComponentModelClass) {
+ ComponentModel.registerClass(ComponentModelClass);
+ },
+ registerComponentView: function (ComponentViewClass) {
+ ComponentView.registerClass(ComponentViewClass);
+ },
+ registerSeriesModel: function (SeriesModelClass) {
+ SeriesModel.registerClass(SeriesModelClass);
+ },
+ registerChartView: function (ChartViewClass) {
+ ChartView.registerClass(ChartViewClass);
+ },
+ registerSubTypeDefaulter: function (componentType, defaulter) {
+ ComponentModel.registerSubTypeDefaulter(componentType, defaulter);
+ },
+ registerPainter: function (painterType, PainterCtor) {
+ registerPainter(painterType, PainterCtor);
+ }
+ };
+ function use(ext) {
+ if (isArray(ext)) {
+ // use([ChartLine, ChartBar]);
+ each(ext, function (singleExt) {
+ use(singleExt);
+ });
+ return;
+ }
+ if (indexOf(extensions, ext) >= 0) {
+ return;
+ }
+ extensions.push(ext);
+ if (isFunction(ext)) {
+ ext = {
+ install: ext
+ };
+ }
+ ext.install(extensionRegisters);
+ }
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+
+
+ /**
+ * AUTO-GENERATED FILE. DO NOT MODIFY.
+ */
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+ function dataIndexMapValueLength(valNumOrArrLengthMoreThan2) {
+ return valNumOrArrLengthMoreThan2 == null ? 0 : valNumOrArrLengthMoreThan2.length || 1;
+ }
+ function defaultKeyGetter(item) {
+ return item;
+ }
+ var DataDiffer = /** @class */function () {
+ /**
+ * @param context Can be visited by this.context in callback.
+ */
+ function DataDiffer(oldArr, newArr, oldKeyGetter, newKeyGetter, context,
+ // By default: 'oneToOne'.
+ diffMode) {
+ this._old = oldArr;
+ this._new = newArr;
+ this._oldKeyGetter = oldKeyGetter || defaultKeyGetter;
+ this._newKeyGetter = newKeyGetter || defaultKeyGetter;
+ // Visible in callback via `this.context`;
+ this.context = context;
+ this._diffModeMultiple = diffMode === 'multiple';
+ }
+ /**
+ * Callback function when add a data
+ */
+ DataDiffer.prototype.add = function (func) {
+ this._add = func;
+ return this;
+ };
+ /**
+ * Callback function when update a data
+ */
+ DataDiffer.prototype.update = function (func) {
+ this._update = func;
+ return this;
+ };
+ /**
+ * Callback function when update a data and only work in `cbMode: 'byKey'`.
+ */
+ DataDiffer.prototype.updateManyToOne = function (func) {
+ this._updateManyToOne = func;
+ return this;
+ };
+ /**
+ * Callback function when update a data and only work in `cbMode: 'byKey'`.
+ */
+ DataDiffer.prototype.updateOneToMany = function (func) {
+ this._updateOneToMany = func;
+ return this;
+ };
+ /**
+ * Callback function when update a data and only work in `cbMode: 'byKey'`.
+ */
+ DataDiffer.prototype.updateManyToMany = function (func) {
+ this._updateManyToMany = func;
+ return this;
+ };
+ /**
+ * Callback function when remove a data
+ */
+ DataDiffer.prototype.remove = function (func) {
+ this._remove = func;
+ return this;
+ };
+ DataDiffer.prototype.execute = function () {
+ this[this._diffModeMultiple ? '_executeMultiple' : '_executeOneToOne']();
+ };
+ DataDiffer.prototype._executeOneToOne = function () {
+ var oldArr = this._old;
+ var newArr = this._new;
+ var newDataIndexMap = {};
+ var oldDataKeyArr = new Array(oldArr.length);
+ var newDataKeyArr = new Array(newArr.length);
+ this._initIndexMap(oldArr, null, oldDataKeyArr, '_oldKeyGetter');
+ this._initIndexMap(newArr, newDataIndexMap, newDataKeyArr, '_newKeyGetter');
+ for (var i = 0; i < oldArr.length; i++) {
+ var oldKey = oldDataKeyArr[i];
+ var newIdxMapVal = newDataIndexMap[oldKey];
+ var newIdxMapValLen = dataIndexMapValueLength(newIdxMapVal);
+ // idx can never be empty array here. see 'set null' logic below.
+ if (newIdxMapValLen > 1) {
+ // Consider there is duplicate key (for example, use dataItem.name as key).
+ // We should make sure every item in newArr and oldArr can be visited.
+ var newIdx = newIdxMapVal.shift();
+ if (newIdxMapVal.length === 1) {
+ newDataIndexMap[oldKey] = newIdxMapVal[0];
+ }
+ this._update && this._update(newIdx, i);
+ } else if (newIdxMapValLen === 1) {
+ newDataIndexMap[oldKey] = null;
+ this._update && this._update(newIdxMapVal, i);
+ } else {
+ this._remove && this._remove(i);
+ }
+ }
+ this._performRestAdd(newDataKeyArr, newDataIndexMap);
+ };
+ /**
+ * For example, consider the case:
+ * oldData: [o0, o1, o2, o3, o4, o5, o6, o7],
+ * newData: [n0, n1, n2, n3, n4, n5, n6, n7, n8],
+ * Where:
+ * o0, o1, n0 has key 'a' (many to one)
+ * o5, n4, n5, n6 has key 'b' (one to many)
+ * o2, n1 has key 'c' (one to one)
+ * n2, n3 has key 'd' (add)
+ * o3, o4 has key 'e' (remove)
+ * o6, o7, n7, n8 has key 'f' (many to many, treated as add and remove)
+ * Then:
+ * (The order of the following directives are not ensured.)
+ * this._updateManyToOne(n0, [o0, o1]);
+ * this._updateOneToMany([n4, n5, n6], o5);
+ * this._update(n1, o2);
+ * this._remove(o3);
+ * this._remove(o4);
+ * this._remove(o6);
+ * this._remove(o7);
+ * this._add(n2);
+ * this._add(n3);
+ * this._add(n7);
+ * this._add(n8);
+ */
+ DataDiffer.prototype._executeMultiple = function () {
+ var oldArr = this._old;
+ var newArr = this._new;
+ var oldDataIndexMap = {};
+ var newDataIndexMap = {};
+ var oldDataKeyArr = [];
+ var newDataKeyArr = [];
+ this._initIndexMap(oldArr, oldDataIndexMap, oldDataKeyArr, '_oldKeyGetter');
+ this._initIndexMap(newArr, newDataIndexMap, newDataKeyArr, '_newKeyGetter');
+ for (var i = 0; i < oldDataKeyArr.length; i++) {
+ var oldKey = oldDataKeyArr[i];
+ var oldIdxMapVal = oldDataIndexMap[oldKey];
+ var newIdxMapVal = newDataIndexMap[oldKey];
+ var oldIdxMapValLen = dataIndexMapValueLength(oldIdxMapVal);
+ var newIdxMapValLen = dataIndexMapValueLength(newIdxMapVal);
+ if (oldIdxMapValLen > 1 && newIdxMapValLen === 1) {
+ this._updateManyToOne && this._updateManyToOne(newIdxMapVal, oldIdxMapVal);
+ newDataIndexMap[oldKey] = null;
+ } else if (oldIdxMapValLen === 1 && newIdxMapValLen > 1) {
+ this._updateOneToMany && this._updateOneToMany(newIdxMapVal, oldIdxMapVal);
+ newDataIndexMap[oldKey] = null;
+ } else if (oldIdxMapValLen === 1 && newIdxMapValLen === 1) {
+ this._update && this._update(newIdxMapVal, oldIdxMapVal);
+ newDataIndexMap[oldKey] = null;
+ } else if (oldIdxMapValLen > 1 && newIdxMapValLen > 1) {
+ this._updateManyToMany && this._updateManyToMany(newIdxMapVal, oldIdxMapVal);
+ newDataIndexMap[oldKey] = null;
+ } else if (oldIdxMapValLen > 1) {
+ for (var i_1 = 0; i_1 < oldIdxMapValLen; i_1++) {
+ this._remove && this._remove(oldIdxMapVal[i_1]);
+ }
+ } else {
+ this._remove && this._remove(oldIdxMapVal);
+ }
+ }
+ this._performRestAdd(newDataKeyArr, newDataIndexMap);
+ };
+ DataDiffer.prototype._performRestAdd = function (newDataKeyArr, newDataIndexMap) {
+ for (var i = 0; i < newDataKeyArr.length; i++) {
+ var newKey = newDataKeyArr[i];
+ var newIdxMapVal = newDataIndexMap[newKey];
+ var idxMapValLen = dataIndexMapValueLength(newIdxMapVal);
+ if (idxMapValLen > 1) {
+ for (var j = 0; j < idxMapValLen; j++) {
+ this._add && this._add(newIdxMapVal[j]);
+ }
+ } else if (idxMapValLen === 1) {
+ this._add && this._add(newIdxMapVal);
+ }
+ // Support both `newDataKeyArr` are duplication removed or not removed.
+ newDataIndexMap[newKey] = null;
+ }
+ };
+ DataDiffer.prototype._initIndexMap = function (arr,
+ // Can be null.
+ map,
+ // In 'byKey', the output `keyArr` is duplication removed.
+ // In 'byIndex', the output `keyArr` is not duplication removed and
+ // its indices are accurately corresponding to `arr`.
+ keyArr, keyGetterName) {
+ var cbModeMultiple = this._diffModeMultiple;
+ for (var i = 0; i < arr.length; i++) {
+ // Add prefix to avoid conflict with Object.prototype.
+ var key = '_ec_' + this[keyGetterName](arr[i], i);
+ if (!cbModeMultiple) {
+ keyArr[i] = key;
+ }
+ if (!map) {
+ continue;
+ }
+ var idxMapVal = map[key];
+ var idxMapValLen = dataIndexMapValueLength(idxMapVal);
+ if (idxMapValLen === 0) {
+ // Simple optimize: in most cases, one index has one key,
+ // do not need array.
+ map[key] = i;
+ if (cbModeMultiple) {
+ keyArr.push(key);
+ }
+ } else if (idxMapValLen === 1) {
+ map[key] = [idxMapVal, i];
+ } else {
+ idxMapVal.push(i);
+ }
+ }
+ };
+ return DataDiffer;
+ }();
+
+ var DimensionUserOuput = /** @class */function () {
+ function DimensionUserOuput(encode, dimRequest) {
+ this._encode = encode;
+ this._schema = dimRequest;
+ }
+ DimensionUserOuput.prototype.get = function () {
+ return {
+ // Do not generate full dimension name until fist used.
+ fullDimensions: this._getFullDimensionNames(),
+ encode: this._encode
+ };
+ };
+ /**
+ * Get all data store dimension names.
+ * Theoretically a series data store is defined both by series and used dataset (if any).
+ * If some dimensions are omitted for performance reason in `this.dimensions`,
+ * the dimension name may not be auto-generated if user does not specify a dimension name.
+ * In this case, the dimension name is `null`/`undefined`.
+ */
+ DimensionUserOuput.prototype._getFullDimensionNames = function () {
+ if (!this._cachedDimNames) {
+ this._cachedDimNames = this._schema ? this._schema.makeOutputDimensionNames() : [];
+ }
+ return this._cachedDimNames;
+ };
+ return DimensionUserOuput;
+ }();
+ function summarizeDimensions(data, schema) {
+ var summary = {};
+ var encode = summary.encode = {};
+ var notExtraCoordDimMap = createHashMap();
+ var defaultedLabel = [];
+ var defaultedTooltip = [];
+ var userOutputEncode = {};
+ each(data.dimensions, function (dimName) {
+ var dimItem = data.getDimensionInfo(dimName);
+ var coordDim = dimItem.coordDim;
+ if (coordDim) {
+ if ("development" !== 'production') {
+ assert(VISUAL_DIMENSIONS.get(coordDim) == null);
+ }
+ var coordDimIndex = dimItem.coordDimIndex;
+ getOrCreateEncodeArr(encode, coordDim)[coordDimIndex] = dimName;
+ if (!dimItem.isExtraCoord) {
+ notExtraCoordDimMap.set(coordDim, 1);
+ // Use the last coord dim (and label friendly) as default label,
+ // because when dataset is used, it is hard to guess which dimension
+ // can be value dimension. If both show x, y on label is not look good,
+ // and conventionally y axis is focused more.
+ if (mayLabelDimType(dimItem.type)) {
+ defaultedLabel[0] = dimName;
+ }
+ // User output encode do not contain generated coords.
+ // And it only has index. User can use index to retrieve value from the raw item array.
+ getOrCreateEncodeArr(userOutputEncode, coordDim)[coordDimIndex] = data.getDimensionIndex(dimItem.name);
+ }
+ if (dimItem.defaultTooltip) {
+ defaultedTooltip.push(dimName);
+ }
+ }
+ VISUAL_DIMENSIONS.each(function (v, otherDim) {
+ var encodeArr = getOrCreateEncodeArr(encode, otherDim);
+ var dimIndex = dimItem.otherDims[otherDim];
+ if (dimIndex != null && dimIndex !== false) {
+ encodeArr[dimIndex] = dimItem.name;
+ }
+ });
+ });
+ var dataDimsOnCoord = [];
+ var encodeFirstDimNotExtra = {};
+ notExtraCoordDimMap.each(function (v, coordDim) {
+ var dimArr = encode[coordDim];
+ encodeFirstDimNotExtra[coordDim] = dimArr[0];
+ // Not necessary to remove duplicate, because a data
+ // dim canot on more than one coordDim.
+ dataDimsOnCoord = dataDimsOnCoord.concat(dimArr);
+ });
+ summary.dataDimsOnCoord = dataDimsOnCoord;
+ summary.dataDimIndicesOnCoord = map(dataDimsOnCoord, function (dimName) {
+ return data.getDimensionInfo(dimName).storeDimIndex;
+ });
+ summary.encodeFirstDimNotExtra = encodeFirstDimNotExtra;
+ var encodeLabel = encode.label;
+ // FIXME `encode.label` is not recommended, because formatter cannot be set
+ // in this way. Use label.formatter instead. Maybe remove this approach someday.
+ if (encodeLabel && encodeLabel.length) {
+ defaultedLabel = encodeLabel.slice();
+ }
+ var encodeTooltip = encode.tooltip;
+ if (encodeTooltip && encodeTooltip.length) {
+ defaultedTooltip = encodeTooltip.slice();
+ } else if (!defaultedTooltip.length) {
+ defaultedTooltip = defaultedLabel.slice();
+ }
+ encode.defaultedLabel = defaultedLabel;
+ encode.defaultedTooltip = defaultedTooltip;
+ summary.userOutput = new DimensionUserOuput(userOutputEncode, schema);
+ return summary;
+ }
+ function getOrCreateEncodeArr(encode, dim) {
+ if (!encode.hasOwnProperty(dim)) {
+ encode[dim] = [];
+ }
+ return encode[dim];
+ }
+ // FIXME:TS should be type `AxisType`
+ function getDimensionTypeByAxis(axisType) {
+ return axisType === 'category' ? 'ordinal' : axisType === 'time' ? 'time' : 'float';
+ }
+ function mayLabelDimType(dimType) {
+ // In most cases, ordinal and time do not suitable for label.
+ // Ordinal info can be displayed on axis. Time is too long.
+ return !(dimType === 'ordinal' || dimType === 'time');
+ }
+ // function findTheLastDimMayLabel(data) {
+ // // Get last value dim
+ // let dimensions = data.dimensions.slice();
+ // let valueType;
+ // let valueDim;
+ // while (dimensions.length && (
+ // valueDim = dimensions.pop(),
+ // valueType = data.getDimensionInfo(valueDim).type,
+ // valueType === 'ordinal' || valueType === 'time'
+ // )) {} // jshint ignore:line
+ // return valueDim;
+ // }
+
+ var SeriesDimensionDefine = /** @class */function () {
+ /**
+ * @param opt All of the fields will be shallow copied.
+ */
+ function SeriesDimensionDefine(opt) {
+ /**
+ * The format of `otherDims` is:
+ * ```js
+ * {
+ * tooltip?: number
+ * label?: number
+ * itemName?: number
+ * seriesName?: number
+ * }
+ * ```
+ *
+ * A `series.encode` can specified these fields:
+ * ```js
+ * encode: {
+ * // "3, 1, 5" is the index of data dimension.
+ * tooltip: [3, 1, 5],
+ * label: [0, 3],
+ * ...
+ * }
+ * ```
+ * `otherDims` is the parse result of the `series.encode` above, like:
+ * ```js
+ * // Suppose the index of this data dimension is `3`.
+ * this.otherDims = {
+ * // `3` is at the index `0` of the `encode.tooltip`
+ * tooltip: 0,
+ * // `3` is at the index `1` of the `encode.label`
+ * label: 1
+ * };
+ * ```
+ *
+ * This prop should never be `null`/`undefined` after initialized.
+ */
+ this.otherDims = {};
+ if (opt != null) {
+ extend(this, opt);
+ }
+ }
+ return SeriesDimensionDefine;
+ }();
+
+ var inner$4 = makeInner();
+ var dimTypeShort = {
+ float: 'f',
+ int: 'i',
+ ordinal: 'o',
+ number: 'n',
+ time: 't'
+ };
+ /**
+ * Represents the dimension requirement of a series.
+ *
+ * NOTICE:
+ * When there are too many dimensions in dataset and many series, only the used dimensions
+ * (i.e., used by coord sys and declared in `series.encode`) are add to `dimensionDefineList`.
+ * But users may query data by other unused dimension names.
+ * In this case, users can only query data if and only if they have defined dimension names
+ * via ec option, so we provide `getDimensionIndexFromSource`, which only query them from
+ * `source` dimensions.
+ */
+ var SeriesDataSchema = /** @class */function () {
+ function SeriesDataSchema(opt) {
+ this.dimensions = opt.dimensions;
+ this._dimOmitted = opt.dimensionOmitted;
+ this.source = opt.source;
+ this._fullDimCount = opt.fullDimensionCount;
+ this._updateDimOmitted(opt.dimensionOmitted);
+ }
+ SeriesDataSchema.prototype.isDimensionOmitted = function () {
+ return this._dimOmitted;
+ };
+ SeriesDataSchema.prototype._updateDimOmitted = function (dimensionOmitted) {
+ this._dimOmitted = dimensionOmitted;
+ if (!dimensionOmitted) {
+ return;
+ }
+ if (!this._dimNameMap) {
+ this._dimNameMap = ensureSourceDimNameMap(this.source);
+ }
+ };
+ /**
+ * @caution Can only be used when `dimensionOmitted: true`.
+ *
+ * Get index by user defined dimension name (i.e., not internal generate name).
+ * That is, get index from `dimensionsDefine`.
+ * If no `dimensionsDefine`, or no name get, return -1.
+ */
+ SeriesDataSchema.prototype.getSourceDimensionIndex = function (dimName) {
+ return retrieve2(this._dimNameMap.get(dimName), -1);
+ };
+ /**
+ * @caution Can only be used when `dimensionOmitted: true`.
+ *
+ * Notice: may return `null`/`undefined` if user not specify dimension names.
+ */
+ SeriesDataSchema.prototype.getSourceDimension = function (dimIndex) {
+ var dimensionsDefine = this.source.dimensionsDefine;
+ if (dimensionsDefine) {
+ return dimensionsDefine[dimIndex];
+ }
+ };
+ SeriesDataSchema.prototype.makeStoreSchema = function () {
+ var dimCount = this._fullDimCount;
+ var willRetrieveDataByName = shouldRetrieveDataByName(this.source);
+ var makeHashStrict = !shouldOmitUnusedDimensions(dimCount);
+ // If source don't have dimensions or series don't omit unsed dimensions.
+ // Generate from seriesDimList directly
+ var dimHash = '';
+ var dims = [];
+ for (var fullDimIdx = 0, seriesDimIdx = 0; fullDimIdx < dimCount; fullDimIdx++) {
+ var property = void 0;
+ var type = void 0;
+ var ordinalMeta = void 0;
+ var seriesDimDef = this.dimensions[seriesDimIdx];
+ // The list has been sorted by `storeDimIndex` asc.
+ if (seriesDimDef && seriesDimDef.storeDimIndex === fullDimIdx) {
+ property = willRetrieveDataByName ? seriesDimDef.name : null;
+ type = seriesDimDef.type;
+ ordinalMeta = seriesDimDef.ordinalMeta;
+ seriesDimIdx++;
+ } else {
+ var sourceDimDef = this.getSourceDimension(fullDimIdx);
+ if (sourceDimDef) {
+ property = willRetrieveDataByName ? sourceDimDef.name : null;
+ type = sourceDimDef.type;
+ }
+ }
+ dims.push({
+ property: property,
+ type: type,
+ ordinalMeta: ordinalMeta
+ });
+ // If retrieving data by index,
+ // use to determine whether data can be shared.
+ // (Because in this case there might be no dimension name defined in dataset, but indices always exists).
+ // (Indices are always 0, 1, 2, ..., so we can ignore them to shorten the hash).
+ // Otherwise if retrieving data by property name (like `data: [{aa: 123, bb: 765}, ...]`),
+ // use in hash.
+ if (willRetrieveDataByName && property != null
+ // For data stack, we have make sure each series has its own dim on this store.
+ // So we do not add property to hash to make sure they can share this store.
+ && (!seriesDimDef || !seriesDimDef.isCalculationCoord)) {
+ dimHash += makeHashStrict
+ // Use escape character '`' in case that property name contains '$'.
+ ? property.replace(/\`/g, '`1').replace(/\$/g, '`2')
+ // For better performance, when there are large dimensions, tolerant this defects that hardly meet.
+ : property;
+ }
+ dimHash += '$';
+ dimHash += dimTypeShort[type] || 'f';
+ if (ordinalMeta) {
+ dimHash += ordinalMeta.uid;
+ }
+ dimHash += '$';
+ }
+ // Source from endpoint(usually series) will be read differently
+ // when seriesLayoutBy or startIndex(which is affected by sourceHeader) are different.
+ // So we use this three props as key.
+ var source = this.source;
+ var hash = [source.seriesLayoutBy, source.startIndex, dimHash].join('$$');
+ return {
+ dimensions: dims,
+ hash: hash
+ };
+ };
+ SeriesDataSchema.prototype.makeOutputDimensionNames = function () {
+ var result = [];
+ for (var fullDimIdx = 0, seriesDimIdx = 0; fullDimIdx < this._fullDimCount; fullDimIdx++) {
+ var name_1 = void 0;
+ var seriesDimDef = this.dimensions[seriesDimIdx];
+ // The list has been sorted by `storeDimIndex` asc.
+ if (seriesDimDef && seriesDimDef.storeDimIndex === fullDimIdx) {
+ if (!seriesDimDef.isCalculationCoord) {
+ name_1 = seriesDimDef.name;
+ }
+ seriesDimIdx++;
+ } else {
+ var sourceDimDef = this.getSourceDimension(fullDimIdx);
+ if (sourceDimDef) {
+ name_1 = sourceDimDef.name;
+ }
+ }
+ result.push(name_1);
+ }
+ return result;
+ };
+ SeriesDataSchema.prototype.appendCalculationDimension = function (dimDef) {
+ this.dimensions.push(dimDef);
+ dimDef.isCalculationCoord = true;
+ this._fullDimCount++;
+ // If append dimension on a data store, consider the store
+ // might be shared by different series, series dimensions not
+ // really map to store dimensions.
+ this._updateDimOmitted(true);
+ };
+ return SeriesDataSchema;
+ }();
+ function isSeriesDataSchema(schema) {
+ return schema instanceof SeriesDataSchema;
+ }
+ function createDimNameMap(dimsDef) {
+ var dataDimNameMap = createHashMap();
+ for (var i = 0; i < (dimsDef || []).length; i++) {
+ var dimDefItemRaw = dimsDef[i];
+ var userDimName = isObject(dimDefItemRaw) ? dimDefItemRaw.name : dimDefItemRaw;
+ if (userDimName != null && dataDimNameMap.get(userDimName) == null) {
+ dataDimNameMap.set(userDimName, i);
+ }
+ }
+ return dataDimNameMap;
+ }
+ function ensureSourceDimNameMap(source) {
+ var innerSource = inner$4(source);
+ return innerSource.dimNameMap || (innerSource.dimNameMap = createDimNameMap(source.dimensionsDefine));
+ }
+ function shouldOmitUnusedDimensions(dimCount) {
+ return dimCount > 30;
+ }
+
+ var isObject$2 = isObject;
+ var map$1 = map;
+ var CtorInt32Array$1 = typeof Int32Array === 'undefined' ? Array : Int32Array;
+ // Use prefix to avoid index to be the same as otherIdList[idx],
+ // which will cause weird update animation.
+ var ID_PREFIX = 'e\0\0';
+ var INDEX_NOT_FOUND = -1;
+ // type SeriesDimensionIndex = DimensionIndex;
+ var TRANSFERABLE_PROPERTIES = ['hasItemOption', '_nameList', '_idList', '_invertedIndicesMap', '_dimSummary', 'userOutput', '_rawData', '_dimValueGetter', '_nameDimIdx', '_idDimIdx', '_nameRepeatCount'];
+ var CLONE_PROPERTIES = ['_approximateExtent'];
+ // -----------------------------
+ // Internal method declarations:
+ // -----------------------------
+ var prepareInvertedIndex;
+ var getId;
+ var getIdNameFromStore;
+ var normalizeDimensions;
+ var transferProperties;
+ var cloneListForMapAndSample;
+ var makeIdFromName;
+ var SeriesData = /** @class */function () {
+ /**
+ * @param dimensionsInput.dimensions
+ * For example, ['someDimName', {name: 'someDimName', type: 'someDimType'}, ...].
+ * Dimensions should be concrete names like x, y, z, lng, lat, angle, radius
+ */
+ function SeriesData(dimensionsInput, hostModel) {
+ this.type = 'list';
+ this._dimOmitted = false;
+ this._nameList = [];
+ this._idList = [];
+ // Models of data option is stored sparse for optimizing memory cost
+ // Never used yet (not used yet).
+ // private _optionModels: Model[] = [];
+ // Global visual properties after visual coding
+ this._visual = {};
+ // Global layout properties.
+ this._layout = {};
+ // Item visual properties after visual coding
+ this._itemVisuals = [];
+ // Item layout properties after layout
+ this._itemLayouts = [];
+ // Graphic elements
+ this._graphicEls = [];
+ // key: dim, value: extent
+ this._approximateExtent = {};
+ this._calculationInfo = {};
+ // Having detected that there is data item is non primitive type
+ // (in type `OptionDataItemObject`).
+ // Like `data: [ { value: xx, itemStyle: {...} }, ...]`
+ // At present it only happen in `SOURCE_FORMAT_ORIGINAL`.
+ this.hasItemOption = false;
+ // Methods that create a new list based on this list should be listed here.
+ // Notice that those method should `RETURN` the new list.
+ this.TRANSFERABLE_METHODS = ['cloneShallow', 'downSample', 'lttbDownSample', 'map'];
+ // Methods that change indices of this list should be listed here.
+ this.CHANGABLE_METHODS = ['filterSelf', 'selectRange'];
+ this.DOWNSAMPLE_METHODS = ['downSample', 'lttbDownSample'];
+ var dimensions;
+ var assignStoreDimIdx = false;
+ if (isSeriesDataSchema(dimensionsInput)) {
+ dimensions = dimensionsInput.dimensions;
+ this._dimOmitted = dimensionsInput.isDimensionOmitted();
+ this._schema = dimensionsInput;
+ } else {
+ assignStoreDimIdx = true;
+ dimensions = dimensionsInput;
+ }
+ dimensions = dimensions || ['x', 'y'];
+ var dimensionInfos = {};
+ var dimensionNames = [];
+ var invertedIndicesMap = {};
+ var needsHasOwn = false;
+ var emptyObj = {};
+ for (var i = 0; i < dimensions.length; i++) {
+ // Use the original dimensions[i], where other flag props may exists.
+ var dimInfoInput = dimensions[i];
+ var dimensionInfo = isString(dimInfoInput) ? new SeriesDimensionDefine({
+ name: dimInfoInput
+ }) : !(dimInfoInput instanceof SeriesDimensionDefine) ? new SeriesDimensionDefine(dimInfoInput) : dimInfoInput;
+ var dimensionName = dimensionInfo.name;
+ dimensionInfo.type = dimensionInfo.type || 'float';
+ if (!dimensionInfo.coordDim) {
+ dimensionInfo.coordDim = dimensionName;
+ dimensionInfo.coordDimIndex = 0;
+ }
+ var otherDims = dimensionInfo.otherDims = dimensionInfo.otherDims || {};
+ dimensionNames.push(dimensionName);
+ dimensionInfos[dimensionName] = dimensionInfo;
+ if (emptyObj[dimensionName] != null) {
+ needsHasOwn = true;
+ }
+ if (dimensionInfo.createInvertedIndices) {
+ invertedIndicesMap[dimensionName] = [];
+ }
+ if (otherDims.itemName === 0) {
+ this._nameDimIdx = i;
+ }
+ if (otherDims.itemId === 0) {
+ this._idDimIdx = i;
+ }
+ if ("development" !== 'production') {
+ assert(assignStoreDimIdx || dimensionInfo.storeDimIndex >= 0);
+ }
+ if (assignStoreDimIdx) {
+ dimensionInfo.storeDimIndex = i;
+ }
+ }
+ this.dimensions = dimensionNames;
+ this._dimInfos = dimensionInfos;
+ this._initGetDimensionInfo(needsHasOwn);
+ this.hostModel = hostModel;
+ this._invertedIndicesMap = invertedIndicesMap;
+ if (this._dimOmitted) {
+ var dimIdxToName_1 = this._dimIdxToName = createHashMap();
+ each(dimensionNames, function (dimName) {
+ dimIdxToName_1.set(dimensionInfos[dimName].storeDimIndex, dimName);
+ });
+ }
+ }
+ /**
+ *
+ * Get concrete dimension name by dimension name or dimension index.
+ * If input a dimension name, do not validate whether the dimension name exits.
+ *
+ * @caution
+ * @param dim Must make sure the dimension is `SeriesDimensionLoose`.
+ * Because only those dimensions will have auto-generated dimension names if not
+ * have a user-specified name, and other dimensions will get a return of null/undefined.
+ *
+ * @notice Because of this reason, should better use `getDimensionIndex` instead, for examples:
+ * ```js
+ * const val = data.getStore().get(data.getDimensionIndex(dim), dataIdx);
+ * ```
+ *
+ * @return Concrete dim name.
+ */
+ SeriesData.prototype.getDimension = function (dim) {
+ var dimIdx = this._recognizeDimIndex(dim);
+ if (dimIdx == null) {
+ return dim;
+ }
+ dimIdx = dim;
+ if (!this._dimOmitted) {
+ return this.dimensions[dimIdx];
+ }
+ // Retrieve from series dimension definition because it probably contains
+ // generated dimension name (like 'x', 'y').
+ var dimName = this._dimIdxToName.get(dimIdx);
+ if (dimName != null) {
+ return dimName;
+ }
+ var sourceDimDef = this._schema.getSourceDimension(dimIdx);
+ if (sourceDimDef) {
+ return sourceDimDef.name;
+ }
+ };
+ /**
+ * Get dimension index in data store. Return -1 if not found.
+ * Can be used to index value from getRawValue.
+ */
+ SeriesData.prototype.getDimensionIndex = function (dim) {
+ var dimIdx = this._recognizeDimIndex(dim);
+ if (dimIdx != null) {
+ return dimIdx;
+ }
+ if (dim == null) {
+ return -1;
+ }
+ var dimInfo = this._getDimInfo(dim);
+ return dimInfo ? dimInfo.storeDimIndex : this._dimOmitted ? this._schema.getSourceDimensionIndex(dim) : -1;
+ };
+ /**
+ * The meanings of the input parameter `dim`:
+ *
+ * + If dim is a number (e.g., `1`), it means the index of the dimension.
+ * For example, `getDimension(0)` will return 'x' or 'lng' or 'radius'.
+ * + If dim is a number-like string (e.g., `"1"`):
+ * + If there is the same concrete dim name defined in `series.dimensions` or `dataset.dimensions`,
+ * it means that concrete name.
+ * + If not, it will be converted to a number, which means the index of the dimension.
+ * (why? because of the backward compatibility. We have been tolerating number-like string in
+ * dimension setting, although now it seems that it is not a good idea.)
+ * For example, `visualMap[i].dimension: "1"` is the same meaning as `visualMap[i].dimension: 1`,
+ * if no dimension name is defined as `"1"`.
+ * + If dim is a not-number-like string, it means the concrete dim name.
+ * For example, it can be be default name `"x"`, `"y"`, `"z"`, `"lng"`, `"lat"`, `"angle"`, `"radius"`,
+ * or customized in `dimensions` property of option like `"age"`.
+ *
+ * @return recognized `DimensionIndex`. Otherwise return null/undefined (means that dim is `DimensionName`).
+ */
+ SeriesData.prototype._recognizeDimIndex = function (dim) {
+ if (isNumber(dim)
+ // If being a number-like string but not being defined as a dimension name.
+ || dim != null && !isNaN(dim) && !this._getDimInfo(dim) && (!this._dimOmitted || this._schema.getSourceDimensionIndex(dim) < 0)) {
+ return +dim;
+ }
+ };
+ SeriesData.prototype._getStoreDimIndex = function (dim) {
+ var dimIdx = this.getDimensionIndex(dim);
+ if ("development" !== 'production') {
+ if (dimIdx == null) {
+ throw new Error('Unknown dimension ' + dim);
+ }
+ }
+ return dimIdx;
+ };
+ /**
+ * Get type and calculation info of particular dimension
+ * @param dim
+ * Dimension can be concrete names like x, y, z, lng, lat, angle, radius
+ * Or a ordinal number. For example getDimensionInfo(0) will return 'x' or 'lng' or 'radius'
+ */
+ SeriesData.prototype.getDimensionInfo = function (dim) {
+ // Do not clone, because there may be categories in dimInfo.
+ return this._getDimInfo(this.getDimension(dim));
+ };
+ SeriesData.prototype._initGetDimensionInfo = function (needsHasOwn) {
+ var dimensionInfos = this._dimInfos;
+ this._getDimInfo = needsHasOwn ? function (dimName) {
+ return dimensionInfos.hasOwnProperty(dimName) ? dimensionInfos[dimName] : undefined;
+ } : function (dimName) {
+ return dimensionInfos[dimName];
+ };
+ };
+ /**
+ * concrete dimension name list on coord.
+ */
+ SeriesData.prototype.getDimensionsOnCoord = function () {
+ return this._dimSummary.dataDimsOnCoord.slice();
+ };
+ SeriesData.prototype.mapDimension = function (coordDim, idx) {
+ var dimensionsSummary = this._dimSummary;
+ if (idx == null) {
+ return dimensionsSummary.encodeFirstDimNotExtra[coordDim];
+ }
+ var dims = dimensionsSummary.encode[coordDim];
+ return dims ? dims[idx] : null;
+ };
+ SeriesData.prototype.mapDimensionsAll = function (coordDim) {
+ var dimensionsSummary = this._dimSummary;
+ var dims = dimensionsSummary.encode[coordDim];
+ return (dims || []).slice();
+ };
+ SeriesData.prototype.getStore = function () {
+ return this._store;
+ };
+ /**
+ * Initialize from data
+ * @param data source or data or data store.
+ * @param nameList The name of a datum is used on data diff and
+ * default label/tooltip.
+ * A name can be specified in encode.itemName,
+ * or dataItem.name (only for series option data),
+ * or provided in nameList from outside.
+ */
+ SeriesData.prototype.initData = function (data, nameList, dimValueGetter) {
+ var _this = this;
+ var store;
+ if (data instanceof DataStore) {
+ store = data;
+ }
+ if (!store) {
+ var dimensions = this.dimensions;
+ var provider = isSourceInstance(data) || isArrayLike(data) ? new DefaultDataProvider(data, dimensions.length) : data;
+ store = new DataStore();
+ var dimensionInfos = map$1(dimensions, function (dimName) {
+ return {
+ type: _this._dimInfos[dimName].type,
+ property: dimName
+ };
+ });
+ store.initData(provider, dimensionInfos, dimValueGetter);
+ }
+ this._store = store;
+ // Reset
+ this._nameList = (nameList || []).slice();
+ this._idList = [];
+ this._nameRepeatCount = {};
+ this._doInit(0, store.count());
+ // Cache summary info for fast visit. See "dimensionHelper".
+ // Needs to be initialized after store is prepared.
+ this._dimSummary = summarizeDimensions(this, this._schema);
+ this.userOutput = this._dimSummary.userOutput;
+ };
+ /**
+ * Caution: Can be only called on raw data (before `this._indices` created).
+ */
+ SeriesData.prototype.appendData = function (data) {
+ var range = this._store.appendData(data);
+ this._doInit(range[0], range[1]);
+ };
+ /**
+ * Caution: Can be only called on raw data (before `this._indices` created).
+ * This method does not modify `rawData` (`dataProvider`), but only
+ * add values to store.
+ *
+ * The final count will be increased by `Math.max(values.length, names.length)`.
+ *
+ * @param values That is the SourceType: 'arrayRows', like
+ * [
+ * [12, 33, 44],
+ * [NaN, 43, 1],
+ * ['-', 'asdf', 0]
+ * ]
+ * Each item is exactly corresponding to a dimension.
+ */
+ SeriesData.prototype.appendValues = function (values, names) {
+ var _a = this._store.appendValues(values, names.length),
+ start = _a.start,
+ end = _a.end;
+ var shouldMakeIdFromName = this._shouldMakeIdFromName();
+ this._updateOrdinalMeta();
+ if (names) {
+ for (var idx = start; idx < end; idx++) {
+ var sourceIdx = idx - start;
+ this._nameList[idx] = names[sourceIdx];
+ if (shouldMakeIdFromName) {
+ makeIdFromName(this, idx);
+ }
+ }
+ }
+ };
+ SeriesData.prototype._updateOrdinalMeta = function () {
+ var store = this._store;
+ var dimensions = this.dimensions;
+ for (var i = 0; i < dimensions.length; i++) {
+ var dimInfo = this._dimInfos[dimensions[i]];
+ if (dimInfo.ordinalMeta) {
+ store.collectOrdinalMeta(dimInfo.storeDimIndex, dimInfo.ordinalMeta);
+ }
+ }
+ };
+ SeriesData.prototype._shouldMakeIdFromName = function () {
+ var provider = this._store.getProvider();
+ return this._idDimIdx == null && provider.getSource().sourceFormat !== SOURCE_FORMAT_TYPED_ARRAY && !provider.fillStorage;
+ };
+ SeriesData.prototype._doInit = function (start, end) {
+ if (start >= end) {
+ return;
+ }
+ var store = this._store;
+ var provider = store.getProvider();
+ this._updateOrdinalMeta();
+ var nameList = this._nameList;
+ var idList = this._idList;
+ var sourceFormat = provider.getSource().sourceFormat;
+ var isFormatOriginal = sourceFormat === SOURCE_FORMAT_ORIGINAL;
+ // Each data item is value
+ // [1, 2]
+ // 2
+ // Bar chart, line chart which uses category axis
+ // only gives the 'y' value. 'x' value is the indices of category
+ // Use a tempValue to normalize the value to be a (x, y) value
+ // If dataItem is {name: ...} or {id: ...}, it has highest priority.
+ // This kind of ids and names are always stored `_nameList` and `_idList`.
+ if (isFormatOriginal && !provider.pure) {
+ var sharedDataItem = [];
+ for (var idx = start; idx < end; idx++) {
+ // NOTICE: Try not to write things into dataItem
+ var dataItem = provider.getItem(idx, sharedDataItem);
+ if (!this.hasItemOption && isDataItemOption(dataItem)) {
+ this.hasItemOption = true;
+ }
+ if (dataItem) {
+ var itemName = dataItem.name;
+ if (nameList[idx] == null && itemName != null) {
+ nameList[idx] = convertOptionIdName(itemName, null);
+ }
+ var itemId = dataItem.id;
+ if (idList[idx] == null && itemId != null) {
+ idList[idx] = convertOptionIdName(itemId, null);
+ }
+ }
+ }
+ }
+ if (this._shouldMakeIdFromName()) {
+ for (var idx = start; idx < end; idx++) {
+ makeIdFromName(this, idx);
+ }
+ }
+ prepareInvertedIndex(this);
+ };
+ /**
+ * PENDING: In fact currently this function is only used to short-circuit
+ * the calling of `scale.unionExtentFromData` when data have been filtered by modules
+ * like "dataZoom". `scale.unionExtentFromData` is used to calculate data extent for series on
+ * an axis, but if a "axis related data filter module" is used, the extent of the axis have
+ * been fixed and no need to calling `scale.unionExtentFromData` actually.
+ * But if we add "custom data filter" in future, which is not "axis related", this method may
+ * be still needed.
+ *
+ * Optimize for the scenario that data is filtered by a given extent.
+ * Consider that if data amount is more than hundreds of thousand,
+ * extent calculation will cost more than 10ms and the cache will
+ * be erased because of the filtering.
+ */
+ SeriesData.prototype.getApproximateExtent = function (dim) {
+ return this._approximateExtent[dim] || this._store.getDataExtent(this._getStoreDimIndex(dim));
+ };
+ /**
+ * Calculate extent on a filtered data might be time consuming.
+ * Approximate extent is only used for: calculate extent of filtered data outside.
+ */
+ SeriesData.prototype.setApproximateExtent = function (extent, dim) {
+ dim = this.getDimension(dim);
+ this._approximateExtent[dim] = extent.slice();
+ };
+ SeriesData.prototype.getCalculationInfo = function (key) {
+ return this._calculationInfo[key];
+ };
+ SeriesData.prototype.setCalculationInfo = function (key, value) {
+ isObject$2(key) ? extend(this._calculationInfo, key) : this._calculationInfo[key] = value;
+ };
+ /**
+ * @return Never be null/undefined. `number` will be converted to string. Because:
+ * In most cases, name is used in display, where returning a string is more convenient.
+ * In other cases, name is used in query (see `indexOfName`), where we can keep the
+ * rule that name `2` equals to name `'2'`.
+ */
+ SeriesData.prototype.getName = function (idx) {
+ var rawIndex = this.getRawIndex(idx);
+ var name = this._nameList[rawIndex];
+ if (name == null && this._nameDimIdx != null) {
+ name = getIdNameFromStore(this, this._nameDimIdx, rawIndex);
+ }
+ if (name == null) {
+ name = '';
+ }
+ return name;
+ };
+ SeriesData.prototype._getCategory = function (dimIdx, idx) {
+ var ordinal = this._store.get(dimIdx, idx);
+ var ordinalMeta = this._store.getOrdinalMeta(dimIdx);
+ if (ordinalMeta) {
+ return ordinalMeta.categories[ordinal];
+ }
+ return ordinal;
+ };
+ /**
+ * @return Never null/undefined. `number` will be converted to string. Because:
+ * In all cases having encountered at present, id is used in making diff comparison, which
+ * are usually based on hash map. We can keep the rule that the internal id are always string
+ * (treat `2` is the same as `'2'`) to make the related logic simple.
+ */
+ SeriesData.prototype.getId = function (idx) {
+ return getId(this, this.getRawIndex(idx));
+ };
+ SeriesData.prototype.count = function () {
+ return this._store.count();
+ };
+ /**
+ * Get value. Return NaN if idx is out of range.
+ *
+ * @notice Should better to use `data.getStore().get(dimIndex, dataIdx)` instead.
+ */
+ SeriesData.prototype.get = function (dim, idx) {
+ var store = this._store;
+ var dimInfo = this._dimInfos[dim];
+ if (dimInfo) {
+ return store.get(dimInfo.storeDimIndex, idx);
+ }
+ };
+ /**
+ * @notice Should better to use `data.getStore().getByRawIndex(dimIndex, dataIdx)` instead.
+ */
+ SeriesData.prototype.getByRawIndex = function (dim, rawIdx) {
+ var store = this._store;
+ var dimInfo = this._dimInfos[dim];
+ if (dimInfo) {
+ return store.getByRawIndex(dimInfo.storeDimIndex, rawIdx);
+ }
+ };
+ SeriesData.prototype.getIndices = function () {
+ return this._store.getIndices();
+ };
+ SeriesData.prototype.getDataExtent = function (dim) {
+ return this._store.getDataExtent(this._getStoreDimIndex(dim));
+ };
+ SeriesData.prototype.getSum = function (dim) {
+ return this._store.getSum(this._getStoreDimIndex(dim));
+ };
+ SeriesData.prototype.getMedian = function (dim) {
+ return this._store.getMedian(this._getStoreDimIndex(dim));
+ };
+ SeriesData.prototype.getValues = function (dimensions, idx) {
+ var _this = this;
+ var store = this._store;
+ return isArray(dimensions) ? store.getValues(map$1(dimensions, function (dim) {
+ return _this._getStoreDimIndex(dim);
+ }), idx) : store.getValues(dimensions);
+ };
+ /**
+ * If value is NaN. Including '-'
+ * Only check the coord dimensions.
+ */
+ SeriesData.prototype.hasValue = function (idx) {
+ var dataDimIndicesOnCoord = this._dimSummary.dataDimIndicesOnCoord;
+ for (var i = 0, len = dataDimIndicesOnCoord.length; i < len; i++) {
+ // Ordinal type originally can be string or number.
+ // But when an ordinal type is used on coord, it can
+ // not be string but only number. So we can also use isNaN.
+ if (isNaN(this._store.get(dataDimIndicesOnCoord[i], idx))) {
+ return false;
+ }
+ }
+ return true;
+ };
+ /**
+ * Retrieve the index with given name
+ */
+ SeriesData.prototype.indexOfName = function (name) {
+ for (var i = 0, len = this._store.count(); i < len; i++) {
+ if (this.getName(i) === name) {
+ return i;
+ }
+ }
+ return -1;
+ };
+ SeriesData.prototype.getRawIndex = function (idx) {
+ return this._store.getRawIndex(idx);
+ };
+ SeriesData.prototype.indexOfRawIndex = function (rawIndex) {
+ return this._store.indexOfRawIndex(rawIndex);
+ };
+ /**
+ * Only support the dimension which inverted index created.
+ * Do not support other cases until required.
+ * @param dim concrete dim
+ * @param value ordinal index
+ * @return rawIndex
+ */
+ SeriesData.prototype.rawIndexOf = function (dim, value) {
+ var invertedIndices = dim && this._invertedIndicesMap[dim];
+ if ("development" !== 'production') {
+ if (!invertedIndices) {
+ throw new Error('Do not supported yet');
+ }
+ }
+ var rawIndex = invertedIndices[value];
+ if (rawIndex == null || isNaN(rawIndex)) {
+ return INDEX_NOT_FOUND;
+ }
+ return rawIndex;
+ };
+ /**
+ * Retrieve the index of nearest value
+ * @param dim
+ * @param value
+ * @param [maxDistance=Infinity]
+ * @return If and only if multiple indices has
+ * the same value, they are put to the result.
+ */
+ SeriesData.prototype.indicesOfNearest = function (dim, value, maxDistance) {
+ return this._store.indicesOfNearest(this._getStoreDimIndex(dim), value, maxDistance);
+ };
+ SeriesData.prototype.each = function (dims, cb, ctx) {
+
+ if (isFunction(dims)) {
+ ctx = cb;
+ cb = dims;
+ dims = [];
+ }
+ // ctxCompat just for compat echarts3
+ var fCtx = ctx || this;
+ var dimIndices = map$1(normalizeDimensions(dims), this._getStoreDimIndex, this);
+ this._store.each(dimIndices, fCtx ? bind(cb, fCtx) : cb);
+ };
+ SeriesData.prototype.filterSelf = function (dims, cb, ctx) {
+
+ if (isFunction(dims)) {
+ ctx = cb;
+ cb = dims;
+ dims = [];
+ }
+ // ctxCompat just for compat echarts3
+ var fCtx = ctx || this;
+ var dimIndices = map$1(normalizeDimensions(dims), this._getStoreDimIndex, this);
+ this._store = this._store.filter(dimIndices, fCtx ? bind(cb, fCtx) : cb);
+ return this;
+ };
+ /**
+ * Select data in range. (For optimization of filter)
+ * (Manually inline code, support 5 million data filtering in data zoom.)
+ */
+ SeriesData.prototype.selectRange = function (range) {
+
+ var _this = this;
+ var innerRange = {};
+ var dims = keys(range);
+ each(dims, function (dim) {
+ var dimIdx = _this._getStoreDimIndex(dim);
+ innerRange[dimIdx] = range[dim];
+ });
+ this._store = this._store.selectRange(innerRange);
+ return this;
+ };
+ /* eslint-enable max-len */
+ SeriesData.prototype.mapArray = function (dims, cb, ctx) {
+
+ if (isFunction(dims)) {
+ ctx = cb;
+ cb = dims;
+ dims = [];
+ }
+ // ctxCompat just for compat echarts3
+ ctx = ctx || this;
+ var result = [];
+ this.each(dims, function () {
+ result.push(cb && cb.apply(this, arguments));
+ }, ctx);
+ return result;
+ };
+ SeriesData.prototype.map = function (dims, cb, ctx, ctxCompat) {
+
+ // ctxCompat just for compat echarts3
+ var fCtx = ctx || ctxCompat || this;
+ var dimIndices = map$1(normalizeDimensions(dims), this._getStoreDimIndex, this);
+ var list = cloneListForMapAndSample(this);
+ list._store = this._store.map(dimIndices, fCtx ? bind(cb, fCtx) : cb);
+ return list;
+ };
+ SeriesData.prototype.modify = function (dims, cb, ctx, ctxCompat) {
+ var _this = this;
+ // ctxCompat just for compat echarts3
+ var fCtx = ctx || ctxCompat || this;
+ if ("development" !== 'production') {
+ each(normalizeDimensions(dims), function (dim) {
+ var dimInfo = _this.getDimensionInfo(dim);
+ if (!dimInfo.isCalculationCoord) {
+ console.error('Danger: only stack dimension can be modified');
+ }
+ });
+ }
+ var dimIndices = map$1(normalizeDimensions(dims), this._getStoreDimIndex, this);
+ // If do shallow clone here, if there are too many stacked series,
+ // it still cost lots of memory, because `_store.dimensions` are not shared.
+ // We should consider there probably be shallow clone happen in each series
+ // in consequent filter/map.
+ this._store.modify(dimIndices, fCtx ? bind(cb, fCtx) : cb);
+ };
+ /**
+ * Large data down sampling on given dimension
+ * @param sampleIndex Sample index for name and id
+ */
+ SeriesData.prototype.downSample = function (dimension, rate, sampleValue, sampleIndex) {
+ var list = cloneListForMapAndSample(this);
+ list._store = this._store.downSample(this._getStoreDimIndex(dimension), rate, sampleValue, sampleIndex);
+ return list;
+ };
+ /**
+ * Large data down sampling using largest-triangle-three-buckets
+ * @param {string} valueDimension
+ * @param {number} targetCount
+ */
+ SeriesData.prototype.lttbDownSample = function (valueDimension, rate) {
+ var list = cloneListForMapAndSample(this);
+ list._store = this._store.lttbDownSample(this._getStoreDimIndex(valueDimension), rate);
+ return list;
+ };
+ SeriesData.prototype.getRawDataItem = function (idx) {
+ return this._store.getRawDataItem(idx);
+ };
+ /**
+ * Get model of one data item.
+ */
+ // TODO: Type of data item
+ SeriesData.prototype.getItemModel = function (idx) {
+ var hostModel = this.hostModel;
+ var dataItem = this.getRawDataItem(idx);
+ return new Model(dataItem, hostModel, hostModel && hostModel.ecModel);
+ };
+ /**
+ * Create a data differ
+ */
+ SeriesData.prototype.diff = function (otherList) {
+ var thisList = this;
+ return new DataDiffer(otherList ? otherList.getStore().getIndices() : [], this.getStore().getIndices(), function (idx) {
+ return getId(otherList, idx);
+ }, function (idx) {
+ return getId(thisList, idx);
+ });
+ };
+ /**
+ * Get visual property.
+ */
+ SeriesData.prototype.getVisual = function (key) {
+ var visual = this._visual;
+ return visual && visual[key];
+ };
+ SeriesData.prototype.setVisual = function (kvObj, val) {
+ this._visual = this._visual || {};
+ if (isObject$2(kvObj)) {
+ extend(this._visual, kvObj);
+ } else {
+ this._visual[kvObj] = val;
+ }
+ };
+ /**
+ * Get visual property of single data item
+ */
+ // eslint-disable-next-line
+ SeriesData.prototype.getItemVisual = function (idx, key) {
+ var itemVisual = this._itemVisuals[idx];
+ var val = itemVisual && itemVisual[key];
+ if (val == null) {
+ // Use global visual property
+ return this.getVisual(key);
+ }
+ return val;
+ };
+ /**
+ * If exists visual property of single data item
+ */
+ SeriesData.prototype.hasItemVisual = function () {
+ return this._itemVisuals.length > 0;
+ };
+ /**
+ * Make sure itemVisual property is unique
+ */
+ // TODO: use key to save visual to reduce memory.
+ SeriesData.prototype.ensureUniqueItemVisual = function (idx, key) {
+ var itemVisuals = this._itemVisuals;
+ var itemVisual = itemVisuals[idx];
+ if (!itemVisual) {
+ itemVisual = itemVisuals[idx] = {};
+ }
+ var val = itemVisual[key];
+ if (val == null) {
+ val = this.getVisual(key);
+ // TODO Performance?
+ if (isArray(val)) {
+ val = val.slice();
+ } else if (isObject$2(val)) {
+ val = extend({}, val);
+ }
+ itemVisual[key] = val;
+ }
+ return val;
+ };
+ // eslint-disable-next-line
+ SeriesData.prototype.setItemVisual = function (idx, key, value) {
+ var itemVisual = this._itemVisuals[idx] || {};
+ this._itemVisuals[idx] = itemVisual;
+ if (isObject$2(key)) {
+ extend(itemVisual, key);
+ } else {
+ itemVisual[key] = value;
+ }
+ };
+ /**
+ * Clear itemVisuals and list visual.
+ */
+ SeriesData.prototype.clearAllVisual = function () {
+ this._visual = {};
+ this._itemVisuals = [];
+ };
+ SeriesData.prototype.setLayout = function (key, val) {
+ isObject$2(key) ? extend(this._layout, key) : this._layout[key] = val;
+ };
+ /**
+ * Get layout property.
+ */
+ SeriesData.prototype.getLayout = function (key) {
+ return this._layout[key];
+ };
+ /**
+ * Get layout of single data item
+ */
+ SeriesData.prototype.getItemLayout = function (idx) {
+ return this._itemLayouts[idx];
+ };
+ /**
+ * Set layout of single data item
+ */
+ SeriesData.prototype.setItemLayout = function (idx, layout, merge) {
+ this._itemLayouts[idx] = merge ? extend(this._itemLayouts[idx] || {}, layout) : layout;
+ };
+ /**
+ * Clear all layout of single data item
+ */
+ SeriesData.prototype.clearItemLayouts = function () {
+ this._itemLayouts.length = 0;
+ };
+ /**
+ * Set graphic element relative to data. It can be set as null
+ */
+ SeriesData.prototype.setItemGraphicEl = function (idx, el) {
+ var seriesIndex = this.hostModel && this.hostModel.seriesIndex;
+ setCommonECData(seriesIndex, this.dataType, idx, el);
+ this._graphicEls[idx] = el;
+ };
+ SeriesData.prototype.getItemGraphicEl = function (idx) {
+ return this._graphicEls[idx];
+ };
+ SeriesData.prototype.eachItemGraphicEl = function (cb, context) {
+ each(this._graphicEls, function (el, idx) {
+ if (el) {
+ cb && cb.call(context, el, idx);
+ }
+ });
+ };
+ /**
+ * Shallow clone a new list except visual and layout properties, and graph elements.
+ * New list only change the indices.
+ */
+ SeriesData.prototype.cloneShallow = function (list) {
+ if (!list) {
+ list = new SeriesData(this._schema ? this._schema : map$1(this.dimensions, this._getDimInfo, this), this.hostModel);
+ }
+ transferProperties(list, this);
+ list._store = this._store;
+ return list;
+ };
+ /**
+ * Wrap some method to add more feature
+ */
+ SeriesData.prototype.wrapMethod = function (methodName, injectFunction) {
+ var originalMethod = this[methodName];
+ if (!isFunction(originalMethod)) {
+ return;
+ }
+ this.__wrappedMethods = this.__wrappedMethods || [];
+ this.__wrappedMethods.push(methodName);
+ this[methodName] = function () {
+ var res = originalMethod.apply(this, arguments);
+ return injectFunction.apply(this, [res].concat(slice(arguments)));
+ };
+ };
+ // ----------------------------------------------------------
+ // A work around for internal method visiting private member.
+ // ----------------------------------------------------------
+ SeriesData.internalField = function () {
+ prepareInvertedIndex = function (data) {
+ var invertedIndicesMap = data._invertedIndicesMap;
+ each(invertedIndicesMap, function (invertedIndices, dim) {
+ var dimInfo = data._dimInfos[dim];
+ // Currently, only dimensions that has ordinalMeta can create inverted indices.
+ var ordinalMeta = dimInfo.ordinalMeta;
+ var store = data._store;
+ if (ordinalMeta) {
+ invertedIndices = invertedIndicesMap[dim] = new CtorInt32Array$1(ordinalMeta.categories.length);
+ // The default value of TypedArray is 0. To avoid miss
+ // mapping to 0, we should set it as INDEX_NOT_FOUND.
+ for (var i = 0; i < invertedIndices.length; i++) {
+ invertedIndices[i] = INDEX_NOT_FOUND;
+ }
+ for (var i = 0; i < store.count(); i++) {
+ // Only support the case that all values are distinct.
+ invertedIndices[store.get(dimInfo.storeDimIndex, i)] = i;
+ }
+ }
+ });
+ };
+ getIdNameFromStore = function (data, dimIdx, idx) {
+ return convertOptionIdName(data._getCategory(dimIdx, idx), null);
+ };
+ /**
+ * @see the comment of `List['getId']`.
+ */
+ getId = function (data, rawIndex) {
+ var id = data._idList[rawIndex];
+ if (id == null && data._idDimIdx != null) {
+ id = getIdNameFromStore(data, data._idDimIdx, rawIndex);
+ }
+ if (id == null) {
+ id = ID_PREFIX + rawIndex;
+ }
+ return id;
+ };
+ normalizeDimensions = function (dimensions) {
+ if (!isArray(dimensions)) {
+ dimensions = dimensions != null ? [dimensions] : [];
+ }
+ return dimensions;
+ };
+ /**
+ * Data in excludeDimensions is copied, otherwise transferred.
+ */
+ cloneListForMapAndSample = function (original) {
+ var list = new SeriesData(original._schema ? original._schema : map$1(original.dimensions, original._getDimInfo, original), original.hostModel);
+ // FIXME If needs stackedOn, value may already been stacked
+ transferProperties(list, original);
+ return list;
+ };
+ transferProperties = function (target, source) {
+ each(TRANSFERABLE_PROPERTIES.concat(source.__wrappedMethods || []), function (propName) {
+ if (source.hasOwnProperty(propName)) {
+ target[propName] = source[propName];
+ }
+ });
+ target.__wrappedMethods = source.__wrappedMethods;
+ each(CLONE_PROPERTIES, function (propName) {
+ target[propName] = clone(source[propName]);
+ });
+ target._calculationInfo = extend({}, source._calculationInfo);
+ };
+ makeIdFromName = function (data, idx) {
+ var nameList = data._nameList;
+ var idList = data._idList;
+ var nameDimIdx = data._nameDimIdx;
+ var idDimIdx = data._idDimIdx;
+ var name = nameList[idx];
+ var id = idList[idx];
+ if (name == null && nameDimIdx != null) {
+ nameList[idx] = name = getIdNameFromStore(data, nameDimIdx, idx);
+ }
+ if (id == null && idDimIdx != null) {
+ idList[idx] = id = getIdNameFromStore(data, idDimIdx, idx);
+ }
+ if (id == null && name != null) {
+ var nameRepeatCount = data._nameRepeatCount;
+ var nmCnt = nameRepeatCount[name] = (nameRepeatCount[name] || 0) + 1;
+ id = name;
+ if (nmCnt > 1) {
+ id += '__ec__' + nmCnt;
+ }
+ idList[idx] = id;
+ }
+ };
+ }();
+ return SeriesData;
+ }();
+
+ /**
+ * For outside usage compat (like echarts-gl are using it).
+ */
+ function createDimensions(source, opt) {
+ return prepareSeriesDataSchema(source, opt).dimensions;
+ }
+ /**
+ * This method builds the relationship between:
+ * + "what the coord sys or series requires (see `coordDimensions`)",
+ * + "what the user defines (in `encode` and `dimensions`, see `opt.dimensionsDefine` and `opt.encodeDefine`)"
+ * + "what the data source provids (see `source`)".
+ *
+ * Some guess strategy will be adapted if user does not define something.
+ * If no 'value' dimension specified, the first no-named dimension will be
+ * named as 'value'.
+ *
+ * @return The results are always sorted by `storeDimIndex` asc.
+ */
+ function prepareSeriesDataSchema(
+ // TODO: TYPE completeDimensions type
+ source, opt) {
+ if (!isSourceInstance(source)) {
+ source = createSourceFromSeriesDataOption(source);
+ }
+ opt = opt || {};
+ var sysDims = opt.coordDimensions || [];
+ var dimsDef = opt.dimensionsDefine || source.dimensionsDefine || [];
+ var coordDimNameMap = createHashMap();
+ var resultList = [];
+ var dimCount = getDimCount(source, sysDims, dimsDef, opt.dimensionsCount);
+ // Try to ignore unused dimensions if sharing a high dimension datastore
+ // 30 is an experience value.
+ var omitUnusedDimensions = opt.canOmitUnusedDimensions && shouldOmitUnusedDimensions(dimCount);
+ var isUsingSourceDimensionsDef = dimsDef === source.dimensionsDefine;
+ var dataDimNameMap = isUsingSourceDimensionsDef ? ensureSourceDimNameMap(source) : createDimNameMap(dimsDef);
+ var encodeDef = opt.encodeDefine;
+ if (!encodeDef && opt.encodeDefaulter) {
+ encodeDef = opt.encodeDefaulter(source, dimCount);
+ }
+ var encodeDefMap = createHashMap(encodeDef);
+ var indicesMap = new CtorInt32Array(dimCount);
+ for (var i = 0; i < indicesMap.length; i++) {
+ indicesMap[i] = -1;
+ }
+ function getResultItem(dimIdx) {
+ var idx = indicesMap[dimIdx];
+ if (idx < 0) {
+ var dimDefItemRaw = dimsDef[dimIdx];
+ var dimDefItem = isObject(dimDefItemRaw) ? dimDefItemRaw : {
+ name: dimDefItemRaw
+ };
+ var resultItem = new SeriesDimensionDefine();
+ var userDimName = dimDefItem.name;
+ if (userDimName != null && dataDimNameMap.get(userDimName) != null) {
+ // Only if `series.dimensions` is defined in option
+ // displayName, will be set, and dimension will be displayed vertically in
+ // tooltip by default.
+ resultItem.name = resultItem.displayName = userDimName;
+ }
+ dimDefItem.type != null && (resultItem.type = dimDefItem.type);
+ dimDefItem.displayName != null && (resultItem.displayName = dimDefItem.displayName);
+ var newIdx = resultList.length;
+ indicesMap[dimIdx] = newIdx;
+ resultItem.storeDimIndex = dimIdx;
+ resultList.push(resultItem);
+ return resultItem;
+ }
+ return resultList[idx];
+ }
+ if (!omitUnusedDimensions) {
+ for (var i = 0; i < dimCount; i++) {
+ getResultItem(i);
+ }
+ }
+ // Set `coordDim` and `coordDimIndex` by `encodeDefMap` and normalize `encodeDefMap`.
+ encodeDefMap.each(function (dataDimsRaw, coordDim) {
+ var dataDims = normalizeToArray(dataDimsRaw).slice();
+ // Note: It is allowed that `dataDims.length` is `0`, e.g., options is
+ // `{encode: {x: -1, y: 1}}`. Should not filter anything in
+ // this case.
+ if (dataDims.length === 1 && !isString(dataDims[0]) && dataDims[0] < 0) {
+ encodeDefMap.set(coordDim, false);
+ return;
+ }
+ var validDataDims = encodeDefMap.set(coordDim, []);
+ each(dataDims, function (resultDimIdxOrName, idx) {
+ // The input resultDimIdx can be dim name or index.
+ var resultDimIdx = isString(resultDimIdxOrName) ? dataDimNameMap.get(resultDimIdxOrName) : resultDimIdxOrName;
+ if (resultDimIdx != null && resultDimIdx < dimCount) {
+ validDataDims[idx] = resultDimIdx;
+ applyDim(getResultItem(resultDimIdx), coordDim, idx);
+ }
+ });
+ });
+ // Apply templates and default order from `sysDims`.
+ var availDimIdx = 0;
+ each(sysDims, function (sysDimItemRaw) {
+ var coordDim;
+ var sysDimItemDimsDef;
+ var sysDimItemOtherDims;
+ var sysDimItem;
+ if (isString(sysDimItemRaw)) {
+ coordDim = sysDimItemRaw;
+ sysDimItem = {};
+ } else {
+ sysDimItem = sysDimItemRaw;
+ coordDim = sysDimItem.name;
+ var ordinalMeta = sysDimItem.ordinalMeta;
+ sysDimItem.ordinalMeta = null;
+ sysDimItem = extend({}, sysDimItem);
+ sysDimItem.ordinalMeta = ordinalMeta;
+ // `coordDimIndex` should not be set directly.
+ sysDimItemDimsDef = sysDimItem.dimsDef;
+ sysDimItemOtherDims = sysDimItem.otherDims;
+ sysDimItem.name = sysDimItem.coordDim = sysDimItem.coordDimIndex = sysDimItem.dimsDef = sysDimItem.otherDims = null;
+ }
+ var dataDims = encodeDefMap.get(coordDim);
+ // negative resultDimIdx means no need to mapping.
+ if (dataDims === false) {
+ return;
+ }
+ dataDims = normalizeToArray(dataDims);
+ // dimensions provides default dim sequences.
+ if (!dataDims.length) {
+ for (var i = 0; i < (sysDimItemDimsDef && sysDimItemDimsDef.length || 1); i++) {
+ while (availDimIdx < dimCount && getResultItem(availDimIdx).coordDim != null) {
+ availDimIdx++;
+ }
+ availDimIdx < dimCount && dataDims.push(availDimIdx++);
+ }
+ }
+ // Apply templates.
+ each(dataDims, function (resultDimIdx, coordDimIndex) {
+ var resultItem = getResultItem(resultDimIdx);
+ // Coordinate system has a higher priority on dim type than source.
+ if (isUsingSourceDimensionsDef && sysDimItem.type != null) {
+ resultItem.type = sysDimItem.type;
+ }
+ applyDim(defaults(resultItem, sysDimItem), coordDim, coordDimIndex);
+ if (resultItem.name == null && sysDimItemDimsDef) {
+ var sysDimItemDimsDefItem = sysDimItemDimsDef[coordDimIndex];
+ !isObject(sysDimItemDimsDefItem) && (sysDimItemDimsDefItem = {
+ name: sysDimItemDimsDefItem
+ });
+ resultItem.name = resultItem.displayName = sysDimItemDimsDefItem.name;
+ resultItem.defaultTooltip = sysDimItemDimsDefItem.defaultTooltip;
+ }
+ // FIXME refactor, currently only used in case: {otherDims: {tooltip: false}}
+ sysDimItemOtherDims && defaults(resultItem.otherDims, sysDimItemOtherDims);
+ });
+ });
+ function applyDim(resultItem, coordDim, coordDimIndex) {
+ if (VISUAL_DIMENSIONS.get(coordDim) != null) {
+ resultItem.otherDims[coordDim] = coordDimIndex;
+ } else {
+ resultItem.coordDim = coordDim;
+ resultItem.coordDimIndex = coordDimIndex;
+ coordDimNameMap.set(coordDim, true);
+ }
+ }
+ // Make sure the first extra dim is 'value'.
+ var generateCoord = opt.generateCoord;
+ var generateCoordCount = opt.generateCoordCount;
+ var fromZero = generateCoordCount != null;
+ generateCoordCount = generateCoord ? generateCoordCount || 1 : 0;
+ var extra = generateCoord || 'value';
+ function ifNoNameFillWithCoordName(resultItem) {
+ if (resultItem.name == null) {
+ // Duplication will be removed in the next step.
+ resultItem.name = resultItem.coordDim;
+ }
+ }
+ // Set dim `name` and other `coordDim` and other props.
+ if (!omitUnusedDimensions) {
+ for (var resultDimIdx = 0; resultDimIdx < dimCount; resultDimIdx++) {
+ var resultItem = getResultItem(resultDimIdx);
+ var coordDim = resultItem.coordDim;
+ if (coordDim == null) {
+ // TODO no need to generate coordDim for isExtraCoord?
+ resultItem.coordDim = genCoordDimName(extra, coordDimNameMap, fromZero);
+ resultItem.coordDimIndex = 0;
+ // Series specified generateCoord is using out.
+ if (!generateCoord || generateCoordCount <= 0) {
+ resultItem.isExtraCoord = true;
+ }
+ generateCoordCount--;
+ }
+ ifNoNameFillWithCoordName(resultItem);
+ if (resultItem.type == null && (guessOrdinal(source, resultDimIdx) === BE_ORDINAL.Must
+ // Consider the case:
+ // {
+ // dataset: {source: [
+ // ['2001', 123],
+ // ['2002', 456],
+ // ...
+ // ['The others', 987],
+ // ]},
+ // series: {type: 'pie'}
+ // }
+ // The first column should better be treated as a "ordinal" although it
+ // might not be detected as an "ordinal" by `guessOrdinal`.
+ || resultItem.isExtraCoord && (resultItem.otherDims.itemName != null || resultItem.otherDims.seriesName != null))) {
+ resultItem.type = 'ordinal';
+ }
+ }
+ } else {
+ each(resultList, function (resultItem) {
+ // PENDING: guessOrdinal or let user specify type: 'ordinal' manually?
+ ifNoNameFillWithCoordName(resultItem);
+ });
+ // Sort dimensions: there are some rule that use the last dim as label,
+ // and for some latter travel process easier.
+ resultList.sort(function (item0, item1) {
+ return item0.storeDimIndex - item1.storeDimIndex;
+ });
+ }
+ removeDuplication(resultList);
+ return new SeriesDataSchema({
+ source: source,
+ dimensions: resultList,
+ fullDimensionCount: dimCount,
+ dimensionOmitted: omitUnusedDimensions
+ });
+ }
+ function removeDuplication(result) {
+ var duplicationMap = createHashMap();
+ for (var i = 0; i < result.length; i++) {
+ var dim = result[i];
+ var dimOriginalName = dim.name;
+ var count = duplicationMap.get(dimOriginalName) || 0;
+ if (count > 0) {
+ // Starts from 0.
+ dim.name = dimOriginalName + (count - 1);
+ }
+ count++;
+ duplicationMap.set(dimOriginalName, count);
+ }
+ }
+ // ??? TODO
+ // Originally detect dimCount by data[0]. Should we
+ // optimize it to only by sysDims and dimensions and encode.
+ // So only necessary dims will be initialized.
+ // But
+ // (1) custom series should be considered. where other dims
+ // may be visited.
+ // (2) sometimes user need to calculate bubble size or use visualMap
+ // on other dimensions besides coordSys needed.
+ // So, dims that is not used by system, should be shared in data store?
+ function getDimCount(source, sysDims, dimsDef, optDimCount) {
+ // Note that the result dimCount should not small than columns count
+ // of data, otherwise `dataDimNameMap` checking will be incorrect.
+ var dimCount = Math.max(source.dimensionsDetectedCount || 1, sysDims.length, dimsDef.length, optDimCount || 0);
+ each(sysDims, function (sysDimItem) {
+ var sysDimItemDimsDef;
+ if (isObject(sysDimItem) && (sysDimItemDimsDef = sysDimItem.dimsDef)) {
+ dimCount = Math.max(dimCount, sysDimItemDimsDef.length);
+ }
+ });
+ return dimCount;
+ }
+ function genCoordDimName(name, map, fromZero) {
+ if (fromZero || map.hasKey(name)) {
+ var i = 0;
+ while (map.hasKey(name + i)) {
+ i++;
+ }
+ name += i;
+ }
+ map.set(name, true);
+ return name;
+ }
+
+ /**
+ * @class
+ * For example:
+ * {
+ * coordSysName: 'cartesian2d',
+ * coordSysDims: ['x', 'y', ...],
+ * axisMap: HashMap({
+ * x: xAxisModel,
+ * y: yAxisModel
+ * }),
+ * categoryAxisMap: HashMap({
+ * x: xAxisModel,
+ * y: undefined
+ * }),
+ * // The index of the first category axis in `coordSysDims`.
+ * // `null/undefined` means no category axis exists.
+ * firstCategoryDimIndex: 1,
+ * // To replace user specified encode.
+ * }
+ */
+ var CoordSysInfo = /** @class */function () {
+ function CoordSysInfo(coordSysName) {
+ this.coordSysDims = [];
+ this.axisMap = createHashMap();
+ this.categoryAxisMap = createHashMap();
+ this.coordSysName = coordSysName;
+ }
+ return CoordSysInfo;
+ }();
+ function getCoordSysInfoBySeries(seriesModel) {
+ var coordSysName = seriesModel.get('coordinateSystem');
+ var result = new CoordSysInfo(coordSysName);
+ var fetch = fetchers[coordSysName];
+ if (fetch) {
+ fetch(seriesModel, result, result.axisMap, result.categoryAxisMap);
+ return result;
+ }
+ }
+ var fetchers = {
+ cartesian2d: function (seriesModel, result, axisMap, categoryAxisMap) {
+ var xAxisModel = seriesModel.getReferringComponents('xAxis', SINGLE_REFERRING).models[0];
+ var yAxisModel = seriesModel.getReferringComponents('yAxis', SINGLE_REFERRING).models[0];
+ if ("development" !== 'production') {
+ if (!xAxisModel) {
+ throw new Error('xAxis "' + retrieve(seriesModel.get('xAxisIndex'), seriesModel.get('xAxisId'), 0) + '" not found');
+ }
+ if (!yAxisModel) {
+ throw new Error('yAxis "' + retrieve(seriesModel.get('xAxisIndex'), seriesModel.get('yAxisId'), 0) + '" not found');
+ }
+ }
+ result.coordSysDims = ['x', 'y'];
+ axisMap.set('x', xAxisModel);
+ axisMap.set('y', yAxisModel);
+ if (isCategory(xAxisModel)) {
+ categoryAxisMap.set('x', xAxisModel);
+ result.firstCategoryDimIndex = 0;
+ }
+ if (isCategory(yAxisModel)) {
+ categoryAxisMap.set('y', yAxisModel);
+ result.firstCategoryDimIndex == null && (result.firstCategoryDimIndex = 1);
+ }
+ },
+ singleAxis: function (seriesModel, result, axisMap, categoryAxisMap) {
+ var singleAxisModel = seriesModel.getReferringComponents('singleAxis', SINGLE_REFERRING).models[0];
+ if ("development" !== 'production') {
+ if (!singleAxisModel) {
+ throw new Error('singleAxis should be specified.');
+ }
+ }
+ result.coordSysDims = ['single'];
+ axisMap.set('single', singleAxisModel);
+ if (isCategory(singleAxisModel)) {
+ categoryAxisMap.set('single', singleAxisModel);
+ result.firstCategoryDimIndex = 0;
+ }
+ },
+ polar: function (seriesModel, result, axisMap, categoryAxisMap) {
+ var polarModel = seriesModel.getReferringComponents('polar', SINGLE_REFERRING).models[0];
+ var radiusAxisModel = polarModel.findAxisModel('radiusAxis');
+ var angleAxisModel = polarModel.findAxisModel('angleAxis');
+ if ("development" !== 'production') {
+ if (!angleAxisModel) {
+ throw new Error('angleAxis option not found');
+ }
+ if (!radiusAxisModel) {
+ throw new Error('radiusAxis option not found');
+ }
+ }
+ result.coordSysDims = ['radius', 'angle'];
+ axisMap.set('radius', radiusAxisModel);
+ axisMap.set('angle', angleAxisModel);
+ if (isCategory(radiusAxisModel)) {
+ categoryAxisMap.set('radius', radiusAxisModel);
+ result.firstCategoryDimIndex = 0;
+ }
+ if (isCategory(angleAxisModel)) {
+ categoryAxisMap.set('angle', angleAxisModel);
+ result.firstCategoryDimIndex == null && (result.firstCategoryDimIndex = 1);
+ }
+ },
+ geo: function (seriesModel, result, axisMap, categoryAxisMap) {
+ result.coordSysDims = ['lng', 'lat'];
+ },
+ parallel: function (seriesModel, result, axisMap, categoryAxisMap) {
+ var ecModel = seriesModel.ecModel;
+ var parallelModel = ecModel.getComponent('parallel', seriesModel.get('parallelIndex'));
+ var coordSysDims = result.coordSysDims = parallelModel.dimensions.slice();
+ each(parallelModel.parallelAxisIndex, function (axisIndex, index) {
+ var axisModel = ecModel.getComponent('parallelAxis', axisIndex);
+ var axisDim = coordSysDims[index];
+ axisMap.set(axisDim, axisModel);
+ if (isCategory(axisModel)) {
+ categoryAxisMap.set(axisDim, axisModel);
+ if (result.firstCategoryDimIndex == null) {
+ result.firstCategoryDimIndex = index;
+ }
+ }
+ });
+ }
+ };
+ function isCategory(axisModel) {
+ return axisModel.get('type') === 'category';
+ }
+
+ /**
+ * Note that it is too complicated to support 3d stack by value
+ * (have to create two-dimension inverted index), so in 3d case
+ * we just support that stacked by index.
+ *
+ * @param seriesModel
+ * @param dimensionsInput The same as the input of .
+ * The input will be modified.
+ * @param opt
+ * @param opt.stackedCoordDimension Specify a coord dimension if needed.
+ * @param opt.byIndex=false
+ * @return calculationInfo
+ * {
+ * stackedDimension: string
+ * stackedByDimension: string
+ * isStackedByIndex: boolean
+ * stackedOverDimension: string
+ * stackResultDimension: string
+ * }
+ */
+ function enableDataStack(seriesModel, dimensionsInput, opt) {
+ opt = opt || {};
+ var byIndex = opt.byIndex;
+ var stackedCoordDimension = opt.stackedCoordDimension;
+ var dimensionDefineList;
+ var schema;
+ var store;
+ if (isLegacyDimensionsInput(dimensionsInput)) {
+ dimensionDefineList = dimensionsInput;
+ } else {
+ schema = dimensionsInput.schema;
+ dimensionDefineList = schema.dimensions;
+ store = dimensionsInput.store;
+ }
+ // Compatibal: when `stack` is set as '', do not stack.
+ var mayStack = !!(seriesModel && seriesModel.get('stack'));
+ var stackedByDimInfo;
+ var stackedDimInfo;
+ var stackResultDimension;
+ var stackedOverDimension;
+ each(dimensionDefineList, function (dimensionInfo, index) {
+ if (isString(dimensionInfo)) {
+ dimensionDefineList[index] = dimensionInfo = {
+ name: dimensionInfo
+ };
+ }
+ if (mayStack && !dimensionInfo.isExtraCoord) {
+ // Find the first ordinal dimension as the stackedByDimInfo.
+ if (!byIndex && !stackedByDimInfo && dimensionInfo.ordinalMeta) {
+ stackedByDimInfo = dimensionInfo;
+ }
+ // Find the first stackable dimension as the stackedDimInfo.
+ if (!stackedDimInfo && dimensionInfo.type !== 'ordinal' && dimensionInfo.type !== 'time' && (!stackedCoordDimension || stackedCoordDimension === dimensionInfo.coordDim)) {
+ stackedDimInfo = dimensionInfo;
+ }
+ }
+ });
+ if (stackedDimInfo && !byIndex && !stackedByDimInfo) {
+ // Compatible with previous design, value axis (time axis) only stack by index.
+ // It may make sense if the user provides elaborately constructed data.
+ byIndex = true;
+ }
+ // Add stack dimension, they can be both calculated by coordinate system in `unionExtent`.
+ // That put stack logic in List is for using conveniently in echarts extensions, but it
+ // might not be a good way.
+ if (stackedDimInfo) {
+ // Use a weird name that not duplicated with other names.
+ // Also need to use seriesModel.id as postfix because different
+ // series may share same data store. The stack dimension needs to be distinguished.
+ stackResultDimension = '__\0ecstackresult_' + seriesModel.id;
+ stackedOverDimension = '__\0ecstackedover_' + seriesModel.id;
+ // Create inverted index to fast query index by value.
+ if (stackedByDimInfo) {
+ stackedByDimInfo.createInvertedIndices = true;
+ }
+ var stackedDimCoordDim_1 = stackedDimInfo.coordDim;
+ var stackedDimType = stackedDimInfo.type;
+ var stackedDimCoordIndex_1 = 0;
+ each(dimensionDefineList, function (dimensionInfo) {
+ if (dimensionInfo.coordDim === stackedDimCoordDim_1) {
+ stackedDimCoordIndex_1++;
+ }
+ });
+ var stackedOverDimensionDefine = {
+ name: stackResultDimension,
+ coordDim: stackedDimCoordDim_1,
+ coordDimIndex: stackedDimCoordIndex_1,
+ type: stackedDimType,
+ isExtraCoord: true,
+ isCalculationCoord: true,
+ storeDimIndex: dimensionDefineList.length
+ };
+ var stackResultDimensionDefine = {
+ name: stackedOverDimension,
+ // This dimension contains stack base (generally, 0), so do not set it as
+ // `stackedDimCoordDim` to avoid extent calculation, consider log scale.
+ coordDim: stackedOverDimension,
+ coordDimIndex: stackedDimCoordIndex_1 + 1,
+ type: stackedDimType,
+ isExtraCoord: true,
+ isCalculationCoord: true,
+ storeDimIndex: dimensionDefineList.length + 1
+ };
+ if (schema) {
+ if (store) {
+ stackedOverDimensionDefine.storeDimIndex = store.ensureCalculationDimension(stackedOverDimension, stackedDimType);
+ stackResultDimensionDefine.storeDimIndex = store.ensureCalculationDimension(stackResultDimension, stackedDimType);
+ }
+ schema.appendCalculationDimension(stackedOverDimensionDefine);
+ schema.appendCalculationDimension(stackResultDimensionDefine);
+ } else {
+ dimensionDefineList.push(stackedOverDimensionDefine);
+ dimensionDefineList.push(stackResultDimensionDefine);
+ }
+ }
+ return {
+ stackedDimension: stackedDimInfo && stackedDimInfo.name,
+ stackedByDimension: stackedByDimInfo && stackedByDimInfo.name,
+ isStackedByIndex: byIndex,
+ stackedOverDimension: stackedOverDimension,
+ stackResultDimension: stackResultDimension
+ };
+ }
+ function isLegacyDimensionsInput(dimensionsInput) {
+ return !isSeriesDataSchema(dimensionsInput.schema);
+ }
+ function isDimensionStacked(data, stackedDim) {
+ // Each single series only maps to one pair of axis. So we do not need to
+ // check stackByDim, whatever stacked by a dimension or stacked by index.
+ return !!stackedDim && stackedDim === data.getCalculationInfo('stackedDimension');
+ }
+ function getStackedDimension(data, targetDim) {
+ return isDimensionStacked(data, targetDim) ? data.getCalculationInfo('stackResultDimension') : targetDim;
+ }
+
+ function getCoordSysDimDefs(seriesModel, coordSysInfo) {
+ var coordSysName = seriesModel.get('coordinateSystem');
+ var registeredCoordSys = CoordinateSystemManager.get(coordSysName);
+ var coordSysDimDefs;
+ if (coordSysInfo && coordSysInfo.coordSysDims) {
+ coordSysDimDefs = map(coordSysInfo.coordSysDims, function (dim) {
+ var dimInfo = {
+ name: dim
+ };
+ var axisModel = coordSysInfo.axisMap.get(dim);
+ if (axisModel) {
+ var axisType = axisModel.get('type');
+ dimInfo.type = getDimensionTypeByAxis(axisType);
+ }
+ return dimInfo;
+ });
+ }
+ if (!coordSysDimDefs) {
+ // Get dimensions from registered coordinate system
+ coordSysDimDefs = registeredCoordSys && (registeredCoordSys.getDimensionsInfo ? registeredCoordSys.getDimensionsInfo() : registeredCoordSys.dimensions.slice()) || ['x', 'y'];
+ }
+ return coordSysDimDefs;
+ }
+ function injectOrdinalMeta(dimInfoList, createInvertedIndices, coordSysInfo) {
+ var firstCategoryDimIndex;
+ var hasNameEncode;
+ coordSysInfo && each(dimInfoList, function (dimInfo, dimIndex) {
+ var coordDim = dimInfo.coordDim;
+ var categoryAxisModel = coordSysInfo.categoryAxisMap.get(coordDim);
+ if (categoryAxisModel) {
+ if (firstCategoryDimIndex == null) {
+ firstCategoryDimIndex = dimIndex;
+ }
+ dimInfo.ordinalMeta = categoryAxisModel.getOrdinalMeta();
+ if (createInvertedIndices) {
+ dimInfo.createInvertedIndices = true;
+ }
+ }
+ if (dimInfo.otherDims.itemName != null) {
+ hasNameEncode = true;
+ }
+ });
+ if (!hasNameEncode && firstCategoryDimIndex != null) {
+ dimInfoList[firstCategoryDimIndex].otherDims.itemName = 0;
+ }
+ return firstCategoryDimIndex;
+ }
+ /**
+ * Caution: there are side effects to `sourceManager` in this method.
+ * Should better only be called in `Series['getInitialData']`.
+ */
+ function createSeriesData(sourceRaw, seriesModel, opt) {
+ opt = opt || {};
+ var sourceManager = seriesModel.getSourceManager();
+ var source;
+ var isOriginalSource = false;
+ if (sourceRaw) {
+ isOriginalSource = true;
+ source = createSourceFromSeriesDataOption(sourceRaw);
+ } else {
+ source = sourceManager.getSource();
+ // Is series.data. not dataset.
+ isOriginalSource = source.sourceFormat === SOURCE_FORMAT_ORIGINAL;
+ }
+ var coordSysInfo = getCoordSysInfoBySeries(seriesModel);
+ var coordSysDimDefs = getCoordSysDimDefs(seriesModel, coordSysInfo);
+ var useEncodeDefaulter = opt.useEncodeDefaulter;
+ var encodeDefaulter = isFunction(useEncodeDefaulter) ? useEncodeDefaulter : useEncodeDefaulter ? curry(makeSeriesEncodeForAxisCoordSys, coordSysDimDefs, seriesModel) : null;
+ var createDimensionOptions = {
+ coordDimensions: coordSysDimDefs,
+ generateCoord: opt.generateCoord,
+ encodeDefine: seriesModel.getEncode(),
+ encodeDefaulter: encodeDefaulter,
+ canOmitUnusedDimensions: !isOriginalSource
+ };
+ var schema = prepareSeriesDataSchema(source, createDimensionOptions);
+ var firstCategoryDimIndex = injectOrdinalMeta(schema.dimensions, opt.createInvertedIndices, coordSysInfo);
+ var store = !isOriginalSource ? sourceManager.getSharedDataStore(schema) : null;
+ var stackCalculationInfo = enableDataStack(seriesModel, {
+ schema: schema,
+ store: store
+ });
+ var data = new SeriesData(schema, seriesModel);
+ data.setCalculationInfo(stackCalculationInfo);
+ var dimValueGetter = firstCategoryDimIndex != null && isNeedCompleteOrdinalData(source) ? function (itemOpt, dimName, dataIndex, dimIndex) {
+ // Use dataIndex as ordinal value in categoryAxis
+ return dimIndex === firstCategoryDimIndex ? dataIndex : this.defaultDimValueGetter(itemOpt, dimName, dataIndex, dimIndex);
+ } : null;
+ data.hasItemOption = false;
+ data.initData(
+ // Try to reuse the data store in sourceManager if using dataset.
+ isOriginalSource ? source : store, null, dimValueGetter);
+ return data;
+ }
+ function isNeedCompleteOrdinalData(source) {
+ if (source.sourceFormat === SOURCE_FORMAT_ORIGINAL) {
+ var sampleItem = firstDataNotNull(source.data || []);
+ return !isArray(getDataItemValue(sampleItem));
+ }
+ }
+ function firstDataNotNull(arr) {
+ var i = 0;
+ while (i < arr.length && arr[i] == null) {
+ i++;
+ }
+ return arr[i];
+ }
+
+ var Scale = /** @class */function () {
+ function Scale(setting) {
+ this._setting = setting || {};
+ this._extent = [Infinity, -Infinity];
+ }
+ Scale.prototype.getSetting = function (name) {
+ return this._setting[name];
+ };
+ /**
+ * Set extent from data
+ */
+ Scale.prototype.unionExtent = function (other) {
+ var extent = this._extent;
+ other[0] < extent[0] && (extent[0] = other[0]);
+ other[1] > extent[1] && (extent[1] = other[1]);
+ // not setExtent because in log axis it may transformed to power
+ // this.setExtent(extent[0], extent[1]);
+ };
+ /**
+ * Set extent from data
+ */
+ Scale.prototype.unionExtentFromData = function (data, dim) {
+ this.unionExtent(data.getApproximateExtent(dim));
+ };
+ /**
+ * Get extent
+ *
+ * Extent is always in increase order.
+ */
+ Scale.prototype.getExtent = function () {
+ return this._extent.slice();
+ };
+ /**
+ * Set extent
+ */
+ Scale.prototype.setExtent = function (start, end) {
+ var thisExtent = this._extent;
+ if (!isNaN(start)) {
+ thisExtent[0] = start;
+ }
+ if (!isNaN(end)) {
+ thisExtent[1] = end;
+ }
+ };
+ /**
+ * If value is in extent range
+ */
+ Scale.prototype.isInExtentRange = function (value) {
+ return this._extent[0] <= value && this._extent[1] >= value;
+ };
+ /**
+ * When axis extent depends on data and no data exists,
+ * axis ticks should not be drawn, which is named 'blank'.
+ */
+ Scale.prototype.isBlank = function () {
+ return this._isBlank;
+ };
+ /**
+ * When axis extent depends on data and no data exists,
+ * axis ticks should not be drawn, which is named 'blank'.
+ */
+ Scale.prototype.setBlank = function (isBlank) {
+ this._isBlank = isBlank;
+ };
+ return Scale;
+ }();
+ enableClassManagement(Scale);
+
+ var uidBase = 0;
+ var OrdinalMeta = /** @class */function () {
+ function OrdinalMeta(opt) {
+ this.categories = opt.categories || [];
+ this._needCollect = opt.needCollect;
+ this._deduplication = opt.deduplication;
+ this.uid = ++uidBase;
+ }
+ OrdinalMeta.createByAxisModel = function (axisModel) {
+ var option = axisModel.option;
+ var data = option.data;
+ var categories = data && map(data, getName);
+ return new OrdinalMeta({
+ categories: categories,
+ needCollect: !categories,
+ // deduplication is default in axis.
+ deduplication: option.dedplication !== false
+ });
+ };
+ OrdinalMeta.prototype.getOrdinal = function (category) {
+ // @ts-ignore
+ return this._getOrCreateMap().get(category);
+ };
+ /**
+ * @return The ordinal. If not found, return NaN.
+ */
+ OrdinalMeta.prototype.parseAndCollect = function (category) {
+ var index;
+ var needCollect = this._needCollect;
+ // The value of category dim can be the index of the given category set.
+ // This feature is only supported when !needCollect, because we should
+ // consider a common case: a value is 2017, which is a number but is
+ // expected to be tread as a category. This case usually happen in dataset,
+ // where it happent to be no need of the index feature.
+ if (!isString(category) && !needCollect) {
+ return category;
+ }
+ // Optimize for the scenario:
+ // category is ['2012-01-01', '2012-01-02', ...], where the input
+ // data has been ensured not duplicate and is large data.
+ // Notice, if a dataset dimension provide categroies, usually echarts
+ // should remove duplication except user tell echarts dont do that
+ // (set axis.deduplication = false), because echarts do not know whether
+ // the values in the category dimension has duplication (consider the
+ // parallel-aqi example)
+ if (needCollect && !this._deduplication) {
+ index = this.categories.length;
+ this.categories[index] = category;
+ return index;
+ }
+ var map = this._getOrCreateMap();
+ // @ts-ignore
+ index = map.get(category);
+ if (index == null) {
+ if (needCollect) {
+ index = this.categories.length;
+ this.categories[index] = category;
+ // @ts-ignore
+ map.set(category, index);
+ } else {
+ index = NaN;
+ }
+ }
+ return index;
+ };
+ // Consider big data, do not create map until needed.
+ OrdinalMeta.prototype._getOrCreateMap = function () {
+ return this._map || (this._map = createHashMap(this.categories));
+ };
+ return OrdinalMeta;
+ }();
+ function getName(obj) {
+ if (isObject(obj) && obj.value != null) {
+ return obj.value;
+ } else {
+ return obj + '';
+ }
+ }
+
+ function isValueNice(val) {
+ var exp10 = Math.pow(10, quantityExponent(Math.abs(val)));
+ var f = Math.abs(val / exp10);
+ return f === 0 || f === 1 || f === 2 || f === 3 || f === 5;
+ }
+ function isIntervalOrLogScale(scale) {
+ return scale.type === 'interval' || scale.type === 'log';
+ }
+ /**
+ * @param extent Both extent[0] and extent[1] should be valid number.
+ * Should be extent[0] < extent[1].
+ * @param splitNumber splitNumber should be >= 1.
+ */
+ function intervalScaleNiceTicks(extent, splitNumber, minInterval, maxInterval) {
+ var result = {};
+ var span = extent[1] - extent[0];
+ var interval = result.interval = nice(span / splitNumber, true);
+ if (minInterval != null && interval < minInterval) {
+ interval = result.interval = minInterval;
+ }
+ if (maxInterval != null && interval > maxInterval) {
+ interval = result.interval = maxInterval;
+ }
+ // Tow more digital for tick.
+ var precision = result.intervalPrecision = getIntervalPrecision(interval);
+ // Niced extent inside original extent
+ var niceTickExtent = result.niceTickExtent = [round(Math.ceil(extent[0] / interval) * interval, precision), round(Math.floor(extent[1] / interval) * interval, precision)];
+ fixExtent(niceTickExtent, extent);
+ return result;
+ }
+ function increaseInterval(interval) {
+ var exp10 = Math.pow(10, quantityExponent(interval));
+ // Increase interval
+ var f = interval / exp10;
+ if (!f) {
+ f = 1;
+ } else if (f === 2) {
+ f = 3;
+ } else if (f === 3) {
+ f = 5;
+ } else {
+ // f is 1 or 5
+ f *= 2;
+ }
+ return round(f * exp10);
+ }
+ /**
+ * @return interval precision
+ */
+ function getIntervalPrecision(interval) {
+ // Tow more digital for tick.
+ return getPrecision(interval) + 2;
+ }
+ function clamp(niceTickExtent, idx, extent) {
+ niceTickExtent[idx] = Math.max(Math.min(niceTickExtent[idx], extent[1]), extent[0]);
+ }
+ // In some cases (e.g., splitNumber is 1), niceTickExtent may be out of extent.
+ function fixExtent(niceTickExtent, extent) {
+ !isFinite(niceTickExtent[0]) && (niceTickExtent[0] = extent[0]);
+ !isFinite(niceTickExtent[1]) && (niceTickExtent[1] = extent[1]);
+ clamp(niceTickExtent, 0, extent);
+ clamp(niceTickExtent, 1, extent);
+ if (niceTickExtent[0] > niceTickExtent[1]) {
+ niceTickExtent[0] = niceTickExtent[1];
+ }
+ }
+ function contain$1(val, extent) {
+ return val >= extent[0] && val <= extent[1];
+ }
+ function normalize$1(val, extent) {
+ if (extent[1] === extent[0]) {
+ return 0.5;
+ }
+ return (val - extent[0]) / (extent[1] - extent[0]);
+ }
+ function scale$2(val, extent) {
+ return val * (extent[1] - extent[0]) + extent[0];
+ }
+
+ var OrdinalScale = /** @class */function (_super) {
+ __extends(OrdinalScale, _super);
+ function OrdinalScale(setting) {
+ var _this = _super.call(this, setting) || this;
+ _this.type = 'ordinal';
+ var ordinalMeta = _this.getSetting('ordinalMeta');
+ // Caution: Should not use instanceof, consider ec-extensions using
+ // import approach to get OrdinalMeta class.
+ if (!ordinalMeta) {
+ ordinalMeta = new OrdinalMeta({});
+ }
+ if (isArray(ordinalMeta)) {
+ ordinalMeta = new OrdinalMeta({
+ categories: map(ordinalMeta, function (item) {
+ return isObject(item) ? item.value : item;
+ })
+ });
+ }
+ _this._ordinalMeta = ordinalMeta;
+ _this._extent = _this.getSetting('extent') || [0, ordinalMeta.categories.length - 1];
+ return _this;
+ }
+ OrdinalScale.prototype.parse = function (val) {
+ // Caution: Math.round(null) will return `0` rather than `NaN`
+ if (val == null) {
+ return NaN;
+ }
+ return isString(val) ? this._ordinalMeta.getOrdinal(val)
+ // val might be float.
+ : Math.round(val);
+ };
+ OrdinalScale.prototype.contain = function (rank) {
+ rank = this.parse(rank);
+ return contain$1(rank, this._extent) && this._ordinalMeta.categories[rank] != null;
+ };
+ /**
+ * Normalize given rank or name to linear [0, 1]
+ * @param val raw ordinal number.
+ * @return normalized value in [0, 1].
+ */
+ OrdinalScale.prototype.normalize = function (val) {
+ val = this._getTickNumber(this.parse(val));
+ return normalize$1(val, this._extent);
+ };
+ /**
+ * @param val normalized value in [0, 1].
+ * @return raw ordinal number.
+ */
+ OrdinalScale.prototype.scale = function (val) {
+ val = Math.round(scale$2(val, this._extent));
+ return this.getRawOrdinalNumber(val);
+ };
+ OrdinalScale.prototype.getTicks = function () {
+ var ticks = [];
+ var extent = this._extent;
+ var rank = extent[0];
+ while (rank <= extent[1]) {
+ ticks.push({
+ value: rank
+ });
+ rank++;
+ }
+ return ticks;
+ };
+ OrdinalScale.prototype.getMinorTicks = function (splitNumber) {
+ // Not support.
+ return;
+ };
+ /**
+ * @see `Ordinal['_ordinalNumbersByTick']`
+ */
+ OrdinalScale.prototype.setSortInfo = function (info) {
+ if (info == null) {
+ this._ordinalNumbersByTick = this._ticksByOrdinalNumber = null;
+ return;
+ }
+ var infoOrdinalNumbers = info.ordinalNumbers;
+ var ordinalsByTick = this._ordinalNumbersByTick = [];
+ var ticksByOrdinal = this._ticksByOrdinalNumber = [];
+ // Unnecessary support negative tick in `realtimeSort`.
+ var tickNum = 0;
+ var allCategoryLen = this._ordinalMeta.categories.length;
+ for (var len = Math.min(allCategoryLen, infoOrdinalNumbers.length); tickNum < len; ++tickNum) {
+ var ordinalNumber = infoOrdinalNumbers[tickNum];
+ ordinalsByTick[tickNum] = ordinalNumber;
+ ticksByOrdinal[ordinalNumber] = tickNum;
+ }
+ // Handle that `series.data` only covers part of the `axis.category.data`.
+ var unusedOrdinal = 0;
+ for (; tickNum < allCategoryLen; ++tickNum) {
+ while (ticksByOrdinal[unusedOrdinal] != null) {
+ unusedOrdinal++;
+ }
+ ordinalsByTick.push(unusedOrdinal);
+ ticksByOrdinal[unusedOrdinal] = tickNum;
+ }
+ };
+ OrdinalScale.prototype._getTickNumber = function (ordinal) {
+ var ticksByOrdinalNumber = this._ticksByOrdinalNumber;
+ // also support ordinal out of range of `ordinalMeta.categories.length`,
+ // where ordinal numbers are used as tick value directly.
+ return ticksByOrdinalNumber && ordinal >= 0 && ordinal < ticksByOrdinalNumber.length ? ticksByOrdinalNumber[ordinal] : ordinal;
+ };
+ /**
+ * @usage
+ * ```js
+ * const ordinalNumber = ordinalScale.getRawOrdinalNumber(tickVal);
+ *
+ * // case0
+ * const rawOrdinalValue = axisModel.getCategories()[ordinalNumber];
+ * // case1
+ * const rawOrdinalValue = this._ordinalMeta.categories[ordinalNumber];
+ * // case2
+ * const coord = axis.dataToCoord(ordinalNumber);
+ * ```
+ *
+ * @param {OrdinalNumber} tickNumber index of display
+ */
+ OrdinalScale.prototype.getRawOrdinalNumber = function (tickNumber) {
+ var ordinalNumbersByTick = this._ordinalNumbersByTick;
+ // tickNumber may be out of range, e.g., when axis max is larger than `ordinalMeta.categories.length`.,
+ // where ordinal numbers are used as tick value directly.
+ return ordinalNumbersByTick && tickNumber >= 0 && tickNumber < ordinalNumbersByTick.length ? ordinalNumbersByTick[tickNumber] : tickNumber;
+ };
+ /**
+ * Get item on tick
+ */
+ OrdinalScale.prototype.getLabel = function (tick) {
+ if (!this.isBlank()) {
+ var ordinalNumber = this.getRawOrdinalNumber(tick.value);
+ var cateogry = this._ordinalMeta.categories[ordinalNumber];
+ // Note that if no data, ordinalMeta.categories is an empty array.
+ // Return empty if it's not exist.
+ return cateogry == null ? '' : cateogry + '';
+ }
+ };
+ OrdinalScale.prototype.count = function () {
+ return this._extent[1] - this._extent[0] + 1;
+ };
+ OrdinalScale.prototype.unionExtentFromData = function (data, dim) {
+ this.unionExtent(data.getApproximateExtent(dim));
+ };
+ /**
+ * @override
+ * If value is in extent range
+ */
+ OrdinalScale.prototype.isInExtentRange = function (value) {
+ value = this._getTickNumber(value);
+ return this._extent[0] <= value && this._extent[1] >= value;
+ };
+ OrdinalScale.prototype.getOrdinalMeta = function () {
+ return this._ordinalMeta;
+ };
+ OrdinalScale.prototype.calcNiceTicks = function () {};
+ OrdinalScale.prototype.calcNiceExtent = function () {};
+ OrdinalScale.type = 'ordinal';
+ return OrdinalScale;
+ }(Scale);
+ Scale.registerClass(OrdinalScale);
+
+ var roundNumber = round;
+ var IntervalScale = /** @class */function (_super) {
+ __extends(IntervalScale, _super);
+ function IntervalScale() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = 'interval';
+ // Step is calculated in adjustExtent.
+ _this._interval = 0;
+ _this._intervalPrecision = 2;
+ return _this;
+ }
+ IntervalScale.prototype.parse = function (val) {
+ return val;
+ };
+ IntervalScale.prototype.contain = function (val) {
+ return contain$1(val, this._extent);
+ };
+ IntervalScale.prototype.normalize = function (val) {
+ return normalize$1(val, this._extent);
+ };
+ IntervalScale.prototype.scale = function (val) {
+ return scale$2(val, this._extent);
+ };
+ IntervalScale.prototype.setExtent = function (start, end) {
+ var thisExtent = this._extent;
+ // start,end may be a Number like '25',so...
+ if (!isNaN(start)) {
+ thisExtent[0] = parseFloat(start);
+ }
+ if (!isNaN(end)) {
+ thisExtent[1] = parseFloat(end);
+ }
+ };
+ IntervalScale.prototype.unionExtent = function (other) {
+ var extent = this._extent;
+ other[0] < extent[0] && (extent[0] = other[0]);
+ other[1] > extent[1] && (extent[1] = other[1]);
+ // unionExtent may called by it's sub classes
+ this.setExtent(extent[0], extent[1]);
+ };
+ IntervalScale.prototype.getInterval = function () {
+ return this._interval;
+ };
+ IntervalScale.prototype.setInterval = function (interval) {
+ this._interval = interval;
+ // Dropped auto calculated niceExtent and use user-set extent.
+ // We assume user wants to set both interval, min, max to get a better result.
+ this._niceExtent = this._extent.slice();
+ this._intervalPrecision = getIntervalPrecision(interval);
+ };
+ /**
+ * @param expandToNicedExtent Whether expand the ticks to niced extent.
+ */
+ IntervalScale.prototype.getTicks = function (expandToNicedExtent) {
+ var interval = this._interval;
+ var extent = this._extent;
+ var niceTickExtent = this._niceExtent;
+ var intervalPrecision = this._intervalPrecision;
+ var ticks = [];
+ // If interval is 0, return [];
+ if (!interval) {
+ return ticks;
+ }
+ // Consider this case: using dataZoom toolbox, zoom and zoom.
+ var safeLimit = 10000;
+ if (extent[0] < niceTickExtent[0]) {
+ if (expandToNicedExtent) {
+ ticks.push({
+ value: roundNumber(niceTickExtent[0] - interval, intervalPrecision)
+ });
+ } else {
+ ticks.push({
+ value: extent[0]
+ });
+ }
+ }
+ var tick = niceTickExtent[0];
+ while (tick <= niceTickExtent[1]) {
+ ticks.push({
+ value: tick
+ });
+ // Avoid rounding error
+ tick = roundNumber(tick + interval, intervalPrecision);
+ if (tick === ticks[ticks.length - 1].value) {
+ // Consider out of safe float point, e.g.,
+ // -3711126.9907707 + 2e-10 === -3711126.9907707
+ break;
+ }
+ if (ticks.length > safeLimit) {
+ return [];
+ }
+ }
+ // Consider this case: the last item of ticks is smaller
+ // than niceTickExtent[1] and niceTickExtent[1] === extent[1].
+ var lastNiceTick = ticks.length ? ticks[ticks.length - 1].value : niceTickExtent[1];
+ if (extent[1] > lastNiceTick) {
+ if (expandToNicedExtent) {
+ ticks.push({
+ value: roundNumber(lastNiceTick + interval, intervalPrecision)
+ });
+ } else {
+ ticks.push({
+ value: extent[1]
+ });
+ }
+ }
+ return ticks;
+ };
+ IntervalScale.prototype.getMinorTicks = function (splitNumber) {
+ var ticks = this.getTicks(true);
+ var minorTicks = [];
+ var extent = this.getExtent();
+ for (var i = 1; i < ticks.length; i++) {
+ var nextTick = ticks[i];
+ var prevTick = ticks[i - 1];
+ var count = 0;
+ var minorTicksGroup = [];
+ var interval = nextTick.value - prevTick.value;
+ var minorInterval = interval / splitNumber;
+ while (count < splitNumber - 1) {
+ var minorTick = roundNumber(prevTick.value + (count + 1) * minorInterval);
+ // For the first and last interval. The count may be less than splitNumber.
+ if (minorTick > extent[0] && minorTick < extent[1]) {
+ minorTicksGroup.push(minorTick);
+ }
+ count++;
+ }
+ minorTicks.push(minorTicksGroup);
+ }
+ return minorTicks;
+ };
+ /**
+ * @param opt.precision If 'auto', use nice presision.
+ * @param opt.pad returns 1.50 but not 1.5 if precision is 2.
+ */
+ IntervalScale.prototype.getLabel = function (data, opt) {
+ if (data == null) {
+ return '';
+ }
+ var precision = opt && opt.precision;
+ if (precision == null) {
+ precision = getPrecision(data.value) || 0;
+ } else if (precision === 'auto') {
+ // Should be more precise then tick.
+ precision = this._intervalPrecision;
+ }
+ // (1) If `precision` is set, 12.005 should be display as '12.00500'.
+ // (2) Use roundNumber (toFixed) to avoid scientific notation like '3.5e-7'.
+ var dataNum = roundNumber(data.value, precision, true);
+ return addCommas(dataNum);
+ };
+ /**
+ * @param splitNumber By default `5`.
+ */
+ IntervalScale.prototype.calcNiceTicks = function (splitNumber, minInterval, maxInterval) {
+ splitNumber = splitNumber || 5;
+ var extent = this._extent;
+ var span = extent[1] - extent[0];
+ if (!isFinite(span)) {
+ return;
+ }
+ // User may set axis min 0 and data are all negative
+ // FIXME If it needs to reverse ?
+ if (span < 0) {
+ span = -span;
+ extent.reverse();
+ }
+ var result = intervalScaleNiceTicks(extent, splitNumber, minInterval, maxInterval);
+ this._intervalPrecision = result.intervalPrecision;
+ this._interval = result.interval;
+ this._niceExtent = result.niceTickExtent;
+ };
+ IntervalScale.prototype.calcNiceExtent = function (opt) {
+ var extent = this._extent;
+ // If extent start and end are same, expand them
+ if (extent[0] === extent[1]) {
+ if (extent[0] !== 0) {
+ // Expand extent
+ // Note that extents can be both negative. See #13154
+ var expandSize = Math.abs(extent[0]);
+ // In the fowllowing case
+ // Axis has been fixed max 100
+ // Plus data are all 100 and axis extent are [100, 100].
+ // Extend to the both side will cause expanded max is larger than fixed max.
+ // So only expand to the smaller side.
+ if (!opt.fixMax) {
+ extent[1] += expandSize / 2;
+ extent[0] -= expandSize / 2;
+ } else {
+ extent[0] -= expandSize / 2;
+ }
+ } else {
+ extent[1] = 1;
+ }
+ }
+ var span = extent[1] - extent[0];
+ // If there are no data and extent are [Infinity, -Infinity]
+ if (!isFinite(span)) {
+ extent[0] = 0;
+ extent[1] = 1;
+ }
+ this.calcNiceTicks(opt.splitNumber, opt.minInterval, opt.maxInterval);
+ // let extent = this._extent;
+ var interval = this._interval;
+ if (!opt.fixMin) {
+ extent[0] = roundNumber(Math.floor(extent[0] / interval) * interval);
+ }
+ if (!opt.fixMax) {
+ extent[1] = roundNumber(Math.ceil(extent[1] / interval) * interval);
+ }
+ };
+ IntervalScale.prototype.setNiceExtent = function (min, max) {
+ this._niceExtent = [min, max];
+ };
+ IntervalScale.type = 'interval';
+ return IntervalScale;
+ }(Scale);
+ Scale.registerClass(IntervalScale);
+
+ /* global Float32Array */
+ var supportFloat32Array = typeof Float32Array !== 'undefined';
+ var Float32ArrayCtor = !supportFloat32Array ? Array : Float32Array;
+ function createFloat32Array(arg) {
+ if (isArray(arg)) {
+ // Return self directly if don't support TypedArray.
+ return supportFloat32Array ? new Float32Array(arg) : arg;
+ }
+ // Else is number
+ return new Float32ArrayCtor(arg);
+ }
+
+ var STACK_PREFIX = '__ec_stack_';
+ function getSeriesStackId(seriesModel) {
+ return seriesModel.get('stack') || STACK_PREFIX + seriesModel.seriesIndex;
+ }
+ function getAxisKey(axis) {
+ return axis.dim + axis.index;
+ }
+ /**
+ * @return {Object} {width, offset, offsetCenter} If axis.type is not 'category', return undefined.
+ */
+ function getLayoutOnAxis(opt) {
+ var params = [];
+ var baseAxis = opt.axis;
+ var axisKey = 'axis0';
+ if (baseAxis.type !== 'category') {
+ return;
+ }
+ var bandWidth = baseAxis.getBandWidth();
+ for (var i = 0; i < opt.count || 0; i++) {
+ params.push(defaults({
+ bandWidth: bandWidth,
+ axisKey: axisKey,
+ stackId: STACK_PREFIX + i
+ }, opt));
+ }
+ var widthAndOffsets = doCalBarWidthAndOffset(params);
+ var result = [];
+ for (var i = 0; i < opt.count; i++) {
+ var item = widthAndOffsets[axisKey][STACK_PREFIX + i];
+ item.offsetCenter = item.offset + item.width / 2;
+ result.push(item);
+ }
+ return result;
+ }
+ function prepareLayoutBarSeries(seriesType, ecModel) {
+ var seriesModels = [];
+ ecModel.eachSeriesByType(seriesType, function (seriesModel) {
+ // Check series coordinate, do layout for cartesian2d only
+ if (isOnCartesian(seriesModel)) {
+ seriesModels.push(seriesModel);
+ }
+ });
+ return seriesModels;
+ }
+ /**
+ * Map from (baseAxis.dim + '_' + baseAxis.index) to min gap of two adjacent
+ * values.
+ * This works for time axes, value axes, and log axes.
+ * For a single time axis, return value is in the form like
+ * {'x_0': [1000000]}.
+ * The value of 1000000 is in milliseconds.
+ */
+ function getValueAxesMinGaps(barSeries) {
+ /**
+ * Map from axis.index to values.
+ * For a single time axis, axisValues is in the form like
+ * {'x_0': [1495555200000, 1495641600000, 1495728000000]}.
+ * Items in axisValues[x], e.g. 1495555200000, are time values of all
+ * series.
+ */
+ var axisValues = {};
+ each(barSeries, function (seriesModel) {
+ var cartesian = seriesModel.coordinateSystem;
+ var baseAxis = cartesian.getBaseAxis();
+ if (baseAxis.type !== 'time' && baseAxis.type !== 'value') {
+ return;
+ }
+ var data = seriesModel.getData();
+ var key = baseAxis.dim + '_' + baseAxis.index;
+ var dimIdx = data.getDimensionIndex(data.mapDimension(baseAxis.dim));
+ var store = data.getStore();
+ for (var i = 0, cnt = store.count(); i < cnt; ++i) {
+ var value = store.get(dimIdx, i);
+ if (!axisValues[key]) {
+ // No previous data for the axis
+ axisValues[key] = [value];
+ } else {
+ // No value in previous series
+ axisValues[key].push(value);
+ }
+ // Ignore duplicated time values in the same axis
+ }
+ });
+
+ var axisMinGaps = {};
+ for (var key in axisValues) {
+ if (axisValues.hasOwnProperty(key)) {
+ var valuesInAxis = axisValues[key];
+ if (valuesInAxis) {
+ // Sort axis values into ascending order to calculate gaps
+ valuesInAxis.sort(function (a, b) {
+ return a - b;
+ });
+ var min = null;
+ for (var j = 1; j < valuesInAxis.length; ++j) {
+ var delta = valuesInAxis[j] - valuesInAxis[j - 1];
+ if (delta > 0) {
+ // Ignore 0 delta because they are of the same axis value
+ min = min === null ? delta : Math.min(min, delta);
+ }
+ }
+ // Set to null if only have one data
+ axisMinGaps[key] = min;
+ }
+ }
+ }
+ return axisMinGaps;
+ }
+ function makeColumnLayout(barSeries) {
+ var axisMinGaps = getValueAxesMinGaps(barSeries);
+ var seriesInfoList = [];
+ each(barSeries, function (seriesModel) {
+ var cartesian = seriesModel.coordinateSystem;
+ var baseAxis = cartesian.getBaseAxis();
+ var axisExtent = baseAxis.getExtent();
+ var bandWidth;
+ if (baseAxis.type === 'category') {
+ bandWidth = baseAxis.getBandWidth();
+ } else if (baseAxis.type === 'value' || baseAxis.type === 'time') {
+ var key = baseAxis.dim + '_' + baseAxis.index;
+ var minGap = axisMinGaps[key];
+ var extentSpan = Math.abs(axisExtent[1] - axisExtent[0]);
+ var scale = baseAxis.scale.getExtent();
+ var scaleSpan = Math.abs(scale[1] - scale[0]);
+ bandWidth = minGap ? extentSpan / scaleSpan * minGap : extentSpan; // When there is only one data value
+ } else {
+ var data = seriesModel.getData();
+ bandWidth = Math.abs(axisExtent[1] - axisExtent[0]) / data.count();
+ }
+ var barWidth = parsePercent$1(seriesModel.get('barWidth'), bandWidth);
+ var barMaxWidth = parsePercent$1(seriesModel.get('barMaxWidth'), bandWidth);
+ var barMinWidth = parsePercent$1(
+ // barMinWidth by default is 0.5 / 1 in cartesian. Because in value axis,
+ // the auto-calculated bar width might be less than 0.5 / 1.
+ seriesModel.get('barMinWidth') || (isInLargeMode(seriesModel) ? 0.5 : 1), bandWidth);
+ var barGap = seriesModel.get('barGap');
+ var barCategoryGap = seriesModel.get('barCategoryGap');
+ seriesInfoList.push({
+ bandWidth: bandWidth,
+ barWidth: barWidth,
+ barMaxWidth: barMaxWidth,
+ barMinWidth: barMinWidth,
+ barGap: barGap,
+ barCategoryGap: barCategoryGap,
+ axisKey: getAxisKey(baseAxis),
+ stackId: getSeriesStackId(seriesModel)
+ });
+ });
+ return doCalBarWidthAndOffset(seriesInfoList);
+ }
+ function doCalBarWidthAndOffset(seriesInfoList) {
+ // Columns info on each category axis. Key is cartesian name
+ var columnsMap = {};
+ each(seriesInfoList, function (seriesInfo, idx) {
+ var axisKey = seriesInfo.axisKey;
+ var bandWidth = seriesInfo.bandWidth;
+ var columnsOnAxis = columnsMap[axisKey] || {
+ bandWidth: bandWidth,
+ remainedWidth: bandWidth,
+ autoWidthCount: 0,
+ categoryGap: null,
+ gap: '20%',
+ stacks: {}
+ };
+ var stacks = columnsOnAxis.stacks;
+ columnsMap[axisKey] = columnsOnAxis;
+ var stackId = seriesInfo.stackId;
+ if (!stacks[stackId]) {
+ columnsOnAxis.autoWidthCount++;
+ }
+ stacks[stackId] = stacks[stackId] || {
+ width: 0,
+ maxWidth: 0
+ };
+ // Caution: In a single coordinate system, these barGrid attributes
+ // will be shared by series. Consider that they have default values,
+ // only the attributes set on the last series will work.
+ // Do not change this fact unless there will be a break change.
+ var barWidth = seriesInfo.barWidth;
+ if (barWidth && !stacks[stackId].width) {
+ // See #6312, do not restrict width.
+ stacks[stackId].width = barWidth;
+ barWidth = Math.min(columnsOnAxis.remainedWidth, barWidth);
+ columnsOnAxis.remainedWidth -= barWidth;
+ }
+ var barMaxWidth = seriesInfo.barMaxWidth;
+ barMaxWidth && (stacks[stackId].maxWidth = barMaxWidth);
+ var barMinWidth = seriesInfo.barMinWidth;
+ barMinWidth && (stacks[stackId].minWidth = barMinWidth);
+ var barGap = seriesInfo.barGap;
+ barGap != null && (columnsOnAxis.gap = barGap);
+ var barCategoryGap = seriesInfo.barCategoryGap;
+ barCategoryGap != null && (columnsOnAxis.categoryGap = barCategoryGap);
+ });
+ var result = {};
+ each(columnsMap, function (columnsOnAxis, coordSysName) {
+ result[coordSysName] = {};
+ var stacks = columnsOnAxis.stacks;
+ var bandWidth = columnsOnAxis.bandWidth;
+ var categoryGapPercent = columnsOnAxis.categoryGap;
+ if (categoryGapPercent == null) {
+ var columnCount = keys(stacks).length;
+ // More columns in one group
+ // the spaces between group is smaller. Or the column will be too thin.
+ categoryGapPercent = Math.max(35 - columnCount * 4, 15) + '%';
+ }
+ var categoryGap = parsePercent$1(categoryGapPercent, bandWidth);
+ var barGapPercent = parsePercent$1(columnsOnAxis.gap, 1);
+ var remainedWidth = columnsOnAxis.remainedWidth;
+ var autoWidthCount = columnsOnAxis.autoWidthCount;
+ var autoWidth = (remainedWidth - categoryGap) / (autoWidthCount + (autoWidthCount - 1) * barGapPercent);
+ autoWidth = Math.max(autoWidth, 0);
+ // Find if any auto calculated bar exceeded maxBarWidth
+ each(stacks, function (column) {
+ var maxWidth = column.maxWidth;
+ var minWidth = column.minWidth;
+ if (!column.width) {
+ var finalWidth = autoWidth;
+ if (maxWidth && maxWidth < finalWidth) {
+ finalWidth = Math.min(maxWidth, remainedWidth);
+ }
+ // `minWidth` has higher priority. `minWidth` decide that whether the
+ // bar is able to be visible. So `minWidth` should not be restricted
+ // by `maxWidth` or `remainedWidth` (which is from `bandWidth`). In
+ // the extreme cases for `value` axis, bars are allowed to overlap
+ // with each other if `minWidth` specified.
+ if (minWidth && minWidth > finalWidth) {
+ finalWidth = minWidth;
+ }
+ if (finalWidth !== autoWidth) {
+ column.width = finalWidth;
+ remainedWidth -= finalWidth + barGapPercent * finalWidth;
+ autoWidthCount--;
+ }
+ } else {
+ // `barMinWidth/barMaxWidth` has higher priority than `barWidth`, as
+ // CSS does. Because barWidth can be a percent value, where
+ // `barMaxWidth` can be used to restrict the final width.
+ var finalWidth = column.width;
+ if (maxWidth) {
+ finalWidth = Math.min(finalWidth, maxWidth);
+ }
+ // `minWidth` has higher priority, as described above
+ if (minWidth) {
+ finalWidth = Math.max(finalWidth, minWidth);
+ }
+ column.width = finalWidth;
+ remainedWidth -= finalWidth + barGapPercent * finalWidth;
+ autoWidthCount--;
+ }
+ });
+ // Recalculate width again
+ autoWidth = (remainedWidth - categoryGap) / (autoWidthCount + (autoWidthCount - 1) * barGapPercent);
+ autoWidth = Math.max(autoWidth, 0);
+ var widthSum = 0;
+ var lastColumn;
+ each(stacks, function (column, idx) {
+ if (!column.width) {
+ column.width = autoWidth;
+ }
+ lastColumn = column;
+ widthSum += column.width * (1 + barGapPercent);
+ });
+ if (lastColumn) {
+ widthSum -= lastColumn.width * barGapPercent;
+ }
+ var offset = -widthSum / 2;
+ each(stacks, function (column, stackId) {
+ result[coordSysName][stackId] = result[coordSysName][stackId] || {
+ bandWidth: bandWidth,
+ offset: offset,
+ width: column.width
+ };
+ offset += column.width * (1 + barGapPercent);
+ });
+ });
+ return result;
+ }
+ function retrieveColumnLayout(barWidthAndOffset, axis, seriesModel) {
+ if (barWidthAndOffset && axis) {
+ var result = barWidthAndOffset[getAxisKey(axis)];
+ if (result != null && seriesModel != null) {
+ return result[getSeriesStackId(seriesModel)];
+ }
+ return result;
+ }
+ }
+ function layout(seriesType, ecModel) {
+ var seriesModels = prepareLayoutBarSeries(seriesType, ecModel);
+ var barWidthAndOffset = makeColumnLayout(seriesModels);
+ each(seriesModels, function (seriesModel) {
+ var data = seriesModel.getData();
+ var cartesian = seriesModel.coordinateSystem;
+ var baseAxis = cartesian.getBaseAxis();
+ var stackId = getSeriesStackId(seriesModel);
+ var columnLayoutInfo = barWidthAndOffset[getAxisKey(baseAxis)][stackId];
+ var columnOffset = columnLayoutInfo.offset;
+ var columnWidth = columnLayoutInfo.width;
+ data.setLayout({
+ bandWidth: columnLayoutInfo.bandWidth,
+ offset: columnOffset,
+ size: columnWidth
+ });
+ });
+ }
+ // TODO: Do not support stack in large mode yet.
+ function createProgressiveLayout(seriesType) {
+ return {
+ seriesType: seriesType,
+ plan: createRenderPlanner(),
+ reset: function (seriesModel) {
+ if (!isOnCartesian(seriesModel)) {
+ return;
+ }
+ var data = seriesModel.getData();
+ var cartesian = seriesModel.coordinateSystem;
+ var baseAxis = cartesian.getBaseAxis();
+ var valueAxis = cartesian.getOtherAxis(baseAxis);
+ var valueDimIdx = data.getDimensionIndex(data.mapDimension(valueAxis.dim));
+ var baseDimIdx = data.getDimensionIndex(data.mapDimension(baseAxis.dim));
+ var drawBackground = seriesModel.get('showBackground', true);
+ var valueDim = data.mapDimension(valueAxis.dim);
+ var stackResultDim = data.getCalculationInfo('stackResultDimension');
+ var stacked = isDimensionStacked(data, valueDim) && !!data.getCalculationInfo('stackedOnSeries');
+ var isValueAxisH = valueAxis.isHorizontal();
+ var valueAxisStart = getValueAxisStart(baseAxis, valueAxis);
+ var isLarge = isInLargeMode(seriesModel);
+ var barMinHeight = seriesModel.get('barMinHeight') || 0;
+ var stackedDimIdx = stackResultDim && data.getDimensionIndex(stackResultDim);
+ // Layout info.
+ var columnWidth = data.getLayout('size');
+ var columnOffset = data.getLayout('offset');
+ return {
+ progress: function (params, data) {
+ var count = params.count;
+ var largePoints = isLarge && createFloat32Array(count * 3);
+ var largeBackgroundPoints = isLarge && drawBackground && createFloat32Array(count * 3);
+ var largeDataIndices = isLarge && createFloat32Array(count);
+ var coordLayout = cartesian.master.getRect();
+ var bgSize = isValueAxisH ? coordLayout.width : coordLayout.height;
+ var dataIndex;
+ var store = data.getStore();
+ var idxOffset = 0;
+ while ((dataIndex = params.next()) != null) {
+ var value = store.get(stacked ? stackedDimIdx : valueDimIdx, dataIndex);
+ var baseValue = store.get(baseDimIdx, dataIndex);
+ var baseCoord = valueAxisStart;
+ var startValue = void 0;
+ // Because of the barMinHeight, we can not use the value in
+ // stackResultDimension directly.
+ if (stacked) {
+ startValue = +value - store.get(valueDimIdx, dataIndex);
+ }
+ var x = void 0;
+ var y = void 0;
+ var width = void 0;
+ var height = void 0;
+ if (isValueAxisH) {
+ var coord = cartesian.dataToPoint([value, baseValue]);
+ if (stacked) {
+ var startCoord = cartesian.dataToPoint([startValue, baseValue]);
+ baseCoord = startCoord[0];
+ }
+ x = baseCoord;
+ y = coord[1] + columnOffset;
+ width = coord[0] - baseCoord;
+ height = columnWidth;
+ if (Math.abs(width) < barMinHeight) {
+ width = (width < 0 ? -1 : 1) * barMinHeight;
+ }
+ } else {
+ var coord = cartesian.dataToPoint([baseValue, value]);
+ if (stacked) {
+ var startCoord = cartesian.dataToPoint([baseValue, startValue]);
+ baseCoord = startCoord[1];
+ }
+ x = coord[0] + columnOffset;
+ y = baseCoord;
+ width = columnWidth;
+ height = coord[1] - baseCoord;
+ if (Math.abs(height) < barMinHeight) {
+ // Include zero to has a positive bar
+ height = (height <= 0 ? -1 : 1) * barMinHeight;
+ }
+ }
+ if (!isLarge) {
+ data.setItemLayout(dataIndex, {
+ x: x,
+ y: y,
+ width: width,
+ height: height
+ });
+ } else {
+ largePoints[idxOffset] = x;
+ largePoints[idxOffset + 1] = y;
+ largePoints[idxOffset + 2] = isValueAxisH ? width : height;
+ if (largeBackgroundPoints) {
+ largeBackgroundPoints[idxOffset] = isValueAxisH ? coordLayout.x : x;
+ largeBackgroundPoints[idxOffset + 1] = isValueAxisH ? y : coordLayout.y;
+ largeBackgroundPoints[idxOffset + 2] = bgSize;
+ }
+ largeDataIndices[dataIndex] = dataIndex;
+ }
+ idxOffset += 3;
+ }
+ if (isLarge) {
+ data.setLayout({
+ largePoints: largePoints,
+ largeDataIndices: largeDataIndices,
+ largeBackgroundPoints: largeBackgroundPoints,
+ valueAxisHorizontal: isValueAxisH
+ });
+ }
+ }
+ };
+ }
+ };
+ }
+ function isOnCartesian(seriesModel) {
+ return seriesModel.coordinateSystem && seriesModel.coordinateSystem.type === 'cartesian2d';
+ }
+ function isInLargeMode(seriesModel) {
+ return seriesModel.pipelineContext && seriesModel.pipelineContext.large;
+ }
+ // See cases in `test/bar-start.html` and `#7412`, `#8747`.
+ function getValueAxisStart(baseAxis, valueAxis) {
+ return valueAxis.toGlobalCoord(valueAxis.dataToCoord(valueAxis.type === 'log' ? 1 : 0));
+ }
+
+ // FIXME 公用?
+ var bisect = function (a, x, lo, hi) {
+ while (lo < hi) {
+ var mid = lo + hi >>> 1;
+ if (a[mid][1] < x) {
+ lo = mid + 1;
+ } else {
+ hi = mid;
+ }
+ }
+ return lo;
+ };
+ var TimeScale = /** @class */function (_super) {
+ __extends(TimeScale, _super);
+ function TimeScale(settings) {
+ var _this = _super.call(this, settings) || this;
+ _this.type = 'time';
+ return _this;
+ }
+ /**
+ * Get label is mainly for other components like dataZoom, tooltip.
+ */
+ TimeScale.prototype.getLabel = function (tick) {
+ var useUTC = this.getSetting('useUTC');
+ return format(tick.value, fullLeveledFormatter[getDefaultFormatPrecisionOfInterval(getPrimaryTimeUnit(this._minLevelUnit))] || fullLeveledFormatter.second, useUTC, this.getSetting('locale'));
+ };
+ TimeScale.prototype.getFormattedLabel = function (tick, idx, labelFormatter) {
+ var isUTC = this.getSetting('useUTC');
+ var lang = this.getSetting('locale');
+ return leveledFormat(tick, idx, labelFormatter, lang, isUTC);
+ };
+ /**
+ * @override
+ */
+ TimeScale.prototype.getTicks = function () {
+ var interval = this._interval;
+ var extent = this._extent;
+ var ticks = [];
+ // If interval is 0, return [];
+ if (!interval) {
+ return ticks;
+ }
+ ticks.push({
+ value: extent[0],
+ level: 0
+ });
+ var useUTC = this.getSetting('useUTC');
+ var innerTicks = getIntervalTicks(this._minLevelUnit, this._approxInterval, useUTC, extent);
+ ticks = ticks.concat(innerTicks);
+ ticks.push({
+ value: extent[1],
+ level: 0
+ });
+ return ticks;
+ };
+ TimeScale.prototype.calcNiceExtent = function (opt) {
+ var extent = this._extent;
+ // If extent start and end are same, expand them
+ if (extent[0] === extent[1]) {
+ // Expand extent
+ extent[0] -= ONE_DAY;
+ extent[1] += ONE_DAY;
+ }
+ // If there are no data and extent are [Infinity, -Infinity]
+ if (extent[1] === -Infinity && extent[0] === Infinity) {
+ var d = new Date();
+ extent[1] = +new Date(d.getFullYear(), d.getMonth(), d.getDate());
+ extent[0] = extent[1] - ONE_DAY;
+ }
+ this.calcNiceTicks(opt.splitNumber, opt.minInterval, opt.maxInterval);
+ };
+ TimeScale.prototype.calcNiceTicks = function (approxTickNum, minInterval, maxInterval) {
+ approxTickNum = approxTickNum || 10;
+ var extent = this._extent;
+ var span = extent[1] - extent[0];
+ this._approxInterval = span / approxTickNum;
+ if (minInterval != null && this._approxInterval < minInterval) {
+ this._approxInterval = minInterval;
+ }
+ if (maxInterval != null && this._approxInterval > maxInterval) {
+ this._approxInterval = maxInterval;
+ }
+ var scaleIntervalsLen = scaleIntervals.length;
+ var idx = Math.min(bisect(scaleIntervals, this._approxInterval, 0, scaleIntervalsLen), scaleIntervalsLen - 1);
+ // Interval that can be used to calculate ticks
+ this._interval = scaleIntervals[idx][1];
+ // Min level used when picking ticks from top down.
+ // We check one more level to avoid the ticks are to sparse in some case.
+ this._minLevelUnit = scaleIntervals[Math.max(idx - 1, 0)][0];
+ };
+ TimeScale.prototype.parse = function (val) {
+ // val might be float.
+ return isNumber(val) ? val : +parseDate(val);
+ };
+ TimeScale.prototype.contain = function (val) {
+ return contain$1(this.parse(val), this._extent);
+ };
+ TimeScale.prototype.normalize = function (val) {
+ return normalize$1(this.parse(val), this._extent);
+ };
+ TimeScale.prototype.scale = function (val) {
+ return scale$2(val, this._extent);
+ };
+ TimeScale.type = 'time';
+ return TimeScale;
+ }(IntervalScale);
+ /**
+ * This implementation was originally copied from "d3.js"
+ *
+ * with some modifications made for this program.
+ * See the license statement at the head of this file.
+ */
+ var scaleIntervals = [
+ // Format interval
+ ['second', ONE_SECOND], ['minute', ONE_MINUTE], ['hour', ONE_HOUR], ['quarter-day', ONE_HOUR * 6], ['half-day', ONE_HOUR * 12], ['day', ONE_DAY * 1.2], ['half-week', ONE_DAY * 3.5], ['week', ONE_DAY * 7], ['month', ONE_DAY * 31], ['quarter', ONE_DAY * 95], ['half-year', ONE_YEAR / 2], ['year', ONE_YEAR] // 1Y
+ ];
+
+ function isUnitValueSame(unit, valueA, valueB, isUTC) {
+ var dateA = parseDate(valueA);
+ var dateB = parseDate(valueB);
+ var isSame = function (unit) {
+ return getUnitValue(dateA, unit, isUTC) === getUnitValue(dateB, unit, isUTC);
+ };
+ var isSameYear = function () {
+ return isSame('year');
+ };
+ // const isSameHalfYear = () => isSameYear() && isSame('half-year');
+ // const isSameQuater = () => isSameYear() && isSame('quarter');
+ var isSameMonth = function () {
+ return isSameYear() && isSame('month');
+ };
+ var isSameDay = function () {
+ return isSameMonth() && isSame('day');
+ };
+ // const isSameHalfDay = () => isSameDay() && isSame('half-day');
+ var isSameHour = function () {
+ return isSameDay() && isSame('hour');
+ };
+ var isSameMinute = function () {
+ return isSameHour() && isSame('minute');
+ };
+ var isSameSecond = function () {
+ return isSameMinute() && isSame('second');
+ };
+ var isSameMilliSecond = function () {
+ return isSameSecond() && isSame('millisecond');
+ };
+ switch (unit) {
+ case 'year':
+ return isSameYear();
+ case 'month':
+ return isSameMonth();
+ case 'day':
+ return isSameDay();
+ case 'hour':
+ return isSameHour();
+ case 'minute':
+ return isSameMinute();
+ case 'second':
+ return isSameSecond();
+ case 'millisecond':
+ return isSameMilliSecond();
+ }
+ }
+ // const primaryUnitGetters = {
+ // year: fullYearGetterName(),
+ // month: monthGetterName(),
+ // day: dateGetterName(),
+ // hour: hoursGetterName(),
+ // minute: minutesGetterName(),
+ // second: secondsGetterName(),
+ // millisecond: millisecondsGetterName()
+ // };
+ // const primaryUnitUTCGetters = {
+ // year: fullYearGetterName(true),
+ // month: monthGetterName(true),
+ // day: dateGetterName(true),
+ // hour: hoursGetterName(true),
+ // minute: minutesGetterName(true),
+ // second: secondsGetterName(true),
+ // millisecond: millisecondsGetterName(true)
+ // };
+ // function moveTick(date: Date, unitName: TimeUnit, step: number, isUTC: boolean) {
+ // step = step || 1;
+ // switch (getPrimaryTimeUnit(unitName)) {
+ // case 'year':
+ // date[fullYearSetterName(isUTC)](date[fullYearGetterName(isUTC)]() + step);
+ // break;
+ // case 'month':
+ // date[monthSetterName(isUTC)](date[monthGetterName(isUTC)]() + step);
+ // break;
+ // case 'day':
+ // date[dateSetterName(isUTC)](date[dateGetterName(isUTC)]() + step);
+ // break;
+ // case 'hour':
+ // date[hoursSetterName(isUTC)](date[hoursGetterName(isUTC)]() + step);
+ // break;
+ // case 'minute':
+ // date[minutesSetterName(isUTC)](date[minutesGetterName(isUTC)]() + step);
+ // break;
+ // case 'second':
+ // date[secondsSetterName(isUTC)](date[secondsGetterName(isUTC)]() + step);
+ // break;
+ // case 'millisecond':
+ // date[millisecondsSetterName(isUTC)](date[millisecondsGetterName(isUTC)]() + step);
+ // break;
+ // }
+ // return date.getTime();
+ // }
+ // const DATE_INTERVALS = [[8, 7.5], [4, 3.5], [2, 1.5]];
+ // const MONTH_INTERVALS = [[6, 5.5], [3, 2.5], [2, 1.5]];
+ // const MINUTES_SECONDS_INTERVALS = [[30, 30], [20, 20], [15, 15], [10, 10], [5, 5], [2, 2]];
+ function getDateInterval(approxInterval, daysInMonth) {
+ approxInterval /= ONE_DAY;
+ return approxInterval > 16 ? 16
+ // Math.floor(daysInMonth / 2) + 1 // In this case we only want one tick between two months.
+ : approxInterval > 7.5 ? 7 // TODO week 7 or day 8?
+ : approxInterval > 3.5 ? 4 : approxInterval > 1.5 ? 2 : 1;
+ }
+ function getMonthInterval(approxInterval) {
+ var APPROX_ONE_MONTH = 30 * ONE_DAY;
+ approxInterval /= APPROX_ONE_MONTH;
+ return approxInterval > 6 ? 6 : approxInterval > 3 ? 3 : approxInterval > 2 ? 2 : 1;
+ }
+ function getHourInterval(approxInterval) {
+ approxInterval /= ONE_HOUR;
+ return approxInterval > 12 ? 12 : approxInterval > 6 ? 6 : approxInterval > 3.5 ? 4 : approxInterval > 2 ? 2 : 1;
+ }
+ function getMinutesAndSecondsInterval(approxInterval, isMinutes) {
+ approxInterval /= isMinutes ? ONE_MINUTE : ONE_SECOND;
+ return approxInterval > 30 ? 30 : approxInterval > 20 ? 20 : approxInterval > 15 ? 15 : approxInterval > 10 ? 10 : approxInterval > 5 ? 5 : approxInterval > 2 ? 2 : 1;
+ }
+ function getMillisecondsInterval(approxInterval) {
+ return nice(approxInterval, true);
+ }
+ function getFirstTimestampOfUnit(date, unitName, isUTC) {
+ var outDate = new Date(date);
+ switch (getPrimaryTimeUnit(unitName)) {
+ case 'year':
+ case 'month':
+ outDate[monthSetterName(isUTC)](0);
+ case 'day':
+ outDate[dateSetterName(isUTC)](1);
+ case 'hour':
+ outDate[hoursSetterName(isUTC)](0);
+ case 'minute':
+ outDate[minutesSetterName(isUTC)](0);
+ case 'second':
+ outDate[secondsSetterName(isUTC)](0);
+ outDate[millisecondsSetterName(isUTC)](0);
+ }
+ return outDate.getTime();
+ }
+ function getIntervalTicks(bottomUnitName, approxInterval, isUTC, extent) {
+ var safeLimit = 10000;
+ var unitNames = timeUnits;
+ var iter = 0;
+ function addTicksInSpan(interval, minTimestamp, maxTimestamp, getMethodName, setMethodName, isDate, out) {
+ var date = new Date(minTimestamp);
+ var dateTime = minTimestamp;
+ var d = date[getMethodName]();
+ // if (isDate) {
+ // d -= 1; // Starts with 0; PENDING
+ // }
+ while (dateTime < maxTimestamp && dateTime <= extent[1]) {
+ out.push({
+ value: dateTime
+ });
+ d += interval;
+ date[setMethodName](d);
+ dateTime = date.getTime();
+ }
+ // This extra tick is for calcuating ticks of next level. Will not been added to the final result
+ out.push({
+ value: dateTime,
+ notAdd: true
+ });
+ }
+ function addLevelTicks(unitName, lastLevelTicks, levelTicks) {
+ var newAddedTicks = [];
+ var isFirstLevel = !lastLevelTicks.length;
+ if (isUnitValueSame(getPrimaryTimeUnit(unitName), extent[0], extent[1], isUTC)) {
+ return;
+ }
+ if (isFirstLevel) {
+ lastLevelTicks = [{
+ // TODO Optimize. Not include so may ticks.
+ value: getFirstTimestampOfUnit(new Date(extent[0]), unitName, isUTC)
+ }, {
+ value: extent[1]
+ }];
+ }
+ for (var i = 0; i < lastLevelTicks.length - 1; i++) {
+ var startTick = lastLevelTicks[i].value;
+ var endTick = lastLevelTicks[i + 1].value;
+ if (startTick === endTick) {
+ continue;
+ }
+ var interval = void 0;
+ var getterName = void 0;
+ var setterName = void 0;
+ var isDate = false;
+ switch (unitName) {
+ case 'year':
+ interval = Math.max(1, Math.round(approxInterval / ONE_DAY / 365));
+ getterName = fullYearGetterName(isUTC);
+ setterName = fullYearSetterName(isUTC);
+ break;
+ case 'half-year':
+ case 'quarter':
+ case 'month':
+ interval = getMonthInterval(approxInterval);
+ getterName = monthGetterName(isUTC);
+ setterName = monthSetterName(isUTC);
+ break;
+ case 'week': // PENDING If week is added. Ignore day.
+ case 'half-week':
+ case 'day':
+ interval = getDateInterval(approxInterval); // Use 32 days and let interval been 16
+ getterName = dateGetterName(isUTC);
+ setterName = dateSetterName(isUTC);
+ isDate = true;
+ break;
+ case 'half-day':
+ case 'quarter-day':
+ case 'hour':
+ interval = getHourInterval(approxInterval);
+ getterName = hoursGetterName(isUTC);
+ setterName = hoursSetterName(isUTC);
+ break;
+ case 'minute':
+ interval = getMinutesAndSecondsInterval(approxInterval, true);
+ getterName = minutesGetterName(isUTC);
+ setterName = minutesSetterName(isUTC);
+ break;
+ case 'second':
+ interval = getMinutesAndSecondsInterval(approxInterval, false);
+ getterName = secondsGetterName(isUTC);
+ setterName = secondsSetterName(isUTC);
+ break;
+ case 'millisecond':
+ interval = getMillisecondsInterval(approxInterval);
+ getterName = millisecondsGetterName(isUTC);
+ setterName = millisecondsSetterName(isUTC);
+ break;
+ }
+ addTicksInSpan(interval, startTick, endTick, getterName, setterName, isDate, newAddedTicks);
+ if (unitName === 'year' && levelTicks.length > 1 && i === 0) {
+ // Add nearest years to the left extent.
+ levelTicks.unshift({
+ value: levelTicks[0].value - interval
+ });
+ }
+ }
+ for (var i = 0; i < newAddedTicks.length; i++) {
+ levelTicks.push(newAddedTicks[i]);
+ }
+ // newAddedTicks.length && console.log(unitName, newAddedTicks);
+ return newAddedTicks;
+ }
+ var levelsTicks = [];
+ var currentLevelTicks = [];
+ var tickCount = 0;
+ var lastLevelTickCount = 0;
+ for (var i = 0; i < unitNames.length && iter++ < safeLimit; ++i) {
+ var primaryTimeUnit = getPrimaryTimeUnit(unitNames[i]);
+ if (!isPrimaryTimeUnit(unitNames[i])) {
+ // TODO
+ continue;
+ }
+ addLevelTicks(unitNames[i], levelsTicks[levelsTicks.length - 1] || [], currentLevelTicks);
+ var nextPrimaryTimeUnit = unitNames[i + 1] ? getPrimaryTimeUnit(unitNames[i + 1]) : null;
+ if (primaryTimeUnit !== nextPrimaryTimeUnit) {
+ if (currentLevelTicks.length) {
+ lastLevelTickCount = tickCount;
+ // Remove the duplicate so the tick count can be precisely.
+ currentLevelTicks.sort(function (a, b) {
+ return a.value - b.value;
+ });
+ var levelTicksRemoveDuplicated = [];
+ for (var i_1 = 0; i_1 < currentLevelTicks.length; ++i_1) {
+ var tickValue = currentLevelTicks[i_1].value;
+ if (i_1 === 0 || currentLevelTicks[i_1 - 1].value !== tickValue) {
+ levelTicksRemoveDuplicated.push(currentLevelTicks[i_1]);
+ if (tickValue >= extent[0] && tickValue <= extent[1]) {
+ tickCount++;
+ }
+ }
+ }
+ var targetTickNum = (extent[1] - extent[0]) / approxInterval;
+ // Added too much in this level and not too less in last level
+ if (tickCount > targetTickNum * 1.5 && lastLevelTickCount > targetTickNum / 1.5) {
+ break;
+ }
+ // Only treat primary time unit as one level.
+ levelsTicks.push(levelTicksRemoveDuplicated);
+ if (tickCount > targetTickNum || bottomUnitName === unitNames[i]) {
+ break;
+ }
+ }
+ // Reset if next unitName is primary
+ currentLevelTicks = [];
+ }
+ }
+ if ("development" !== 'production') {
+ if (iter >= safeLimit) {
+ warn('Exceed safe limit.');
+ }
+ }
+ var levelsTicksInExtent = filter(map(levelsTicks, function (levelTicks) {
+ return filter(levelTicks, function (tick) {
+ return tick.value >= extent[0] && tick.value <= extent[1] && !tick.notAdd;
+ });
+ }), function (levelTicks) {
+ return levelTicks.length > 0;
+ });
+ var ticks = [];
+ var maxLevel = levelsTicksInExtent.length - 1;
+ for (var i = 0; i < levelsTicksInExtent.length; ++i) {
+ var levelTicks = levelsTicksInExtent[i];
+ for (var k = 0; k < levelTicks.length; ++k) {
+ ticks.push({
+ value: levelTicks[k].value,
+ level: maxLevel - i
+ });
+ }
+ }
+ ticks.sort(function (a, b) {
+ return a.value - b.value;
+ });
+ // Remove duplicates
+ var result = [];
+ for (var i = 0; i < ticks.length; ++i) {
+ if (i === 0 || ticks[i].value !== ticks[i - 1].value) {
+ result.push(ticks[i]);
+ }
+ }
+ return result;
+ }
+ Scale.registerClass(TimeScale);
+
+ var scaleProto = Scale.prototype;
+ // FIXME:TS refactor: not good to call it directly with `this`?
+ var intervalScaleProto = IntervalScale.prototype;
+ var roundingErrorFix = round;
+ var mathFloor = Math.floor;
+ var mathCeil = Math.ceil;
+ var mathPow$1 = Math.pow;
+ var mathLog = Math.log;
+ var LogScale = /** @class */function (_super) {
+ __extends(LogScale, _super);
+ function LogScale() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = 'log';
+ _this.base = 10;
+ _this._originalScale = new IntervalScale();
+ // FIXME:TS actually used by `IntervalScale`
+ _this._interval = 0;
+ return _this;
+ }
+ /**
+ * @param Whether expand the ticks to niced extent.
+ */
+ LogScale.prototype.getTicks = function (expandToNicedExtent) {
+ var originalScale = this._originalScale;
+ var extent = this._extent;
+ var originalExtent = originalScale.getExtent();
+ var ticks = intervalScaleProto.getTicks.call(this, expandToNicedExtent);
+ return map(ticks, function (tick) {
+ var val = tick.value;
+ var powVal = round(mathPow$1(this.base, val));
+ // Fix #4158
+ powVal = val === extent[0] && this._fixMin ? fixRoundingError(powVal, originalExtent[0]) : powVal;
+ powVal = val === extent[1] && this._fixMax ? fixRoundingError(powVal, originalExtent[1]) : powVal;
+ return {
+ value: powVal
+ };
+ }, this);
+ };
+ LogScale.prototype.setExtent = function (start, end) {
+ var base = mathLog(this.base);
+ // log(-Infinity) is NaN, so safe guard here
+ start = mathLog(Math.max(0, start)) / base;
+ end = mathLog(Math.max(0, end)) / base;
+ intervalScaleProto.setExtent.call(this, start, end);
+ };
+ /**
+ * @return {number} end
+ */
+ LogScale.prototype.getExtent = function () {
+ var base = this.base;
+ var extent = scaleProto.getExtent.call(this);
+ extent[0] = mathPow$1(base, extent[0]);
+ extent[1] = mathPow$1(base, extent[1]);
+ // Fix #4158
+ var originalScale = this._originalScale;
+ var originalExtent = originalScale.getExtent();
+ this._fixMin && (extent[0] = fixRoundingError(extent[0], originalExtent[0]));
+ this._fixMax && (extent[1] = fixRoundingError(extent[1], originalExtent[1]));
+ return extent;
+ };
+ LogScale.prototype.unionExtent = function (extent) {
+ this._originalScale.unionExtent(extent);
+ var base = this.base;
+ extent[0] = mathLog(extent[0]) / mathLog(base);
+ extent[1] = mathLog(extent[1]) / mathLog(base);
+ scaleProto.unionExtent.call(this, extent);
+ };
+ LogScale.prototype.unionExtentFromData = function (data, dim) {
+ // TODO
+ // filter value that <= 0
+ this.unionExtent(data.getApproximateExtent(dim));
+ };
+ /**
+ * Update interval and extent of intervals for nice ticks
+ * @param approxTickNum default 10 Given approx tick number
+ */
+ LogScale.prototype.calcNiceTicks = function (approxTickNum) {
+ approxTickNum = approxTickNum || 10;
+ var extent = this._extent;
+ var span = extent[1] - extent[0];
+ if (span === Infinity || span <= 0) {
+ return;
+ }
+ var interval = quantity(span);
+ var err = approxTickNum / span * interval;
+ // Filter ticks to get closer to the desired count.
+ if (err <= 0.5) {
+ interval *= 10;
+ }
+ // Interval should be integer
+ while (!isNaN(interval) && Math.abs(interval) < 1 && Math.abs(interval) > 0) {
+ interval *= 10;
+ }
+ var niceExtent = [round(mathCeil(extent[0] / interval) * interval), round(mathFloor(extent[1] / interval) * interval)];
+ this._interval = interval;
+ this._niceExtent = niceExtent;
+ };
+ LogScale.prototype.calcNiceExtent = function (opt) {
+ intervalScaleProto.calcNiceExtent.call(this, opt);
+ this._fixMin = opt.fixMin;
+ this._fixMax = opt.fixMax;
+ };
+ LogScale.prototype.parse = function (val) {
+ return val;
+ };
+ LogScale.prototype.contain = function (val) {
+ val = mathLog(val) / mathLog(this.base);
+ return contain$1(val, this._extent);
+ };
+ LogScale.prototype.normalize = function (val) {
+ val = mathLog(val) / mathLog(this.base);
+ return normalize$1(val, this._extent);
+ };
+ LogScale.prototype.scale = function (val) {
+ val = scale$2(val, this._extent);
+ return mathPow$1(this.base, val);
+ };
+ LogScale.type = 'log';
+ return LogScale;
+ }(Scale);
+ var proto = LogScale.prototype;
+ proto.getMinorTicks = intervalScaleProto.getMinorTicks;
+ proto.getLabel = intervalScaleProto.getLabel;
+ function fixRoundingError(val, originalVal) {
+ return roundingErrorFix(val, getPrecision(originalVal));
+ }
+ Scale.registerClass(LogScale);
+
+ var ScaleRawExtentInfo = /** @class */function () {
+ function ScaleRawExtentInfo(scale, model,
+ // Usually: data extent from all series on this axis.
+ originalExtent) {
+ this._prepareParams(scale, model, originalExtent);
+ }
+ /**
+ * Parameters depending on outside (like model, user callback)
+ * are prepared and fixed here.
+ */
+ ScaleRawExtentInfo.prototype._prepareParams = function (scale, model,
+ // Usually: data extent from all series on this axis.
+ dataExtent) {
+ if (dataExtent[1] < dataExtent[0]) {
+ dataExtent = [NaN, NaN];
+ }
+ this._dataMin = dataExtent[0];
+ this._dataMax = dataExtent[1];
+ var isOrdinal = this._isOrdinal = scale.type === 'ordinal';
+ this._needCrossZero = scale.type === 'interval' && model.getNeedCrossZero && model.getNeedCrossZero();
+ var modelMinRaw = this._modelMinRaw = model.get('min', true);
+ if (isFunction(modelMinRaw)) {
+ // This callback always provides users the full data extent (before data is filtered).
+ this._modelMinNum = parseAxisModelMinMax(scale, modelMinRaw({
+ min: dataExtent[0],
+ max: dataExtent[1]
+ }));
+ } else if (modelMinRaw !== 'dataMin') {
+ this._modelMinNum = parseAxisModelMinMax(scale, modelMinRaw);
+ }
+ var modelMaxRaw = this._modelMaxRaw = model.get('max', true);
+ if (isFunction(modelMaxRaw)) {
+ // This callback always provides users the full data extent (before data is filtered).
+ this._modelMaxNum = parseAxisModelMinMax(scale, modelMaxRaw({
+ min: dataExtent[0],
+ max: dataExtent[1]
+ }));
+ } else if (modelMaxRaw !== 'dataMax') {
+ this._modelMaxNum = parseAxisModelMinMax(scale, modelMaxRaw);
+ }
+ if (isOrdinal) {
+ // FIXME: there is a flaw here: if there is no "block" data processor like `dataZoom`,
+ // and progressive rendering is using, here the category result might just only contain
+ // the processed chunk rather than the entire result.
+ this._axisDataLen = model.getCategories().length;
+ } else {
+ var boundaryGap = model.get('boundaryGap');
+ var boundaryGapArr = isArray(boundaryGap) ? boundaryGap : [boundaryGap || 0, boundaryGap || 0];
+ if (typeof boundaryGapArr[0] === 'boolean' || typeof boundaryGapArr[1] === 'boolean') {
+ if ("development" !== 'production') {
+ console.warn('Boolean type for boundaryGap is only ' + 'allowed for ordinal axis. Please use string in ' + 'percentage instead, e.g., "20%". Currently, ' + 'boundaryGap is set to be 0.');
+ }
+ this._boundaryGapInner = [0, 0];
+ } else {
+ this._boundaryGapInner = [parsePercent(boundaryGapArr[0], 1), parsePercent(boundaryGapArr[1], 1)];
+ }
+ }
+ };
+ /**
+ * Calculate extent by prepared parameters.
+ * This method has no external dependency and can be called duplicatedly,
+ * getting the same result.
+ * If parameters changed, should call this method to recalcuate.
+ */
+ ScaleRawExtentInfo.prototype.calculate = function () {
+ // Notice: When min/max is not set (that is, when there are null/undefined,
+ // which is the most common case), these cases should be ensured:
+ // (1) For 'ordinal', show all axis.data.
+ // (2) For others:
+ // + `boundaryGap` is applied (if min/max set, boundaryGap is
+ // disabled).
+ // + If `needCrossZero`, min/max should be zero, otherwise, min/max should
+ // be the result that originalExtent enlarged by boundaryGap.
+ // (3) If no data, it should be ensured that `scale.setBlank` is set.
+ var isOrdinal = this._isOrdinal;
+ var dataMin = this._dataMin;
+ var dataMax = this._dataMax;
+ var axisDataLen = this._axisDataLen;
+ var boundaryGapInner = this._boundaryGapInner;
+ var span = !isOrdinal ? dataMax - dataMin || Math.abs(dataMin) : null;
+ // Currently if a `'value'` axis model min is specified as 'dataMin'/'dataMax',
+ // `boundaryGap` will not be used. It's the different from specifying as `null`/`undefined`.
+ var min = this._modelMinRaw === 'dataMin' ? dataMin : this._modelMinNum;
+ var max = this._modelMaxRaw === 'dataMax' ? dataMax : this._modelMaxNum;
+ // If `_modelMinNum`/`_modelMaxNum` is `null`/`undefined`, should not be fixed.
+ var minFixed = min != null;
+ var maxFixed = max != null;
+ if (min == null) {
+ min = isOrdinal ? axisDataLen ? 0 : NaN : dataMin - boundaryGapInner[0] * span;
+ }
+ if (max == null) {
+ max = isOrdinal ? axisDataLen ? axisDataLen - 1 : NaN : dataMax + boundaryGapInner[1] * span;
+ }
+ (min == null || !isFinite(min)) && (min = NaN);
+ (max == null || !isFinite(max)) && (max = NaN);
+ var isBlank = eqNaN(min) || eqNaN(max) || isOrdinal && !axisDataLen;
+ // If data extent modified, need to recalculated to ensure cross zero.
+ if (this._needCrossZero) {
+ // Axis is over zero and min is not set
+ if (min > 0 && max > 0 && !minFixed) {
+ min = 0;
+ // minFixed = true;
+ }
+ // Axis is under zero and max is not set
+ if (min < 0 && max < 0 && !maxFixed) {
+ max = 0;
+ // maxFixed = true;
+ }
+ // PENDING:
+ // When `needCrossZero` and all data is positive/negative, should it be ensured
+ // that the results processed by boundaryGap are positive/negative?
+ // If so, here `minFixed`/`maxFixed` need to be set.
+ }
+
+ var determinedMin = this._determinedMin;
+ var determinedMax = this._determinedMax;
+ if (determinedMin != null) {
+ min = determinedMin;
+ minFixed = true;
+ }
+ if (determinedMax != null) {
+ max = determinedMax;
+ maxFixed = true;
+ }
+ // Ensure min/max be finite number or NaN here. (not to be null/undefined)
+ // `NaN` means min/max axis is blank.
+ return {
+ min: min,
+ max: max,
+ minFixed: minFixed,
+ maxFixed: maxFixed,
+ isBlank: isBlank
+ };
+ };
+ ScaleRawExtentInfo.prototype.modifyDataMinMax = function (minMaxName, val) {
+ if ("development" !== 'production') {
+ assert(!this.frozen);
+ }
+ this[DATA_MIN_MAX_ATTR[minMaxName]] = val;
+ };
+ ScaleRawExtentInfo.prototype.setDeterminedMinMax = function (minMaxName, val) {
+ var attr = DETERMINED_MIN_MAX_ATTR[minMaxName];
+ if ("development" !== 'production') {
+ assert(!this.frozen
+ // Earse them usually means logic flaw.
+ && this[attr] == null);
+ }
+ this[attr] = val;
+ };
+ ScaleRawExtentInfo.prototype.freeze = function () {
+ // @ts-ignore
+ this.frozen = true;
+ };
+ return ScaleRawExtentInfo;
+ }();
+ var DETERMINED_MIN_MAX_ATTR = {
+ min: '_determinedMin',
+ max: '_determinedMax'
+ };
+ var DATA_MIN_MAX_ATTR = {
+ min: '_dataMin',
+ max: '_dataMax'
+ };
+ /**
+ * Get scale min max and related info only depends on model settings.
+ * This method can be called after coordinate system created.
+ * For example, in data processing stage.
+ *
+ * Scale extent info probably be required multiple times during a workflow.
+ * For example:
+ * (1) `dataZoom` depends it to get the axis extent in "100%" state.
+ * (2) `processor/extentCalculator` depends it to make sure whether axis extent is specified.
+ * (3) `coordSys.update` use it to finally decide the scale extent.
+ * But the callback of `min`/`max` should not be called multiple times.
+ * The code below should not be implemented repeatedly either.
+ * So we cache the result in the scale instance, which will be recreated at the beginning
+ * of the workflow (because `scale` instance will be recreated each round of the workflow).
+ */
+ function ensureScaleRawExtentInfo(scale, model,
+ // Usually: data extent from all series on this axis.
+ originalExtent) {
+ // Do not permit to recreate.
+ var rawExtentInfo = scale.rawExtentInfo;
+ if (rawExtentInfo) {
+ return rawExtentInfo;
+ }
+ rawExtentInfo = new ScaleRawExtentInfo(scale, model, originalExtent);
+ // @ts-ignore
+ scale.rawExtentInfo = rawExtentInfo;
+ return rawExtentInfo;
+ }
+ function parseAxisModelMinMax(scale, minMax) {
+ return minMax == null ? null : eqNaN(minMax) ? NaN : scale.parse(minMax);
+ }
+
+ /**
+ * Get axis scale extent before niced.
+ * Item of returned array can only be number (including Infinity and NaN).
+ *
+ * Caution:
+ * Precondition of calling this method:
+ * The scale extent has been initialized using series data extent via
+ * `scale.setExtent` or `scale.unionExtentFromData`;
+ */
+ function getScaleExtent(scale, model) {
+ var scaleType = scale.type;
+ var rawExtentResult = ensureScaleRawExtentInfo(scale, model, scale.getExtent()).calculate();
+ scale.setBlank(rawExtentResult.isBlank);
+ var min = rawExtentResult.min;
+ var max = rawExtentResult.max;
+ // If bars are placed on a base axis of type time or interval account for axis boundary overflow and current axis
+ // is base axis
+ // FIXME
+ // (1) Consider support value axis, where below zero and axis `onZero` should be handled properly.
+ // (2) Refactor the logic with `barGrid`. Is it not need to `makeBarWidthAndOffsetInfo` twice with different extent?
+ // Should not depend on series type `bar`?
+ // (3) Fix that might overlap when using dataZoom.
+ // (4) Consider other chart types using `barGrid`?
+ // See #6728, #4862, `test/bar-overflow-time-plot.html`
+ var ecModel = model.ecModel;
+ if (ecModel && scaleType === 'time' /* || scaleType === 'interval' */) {
+ var barSeriesModels = prepareLayoutBarSeries('bar', ecModel);
+ var isBaseAxisAndHasBarSeries_1 = false;
+ each(barSeriesModels, function (seriesModel) {
+ isBaseAxisAndHasBarSeries_1 = isBaseAxisAndHasBarSeries_1 || seriesModel.getBaseAxis() === model.axis;
+ });
+ if (isBaseAxisAndHasBarSeries_1) {
+ // Calculate placement of bars on axis. TODO should be decoupled
+ // with barLayout
+ var barWidthAndOffset = makeColumnLayout(barSeriesModels);
+ // Adjust axis min and max to account for overflow
+ var adjustedScale = adjustScaleForOverflow(min, max, model, barWidthAndOffset);
+ min = adjustedScale.min;
+ max = adjustedScale.max;
+ }
+ }
+ return {
+ extent: [min, max],
+ // "fix" means "fixed", the value should not be
+ // changed in the subsequent steps.
+ fixMin: rawExtentResult.minFixed,
+ fixMax: rawExtentResult.maxFixed
+ };
+ }
+ function adjustScaleForOverflow(min, max, model,
+ // Only support cartesian coord yet.
+ barWidthAndOffset) {
+ // Get Axis Length
+ var axisExtent = model.axis.getExtent();
+ var axisLength = axisExtent[1] - axisExtent[0];
+ // Get bars on current base axis and calculate min and max overflow
+ var barsOnCurrentAxis = retrieveColumnLayout(barWidthAndOffset, model.axis);
+ if (barsOnCurrentAxis === undefined) {
+ return {
+ min: min,
+ max: max
+ };
+ }
+ var minOverflow = Infinity;
+ each(barsOnCurrentAxis, function (item) {
+ minOverflow = Math.min(item.offset, minOverflow);
+ });
+ var maxOverflow = -Infinity;
+ each(barsOnCurrentAxis, function (item) {
+ maxOverflow = Math.max(item.offset + item.width, maxOverflow);
+ });
+ minOverflow = Math.abs(minOverflow);
+ maxOverflow = Math.abs(maxOverflow);
+ var totalOverFlow = minOverflow + maxOverflow;
+ // Calculate required buffer based on old range and overflow
+ var oldRange = max - min;
+ var oldRangePercentOfNew = 1 - (minOverflow + maxOverflow) / axisLength;
+ var overflowBuffer = oldRange / oldRangePercentOfNew - oldRange;
+ max += overflowBuffer * (maxOverflow / totalOverFlow);
+ min -= overflowBuffer * (minOverflow / totalOverFlow);
+ return {
+ min: min,
+ max: max
+ };
+ }
+ // Precondition of calling this method:
+ // The scale extent has been initialized using series data extent via
+ // `scale.setExtent` or `scale.unionExtentFromData`;
+ function niceScaleExtent(scale, inModel) {
+ var model = inModel;
+ var extentInfo = getScaleExtent(scale, model);
+ var extent = extentInfo.extent;
+ var splitNumber = model.get('splitNumber');
+ if (scale instanceof LogScale) {
+ scale.base = model.get('logBase');
+ }
+ var scaleType = scale.type;
+ var interval = model.get('interval');
+ var isIntervalOrTime = scaleType === 'interval' || scaleType === 'time';
+ scale.setExtent(extent[0], extent[1]);
+ scale.calcNiceExtent({
+ splitNumber: splitNumber,
+ fixMin: extentInfo.fixMin,
+ fixMax: extentInfo.fixMax,
+ minInterval: isIntervalOrTime ? model.get('minInterval') : null,
+ maxInterval: isIntervalOrTime ? model.get('maxInterval') : null
+ });
+ // If some one specified the min, max. And the default calculated interval
+ // is not good enough. He can specify the interval. It is often appeared
+ // in angle axis with angle 0 - 360. Interval calculated in interval scale is hard
+ // to be 60.
+ // FIXME
+ if (interval != null) {
+ scale.setInterval && scale.setInterval(interval);
+ }
+ }
+ /**
+ * @param axisType Default retrieve from model.type
+ */
+ function createScaleByModel(model, axisType) {
+ axisType = axisType || model.get('type');
+ if (axisType) {
+ switch (axisType) {
+ // Buildin scale
+ case 'category':
+ return new OrdinalScale({
+ ordinalMeta: model.getOrdinalMeta ? model.getOrdinalMeta() : model.getCategories(),
+ extent: [Infinity, -Infinity]
+ });
+ case 'time':
+ return new TimeScale({
+ locale: model.ecModel.getLocaleModel(),
+ useUTC: model.ecModel.get('useUTC')
+ });
+ default:
+ // case 'value'/'interval', 'log', or others.
+ return new (Scale.getClass(axisType) || IntervalScale)();
+ }
+ }
+ }
+ /**
+ * Check if the axis cross 0
+ */
+ function ifAxisCrossZero(axis) {
+ var dataExtent = axis.scale.getExtent();
+ var min = dataExtent[0];
+ var max = dataExtent[1];
+ return !(min > 0 && max > 0 || min < 0 && max < 0);
+ }
+ /**
+ * @param axis
+ * @return Label formatter function.
+ * param: {number} tickValue,
+ * param: {number} idx, the index in all ticks.
+ * If category axis, this param is not required.
+ * return: {string} label string.
+ */
+ function makeLabelFormatter(axis) {
+ var labelFormatter = axis.getLabelModel().get('formatter');
+ var categoryTickStart = axis.type === 'category' ? axis.scale.getExtent()[0] : null;
+ if (axis.scale.type === 'time') {
+ return function (tpl) {
+ return function (tick, idx) {
+ return axis.scale.getFormattedLabel(tick, idx, tpl);
+ };
+ }(labelFormatter);
+ } else if (isString(labelFormatter)) {
+ return function (tpl) {
+ return function (tick) {
+ // For category axis, get raw value; for numeric axis,
+ // get formatted label like '1,333,444'.
+ var label = axis.scale.getLabel(tick);
+ var text = tpl.replace('{value}', label != null ? label : '');
+ return text;
+ };
+ }(labelFormatter);
+ } else if (isFunction(labelFormatter)) {
+ return function (cb) {
+ return function (tick, idx) {
+ // The original intention of `idx` is "the index of the tick in all ticks".
+ // But the previous implementation of category axis do not consider the
+ // `axisLabel.interval`, which cause that, for example, the `interval` is
+ // `1`, then the ticks "name5", "name7", "name9" are displayed, where the
+ // corresponding `idx` are `0`, `2`, `4`, but not `0`, `1`, `2`. So we keep
+ // the definition here for back compatibility.
+ if (categoryTickStart != null) {
+ idx = tick.value - categoryTickStart;
+ }
+ return cb(getAxisRawValue(axis, tick), idx, tick.level != null ? {
+ level: tick.level
+ } : null);
+ };
+ }(labelFormatter);
+ } else {
+ return function (tick) {
+ return axis.scale.getLabel(tick);
+ };
+ }
+ }
+ function getAxisRawValue(axis, tick) {
+ // In category axis with data zoom, tick is not the original
+ // index of axis.data. So tick should not be exposed to user
+ // in category axis.
+ return axis.type === 'category' ? axis.scale.getLabel(tick) : tick.value;
+ }
+ /**
+ * @param axis
+ * @return Be null/undefined if no labels.
+ */
+ function estimateLabelUnionRect(axis) {
+ var axisModel = axis.model;
+ var scale = axis.scale;
+ if (!axisModel.get(['axisLabel', 'show']) || scale.isBlank()) {
+ return;
+ }
+ var realNumberScaleTicks;
+ var tickCount;
+ var categoryScaleExtent = scale.getExtent();
+ // Optimize for large category data, avoid call `getTicks()`.
+ if (scale instanceof OrdinalScale) {
+ tickCount = scale.count();
+ } else {
+ realNumberScaleTicks = scale.getTicks();
+ tickCount = realNumberScaleTicks.length;
+ }
+ var axisLabelModel = axis.getLabelModel();
+ var labelFormatter = makeLabelFormatter(axis);
+ var rect;
+ var step = 1;
+ // Simple optimization for large amount of labels
+ if (tickCount > 40) {
+ step = Math.ceil(tickCount / 40);
+ }
+ for (var i = 0; i < tickCount; i += step) {
+ var tick = realNumberScaleTicks ? realNumberScaleTicks[i] : {
+ value: categoryScaleExtent[0] + i
+ };
+ var label = labelFormatter(tick, i);
+ var unrotatedSingleRect = axisLabelModel.getTextRect(label);
+ var singleRect = rotateTextRect(unrotatedSingleRect, axisLabelModel.get('rotate') || 0);
+ rect ? rect.union(singleRect) : rect = singleRect;
+ }
+ return rect;
+ }
+ function rotateTextRect(textRect, rotate) {
+ var rotateRadians = rotate * Math.PI / 180;
+ var beforeWidth = textRect.width;
+ var beforeHeight = textRect.height;
+ var afterWidth = beforeWidth * Math.abs(Math.cos(rotateRadians)) + Math.abs(beforeHeight * Math.sin(rotateRadians));
+ var afterHeight = beforeWidth * Math.abs(Math.sin(rotateRadians)) + Math.abs(beforeHeight * Math.cos(rotateRadians));
+ var rotatedRect = new BoundingRect(textRect.x, textRect.y, afterWidth, afterHeight);
+ return rotatedRect;
+ }
+ /**
+ * @param model axisLabelModel or axisTickModel
+ * @return {number|String} Can be null|'auto'|number|function
+ */
+ function getOptionCategoryInterval(model) {
+ var interval = model.get('interval');
+ return interval == null ? 'auto' : interval;
+ }
+ /**
+ * Set `categoryInterval` as 0 implicitly indicates that
+ * show all labels regardless of overlap.
+ * @param {Object} axis axisModel.axis
+ */
+ function shouldShowAllLabels(axis) {
+ return axis.type === 'category' && getOptionCategoryInterval(axis.getLabelModel()) === 0;
+ }
+ function getDataDimensionsOnAxis(data, axisDim) {
+ // Remove duplicated dat dimensions caused by `getStackedDimension`.
+ var dataDimMap = {};
+ // Currently `mapDimensionsAll` will contain stack result dimension ('__\0ecstackresult').
+ // PENDING: is it reasonable? Do we need to remove the original dim from "coord dim" since
+ // there has been stacked result dim?
+ each(data.mapDimensionsAll(axisDim), function (dataDim) {
+ // For example, the extent of the original dimension
+ // is [0.1, 0.5], the extent of the `stackResultDimension`
+ // is [7, 9], the final extent should NOT include [0.1, 0.5],
+ // because there is no graphic corresponding to [0.1, 0.5].
+ // See the case in `test/area-stack.html` `main1`, where area line
+ // stack needs `yAxis` not start from 0.
+ dataDimMap[getStackedDimension(data, dataDim)] = true;
+ });
+ return keys(dataDimMap);
+ }
+ function unionAxisExtentFromData(dataExtent, data, axisDim) {
+ if (data) {
+ each(getDataDimensionsOnAxis(data, axisDim), function (dim) {
+ var seriesExtent = data.getApproximateExtent(dim);
+ seriesExtent[0] < dataExtent[0] && (dataExtent[0] = seriesExtent[0]);
+ seriesExtent[1] > dataExtent[1] && (dataExtent[1] = seriesExtent[1]);
+ });
+ }
+ }
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+
+
+ /**
+ * AUTO-GENERATED FILE. DO NOT MODIFY.
+ */
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+ // eslint-disable-next-line @typescript-eslint/no-unused-vars
+ var AxisModelCommonMixin = /** @class */function () {
+ function AxisModelCommonMixin() {}
+ AxisModelCommonMixin.prototype.getNeedCrossZero = function () {
+ var option = this.option;
+ return !option.scale;
+ };
+ /**
+ * Should be implemented by each axis model if necessary.
+ * @return coordinate system model
+ */
+ AxisModelCommonMixin.prototype.getCoordSysModel = function () {
+ return;
+ };
+ return AxisModelCommonMixin;
+ }();
+
+ /**
+ * Create a multi dimension List structure from seriesModel.
+ */
+ function createList(seriesModel) {
+ return createSeriesData(null, seriesModel);
+ }
+ var dataStack$1 = {
+ isDimensionStacked: isDimensionStacked,
+ enableDataStack: enableDataStack,
+ getStackedDimension: getStackedDimension
+ };
+ /**
+ * Create scale
+ * @param {Array.} dataExtent
+ * @param {Object|module:echarts/Model} option If `optoin.type`
+ * is secified, it can only be `'value'` currently.
+ */
+ function createScale(dataExtent, option) {
+ var axisModel = option;
+ if (!(option instanceof Model)) {
+ axisModel = new Model(option);
+ // FIXME
+ // Currently AxisModelCommonMixin has nothing to do with the
+ // the requirements of `axisHelper.createScaleByModel`. For
+ // example the methods `getCategories` and `getOrdinalMeta`
+ // are required for `'category'` axis, and ecModel is required
+ // for `'time'` axis. But occasionally echarts-gl happened
+ // to only use `'value'` axis.
+ // zrUtil.mixin(axisModel, AxisModelCommonMixin);
+ }
+
+ var scale = createScaleByModel(axisModel);
+ scale.setExtent(dataExtent[0], dataExtent[1]);
+ niceScaleExtent(scale, axisModel);
+ return scale;
+ }
+ /**
+ * Mixin common methods to axis model,
+ *
+ * Include methods
+ * `getFormattedLabels() => Array.`
+ * `getCategories() => Array.`
+ * `getMin(origin: boolean) => number`
+ * `getMax(origin: boolean) => number`
+ * `getNeedCrossZero() => boolean`
+ */
+ function mixinAxisModelCommonMethods(Model) {
+ mixin(Model, AxisModelCommonMixin);
+ }
+ function createTextStyle$1(textStyleModel, opts) {
+ opts = opts || {};
+ return createTextStyle(textStyleModel, null, null, opts.state !== 'normal');
+ }
+
+ var helper = /*#__PURE__*/Object.freeze({
+ __proto__: null,
+ createList: createList,
+ getLayoutRect: getLayoutRect,
+ dataStack: dataStack$1,
+ createScale: createScale,
+ mixinAxisModelCommonMethods: mixinAxisModelCommonMethods,
+ getECData: getECData,
+ createTextStyle: createTextStyle$1,
+ createDimensions: createDimensions,
+ createSymbol: createSymbol,
+ enableHoverEmphasis: enableHoverEmphasis
+ });
+
+ var EPSILON$4 = 1e-8;
+ function isAroundEqual$1(a, b) {
+ return Math.abs(a - b) < EPSILON$4;
+ }
+ function contain$2(points, x, y) {
+ var w = 0;
+ var p = points[0];
+ if (!p) {
+ return false;
+ }
+ for (var i = 1; i < points.length; i++) {
+ var p2 = points[i];
+ w += windingLine(p[0], p[1], p2[0], p2[1], x, y);
+ p = p2;
+ }
+ var p0 = points[0];
+ if (!isAroundEqual$1(p[0], p0[0]) || !isAroundEqual$1(p[1], p0[1])) {
+ w += windingLine(p[0], p[1], p0[0], p0[1], x, y);
+ }
+ return w !== 0;
+ }
+
+ var TMP_TRANSFORM = [];
+ function transformPoints(points, transform) {
+ for (var p = 0; p < points.length; p++) {
+ applyTransform(points[p], points[p], transform);
+ }
+ }
+ function updateBBoxFromPoints(points, min$1, max$1, projection) {
+ for (var i = 0; i < points.length; i++) {
+ var p = points[i];
+ if (projection) {
+ // projection may return null point.
+ p = projection.project(p);
+ }
+ if (p && isFinite(p[0]) && isFinite(p[1])) {
+ min(min$1, min$1, p);
+ max(max$1, max$1, p);
+ }
+ }
+ }
+ function centroid(points) {
+ var signedArea = 0;
+ var cx = 0;
+ var cy = 0;
+ var len = points.length;
+ var x0 = points[len - 1][0];
+ var y0 = points[len - 1][1];
+ // Polygon should been closed.
+ for (var i = 0; i < len; i++) {
+ var x1 = points[i][0];
+ var y1 = points[i][1];
+ var a = x0 * y1 - x1 * y0;
+ signedArea += a;
+ cx += (x0 + x1) * a;
+ cy += (y0 + y1) * a;
+ x0 = x1;
+ y0 = y1;
+ }
+ return signedArea ? [cx / signedArea / 3, cy / signedArea / 3, signedArea] : [points[0][0] || 0, points[0][1] || 0];
+ }
+ var Region = /** @class */function () {
+ function Region(name) {
+ this.name = name;
+ }
+ Region.prototype.setCenter = function (center) {
+ this._center = center;
+ };
+ /**
+ * Get center point in data unit. That is,
+ * for GeoJSONRegion, the unit is lat/lng,
+ * for GeoSVGRegion, the unit is SVG local coord.
+ */
+ Region.prototype.getCenter = function () {
+ var center = this._center;
+ if (!center) {
+ // In most cases there are no need to calculate this center.
+ // So calculate only when called.
+ center = this._center = this.calcCenter();
+ }
+ return center;
+ };
+ return Region;
+ }();
+ var GeoJSONPolygonGeometry = /** @class */function () {
+ function GeoJSONPolygonGeometry(exterior, interiors) {
+ this.type = 'polygon';
+ this.exterior = exterior;
+ this.interiors = interiors;
+ }
+ return GeoJSONPolygonGeometry;
+ }();
+ var GeoJSONLineStringGeometry = /** @class */function () {
+ function GeoJSONLineStringGeometry(points) {
+ this.type = 'linestring';
+ this.points = points;
+ }
+ return GeoJSONLineStringGeometry;
+ }();
+ var GeoJSONRegion = /** @class */function (_super) {
+ __extends(GeoJSONRegion, _super);
+ function GeoJSONRegion(name, geometries, cp) {
+ var _this = _super.call(this, name) || this;
+ _this.type = 'geoJSON';
+ _this.geometries = geometries;
+ _this._center = cp && [cp[0], cp[1]];
+ return _this;
+ }
+ GeoJSONRegion.prototype.calcCenter = function () {
+ var geometries = this.geometries;
+ var largestGeo;
+ var largestGeoSize = 0;
+ for (var i = 0; i < geometries.length; i++) {
+ var geo = geometries[i];
+ var exterior = geo.exterior;
+ // Simple trick to use points count instead of polygon area as region size.
+ // Ignore linestring
+ var size = exterior && exterior.length;
+ if (size > largestGeoSize) {
+ largestGeo = geo;
+ largestGeoSize = size;
+ }
+ }
+ if (largestGeo) {
+ return centroid(largestGeo.exterior);
+ }
+ // from bounding rect by default.
+ var rect = this.getBoundingRect();
+ return [rect.x + rect.width / 2, rect.y + rect.height / 2];
+ };
+ GeoJSONRegion.prototype.getBoundingRect = function (projection) {
+ var rect = this._rect;
+ // Always recalculate if using projection.
+ if (rect && !projection) {
+ return rect;
+ }
+ var min = [Infinity, Infinity];
+ var max = [-Infinity, -Infinity];
+ var geometries = this.geometries;
+ each(geometries, function (geo) {
+ if (geo.type === 'polygon') {
+ // Doesn't consider hole
+ updateBBoxFromPoints(geo.exterior, min, max, projection);
+ } else {
+ each(geo.points, function (points) {
+ updateBBoxFromPoints(points, min, max, projection);
+ });
+ }
+ });
+ // Normalie invalid bounding.
+ if (!(isFinite(min[0]) && isFinite(min[1]) && isFinite(max[0]) && isFinite(max[1]))) {
+ min[0] = min[1] = max[0] = max[1] = 0;
+ }
+ rect = new BoundingRect(min[0], min[1], max[0] - min[0], max[1] - min[1]);
+ if (!projection) {
+ this._rect = rect;
+ }
+ return rect;
+ };
+ GeoJSONRegion.prototype.contain = function (coord) {
+ var rect = this.getBoundingRect();
+ var geometries = this.geometries;
+ if (!rect.contain(coord[0], coord[1])) {
+ return false;
+ }
+ loopGeo: for (var i = 0, len = geometries.length; i < len; i++) {
+ var geo = geometries[i];
+ // Only support polygon.
+ if (geo.type !== 'polygon') {
+ continue;
+ }
+ var exterior = geo.exterior;
+ var interiors = geo.interiors;
+ if (contain$2(exterior, coord[0], coord[1])) {
+ // Not in the region if point is in the hole.
+ for (var k = 0; k < (interiors ? interiors.length : 0); k++) {
+ if (contain$2(interiors[k], coord[0], coord[1])) {
+ continue loopGeo;
+ }
+ }
+ return true;
+ }
+ }
+ return false;
+ };
+ /**
+ * Transform the raw coords to target bounding.
+ * @param x
+ * @param y
+ * @param width
+ * @param height
+ */
+ GeoJSONRegion.prototype.transformTo = function (x, y, width, height) {
+ var rect = this.getBoundingRect();
+ var aspect = rect.width / rect.height;
+ if (!width) {
+ width = aspect * height;
+ } else if (!height) {
+ height = width / aspect;
+ }
+ var target = new BoundingRect(x, y, width, height);
+ var transform = rect.calculateTransform(target);
+ var geometries = this.geometries;
+ for (var i = 0; i < geometries.length; i++) {
+ var geo = geometries[i];
+ if (geo.type === 'polygon') {
+ transformPoints(geo.exterior, transform);
+ each(geo.interiors, function (interior) {
+ transformPoints(interior, transform);
+ });
+ } else {
+ each(geo.points, function (points) {
+ transformPoints(points, transform);
+ });
+ }
+ }
+ rect = this._rect;
+ rect.copy(target);
+ // Update center
+ this._center = [rect.x + rect.width / 2, rect.y + rect.height / 2];
+ };
+ GeoJSONRegion.prototype.cloneShallow = function (name) {
+ name == null && (name = this.name);
+ var newRegion = new GeoJSONRegion(name, this.geometries, this._center);
+ newRegion._rect = this._rect;
+ newRegion.transformTo = null; // Simply avoid to be called.
+ return newRegion;
+ };
+ return GeoJSONRegion;
+ }(Region);
+ var GeoSVGRegion = /** @class */function (_super) {
+ __extends(GeoSVGRegion, _super);
+ function GeoSVGRegion(name, elOnlyForCalculate) {
+ var _this = _super.call(this, name) || this;
+ _this.type = 'geoSVG';
+ _this._elOnlyForCalculate = elOnlyForCalculate;
+ return _this;
+ }
+ GeoSVGRegion.prototype.calcCenter = function () {
+ var el = this._elOnlyForCalculate;
+ var rect = el.getBoundingRect();
+ var center = [rect.x + rect.width / 2, rect.y + rect.height / 2];
+ var mat = identity(TMP_TRANSFORM);
+ var target = el;
+ while (target && !target.isGeoSVGGraphicRoot) {
+ mul$1(mat, target.getLocalTransform(), mat);
+ target = target.parent;
+ }
+ invert(mat, mat);
+ applyTransform(center, center, mat);
+ return center;
+ };
+ return GeoSVGRegion;
+ }(Region);
+
+ function decode(json) {
+ if (!json.UTF8Encoding) {
+ return json;
+ }
+ var jsonCompressed = json;
+ var encodeScale = jsonCompressed.UTF8Scale;
+ if (encodeScale == null) {
+ encodeScale = 1024;
+ }
+ var features = jsonCompressed.features;
+ each(features, function (feature) {
+ var geometry = feature.geometry;
+ var encodeOffsets = geometry.encodeOffsets;
+ var coordinates = geometry.coordinates;
+ // Geometry may be appeded manually in the script after json loaded.
+ // In this case this geometry is usually not encoded.
+ if (!encodeOffsets) {
+ return;
+ }
+ switch (geometry.type) {
+ case 'LineString':
+ geometry.coordinates = decodeRing(coordinates, encodeOffsets, encodeScale);
+ break;
+ case 'Polygon':
+ decodeRings(coordinates, encodeOffsets, encodeScale);
+ break;
+ case 'MultiLineString':
+ decodeRings(coordinates, encodeOffsets, encodeScale);
+ break;
+ case 'MultiPolygon':
+ each(coordinates, function (rings, idx) {
+ return decodeRings(rings, encodeOffsets[idx], encodeScale);
+ });
+ }
+ });
+ // Has been decoded
+ jsonCompressed.UTF8Encoding = false;
+ return jsonCompressed;
+ }
+ function decodeRings(rings, encodeOffsets, encodeScale) {
+ for (var c = 0; c < rings.length; c++) {
+ rings[c] = decodeRing(rings[c], encodeOffsets[c], encodeScale);
+ }
+ }
+ function decodeRing(coordinate, encodeOffsets, encodeScale) {
+ var result = [];
+ var prevX = encodeOffsets[0];
+ var prevY = encodeOffsets[1];
+ for (var i = 0; i < coordinate.length; i += 2) {
+ var x = coordinate.charCodeAt(i) - 64;
+ var y = coordinate.charCodeAt(i + 1) - 64;
+ // ZigZag decoding
+ x = x >> 1 ^ -(x & 1);
+ y = y >> 1 ^ -(y & 1);
+ // Delta deocding
+ x += prevX;
+ y += prevY;
+ prevX = x;
+ prevY = y;
+ // Dequantize
+ result.push([x / encodeScale, y / encodeScale]);
+ }
+ return result;
+ }
+ function parseGeoJSON(geoJson, nameProperty) {
+ geoJson = decode(geoJson);
+ return map(filter(geoJson.features, function (featureObj) {
+ // Output of mapshaper may have geometry null
+ return featureObj.geometry && featureObj.properties && featureObj.geometry.coordinates.length > 0;
+ }), function (featureObj) {
+ var properties = featureObj.properties;
+ var geo = featureObj.geometry;
+ var geometries = [];
+ switch (geo.type) {
+ case 'Polygon':
+ var coordinates = geo.coordinates;
+ // According to the GeoJSON specification.
+ // First must be exterior, and the rest are all interior(holes).
+ geometries.push(new GeoJSONPolygonGeometry(coordinates[0], coordinates.slice(1)));
+ break;
+ case 'MultiPolygon':
+ each(geo.coordinates, function (item) {
+ if (item[0]) {
+ geometries.push(new GeoJSONPolygonGeometry(item[0], item.slice(1)));
+ }
+ });
+ break;
+ case 'LineString':
+ geometries.push(new GeoJSONLineStringGeometry([geo.coordinates]));
+ break;
+ case 'MultiLineString':
+ geometries.push(new GeoJSONLineStringGeometry(geo.coordinates));
+ }
+ var region = new GeoJSONRegion(properties[nameProperty || 'name'], geometries, properties.cp);
+ region.properties = properties;
+ return region;
+ });
+ }
+
+ var number = /*#__PURE__*/Object.freeze({
+ __proto__: null,
+ linearMap: linearMap,
+ round: round,
+ asc: asc,
+ getPrecision: getPrecision,
+ getPrecisionSafe: getPrecisionSafe,
+ getPixelPrecision: getPixelPrecision,
+ getPercentWithPrecision: getPercentWithPrecision,
+ MAX_SAFE_INTEGER: MAX_SAFE_INTEGER,
+ remRadian: remRadian,
+ isRadianAroundZero: isRadianAroundZero,
+ parseDate: parseDate,
+ quantity: quantity,
+ quantityExponent: quantityExponent,
+ nice: nice,
+ quantile: quantile,
+ reformIntervals: reformIntervals,
+ isNumeric: isNumeric,
+ numericToNumber: numericToNumber
+ });
+
+ var time = /*#__PURE__*/Object.freeze({
+ __proto__: null,
+ parse: parseDate,
+ format: format
+ });
+
+ var graphic$1 = /*#__PURE__*/Object.freeze({
+ __proto__: null,
+ extendShape: extendShape,
+ extendPath: extendPath,
+ makePath: makePath,
+ makeImage: makeImage,
+ mergePath: mergePath$1,
+ resizePath: resizePath,
+ createIcon: createIcon,
+ updateProps: updateProps,
+ initProps: initProps,
+ getTransform: getTransform,
+ clipPointsByRect: clipPointsByRect,
+ clipRectByRect: clipRectByRect,
+ registerShape: registerShape,
+ getShapeClass: getShapeClass,
+ Group: Group,
+ Image: ZRImage,
+ Text: ZRText,
+ Circle: Circle,
+ Ellipse: Ellipse,
+ Sector: Sector,
+ Ring: Ring,
+ Polygon: Polygon,
+ Polyline: Polyline,
+ Rect: Rect,
+ Line: Line,
+ BezierCurve: BezierCurve,
+ Arc: Arc,
+ IncrementalDisplayable: IncrementalDisplayable,
+ CompoundPath: CompoundPath,
+ LinearGradient: LinearGradient,
+ RadialGradient: RadialGradient,
+ BoundingRect: BoundingRect
+ });
+
+ var format$1 = /*#__PURE__*/Object.freeze({
+ __proto__: null,
+ addCommas: addCommas,
+ toCamelCase: toCamelCase,
+ normalizeCssArray: normalizeCssArray$1,
+ encodeHTML: encodeHTML,
+ formatTpl: formatTpl,
+ getTooltipMarker: getTooltipMarker,
+ formatTime: formatTime,
+ capitalFirst: capitalFirst,
+ truncateText: truncateText,
+ getTextRect: getTextRect
+ });
+
+ var util$1 = /*#__PURE__*/Object.freeze({
+ __proto__: null,
+ map: map,
+ each: each,
+ indexOf: indexOf,
+ inherits: inherits,
+ reduce: reduce,
+ filter: filter,
+ bind: bind,
+ curry: curry,
+ isArray: isArray,
+ isString: isString,
+ isObject: isObject,
+ isFunction: isFunction,
+ extend: extend,
+ defaults: defaults,
+ clone: clone,
+ merge: merge
+ });
+
+ var inner$5 = makeInner();
+ function createAxisLabels(axis) {
+ // Only ordinal scale support tick interval
+ return axis.type === 'category' ? makeCategoryLabels(axis) : makeRealNumberLabels(axis);
+ }
+ /**
+ * @param {module:echats/coord/Axis} axis
+ * @param {module:echarts/model/Model} tickModel For example, can be axisTick, splitLine, splitArea.
+ * @return {Object} {
+ * ticks: Array.
+ * tickCategoryInterval: number
+ * }
+ */
+ function createAxisTicks(axis, tickModel) {
+ // Only ordinal scale support tick interval
+ return axis.type === 'category' ? makeCategoryTicks(axis, tickModel) : {
+ ticks: map(axis.scale.getTicks(), function (tick) {
+ return tick.value;
+ })
+ };
+ }
+ function makeCategoryLabels(axis) {
+ var labelModel = axis.getLabelModel();
+ var result = makeCategoryLabelsActually(axis, labelModel);
+ return !labelModel.get('show') || axis.scale.isBlank() ? {
+ labels: [],
+ labelCategoryInterval: result.labelCategoryInterval
+ } : result;
+ }
+ function makeCategoryLabelsActually(axis, labelModel) {
+ var labelsCache = getListCache(axis, 'labels');
+ var optionLabelInterval = getOptionCategoryInterval(labelModel);
+ var result = listCacheGet(labelsCache, optionLabelInterval);
+ if (result) {
+ return result;
+ }
+ var labels;
+ var numericLabelInterval;
+ if (isFunction(optionLabelInterval)) {
+ labels = makeLabelsByCustomizedCategoryInterval(axis, optionLabelInterval);
+ } else {
+ numericLabelInterval = optionLabelInterval === 'auto' ? makeAutoCategoryInterval(axis) : optionLabelInterval;
+ labels = makeLabelsByNumericCategoryInterval(axis, numericLabelInterval);
+ }
+ // Cache to avoid calling interval function repeatedly.
+ return listCacheSet(labelsCache, optionLabelInterval, {
+ labels: labels,
+ labelCategoryInterval: numericLabelInterval
+ });
+ }
+ function makeCategoryTicks(axis, tickModel) {
+ var ticksCache = getListCache(axis, 'ticks');
+ var optionTickInterval = getOptionCategoryInterval(tickModel);
+ var result = listCacheGet(ticksCache, optionTickInterval);
+ if (result) {
+ return result;
+ }
+ var ticks;
+ var tickCategoryInterval;
+ // Optimize for the case that large category data and no label displayed,
+ // we should not return all ticks.
+ if (!tickModel.get('show') || axis.scale.isBlank()) {
+ ticks = [];
+ }
+ if (isFunction(optionTickInterval)) {
+ ticks = makeLabelsByCustomizedCategoryInterval(axis, optionTickInterval, true);
+ }
+ // Always use label interval by default despite label show. Consider this
+ // scenario, Use multiple grid with the xAxis sync, and only one xAxis shows
+ // labels. `splitLine` and `axisTick` should be consistent in this case.
+ else if (optionTickInterval === 'auto') {
+ var labelsResult = makeCategoryLabelsActually(axis, axis.getLabelModel());
+ tickCategoryInterval = labelsResult.labelCategoryInterval;
+ ticks = map(labelsResult.labels, function (labelItem) {
+ return labelItem.tickValue;
+ });
+ } else {
+ tickCategoryInterval = optionTickInterval;
+ ticks = makeLabelsByNumericCategoryInterval(axis, tickCategoryInterval, true);
+ }
+ // Cache to avoid calling interval function repeatedly.
+ return listCacheSet(ticksCache, optionTickInterval, {
+ ticks: ticks,
+ tickCategoryInterval: tickCategoryInterval
+ });
+ }
+ function makeRealNumberLabels(axis) {
+ var ticks = axis.scale.getTicks();
+ var labelFormatter = makeLabelFormatter(axis);
+ return {
+ labels: map(ticks, function (tick, idx) {
+ return {
+ level: tick.level,
+ formattedLabel: labelFormatter(tick, idx),
+ rawLabel: axis.scale.getLabel(tick),
+ tickValue: tick.value
+ };
+ })
+ };
+ }
+ function getListCache(axis, prop) {
+ // Because key can be a function, and cache size always is small, we use array cache.
+ return inner$5(axis)[prop] || (inner$5(axis)[prop] = []);
+ }
+ function listCacheGet(cache, key) {
+ for (var i = 0; i < cache.length; i++) {
+ if (cache[i].key === key) {
+ return cache[i].value;
+ }
+ }
+ }
+ function listCacheSet(cache, key, value) {
+ cache.push({
+ key: key,
+ value: value
+ });
+ return value;
+ }
+ function makeAutoCategoryInterval(axis) {
+ var result = inner$5(axis).autoInterval;
+ return result != null ? result : inner$5(axis).autoInterval = axis.calculateCategoryInterval();
+ }
+ /**
+ * Calculate interval for category axis ticks and labels.
+ * To get precise result, at least one of `getRotate` and `isHorizontal`
+ * should be implemented in axis.
+ */
+ function calculateCategoryInterval(axis) {
+ var params = fetchAutoCategoryIntervalCalculationParams(axis);
+ var labelFormatter = makeLabelFormatter(axis);
+ var rotation = (params.axisRotate - params.labelRotate) / 180 * Math.PI;
+ var ordinalScale = axis.scale;
+ var ordinalExtent = ordinalScale.getExtent();
+ // Providing this method is for optimization:
+ // avoid generating a long array by `getTicks`
+ // in large category data case.
+ var tickCount = ordinalScale.count();
+ if (ordinalExtent[1] - ordinalExtent[0] < 1) {
+ return 0;
+ }
+ var step = 1;
+ // Simple optimization. Empirical value: tick count should less than 40.
+ if (tickCount > 40) {
+ step = Math.max(1, Math.floor(tickCount / 40));
+ }
+ var tickValue = ordinalExtent[0];
+ var unitSpan = axis.dataToCoord(tickValue + 1) - axis.dataToCoord(tickValue);
+ var unitW = Math.abs(unitSpan * Math.cos(rotation));
+ var unitH = Math.abs(unitSpan * Math.sin(rotation));
+ var maxW = 0;
+ var maxH = 0;
+ // Caution: Performance sensitive for large category data.
+ // Consider dataZoom, we should make appropriate step to avoid O(n) loop.
+ for (; tickValue <= ordinalExtent[1]; tickValue += step) {
+ var width = 0;
+ var height = 0;
+ // Not precise, do not consider align and vertical align
+ // and each distance from axis line yet.
+ var rect = getBoundingRect(labelFormatter({
+ value: tickValue
+ }), params.font, 'center', 'top');
+ // Magic number
+ width = rect.width * 1.3;
+ height = rect.height * 1.3;
+ // Min size, void long loop.
+ maxW = Math.max(maxW, width, 7);
+ maxH = Math.max(maxH, height, 7);
+ }
+ var dw = maxW / unitW;
+ var dh = maxH / unitH;
+ // 0/0 is NaN, 1/0 is Infinity.
+ isNaN(dw) && (dw = Infinity);
+ isNaN(dh) && (dh = Infinity);
+ var interval = Math.max(0, Math.floor(Math.min(dw, dh)));
+ var cache = inner$5(axis.model);
+ var axisExtent = axis.getExtent();
+ var lastAutoInterval = cache.lastAutoInterval;
+ var lastTickCount = cache.lastTickCount;
+ // Use cache to keep interval stable while moving zoom window,
+ // otherwise the calculated interval might jitter when the zoom
+ // window size is close to the interval-changing size.
+ // For example, if all of the axis labels are `a, b, c, d, e, f, g`.
+ // The jitter will cause that sometimes the displayed labels are
+ // `a, d, g` (interval: 2) sometimes `a, c, e`(interval: 1).
+ if (lastAutoInterval != null && lastTickCount != null && Math.abs(lastAutoInterval - interval) <= 1 && Math.abs(lastTickCount - tickCount) <= 1
+ // Always choose the bigger one, otherwise the critical
+ // point is not the same when zooming in or zooming out.
+ && lastAutoInterval > interval
+ // If the axis change is caused by chart resize, the cache should not
+ // be used. Otherwise some hidden labels might not be shown again.
+ && cache.axisExtent0 === axisExtent[0] && cache.axisExtent1 === axisExtent[1]) {
+ interval = lastAutoInterval;
+ }
+ // Only update cache if cache not used, otherwise the
+ // changing of interval is too insensitive.
+ else {
+ cache.lastTickCount = tickCount;
+ cache.lastAutoInterval = interval;
+ cache.axisExtent0 = axisExtent[0];
+ cache.axisExtent1 = axisExtent[1];
+ }
+ return interval;
+ }
+ function fetchAutoCategoryIntervalCalculationParams(axis) {
+ var labelModel = axis.getLabelModel();
+ return {
+ axisRotate: axis.getRotate ? axis.getRotate() : axis.isHorizontal && !axis.isHorizontal() ? 90 : 0,
+ labelRotate: labelModel.get('rotate') || 0,
+ font: labelModel.getFont()
+ };
+ }
+ function makeLabelsByNumericCategoryInterval(axis, categoryInterval, onlyTick) {
+ var labelFormatter = makeLabelFormatter(axis);
+ var ordinalScale = axis.scale;
+ var ordinalExtent = ordinalScale.getExtent();
+ var labelModel = axis.getLabelModel();
+ var result = [];
+ // TODO: axisType: ordinalTime, pick the tick from each month/day/year/...
+ var step = Math.max((categoryInterval || 0) + 1, 1);
+ var startTick = ordinalExtent[0];
+ var tickCount = ordinalScale.count();
+ // Calculate start tick based on zero if possible to keep label consistent
+ // while zooming and moving while interval > 0. Otherwise the selection
+ // of displayable ticks and symbols probably keep changing.
+ // 3 is empirical value.
+ if (startTick !== 0 && step > 1 && tickCount / step > 2) {
+ startTick = Math.round(Math.ceil(startTick / step) * step);
+ }
+ // (1) Only add min max label here but leave overlap checking
+ // to render stage, which also ensure the returned list
+ // suitable for splitLine and splitArea rendering.
+ // (2) Scales except category always contain min max label so
+ // do not need to perform this process.
+ var showAllLabel = shouldShowAllLabels(axis);
+ var includeMinLabel = labelModel.get('showMinLabel') || showAllLabel;
+ var includeMaxLabel = labelModel.get('showMaxLabel') || showAllLabel;
+ if (includeMinLabel && startTick !== ordinalExtent[0]) {
+ addItem(ordinalExtent[0]);
+ }
+ // Optimize: avoid generating large array by `ordinalScale.getTicks()`.
+ var tickValue = startTick;
+ for (; tickValue <= ordinalExtent[1]; tickValue += step) {
+ addItem(tickValue);
+ }
+ if (includeMaxLabel && tickValue - step !== ordinalExtent[1]) {
+ addItem(ordinalExtent[1]);
+ }
+ function addItem(tickValue) {
+ var tickObj = {
+ value: tickValue
+ };
+ result.push(onlyTick ? tickValue : {
+ formattedLabel: labelFormatter(tickObj),
+ rawLabel: ordinalScale.getLabel(tickObj),
+ tickValue: tickValue
+ });
+ }
+ return result;
+ }
+ function makeLabelsByCustomizedCategoryInterval(axis, categoryInterval, onlyTick) {
+ var ordinalScale = axis.scale;
+ var labelFormatter = makeLabelFormatter(axis);
+ var result = [];
+ each(ordinalScale.getTicks(), function (tick) {
+ var rawLabel = ordinalScale.getLabel(tick);
+ var tickValue = tick.value;
+ if (categoryInterval(tick.value, rawLabel)) {
+ result.push(onlyTick ? tickValue : {
+ formattedLabel: labelFormatter(tick),
+ rawLabel: rawLabel,
+ tickValue: tickValue
+ });
+ }
+ });
+ return result;
+ }
+
+ var NORMALIZED_EXTENT = [0, 1];
+ /**
+ * Base class of Axis.
+ */
+ var Axis = /** @class */function () {
+ function Axis(dim, scale, extent) {
+ this.onBand = false;
+ this.inverse = false;
+ this.dim = dim;
+ this.scale = scale;
+ this._extent = extent || [0, 0];
+ }
+ /**
+ * If axis extent contain given coord
+ */
+ Axis.prototype.contain = function (coord) {
+ var extent = this._extent;
+ var min = Math.min(extent[0], extent[1]);
+ var max = Math.max(extent[0], extent[1]);
+ return coord >= min && coord <= max;
+ };
+ /**
+ * If axis extent contain given data
+ */
+ Axis.prototype.containData = function (data) {
+ return this.scale.contain(data);
+ };
+ /**
+ * Get coord extent.
+ */
+ Axis.prototype.getExtent = function () {
+ return this._extent.slice();
+ };
+ /**
+ * Get precision used for formatting
+ */
+ Axis.prototype.getPixelPrecision = function (dataExtent) {
+ return getPixelPrecision(dataExtent || this.scale.getExtent(), this._extent);
+ };
+ /**
+ * Set coord extent
+ */
+ Axis.prototype.setExtent = function (start, end) {
+ var extent = this._extent;
+ extent[0] = start;
+ extent[1] = end;
+ };
+ /**
+ * Convert data to coord. Data is the rank if it has an ordinal scale
+ */
+ Axis.prototype.dataToCoord = function (data, clamp) {
+ var extent = this._extent;
+ var scale = this.scale;
+ data = scale.normalize(data);
+ if (this.onBand && scale.type === 'ordinal') {
+ extent = extent.slice();
+ fixExtentWithBands(extent, scale.count());
+ }
+ return linearMap(data, NORMALIZED_EXTENT, extent, clamp);
+ };
+ /**
+ * Convert coord to data. Data is the rank if it has an ordinal scale
+ */
+ Axis.prototype.coordToData = function (coord, clamp) {
+ var extent = this._extent;
+ var scale = this.scale;
+ if (this.onBand && scale.type === 'ordinal') {
+ extent = extent.slice();
+ fixExtentWithBands(extent, scale.count());
+ }
+ var t = linearMap(coord, extent, NORMALIZED_EXTENT, clamp);
+ return this.scale.scale(t);
+ };
+ /**
+ * Convert pixel point to data in axis
+ */
+ Axis.prototype.pointToData = function (point, clamp) {
+ // Should be implemented in derived class if necessary.
+ return;
+ };
+ /**
+ * Different from `zrUtil.map(axis.getTicks(), axis.dataToCoord, axis)`,
+ * `axis.getTicksCoords` considers `onBand`, which is used by
+ * `boundaryGap:true` of category axis and splitLine and splitArea.
+ * @param opt.tickModel default: axis.model.getModel('axisTick')
+ * @param opt.clamp If `true`, the first and the last
+ * tick must be at the axis end points. Otherwise, clip ticks
+ * that outside the axis extent.
+ */
+ Axis.prototype.getTicksCoords = function (opt) {
+ opt = opt || {};
+ var tickModel = opt.tickModel || this.getTickModel();
+ var result = createAxisTicks(this, tickModel);
+ var ticks = result.ticks;
+ var ticksCoords = map(ticks, function (tickVal) {
+ return {
+ coord: this.dataToCoord(this.scale.type === 'ordinal' ? this.scale.getRawOrdinalNumber(tickVal) : tickVal),
+ tickValue: tickVal
+ };
+ }, this);
+ var alignWithLabel = tickModel.get('alignWithLabel');
+ fixOnBandTicksCoords(this, ticksCoords, alignWithLabel, opt.clamp);
+ return ticksCoords;
+ };
+ Axis.prototype.getMinorTicksCoords = function () {
+ if (this.scale.type === 'ordinal') {
+ // Category axis doesn't support minor ticks
+ return [];
+ }
+ var minorTickModel = this.model.getModel('minorTick');
+ var splitNumber = minorTickModel.get('splitNumber');
+ // Protection.
+ if (!(splitNumber > 0 && splitNumber < 100)) {
+ splitNumber = 5;
+ }
+ var minorTicks = this.scale.getMinorTicks(splitNumber);
+ var minorTicksCoords = map(minorTicks, function (minorTicksGroup) {
+ return map(minorTicksGroup, function (minorTick) {
+ return {
+ coord: this.dataToCoord(minorTick),
+ tickValue: minorTick
+ };
+ }, this);
+ }, this);
+ return minorTicksCoords;
+ };
+ Axis.prototype.getViewLabels = function () {
+ return createAxisLabels(this).labels;
+ };
+ Axis.prototype.getLabelModel = function () {
+ return this.model.getModel('axisLabel');
+ };
+ /**
+ * Notice here we only get the default tick model. For splitLine
+ * or splitArea, we should pass the splitLineModel or splitAreaModel
+ * manually when calling `getTicksCoords`.
+ * In GL, this method may be overridden to:
+ * `axisModel.getModel('axisTick', grid3DModel.getModel('axisTick'));`
+ */
+ Axis.prototype.getTickModel = function () {
+ return this.model.getModel('axisTick');
+ };
+ /**
+ * Get width of band
+ */
+ Axis.prototype.getBandWidth = function () {
+ var axisExtent = this._extent;
+ var dataExtent = this.scale.getExtent();
+ var len = dataExtent[1] - dataExtent[0] + (this.onBand ? 1 : 0);
+ // Fix #2728, avoid NaN when only one data.
+ len === 0 && (len = 1);
+ var size = Math.abs(axisExtent[1] - axisExtent[0]);
+ return Math.abs(size) / len;
+ };
+ /**
+ * Only be called in category axis.
+ * Can be overridden, consider other axes like in 3D.
+ * @return Auto interval for cateogry axis tick and label
+ */
+ Axis.prototype.calculateCategoryInterval = function () {
+ return calculateCategoryInterval(this);
+ };
+ return Axis;
+ }();
+ function fixExtentWithBands(extent, nTick) {
+ var size = extent[1] - extent[0];
+ var len = nTick;
+ var margin = size / len / 2;
+ extent[0] += margin;
+ extent[1] -= margin;
+ }
+ // If axis has labels [1, 2, 3, 4]. Bands on the axis are
+ // |---1---|---2---|---3---|---4---|.
+ // So the displayed ticks and splitLine/splitArea should between
+ // each data item, otherwise cause misleading (e.g., split tow bars
+ // of a single data item when there are two bar series).
+ // Also consider if tickCategoryInterval > 0 and onBand, ticks and
+ // splitLine/spliteArea should layout appropriately corresponding
+ // to displayed labels. (So we should not use `getBandWidth` in this
+ // case).
+ function fixOnBandTicksCoords(axis, ticksCoords, alignWithLabel, clamp) {
+ var ticksLen = ticksCoords.length;
+ if (!axis.onBand || alignWithLabel || !ticksLen) {
+ return;
+ }
+ var axisExtent = axis.getExtent();
+ var last;
+ var diffSize;
+ if (ticksLen === 1) {
+ ticksCoords[0].coord = axisExtent[0];
+ last = ticksCoords[1] = {
+ coord: axisExtent[1]
+ };
+ } else {
+ var crossLen = ticksCoords[ticksLen - 1].tickValue - ticksCoords[0].tickValue;
+ var shift_1 = (ticksCoords[ticksLen - 1].coord - ticksCoords[0].coord) / crossLen;
+ each(ticksCoords, function (ticksItem) {
+ ticksItem.coord -= shift_1 / 2;
+ });
+ var dataExtent = axis.scale.getExtent();
+ diffSize = 1 + dataExtent[1] - ticksCoords[ticksLen - 1].tickValue;
+ last = {
+ coord: ticksCoords[ticksLen - 1].coord + shift_1 * diffSize
+ };
+ ticksCoords.push(last);
+ }
+ var inverse = axisExtent[0] > axisExtent[1];
+ // Handling clamp.
+ if (littleThan(ticksCoords[0].coord, axisExtent[0])) {
+ clamp ? ticksCoords[0].coord = axisExtent[0] : ticksCoords.shift();
+ }
+ if (clamp && littleThan(axisExtent[0], ticksCoords[0].coord)) {
+ ticksCoords.unshift({
+ coord: axisExtent[0]
+ });
+ }
+ if (littleThan(axisExtent[1], last.coord)) {
+ clamp ? last.coord = axisExtent[1] : ticksCoords.pop();
+ }
+ if (clamp && littleThan(last.coord, axisExtent[1])) {
+ ticksCoords.push({
+ coord: axisExtent[1]
+ });
+ }
+ function littleThan(a, b) {
+ // Avoid rounding error cause calculated tick coord different with extent.
+ // It may cause an extra unnecessary tick added.
+ a = round(a);
+ b = round(b);
+ return inverse ? a > b : a < b;
+ }
+ }
+
+ // --------------------- Deprecated Extension Methods ---------------------
+ // Should use `ComponentModel.extend` or `class XXXX extend ComponentModel` to create class.
+ // Then use `registerComponentModel` in `install` parameter when `use` this extension. For example:
+ // class Bar3DModel extends ComponentModel {}
+ // export function install(registers) { registers.registerComponentModel(Bar3DModel); }
+ // echarts.use(install);
+ function extendComponentModel(proto) {
+ var Model = ComponentModel.extend(proto);
+ ComponentModel.registerClass(Model);
+ return Model;
+ }
+ function extendComponentView(proto) {
+ var View = ComponentView.extend(proto);
+ ComponentView.registerClass(View);
+ return View;
+ }
+ function extendSeriesModel(proto) {
+ var Model = SeriesModel.extend(proto);
+ SeriesModel.registerClass(Model);
+ return Model;
+ }
+ function extendChartView(proto) {
+ var View = ChartView.extend(proto);
+ ChartView.registerClass(View);
+ return View;
+ }
+
+ var PI2$6 = Math.PI * 2;
+ var CMD$3 = PathProxy.CMD;
+ var DEFAULT_SEARCH_SPACE = ['top', 'right', 'bottom', 'left'];
+ function getCandidateAnchor(pos, distance, rect, outPt, outDir) {
+ var width = rect.width;
+ var height = rect.height;
+ switch (pos) {
+ case 'top':
+ outPt.set(rect.x + width / 2, rect.y - distance);
+ outDir.set(0, -1);
+ break;
+ case 'bottom':
+ outPt.set(rect.x + width / 2, rect.y + height + distance);
+ outDir.set(0, 1);
+ break;
+ case 'left':
+ outPt.set(rect.x - distance, rect.y + height / 2);
+ outDir.set(-1, 0);
+ break;
+ case 'right':
+ outPt.set(rect.x + width + distance, rect.y + height / 2);
+ outDir.set(1, 0);
+ break;
+ }
+ }
+ function projectPointToArc(cx, cy, r, startAngle, endAngle, anticlockwise, x, y, out) {
+ x -= cx;
+ y -= cy;
+ var d = Math.sqrt(x * x + y * y);
+ x /= d;
+ y /= d;
+ // Intersect point.
+ var ox = x * r + cx;
+ var oy = y * r + cy;
+ if (Math.abs(startAngle - endAngle) % PI2$6 < 1e-4) {
+ // Is a circle
+ out[0] = ox;
+ out[1] = oy;
+ return d - r;
+ }
+ if (anticlockwise) {
+ var tmp = startAngle;
+ startAngle = normalizeRadian(endAngle);
+ endAngle = normalizeRadian(tmp);
+ } else {
+ startAngle = normalizeRadian(startAngle);
+ endAngle = normalizeRadian(endAngle);
+ }
+ if (startAngle > endAngle) {
+ endAngle += PI2$6;
+ }
+ var angle = Math.atan2(y, x);
+ if (angle < 0) {
+ angle += PI2$6;
+ }
+ if (angle >= startAngle && angle <= endAngle || angle + PI2$6 >= startAngle && angle + PI2$6 <= endAngle) {
+ // Project point is on the arc.
+ out[0] = ox;
+ out[1] = oy;
+ return d - r;
+ }
+ var x1 = r * Math.cos(startAngle) + cx;
+ var y1 = r * Math.sin(startAngle) + cy;
+ var x2 = r * Math.cos(endAngle) + cx;
+ var y2 = r * Math.sin(endAngle) + cy;
+ var d1 = (x1 - x) * (x1 - x) + (y1 - y) * (y1 - y);
+ var d2 = (x2 - x) * (x2 - x) + (y2 - y) * (y2 - y);
+ if (d1 < d2) {
+ out[0] = x1;
+ out[1] = y1;
+ return Math.sqrt(d1);
+ } else {
+ out[0] = x2;
+ out[1] = y2;
+ return Math.sqrt(d2);
+ }
+ }
+ function projectPointToLine(x1, y1, x2, y2, x, y, out, limitToEnds) {
+ var dx = x - x1;
+ var dy = y - y1;
+ var dx1 = x2 - x1;
+ var dy1 = y2 - y1;
+ var lineLen = Math.sqrt(dx1 * dx1 + dy1 * dy1);
+ dx1 /= lineLen;
+ dy1 /= lineLen;
+ // dot product
+ var projectedLen = dx * dx1 + dy * dy1;
+ var t = projectedLen / lineLen;
+ if (limitToEnds) {
+ t = Math.min(Math.max(t, 0), 1);
+ }
+ t *= lineLen;
+ var ox = out[0] = x1 + t * dx1;
+ var oy = out[1] = y1 + t * dy1;
+ return Math.sqrt((ox - x) * (ox - x) + (oy - y) * (oy - y));
+ }
+ function projectPointToRect(x1, y1, width, height, x, y, out) {
+ if (width < 0) {
+ x1 = x1 + width;
+ width = -width;
+ }
+ if (height < 0) {
+ y1 = y1 + height;
+ height = -height;
+ }
+ var x2 = x1 + width;
+ var y2 = y1 + height;
+ var ox = out[0] = Math.min(Math.max(x, x1), x2);
+ var oy = out[1] = Math.min(Math.max(y, y1), y2);
+ return Math.sqrt((ox - x) * (ox - x) + (oy - y) * (oy - y));
+ }
+ var tmpPt = [];
+ function nearestPointOnRect(pt, rect, out) {
+ var dist = projectPointToRect(rect.x, rect.y, rect.width, rect.height, pt.x, pt.y, tmpPt);
+ out.set(tmpPt[0], tmpPt[1]);
+ return dist;
+ }
+ /**
+ * Calculate min distance corresponding point.
+ * This method won't evaluate if point is in the path.
+ */
+ function nearestPointOnPath(pt, path, out) {
+ var xi = 0;
+ var yi = 0;
+ var x0 = 0;
+ var y0 = 0;
+ var x1;
+ var y1;
+ var minDist = Infinity;
+ var data = path.data;
+ var x = pt.x;
+ var y = pt.y;
+ for (var i = 0; i < data.length;) {
+ var cmd = data[i++];
+ if (i === 1) {
+ xi = data[i];
+ yi = data[i + 1];
+ x0 = xi;
+ y0 = yi;
+ }
+ var d = minDist;
+ switch (cmd) {
+ case CMD$3.M:
+ // moveTo 命令重新创建一个新的 subpath, 并且更新新的起点
+ // 在 closePath 的时候使用
+ x0 = data[i++];
+ y0 = data[i++];
+ xi = x0;
+ yi = y0;
+ break;
+ case CMD$3.L:
+ d = projectPointToLine(xi, yi, data[i], data[i + 1], x, y, tmpPt, true);
+ xi = data[i++];
+ yi = data[i++];
+ break;
+ case CMD$3.C:
+ d = cubicProjectPoint(xi, yi, data[i++], data[i++], data[i++], data[i++], data[i], data[i + 1], x, y, tmpPt);
+ xi = data[i++];
+ yi = data[i++];
+ break;
+ case CMD$3.Q:
+ d = quadraticProjectPoint(xi, yi, data[i++], data[i++], data[i], data[i + 1], x, y, tmpPt);
+ xi = data[i++];
+ yi = data[i++];
+ break;
+ case CMD$3.A:
+ // TODO Arc 判断的开销比较大
+ var cx = data[i++];
+ var cy = data[i++];
+ var rx = data[i++];
+ var ry = data[i++];
+ var theta = data[i++];
+ var dTheta = data[i++];
+ // TODO Arc 旋转
+ i += 1;
+ var anticlockwise = !!(1 - data[i++]);
+ x1 = Math.cos(theta) * rx + cx;
+ y1 = Math.sin(theta) * ry + cy;
+ // 不是直接使用 arc 命令
+ if (i <= 1) {
+ // 第一个命令起点还未定义
+ x0 = x1;
+ y0 = y1;
+ }
+ // zr 使用scale来模拟椭圆, 这里也对x做一定的缩放
+ var _x = (x - cx) * ry / rx + cx;
+ d = projectPointToArc(cx, cy, ry, theta, theta + dTheta, anticlockwise, _x, y, tmpPt);
+ xi = Math.cos(theta + dTheta) * rx + cx;
+ yi = Math.sin(theta + dTheta) * ry + cy;
+ break;
+ case CMD$3.R:
+ x0 = xi = data[i++];
+ y0 = yi = data[i++];
+ var width = data[i++];
+ var height = data[i++];
+ d = projectPointToRect(x0, y0, width, height, x, y, tmpPt);
+ break;
+ case CMD$3.Z:
+ d = projectPointToLine(xi, yi, x0, y0, x, y, tmpPt, true);
+ xi = x0;
+ yi = y0;
+ break;
+ }
+ if (d < minDist) {
+ minDist = d;
+ out.set(tmpPt[0], tmpPt[1]);
+ }
+ }
+ return minDist;
+ }
+ // Temporal variable for intermediate usage.
+ var pt0 = new Point();
+ var pt1 = new Point();
+ var pt2 = new Point();
+ var dir = new Point();
+ var dir2 = new Point();
+ /**
+ * Calculate a proper guide line based on the label position and graphic element definition
+ * @param label
+ * @param labelRect
+ * @param target
+ * @param targetRect
+ */
+ function updateLabelLinePoints(target, labelLineModel) {
+ if (!target) {
+ return;
+ }
+ var labelLine = target.getTextGuideLine();
+ var label = target.getTextContent();
+ // Needs to create text guide in each charts.
+ if (!(label && labelLine)) {
+ return;
+ }
+ var labelGuideConfig = target.textGuideLineConfig || {};
+ var points = [[0, 0], [0, 0], [0, 0]];
+ var searchSpace = labelGuideConfig.candidates || DEFAULT_SEARCH_SPACE;
+ var labelRect = label.getBoundingRect().clone();
+ labelRect.applyTransform(label.getComputedTransform());
+ var minDist = Infinity;
+ var anchorPoint = labelGuideConfig.anchor;
+ var targetTransform = target.getComputedTransform();
+ var targetInversedTransform = targetTransform && invert([], targetTransform);
+ var len = labelLineModel.get('length2') || 0;
+ if (anchorPoint) {
+ pt2.copy(anchorPoint);
+ }
+ for (var i = 0; i < searchSpace.length; i++) {
+ var candidate = searchSpace[i];
+ getCandidateAnchor(candidate, 0, labelRect, pt0, dir);
+ Point.scaleAndAdd(pt1, pt0, dir, len);
+ // Transform to target coord space.
+ pt1.transform(targetInversedTransform);
+ // Note: getBoundingRect will ensure the `path` being created.
+ var boundingRect = target.getBoundingRect();
+ var dist = anchorPoint ? anchorPoint.distance(pt1) : target instanceof Path ? nearestPointOnPath(pt1, target.path, pt2) : nearestPointOnRect(pt1, boundingRect, pt2);
+ // TODO pt2 is in the path
+ if (dist < minDist) {
+ minDist = dist;
+ // Transform back to global space.
+ pt1.transform(targetTransform);
+ pt2.transform(targetTransform);
+ pt2.toArray(points[0]);
+ pt1.toArray(points[1]);
+ pt0.toArray(points[2]);
+ }
+ }
+ limitTurnAngle(points, labelLineModel.get('minTurnAngle'));
+ labelLine.setShape({
+ points: points
+ });
+ }
+ // Temporal variable for the limitTurnAngle function
+ var tmpArr = [];
+ var tmpProjPoint = new Point();
+ /**
+ * Reduce the line segment attached to the label to limit the turn angle between two segments.
+ * @param linePoints
+ * @param minTurnAngle Radian of minimum turn angle. 0 - 180
+ */
+ function limitTurnAngle(linePoints, minTurnAngle) {
+ if (!(minTurnAngle <= 180 && minTurnAngle > 0)) {
+ return;
+ }
+ minTurnAngle = minTurnAngle / 180 * Math.PI;
+ // The line points can be
+ // /pt1----pt2 (label)
+ // /
+ // pt0/
+ pt0.fromArray(linePoints[0]);
+ pt1.fromArray(linePoints[1]);
+ pt2.fromArray(linePoints[2]);
+ Point.sub(dir, pt0, pt1);
+ Point.sub(dir2, pt2, pt1);
+ var len1 = dir.len();
+ var len2 = dir2.len();
+ if (len1 < 1e-3 || len2 < 1e-3) {
+ return;
+ }
+ dir.scale(1 / len1);
+ dir2.scale(1 / len2);
+ var angleCos = dir.dot(dir2);
+ var minTurnAngleCos = Math.cos(minTurnAngle);
+ if (minTurnAngleCos < angleCos) {
+ // Smaller than minTurnAngle
+ // Calculate project point of pt0 on pt1-pt2
+ var d = projectPointToLine(pt1.x, pt1.y, pt2.x, pt2.y, pt0.x, pt0.y, tmpArr, false);
+ tmpProjPoint.fromArray(tmpArr);
+ // Calculate new projected length with limited minTurnAngle and get the new connect point
+ tmpProjPoint.scaleAndAdd(dir2, d / Math.tan(Math.PI - minTurnAngle));
+ // Limit the new calculated connect point between pt1 and pt2.
+ var t = pt2.x !== pt1.x ? (tmpProjPoint.x - pt1.x) / (pt2.x - pt1.x) : (tmpProjPoint.y - pt1.y) / (pt2.y - pt1.y);
+ if (isNaN(t)) {
+ return;
+ }
+ if (t < 0) {
+ Point.copy(tmpProjPoint, pt1);
+ } else if (t > 1) {
+ Point.copy(tmpProjPoint, pt2);
+ }
+ tmpProjPoint.toArray(linePoints[1]);
+ }
+ }
+ /**
+ * Limit the angle of line and the surface
+ * @param maxSurfaceAngle Radian of minimum turn angle. 0 - 180. 0 is same direction to normal. 180 is opposite
+ */
+ function limitSurfaceAngle(linePoints, surfaceNormal, maxSurfaceAngle) {
+ if (!(maxSurfaceAngle <= 180 && maxSurfaceAngle > 0)) {
+ return;
+ }
+ maxSurfaceAngle = maxSurfaceAngle / 180 * Math.PI;
+ pt0.fromArray(linePoints[0]);
+ pt1.fromArray(linePoints[1]);
+ pt2.fromArray(linePoints[2]);
+ Point.sub(dir, pt1, pt0);
+ Point.sub(dir2, pt2, pt1);
+ var len1 = dir.len();
+ var len2 = dir2.len();
+ if (len1 < 1e-3 || len2 < 1e-3) {
+ return;
+ }
+ dir.scale(1 / len1);
+ dir2.scale(1 / len2);
+ var angleCos = dir.dot(surfaceNormal);
+ var maxSurfaceAngleCos = Math.cos(maxSurfaceAngle);
+ if (angleCos < maxSurfaceAngleCos) {
+ // Calculate project point of pt0 on pt1-pt2
+ var d = projectPointToLine(pt1.x, pt1.y, pt2.x, pt2.y, pt0.x, pt0.y, tmpArr, false);
+ tmpProjPoint.fromArray(tmpArr);
+ var HALF_PI = Math.PI / 2;
+ var angle2 = Math.acos(dir2.dot(surfaceNormal));
+ var newAngle = HALF_PI + angle2 - maxSurfaceAngle;
+ if (newAngle >= HALF_PI) {
+ // parallel
+ Point.copy(tmpProjPoint, pt2);
+ } else {
+ // Calculate new projected length with limited minTurnAngle and get the new connect point
+ tmpProjPoint.scaleAndAdd(dir2, d / Math.tan(Math.PI / 2 - newAngle));
+ // Limit the new calculated connect point between pt1 and pt2.
+ var t = pt2.x !== pt1.x ? (tmpProjPoint.x - pt1.x) / (pt2.x - pt1.x) : (tmpProjPoint.y - pt1.y) / (pt2.y - pt1.y);
+ if (isNaN(t)) {
+ return;
+ }
+ if (t < 0) {
+ Point.copy(tmpProjPoint, pt1);
+ } else if (t > 1) {
+ Point.copy(tmpProjPoint, pt2);
+ }
+ }
+ tmpProjPoint.toArray(linePoints[1]);
+ }
+ }
+ function setLabelLineState(labelLine, ignore, stateName, stateModel) {
+ var isNormal = stateName === 'normal';
+ var stateObj = isNormal ? labelLine : labelLine.ensureState(stateName);
+ // Make sure display.
+ stateObj.ignore = ignore;
+ // Set smooth
+ var smooth = stateModel.get('smooth');
+ if (smooth && smooth === true) {
+ smooth = 0.3;
+ }
+ stateObj.shape = stateObj.shape || {};
+ if (smooth > 0) {
+ stateObj.shape.smooth = smooth;
+ }
+ var styleObj = stateModel.getModel('lineStyle').getLineStyle();
+ isNormal ? labelLine.useStyle(styleObj) : stateObj.style = styleObj;
+ }
+ function buildLabelLinePath(path, shape) {
+ var smooth = shape.smooth;
+ var points = shape.points;
+ if (!points) {
+ return;
+ }
+ path.moveTo(points[0][0], points[0][1]);
+ if (smooth > 0 && points.length >= 3) {
+ var len1 = dist(points[0], points[1]);
+ var len2 = dist(points[1], points[2]);
+ if (!len1 || !len2) {
+ path.lineTo(points[1][0], points[1][1]);
+ path.lineTo(points[2][0], points[2][1]);
+ return;
+ }
+ var moveLen = Math.min(len1, len2) * smooth;
+ var midPoint0 = lerp([], points[1], points[0], moveLen / len1);
+ var midPoint2 = lerp([], points[1], points[2], moveLen / len2);
+ var midPoint1 = lerp([], midPoint0, midPoint2, 0.5);
+ path.bezierCurveTo(midPoint0[0], midPoint0[1], midPoint0[0], midPoint0[1], midPoint1[0], midPoint1[1]);
+ path.bezierCurveTo(midPoint2[0], midPoint2[1], midPoint2[0], midPoint2[1], points[2][0], points[2][1]);
+ } else {
+ for (var i = 1; i < points.length; i++) {
+ path.lineTo(points[i][0], points[i][1]);
+ }
+ }
+ }
+ /**
+ * Create a label line if necessary and set it's style.
+ */
+ function setLabelLineStyle(targetEl, statesModels, defaultStyle) {
+ var labelLine = targetEl.getTextGuideLine();
+ var label = targetEl.getTextContent();
+ if (!label) {
+ // Not show label line if there is no label.
+ if (labelLine) {
+ targetEl.removeTextGuideLine();
+ }
+ return;
+ }
+ var normalModel = statesModels.normal;
+ var showNormal = normalModel.get('show');
+ var labelIgnoreNormal = label.ignore;
+ for (var i = 0; i < DISPLAY_STATES.length; i++) {
+ var stateName = DISPLAY_STATES[i];
+ var stateModel = statesModels[stateName];
+ var isNormal = stateName === 'normal';
+ if (stateModel) {
+ var stateShow = stateModel.get('show');
+ var isLabelIgnored = isNormal ? labelIgnoreNormal : retrieve2(label.states[stateName] && label.states[stateName].ignore, labelIgnoreNormal);
+ if (isLabelIgnored // Not show when label is not shown in this state.
+ || !retrieve2(stateShow, showNormal) // Use normal state by default if not set.
+ ) {
+ var stateObj = isNormal ? labelLine : labelLine && labelLine.states[stateName];
+ if (stateObj) {
+ stateObj.ignore = true;
+ }
+ if (!!labelLine) {
+ setLabelLineState(labelLine, true, stateName, stateModel);
+ }
+ continue;
+ }
+ // Create labelLine if not exists
+ if (!labelLine) {
+ labelLine = new Polyline();
+ targetEl.setTextGuideLine(labelLine);
+ // Reset state of normal because it's new created.
+ // NOTE: NORMAL should always been the first!
+ if (!isNormal && (labelIgnoreNormal || !showNormal)) {
+ setLabelLineState(labelLine, true, 'normal', statesModels.normal);
+ }
+ // Use same state proxy.
+ if (targetEl.stateProxy) {
+ labelLine.stateProxy = targetEl.stateProxy;
+ }
+ }
+ setLabelLineState(labelLine, false, stateName, stateModel);
+ }
+ }
+ if (labelLine) {
+ defaults(labelLine.style, defaultStyle);
+ // Not fill.
+ labelLine.style.fill = null;
+ var showAbove = normalModel.get('showAbove');
+ var labelLineConfig = targetEl.textGuideLineConfig = targetEl.textGuideLineConfig || {};
+ labelLineConfig.showAbove = showAbove || false;
+ // Custom the buildPath.
+ labelLine.buildPath = buildLabelLinePath;
+ }
+ }
+ function getLabelLineStatesModels(itemModel, labelLineName) {
+ labelLineName = labelLineName || 'labelLine';
+ var statesModels = {
+ normal: itemModel.getModel(labelLineName)
+ };
+ for (var i = 0; i < SPECIAL_STATES.length; i++) {
+ var stateName = SPECIAL_STATES[i];
+ statesModels[stateName] = itemModel.getModel([stateName, labelLineName]);
+ }
+ return statesModels;
+ }
+
+ function prepareLayoutList(input) {
+ var list = [];
+ for (var i = 0; i < input.length; i++) {
+ var rawItem = input[i];
+ if (rawItem.defaultAttr.ignore) {
+ continue;
+ }
+ var label = rawItem.label;
+ var transform = label.getComputedTransform();
+ // NOTE: Get bounding rect after getComputedTransform, or label may not been updated by the host el.
+ var localRect = label.getBoundingRect();
+ var isAxisAligned = !transform || transform[1] < 1e-5 && transform[2] < 1e-5;
+ var minMargin = label.style.margin || 0;
+ var globalRect = localRect.clone();
+ globalRect.applyTransform(transform);
+ globalRect.x -= minMargin / 2;
+ globalRect.y -= minMargin / 2;
+ globalRect.width += minMargin;
+ globalRect.height += minMargin;
+ var obb = isAxisAligned ? new OrientedBoundingRect(localRect, transform) : null;
+ list.push({
+ label: label,
+ labelLine: rawItem.labelLine,
+ rect: globalRect,
+ localRect: localRect,
+ obb: obb,
+ priority: rawItem.priority,
+ defaultAttr: rawItem.defaultAttr,
+ layoutOption: rawItem.computedLayoutOption,
+ axisAligned: isAxisAligned,
+ transform: transform
+ });
+ }
+ return list;
+ }
+ function shiftLayout(list, xyDim, sizeDim, minBound, maxBound, balanceShift) {
+ var len = list.length;
+ if (len < 2) {
+ return;
+ }
+ list.sort(function (a, b) {
+ return a.rect[xyDim] - b.rect[xyDim];
+ });
+ var lastPos = 0;
+ var delta;
+ var adjusted = false;
+ var totalShifts = 0;
+ for (var i = 0; i < len; i++) {
+ var item = list[i];
+ var rect = item.rect;
+ delta = rect[xyDim] - lastPos;
+ if (delta < 0) {
+ // shiftForward(i, len, -delta);
+ rect[xyDim] -= delta;
+ item.label[xyDim] -= delta;
+ adjusted = true;
+ }
+ var shift = Math.max(-delta, 0);
+ totalShifts += shift;
+ lastPos = rect[xyDim] + rect[sizeDim];
+ }
+ if (totalShifts > 0 && balanceShift) {
+ // Shift back to make the distribution more equally.
+ shiftList(-totalShifts / len, 0, len);
+ }
+ // TODO bleedMargin?
+ var first = list[0];
+ var last = list[len - 1];
+ var minGap;
+ var maxGap;
+ updateMinMaxGap();
+ // If ends exceed two bounds, squeeze at most 80%, then take the gap of two bounds.
+ minGap < 0 && squeezeGaps(-minGap, 0.8);
+ maxGap < 0 && squeezeGaps(maxGap, 0.8);
+ updateMinMaxGap();
+ takeBoundsGap(minGap, maxGap, 1);
+ takeBoundsGap(maxGap, minGap, -1);
+ // Handle bailout when there is not enough space.
+ updateMinMaxGap();
+ if (minGap < 0) {
+ squeezeWhenBailout(-minGap);
+ }
+ if (maxGap < 0) {
+ squeezeWhenBailout(maxGap);
+ }
+ function updateMinMaxGap() {
+ minGap = first.rect[xyDim] - minBound;
+ maxGap = maxBound - last.rect[xyDim] - last.rect[sizeDim];
+ }
+ function takeBoundsGap(gapThisBound, gapOtherBound, moveDir) {
+ if (gapThisBound < 0) {
+ // Move from other gap if can.
+ var moveFromMaxGap = Math.min(gapOtherBound, -gapThisBound);
+ if (moveFromMaxGap > 0) {
+ shiftList(moveFromMaxGap * moveDir, 0, len);
+ var remained = moveFromMaxGap + gapThisBound;
+ if (remained < 0) {
+ squeezeGaps(-remained * moveDir, 1);
+ }
+ } else {
+ squeezeGaps(-gapThisBound * moveDir, 1);
+ }
+ }
+ }
+ function shiftList(delta, start, end) {
+ if (delta !== 0) {
+ adjusted = true;
+ }
+ for (var i = start; i < end; i++) {
+ var item = list[i];
+ var rect = item.rect;
+ rect[xyDim] += delta;
+ item.label[xyDim] += delta;
+ }
+ }
+ // Squeeze gaps if the labels exceed margin.
+ function squeezeGaps(delta, maxSqeezePercent) {
+ var gaps = [];
+ var totalGaps = 0;
+ for (var i = 1; i < len; i++) {
+ var prevItemRect = list[i - 1].rect;
+ var gap = Math.max(list[i].rect[xyDim] - prevItemRect[xyDim] - prevItemRect[sizeDim], 0);
+ gaps.push(gap);
+ totalGaps += gap;
+ }
+ if (!totalGaps) {
+ return;
+ }
+ var squeezePercent = Math.min(Math.abs(delta) / totalGaps, maxSqeezePercent);
+ if (delta > 0) {
+ for (var i = 0; i < len - 1; i++) {
+ // Distribute the shift delta to all gaps.
+ var movement = gaps[i] * squeezePercent;
+ // Forward
+ shiftList(movement, 0, i + 1);
+ }
+ } else {
+ // Backward
+ for (var i = len - 1; i > 0; i--) {
+ // Distribute the shift delta to all gaps.
+ var movement = gaps[i - 1] * squeezePercent;
+ shiftList(-movement, i, len);
+ }
+ }
+ }
+ /**
+ * Squeeze to allow overlap if there is no more space available.
+ * Let other overlapping strategy like hideOverlap do the job instead of keep exceeding the bounds.
+ */
+ function squeezeWhenBailout(delta) {
+ var dir = delta < 0 ? -1 : 1;
+ delta = Math.abs(delta);
+ var moveForEachLabel = Math.ceil(delta / (len - 1));
+ for (var i = 0; i < len - 1; i++) {
+ if (dir > 0) {
+ // Forward
+ shiftList(moveForEachLabel, 0, i + 1);
+ } else {
+ // Backward
+ shiftList(-moveForEachLabel, len - i - 1, len);
+ }
+ delta -= moveForEachLabel;
+ if (delta <= 0) {
+ return;
+ }
+ }
+ }
+ return adjusted;
+ }
+ /**
+ * Adjust labels on x direction to avoid overlap.
+ */
+ function shiftLayoutOnX(list, leftBound, rightBound,
+ // If average the shifts on all labels and add them to 0
+ // TODO: Not sure if should enable it.
+ // Pros: The angle of lines will distribute more equally
+ // Cons: In some layout. It may not what user wanted. like in pie. the label of last sector is usually changed unexpectedly.
+ balanceShift) {
+ return shiftLayout(list, 'x', 'width', leftBound, rightBound, balanceShift);
+ }
+ /**
+ * Adjust labels on y direction to avoid overlap.
+ */
+ function shiftLayoutOnY(list, topBound, bottomBound,
+ // If average the shifts on all labels and add them to 0
+ balanceShift) {
+ return shiftLayout(list, 'y', 'height', topBound, bottomBound, balanceShift);
+ }
+ function hideOverlap(labelList) {
+ var displayedLabels = [];
+ // TODO, render overflow visible first, put in the displayedLabels.
+ labelList.sort(function (a, b) {
+ return b.priority - a.priority;
+ });
+ var globalRect = new BoundingRect(0, 0, 0, 0);
+ function hideEl(el) {
+ if (!el.ignore) {
+ // Show on emphasis.
+ var emphasisState = el.ensureState('emphasis');
+ if (emphasisState.ignore == null) {
+ emphasisState.ignore = false;
+ }
+ }
+ el.ignore = true;
+ }
+ for (var i = 0; i < labelList.length; i++) {
+ var labelItem = labelList[i];
+ var isAxisAligned = labelItem.axisAligned;
+ var localRect = labelItem.localRect;
+ var transform = labelItem.transform;
+ var label = labelItem.label;
+ var labelLine = labelItem.labelLine;
+ globalRect.copy(labelItem.rect);
+ // Add a threshold because layout may be aligned precisely.
+ globalRect.width -= 0.1;
+ globalRect.height -= 0.1;
+ globalRect.x += 0.05;
+ globalRect.y += 0.05;
+ var obb = labelItem.obb;
+ var overlapped = false;
+ for (var j = 0; j < displayedLabels.length; j++) {
+ var existsTextCfg = displayedLabels[j];
+ // Fast rejection.
+ if (!globalRect.intersect(existsTextCfg.rect)) {
+ continue;
+ }
+ if (isAxisAligned && existsTextCfg.axisAligned) {
+ // Is overlapped
+ overlapped = true;
+ break;
+ }
+ if (!existsTextCfg.obb) {
+ // If self is not axis aligned. But other is.
+ existsTextCfg.obb = new OrientedBoundingRect(existsTextCfg.localRect, existsTextCfg.transform);
+ }
+ if (!obb) {
+ // If self is axis aligned. But other is not.
+ obb = new OrientedBoundingRect(localRect, transform);
+ }
+ if (obb.intersect(existsTextCfg.obb)) {
+ overlapped = true;
+ break;
+ }
+ }
+ // TODO Callback to determine if this overlap should be handled?
+ if (overlapped) {
+ hideEl(label);
+ labelLine && hideEl(labelLine);
+ } else {
+ label.attr('ignore', labelItem.defaultAttr.ignore);
+ labelLine && labelLine.attr('ignore', labelItem.defaultAttr.labelGuideIgnore);
+ displayedLabels.push(labelItem);
+ }
+ }
+ }
+
+ function cloneArr(points) {
+ if (points) {
+ var newPoints = [];
+ for (var i = 0; i < points.length; i++) {
+ newPoints.push(points[i].slice());
+ }
+ return newPoints;
+ }
+ }
+ function prepareLayoutCallbackParams(labelItem, hostEl) {
+ var label = labelItem.label;
+ var labelLine = hostEl && hostEl.getTextGuideLine();
+ return {
+ dataIndex: labelItem.dataIndex,
+ dataType: labelItem.dataType,
+ seriesIndex: labelItem.seriesModel.seriesIndex,
+ text: labelItem.label.style.text,
+ rect: labelItem.hostRect,
+ labelRect: labelItem.rect,
+ // x: labelAttr.x,
+ // y: labelAttr.y,
+ align: label.style.align,
+ verticalAlign: label.style.verticalAlign,
+ labelLinePoints: cloneArr(labelLine && labelLine.shape.points)
+ };
+ }
+ var LABEL_OPTION_TO_STYLE_KEYS = ['align', 'verticalAlign', 'width', 'height', 'fontSize'];
+ var dummyTransformable = new Transformable();
+ var labelLayoutInnerStore = makeInner();
+ var labelLineAnimationStore = makeInner();
+ function extendWithKeys(target, source, keys) {
+ for (var i = 0; i < keys.length; i++) {
+ var key = keys[i];
+ if (source[key] != null) {
+ target[key] = source[key];
+ }
+ }
+ }
+ var LABEL_LAYOUT_PROPS = ['x', 'y', 'rotation'];
+ var LabelManager = /** @class */function () {
+ function LabelManager() {
+ this._labelList = [];
+ this._chartViewList = [];
+ }
+ LabelManager.prototype.clearLabels = function () {
+ this._labelList = [];
+ this._chartViewList = [];
+ };
+ /**
+ * Add label to manager
+ */
+ LabelManager.prototype._addLabel = function (dataIndex, dataType, seriesModel, label, layoutOption) {
+ var labelStyle = label.style;
+ var hostEl = label.__hostTarget;
+ var textConfig = hostEl.textConfig || {};
+ // TODO: If label is in other state.
+ var labelTransform = label.getComputedTransform();
+ var labelRect = label.getBoundingRect().plain();
+ BoundingRect.applyTransform(labelRect, labelRect, labelTransform);
+ if (labelTransform) {
+ dummyTransformable.setLocalTransform(labelTransform);
+ } else {
+ // Identity transform.
+ dummyTransformable.x = dummyTransformable.y = dummyTransformable.rotation = dummyTransformable.originX = dummyTransformable.originY = 0;
+ dummyTransformable.scaleX = dummyTransformable.scaleY = 1;
+ }
+ dummyTransformable.rotation = normalizeRadian(dummyTransformable.rotation);
+ var host = label.__hostTarget;
+ var hostRect;
+ if (host) {
+ hostRect = host.getBoundingRect().plain();
+ var transform = host.getComputedTransform();
+ BoundingRect.applyTransform(hostRect, hostRect, transform);
+ }
+ var labelGuide = hostRect && host.getTextGuideLine();
+ this._labelList.push({
+ label: label,
+ labelLine: labelGuide,
+ seriesModel: seriesModel,
+ dataIndex: dataIndex,
+ dataType: dataType,
+ layoutOption: layoutOption,
+ computedLayoutOption: null,
+ rect: labelRect,
+ hostRect: hostRect,
+ // Label with lower priority will be hidden when overlapped
+ // Use rect size as default priority
+ priority: hostRect ? hostRect.width * hostRect.height : 0,
+ // Save default label attributes.
+ // For restore if developers want get back to default value in callback.
+ defaultAttr: {
+ ignore: label.ignore,
+ labelGuideIgnore: labelGuide && labelGuide.ignore,
+ x: dummyTransformable.x,
+ y: dummyTransformable.y,
+ scaleX: dummyTransformable.scaleX,
+ scaleY: dummyTransformable.scaleY,
+ rotation: dummyTransformable.rotation,
+ style: {
+ x: labelStyle.x,
+ y: labelStyle.y,
+ align: labelStyle.align,
+ verticalAlign: labelStyle.verticalAlign,
+ width: labelStyle.width,
+ height: labelStyle.height,
+ fontSize: labelStyle.fontSize
+ },
+ cursor: label.cursor,
+ attachedPos: textConfig.position,
+ attachedRot: textConfig.rotation
+ }
+ });
+ };
+ LabelManager.prototype.addLabelsOfSeries = function (chartView) {
+ var _this = this;
+ this._chartViewList.push(chartView);
+ var seriesModel = chartView.__model;
+ var layoutOption = seriesModel.get('labelLayout');
+ /**
+ * Ignore layouting if it's not specified anything.
+ */
+ if (!(isFunction(layoutOption) || keys(layoutOption).length)) {
+ return;
+ }
+ chartView.group.traverse(function (child) {
+ if (child.ignore) {
+ return true; // Stop traverse descendants.
+ }
+ // Only support label being hosted on graphic elements.
+ var textEl = child.getTextContent();
+ var ecData = getECData(child);
+ // Can only attach the text on the element with dataIndex
+ if (textEl && !textEl.disableLabelLayout) {
+ _this._addLabel(ecData.dataIndex, ecData.dataType, seriesModel, textEl, layoutOption);
+ }
+ });
+ };
+ LabelManager.prototype.updateLayoutConfig = function (api) {
+ var width = api.getWidth();
+ var height = api.getHeight();
+ function createDragHandler(el, labelLineModel) {
+ return function () {
+ updateLabelLinePoints(el, labelLineModel);
+ };
+ }
+ for (var i = 0; i < this._labelList.length; i++) {
+ var labelItem = this._labelList[i];
+ var label = labelItem.label;
+ var hostEl = label.__hostTarget;
+ var defaultLabelAttr = labelItem.defaultAttr;
+ var layoutOption = void 0;
+ // TODO A global layout option?
+ if (isFunction(labelItem.layoutOption)) {
+ layoutOption = labelItem.layoutOption(prepareLayoutCallbackParams(labelItem, hostEl));
+ } else {
+ layoutOption = labelItem.layoutOption;
+ }
+ layoutOption = layoutOption || {};
+ labelItem.computedLayoutOption = layoutOption;
+ var degreeToRadian = Math.PI / 180;
+ // TODO hostEl should always exists.
+ // Or label should not have parent because the x, y is all in global space.
+ if (hostEl) {
+ hostEl.setTextConfig({
+ // Force to set local false.
+ local: false,
+ // Ignore position and rotation config on the host el if x or y is changed.
+ position: layoutOption.x != null || layoutOption.y != null ? null : defaultLabelAttr.attachedPos,
+ // Ignore rotation config on the host el if rotation is changed.
+ rotation: layoutOption.rotate != null ? layoutOption.rotate * degreeToRadian : defaultLabelAttr.attachedRot,
+ offset: [layoutOption.dx || 0, layoutOption.dy || 0]
+ });
+ }
+ var needsUpdateLabelLine = false;
+ if (layoutOption.x != null) {
+ // TODO width of chart view.
+ label.x = parsePercent$1(layoutOption.x, width);
+ label.setStyle('x', 0); // Ignore movement in style. TODO: origin.
+ needsUpdateLabelLine = true;
+ } else {
+ label.x = defaultLabelAttr.x;
+ label.setStyle('x', defaultLabelAttr.style.x);
+ }
+ if (layoutOption.y != null) {
+ // TODO height of chart view.
+ label.y = parsePercent$1(layoutOption.y, height);
+ label.setStyle('y', 0); // Ignore movement in style.
+ needsUpdateLabelLine = true;
+ } else {
+ label.y = defaultLabelAttr.y;
+ label.setStyle('y', defaultLabelAttr.style.y);
+ }
+ if (layoutOption.labelLinePoints) {
+ var guideLine = hostEl.getTextGuideLine();
+ if (guideLine) {
+ guideLine.setShape({
+ points: layoutOption.labelLinePoints
+ });
+ // Not update
+ needsUpdateLabelLine = false;
+ }
+ }
+ var labelLayoutStore = labelLayoutInnerStore(label);
+ labelLayoutStore.needsUpdateLabelLine = needsUpdateLabelLine;
+ label.rotation = layoutOption.rotate != null ? layoutOption.rotate * degreeToRadian : defaultLabelAttr.rotation;
+ label.scaleX = defaultLabelAttr.scaleX;
+ label.scaleY = defaultLabelAttr.scaleY;
+ for (var k = 0; k < LABEL_OPTION_TO_STYLE_KEYS.length; k++) {
+ var key = LABEL_OPTION_TO_STYLE_KEYS[k];
+ label.setStyle(key, layoutOption[key] != null ? layoutOption[key] : defaultLabelAttr.style[key]);
+ }
+ if (layoutOption.draggable) {
+ label.draggable = true;
+ label.cursor = 'move';
+ if (hostEl) {
+ var hostModel = labelItem.seriesModel;
+ if (labelItem.dataIndex != null) {
+ var data = labelItem.seriesModel.getData(labelItem.dataType);
+ hostModel = data.getItemModel(labelItem.dataIndex);
+ }
+ label.on('drag', createDragHandler(hostEl, hostModel.getModel('labelLine')));
+ }
+ } else {
+ // TODO Other drag functions?
+ label.off('drag');
+ label.cursor = defaultLabelAttr.cursor;
+ }
+ }
+ };
+ LabelManager.prototype.layout = function (api) {
+ var width = api.getWidth();
+ var height = api.getHeight();
+ var labelList = prepareLayoutList(this._labelList);
+ var labelsNeedsAdjustOnX = filter(labelList, function (item) {
+ return item.layoutOption.moveOverlap === 'shiftX';
+ });
+ var labelsNeedsAdjustOnY = filter(labelList, function (item) {
+ return item.layoutOption.moveOverlap === 'shiftY';
+ });
+ shiftLayoutOnX(labelsNeedsAdjustOnX, 0, width);
+ shiftLayoutOnY(labelsNeedsAdjustOnY, 0, height);
+ var labelsNeedsHideOverlap = filter(labelList, function (item) {
+ return item.layoutOption.hideOverlap;
+ });
+ hideOverlap(labelsNeedsHideOverlap);
+ };
+ /**
+ * Process all labels. Not only labels with layoutOption.
+ */
+ LabelManager.prototype.processLabelsOverall = function () {
+ var _this = this;
+ each(this._chartViewList, function (chartView) {
+ var seriesModel = chartView.__model;
+ var ignoreLabelLineUpdate = chartView.ignoreLabelLineUpdate;
+ var animationEnabled = seriesModel.isAnimationEnabled();
+ chartView.group.traverse(function (child) {
+ if (child.ignore && !child.forceLabelAnimation) {
+ return true; // Stop traverse descendants.
+ }
+
+ var needsUpdateLabelLine = !ignoreLabelLineUpdate;
+ var label = child.getTextContent();
+ if (!needsUpdateLabelLine && label) {
+ needsUpdateLabelLine = labelLayoutInnerStore(label).needsUpdateLabelLine;
+ }
+ if (needsUpdateLabelLine) {
+ _this._updateLabelLine(child, seriesModel);
+ }
+ if (animationEnabled) {
+ _this._animateLabels(child, seriesModel);
+ }
+ });
+ });
+ };
+ LabelManager.prototype._updateLabelLine = function (el, seriesModel) {
+ // Only support label being hosted on graphic elements.
+ var textEl = el.getTextContent();
+ // Update label line style.
+ var ecData = getECData(el);
+ var dataIndex = ecData.dataIndex;
+ // Only support labelLine on the labels represent data.
+ if (textEl && dataIndex != null) {
+ var data = seriesModel.getData(ecData.dataType);
+ var itemModel = data.getItemModel(dataIndex);
+ var defaultStyle = {};
+ var visualStyle = data.getItemVisual(dataIndex, 'style');
+ if (visualStyle) {
+ var visualType = data.getVisual('drawType');
+ // Default to be same with main color
+ defaultStyle.stroke = visualStyle[visualType];
+ }
+ var labelLineModel = itemModel.getModel('labelLine');
+ setLabelLineStyle(el, getLabelLineStatesModels(itemModel), defaultStyle);
+ updateLabelLinePoints(el, labelLineModel);
+ }
+ };
+ LabelManager.prototype._animateLabels = function (el, seriesModel) {
+ var textEl = el.getTextContent();
+ var guideLine = el.getTextGuideLine();
+ // Animate
+ if (textEl
+ // `forceLabelAnimation` has the highest priority
+ && (el.forceLabelAnimation || !textEl.ignore && !textEl.invisible && !el.disableLabelAnimation && !isElementRemoved(el))) {
+ var layoutStore = labelLayoutInnerStore(textEl);
+ var oldLayout = layoutStore.oldLayout;
+ var ecData = getECData(el);
+ var dataIndex = ecData.dataIndex;
+ var newProps = {
+ x: textEl.x,
+ y: textEl.y,
+ rotation: textEl.rotation
+ };
+ var data = seriesModel.getData(ecData.dataType);
+ if (!oldLayout) {
+ textEl.attr(newProps);
+ // Disable fade in animation if value animation is enabled.
+ if (!labelInner(textEl).valueAnimation) {
+ var oldOpacity = retrieve2(textEl.style.opacity, 1);
+ // Fade in animation
+ textEl.style.opacity = 0;
+ initProps(textEl, {
+ style: {
+ opacity: oldOpacity
+ }
+ }, seriesModel, dataIndex);
+ }
+ } else {
+ textEl.attr(oldLayout);
+ // Make sure the animation from is in the right status.
+ var prevStates = el.prevStates;
+ if (prevStates) {
+ if (indexOf(prevStates, 'select') >= 0) {
+ textEl.attr(layoutStore.oldLayoutSelect);
+ }
+ if (indexOf(prevStates, 'emphasis') >= 0) {
+ textEl.attr(layoutStore.oldLayoutEmphasis);
+ }
+ }
+ updateProps(textEl, newProps, seriesModel, dataIndex);
+ }
+ layoutStore.oldLayout = newProps;
+ if (textEl.states.select) {
+ var layoutSelect = layoutStore.oldLayoutSelect = {};
+ extendWithKeys(layoutSelect, newProps, LABEL_LAYOUT_PROPS);
+ extendWithKeys(layoutSelect, textEl.states.select, LABEL_LAYOUT_PROPS);
+ }
+ if (textEl.states.emphasis) {
+ var layoutEmphasis = layoutStore.oldLayoutEmphasis = {};
+ extendWithKeys(layoutEmphasis, newProps, LABEL_LAYOUT_PROPS);
+ extendWithKeys(layoutEmphasis, textEl.states.emphasis, LABEL_LAYOUT_PROPS);
+ }
+ animateLabelValue(textEl, dataIndex, data, seriesModel, seriesModel);
+ }
+ if (guideLine && !guideLine.ignore && !guideLine.invisible) {
+ var layoutStore = labelLineAnimationStore(guideLine);
+ var oldLayout = layoutStore.oldLayout;
+ var newLayout = {
+ points: guideLine.shape.points
+ };
+ if (!oldLayout) {
+ guideLine.setShape(newLayout);
+ guideLine.style.strokePercent = 0;
+ initProps(guideLine, {
+ style: {
+ strokePercent: 1
+ }
+ }, seriesModel);
+ } else {
+ guideLine.attr({
+ shape: oldLayout
+ });
+ updateProps(guideLine, {
+ shape: newLayout
+ }, seriesModel);
+ }
+ layoutStore.oldLayout = newLayout;
+ }
+ };
+ return LabelManager;
+ }();
+
+ var getLabelManager = makeInner();
+ function installLabelLayout(registers) {
+ registers.registerUpdateLifecycle('series:beforeupdate', function (ecModel, api, params) {
+ // TODO api provide an namespace that can save stuff per instance
+ var labelManager = getLabelManager(api).labelManager;
+ if (!labelManager) {
+ labelManager = getLabelManager(api).labelManager = new LabelManager();
+ }
+ labelManager.clearLabels();
+ });
+ registers.registerUpdateLifecycle('series:layoutlabels', function (ecModel, api, params) {
+ var labelManager = getLabelManager(api).labelManager;
+ params.updatedSeries.forEach(function (series) {
+ labelManager.addLabelsOfSeries(api.getViewOfSeriesModel(series));
+ });
+ labelManager.updateLayoutConfig(api);
+ labelManager.layout(api);
+ labelManager.processLabelsOverall();
+ });
+ }
+
+ var mathSin$4 = Math.sin;
+ var mathCos$4 = Math.cos;
+ var PI$4 = Math.PI;
+ var PI2$7 = Math.PI * 2;
+ var degree = 180 / PI$4;
+ var SVGPathRebuilder = (function () {
+ function SVGPathRebuilder() {
+ }
+ SVGPathRebuilder.prototype.reset = function (precision) {
+ this._start = true;
+ this._d = [];
+ this._str = '';
+ this._p = Math.pow(10, precision || 4);
+ };
+ SVGPathRebuilder.prototype.moveTo = function (x, y) {
+ this._add('M', x, y);
+ };
+ SVGPathRebuilder.prototype.lineTo = function (x, y) {
+ this._add('L', x, y);
+ };
+ SVGPathRebuilder.prototype.bezierCurveTo = function (x, y, x2, y2, x3, y3) {
+ this._add('C', x, y, x2, y2, x3, y3);
+ };
+ SVGPathRebuilder.prototype.quadraticCurveTo = function (x, y, x2, y2) {
+ this._add('Q', x, y, x2, y2);
+ };
+ SVGPathRebuilder.prototype.arc = function (cx, cy, r, startAngle, endAngle, anticlockwise) {
+ this.ellipse(cx, cy, r, r, 0, startAngle, endAngle, anticlockwise);
+ };
+ SVGPathRebuilder.prototype.ellipse = function (cx, cy, rx, ry, psi, startAngle, endAngle, anticlockwise) {
+ var dTheta = endAngle - startAngle;
+ var clockwise = !anticlockwise;
+ var dThetaPositive = Math.abs(dTheta);
+ var isCircle = isAroundZero$1(dThetaPositive - PI2$7)
+ || (clockwise ? dTheta >= PI2$7 : -dTheta >= PI2$7);
+ var unifiedTheta = dTheta > 0 ? dTheta % PI2$7 : (dTheta % PI2$7 + PI2$7);
+ var large = false;
+ if (isCircle) {
+ large = true;
+ }
+ else if (isAroundZero$1(dThetaPositive)) {
+ large = false;
+ }
+ else {
+ large = (unifiedTheta >= PI$4) === !!clockwise;
+ }
+ var x0 = cx + rx * mathCos$4(startAngle);
+ var y0 = cy + ry * mathSin$4(startAngle);
+ if (this._start) {
+ this._add('M', x0, y0);
+ }
+ var xRot = Math.round(psi * degree);
+ if (isCircle) {
+ var p = 1 / this._p;
+ var dTheta_1 = (clockwise ? 1 : -1) * (PI2$7 - p);
+ this._add('A', rx, ry, xRot, 1, +clockwise, cx + rx * mathCos$4(startAngle + dTheta_1), cy + ry * mathSin$4(startAngle + dTheta_1));
+ if (p > 1e-2) {
+ this._add('A', rx, ry, xRot, 0, +clockwise, x0, y0);
+ }
+ }
+ else {
+ var x = cx + rx * mathCos$4(endAngle);
+ var y = cy + ry * mathSin$4(endAngle);
+ this._add('A', rx, ry, xRot, +large, +clockwise, x, y);
+ }
+ };
+ SVGPathRebuilder.prototype.rect = function (x, y, w, h) {
+ this._add('M', x, y);
+ this._add('l', w, 0);
+ this._add('l', 0, h);
+ this._add('l', -w, 0);
+ this._add('Z');
+ };
+ SVGPathRebuilder.prototype.closePath = function () {
+ if (this._d.length > 0) {
+ this._add('Z');
+ }
+ };
+ SVGPathRebuilder.prototype._add = function (cmd, a, b, c, d, e, f, g, h) {
+ var vals = [];
+ var p = this._p;
+ for (var i = 1; i < arguments.length; i++) {
+ var val = arguments[i];
+ if (isNaN(val)) {
+ this._invalid = true;
+ return;
+ }
+ vals.push(Math.round(val * p) / p);
+ }
+ this._d.push(cmd + vals.join(' '));
+ this._start = cmd === 'Z';
+ };
+ SVGPathRebuilder.prototype.generateStr = function () {
+ this._str = this._invalid ? '' : this._d.join('');
+ this._d = [];
+ };
+ SVGPathRebuilder.prototype.getStr = function () {
+ return this._str;
+ };
+ return SVGPathRebuilder;
+ }());
+
+ var NONE = 'none';
+ var mathRound$1 = Math.round;
+ function pathHasFill(style) {
+ var fill = style.fill;
+ return fill != null && fill !== NONE;
+ }
+ function pathHasStroke(style) {
+ var stroke = style.stroke;
+ return stroke != null && stroke !== NONE;
+ }
+ var strokeProps = ['lineCap', 'miterLimit', 'lineJoin'];
+ var svgStrokeProps = map(strokeProps, function (prop) { return "stroke-" + prop.toLowerCase(); });
+ function mapStyleToAttrs(updateAttr, style, el, forceUpdate) {
+ var opacity = style.opacity == null ? 1 : style.opacity;
+ if (el instanceof ZRImage) {
+ updateAttr('opacity', opacity);
+ return;
+ }
+ if (pathHasFill(style)) {
+ var fill = normalizeColor(style.fill);
+ updateAttr('fill', fill.color);
+ var fillOpacity = style.fillOpacity != null
+ ? style.fillOpacity * fill.opacity * opacity
+ : fill.opacity * opacity;
+ if (forceUpdate || fillOpacity < 1) {
+ updateAttr('fill-opacity', fillOpacity);
+ }
+ }
+ else {
+ updateAttr('fill', NONE);
+ }
+ if (pathHasStroke(style)) {
+ var stroke = normalizeColor(style.stroke);
+ updateAttr('stroke', stroke.color);
+ var strokeScale = style.strokeNoScale
+ ? el.getLineScale()
+ : 1;
+ var strokeWidth = (strokeScale ? (style.lineWidth || 0) / strokeScale : 0);
+ var strokeOpacity = style.strokeOpacity != null
+ ? style.strokeOpacity * stroke.opacity * opacity
+ : stroke.opacity * opacity;
+ var strokeFirst = style.strokeFirst;
+ if (forceUpdate || strokeWidth !== 1) {
+ updateAttr('stroke-width', strokeWidth);
+ }
+ if (forceUpdate || strokeFirst) {
+ updateAttr('paint-order', strokeFirst ? 'stroke' : 'fill');
+ }
+ if (forceUpdate || strokeOpacity < 1) {
+ updateAttr('stroke-opacity', strokeOpacity);
+ }
+ if (style.lineDash) {
+ var _a = getLineDash(el), lineDash = _a[0], lineDashOffset = _a[1];
+ if (lineDash) {
+ lineDashOffset = mathRound$1(lineDashOffset || 0);
+ updateAttr('stroke-dasharray', lineDash.join(','));
+ if (lineDashOffset || forceUpdate) {
+ updateAttr('stroke-dashoffset', lineDashOffset);
+ }
+ }
+ }
+ else if (forceUpdate) {
+ updateAttr('stroke-dasharray', NONE);
+ }
+ for (var i = 0; i < strokeProps.length; i++) {
+ var propName = strokeProps[i];
+ if (forceUpdate || style[propName] !== DEFAULT_PATH_STYLE[propName]) {
+ var val = style[propName] || DEFAULT_PATH_STYLE[propName];
+ val && updateAttr(svgStrokeProps[i], val);
+ }
+ }
+ }
+ else if (forceUpdate) {
+ updateAttr('stroke', NONE);
+ }
+ }
+
+ var SVGNS = 'http://www.w3.org/2000/svg';
+ var XLINKNS = 'http://www.w3.org/1999/xlink';
+ var XMLNS = 'http://www.w3.org/2000/xmlns/';
+ var XML_NAMESPACE = 'http://www.w3.org/XML/1998/namespace';
+ var META_DATA_PREFIX = 'ecmeta_';
+ function createElement(name) {
+ return document.createElementNS(SVGNS, name);
+ }
+ function createVNode(tag, key, attrs, children, text) {
+ return {
+ tag: tag,
+ attrs: attrs || {},
+ children: children,
+ text: text,
+ key: key
+ };
+ }
+ function createElementOpen(name, attrs) {
+ var attrsStr = [];
+ if (attrs) {
+ for (var key in attrs) {
+ var val = attrs[key];
+ var part = key;
+ if (val === false) {
+ continue;
+ }
+ else if (val !== true && val != null) {
+ part += "=\"" + val + "\"";
+ }
+ attrsStr.push(part);
+ }
+ }
+ return "<" + name + " " + attrsStr.join(' ') + ">";
+ }
+ function createElementClose(name) {
+ return "";
+ }
+ function vNodeToString(el, opts) {
+ opts = opts || {};
+ var S = opts.newline ? '\n' : '';
+ function convertElToString(el) {
+ var children = el.children, tag = el.tag, attrs = el.attrs, text = el.text;
+ return createElementOpen(tag, attrs)
+ + (tag !== 'style' ? encodeHTML(text) : text || '')
+ + (children ? "" + S + map(children, function (child) { return convertElToString(child); }).join(S) + S : '')
+ + createElementClose(tag);
+ }
+ return convertElToString(el);
+ }
+ function getCssString(selectorNodes, animationNodes, opts) {
+ opts = opts || {};
+ var S = opts.newline ? '\n' : '';
+ var bracketBegin = " {" + S;
+ var bracketEnd = S + "}";
+ var selectors = map(keys(selectorNodes), function (className) {
+ return className + bracketBegin + map(keys(selectorNodes[className]), function (attrName) {
+ return attrName + ":" + selectorNodes[className][attrName] + ";";
+ }).join(S) + bracketEnd;
+ }).join(S);
+ var animations = map(keys(animationNodes), function (animationName) {
+ return "@keyframes " + animationName + bracketBegin + map(keys(animationNodes[animationName]), function (percent) {
+ return percent + bracketBegin + map(keys(animationNodes[animationName][percent]), function (attrName) {
+ var val = animationNodes[animationName][percent][attrName];
+ if (attrName === 'd') {
+ val = "path(\"" + val + "\")";
+ }
+ return attrName + ":" + val + ";";
+ }).join(S) + bracketEnd;
+ }).join(S) + bracketEnd;
+ }).join(S);
+ if (!selectors && !animations) {
+ return '';
+ }
+ return [''].join(S);
+ }
+ function createBrushScope(zrId) {
+ return {
+ zrId: zrId,
+ shadowCache: {},
+ patternCache: {},
+ gradientCache: {},
+ clipPathCache: {},
+ defs: {},
+ cssNodes: {},
+ cssAnims: {},
+ cssStyleCache: {},
+ cssAnimIdx: 0,
+ shadowIdx: 0,
+ gradientIdx: 0,
+ patternIdx: 0,
+ clipPathIdx: 0
+ };
+ }
+ function createSVGVNode(width, height, children, useViewBox) {
+ return createVNode('svg', 'root', {
+ 'width': width,
+ 'height': height,
+ 'xmlns': SVGNS,
+ 'xmlns:xlink': XLINKNS,
+ 'version': '1.1',
+ 'baseProfile': 'full',
+ 'viewBox': useViewBox ? "0 0 " + width + " " + height : false
+ }, children);
+ }
+
+ var cssClassIdx = 0;
+ function getClassId() {
+ return cssClassIdx++;
+ }
+
+ var EASING_MAP = {
+ cubicIn: '0.32,0,0.67,0',
+ cubicOut: '0.33,1,0.68,1',
+ cubicInOut: '0.65,0,0.35,1',
+ quadraticIn: '0.11,0,0.5,0',
+ quadraticOut: '0.5,1,0.89,1',
+ quadraticInOut: '0.45,0,0.55,1',
+ quarticIn: '0.5,0,0.75,0',
+ quarticOut: '0.25,1,0.5,1',
+ quarticInOut: '0.76,0,0.24,1',
+ quinticIn: '0.64,0,0.78,0',
+ quinticOut: '0.22,1,0.36,1',
+ quinticInOut: '0.83,0,0.17,1',
+ sinusoidalIn: '0.12,0,0.39,0',
+ sinusoidalOut: '0.61,1,0.88,1',
+ sinusoidalInOut: '0.37,0,0.63,1',
+ exponentialIn: '0.7,0,0.84,0',
+ exponentialOut: '0.16,1,0.3,1',
+ exponentialInOut: '0.87,0,0.13,1',
+ circularIn: '0.55,0,1,0.45',
+ circularOut: '0,0.55,0.45,1',
+ circularInOut: '0.85,0,0.15,1'
+ };
+ var transformOriginKey = 'transform-origin';
+ function buildPathString(el, kfShape, path) {
+ var shape = extend({}, el.shape);
+ extend(shape, kfShape);
+ el.buildPath(path, shape);
+ var svgPathBuilder = new SVGPathRebuilder();
+ svgPathBuilder.reset(getPathPrecision(el));
+ path.rebuildPath(svgPathBuilder, 1);
+ svgPathBuilder.generateStr();
+ return svgPathBuilder.getStr();
+ }
+ function setTransformOrigin(target, transform) {
+ var originX = transform.originX, originY = transform.originY;
+ if (originX || originY) {
+ target[transformOriginKey] = originX + "px " + originY + "px";
+ }
+ }
+ var ANIMATE_STYLE_MAP = {
+ fill: 'fill',
+ opacity: 'opacity',
+ lineWidth: 'stroke-width',
+ lineDashOffset: 'stroke-dashoffset'
+ };
+ function addAnimation(cssAnim, scope) {
+ var animationName = scope.zrId + '-ani-' + scope.cssAnimIdx++;
+ scope.cssAnims[animationName] = cssAnim;
+ return animationName;
+ }
+ function createCompoundPathCSSAnimation(el, attrs, scope) {
+ var paths = el.shape.paths;
+ var composedAnim = {};
+ var cssAnimationCfg;
+ var cssAnimationName;
+ each(paths, function (path) {
+ var subScope = createBrushScope(scope.zrId);
+ subScope.animation = true;
+ createCSSAnimation(path, {}, subScope, true);
+ var cssAnims = subScope.cssAnims;
+ var cssNodes = subScope.cssNodes;
+ var animNames = keys(cssAnims);
+ var len = animNames.length;
+ if (!len) {
+ return;
+ }
+ cssAnimationName = animNames[len - 1];
+ var lastAnim = cssAnims[cssAnimationName];
+ for (var percent in lastAnim) {
+ var kf = lastAnim[percent];
+ composedAnim[percent] = composedAnim[percent] || { d: '' };
+ composedAnim[percent].d += kf.d || '';
+ }
+ for (var className in cssNodes) {
+ var val = cssNodes[className].animation;
+ if (val.indexOf(cssAnimationName) >= 0) {
+ cssAnimationCfg = val;
+ }
+ }
+ });
+ if (!cssAnimationCfg) {
+ return;
+ }
+ attrs.d = false;
+ var animationName = addAnimation(composedAnim, scope);
+ return cssAnimationCfg.replace(cssAnimationName, animationName);
+ }
+ function getEasingFunc(easing) {
+ return isString(easing)
+ ? EASING_MAP[easing]
+ ? "cubic-bezier(" + EASING_MAP[easing] + ")"
+ : createCubicEasingFunc(easing) ? easing : ''
+ : '';
+ }
+ function createCSSAnimation(el, attrs, scope, onlyShape) {
+ var animators = el.animators;
+ var len = animators.length;
+ var cssAnimations = [];
+ if (el instanceof CompoundPath) {
+ var animationCfg = createCompoundPathCSSAnimation(el, attrs, scope);
+ if (animationCfg) {
+ cssAnimations.push(animationCfg);
+ }
+ else if (!len) {
+ return;
+ }
+ }
+ else if (!len) {
+ return;
+ }
+ var groupAnimators = {};
+ for (var i = 0; i < len; i++) {
+ var animator = animators[i];
+ var cfgArr = [animator.getMaxTime() / 1000 + 's'];
+ var easing = getEasingFunc(animator.getClip().easing);
+ var delay = animator.getDelay();
+ if (easing) {
+ cfgArr.push(easing);
+ }
+ else {
+ cfgArr.push('linear');
+ }
+ if (delay) {
+ cfgArr.push(delay / 1000 + 's');
+ }
+ if (animator.getLoop()) {
+ cfgArr.push('infinite');
+ }
+ var cfg = cfgArr.join(' ');
+ groupAnimators[cfg] = groupAnimators[cfg] || [cfg, []];
+ groupAnimators[cfg][1].push(animator);
+ }
+ function createSingleCSSAnimation(groupAnimator) {
+ var animators = groupAnimator[1];
+ var len = animators.length;
+ var transformKfs = {};
+ var shapeKfs = {};
+ var finalKfs = {};
+ var animationTimingFunctionAttrName = 'animation-timing-function';
+ function saveAnimatorTrackToCssKfs(animator, cssKfs, toCssAttrName) {
+ var tracks = animator.getTracks();
+ var maxTime = animator.getMaxTime();
+ for (var k = 0; k < tracks.length; k++) {
+ var track = tracks[k];
+ if (track.needsAnimate()) {
+ var kfs = track.keyframes;
+ var attrName = track.propName;
+ toCssAttrName && (attrName = toCssAttrName(attrName));
+ if (attrName) {
+ for (var i = 0; i < kfs.length; i++) {
+ var kf = kfs[i];
+ var percent = Math.round(kf.time / maxTime * 100) + '%';
+ var kfEasing = getEasingFunc(kf.easing);
+ var rawValue = kf.rawValue;
+ if (isString(rawValue) || isNumber(rawValue)) {
+ cssKfs[percent] = cssKfs[percent] || {};
+ cssKfs[percent][attrName] = kf.rawValue;
+ if (kfEasing) {
+ cssKfs[percent][animationTimingFunctionAttrName] = kfEasing;
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ for (var i = 0; i < len; i++) {
+ var animator = animators[i];
+ var targetProp = animator.targetName;
+ if (!targetProp) {
+ !onlyShape && saveAnimatorTrackToCssKfs(animator, transformKfs);
+ }
+ else if (targetProp === 'shape') {
+ saveAnimatorTrackToCssKfs(animator, shapeKfs);
+ }
+ }
+ for (var percent in transformKfs) {
+ var transform = {};
+ copyTransform(transform, el);
+ extend(transform, transformKfs[percent]);
+ var str = getSRTTransformString(transform);
+ var timingFunction = transformKfs[percent][animationTimingFunctionAttrName];
+ finalKfs[percent] = str ? {
+ transform: str
+ } : {};
+ setTransformOrigin(finalKfs[percent], transform);
+ if (timingFunction) {
+ finalKfs[percent][animationTimingFunctionAttrName] = timingFunction;
+ }
+ }
+ var path;
+ var canAnimateShape = true;
+ for (var percent in shapeKfs) {
+ finalKfs[percent] = finalKfs[percent] || {};
+ var isFirst = !path;
+ var timingFunction = shapeKfs[percent][animationTimingFunctionAttrName];
+ if (isFirst) {
+ path = new PathProxy();
+ }
+ var len_1 = path.len();
+ path.reset();
+ finalKfs[percent].d = buildPathString(el, shapeKfs[percent], path);
+ var newLen = path.len();
+ if (!isFirst && len_1 !== newLen) {
+ canAnimateShape = false;
+ break;
+ }
+ if (timingFunction) {
+ finalKfs[percent][animationTimingFunctionAttrName] = timingFunction;
+ }
+ }
+ if (!canAnimateShape) {
+ for (var percent in finalKfs) {
+ delete finalKfs[percent].d;
+ }
+ }
+ if (!onlyShape) {
+ for (var i = 0; i < len; i++) {
+ var animator = animators[i];
+ var targetProp = animator.targetName;
+ if (targetProp === 'style') {
+ saveAnimatorTrackToCssKfs(animator, finalKfs, function (propName) { return ANIMATE_STYLE_MAP[propName]; });
+ }
+ }
+ }
+ var percents = keys(finalKfs);
+ var allTransformOriginSame = true;
+ var transformOrigin;
+ for (var i = 1; i < percents.length; i++) {
+ var p0 = percents[i - 1];
+ var p1 = percents[i];
+ if (finalKfs[p0][transformOriginKey] !== finalKfs[p1][transformOriginKey]) {
+ allTransformOriginSame = false;
+ break;
+ }
+ transformOrigin = finalKfs[p0][transformOriginKey];
+ }
+ if (allTransformOriginSame && transformOrigin) {
+ for (var percent in finalKfs) {
+ if (finalKfs[percent][transformOriginKey]) {
+ delete finalKfs[percent][transformOriginKey];
+ }
+ }
+ attrs[transformOriginKey] = transformOrigin;
+ }
+ if (filter(percents, function (percent) { return keys(finalKfs[percent]).length > 0; }).length) {
+ var animationName = addAnimation(finalKfs, scope);
+ return animationName + " " + groupAnimator[0] + " both";
+ }
+ }
+ for (var key in groupAnimators) {
+ var animationCfg = createSingleCSSAnimation(groupAnimators[key]);
+ if (animationCfg) {
+ cssAnimations.push(animationCfg);
+ }
+ }
+ if (cssAnimations.length) {
+ var className = scope.zrId + '-cls-' + getClassId();
+ scope.cssNodes['.' + className] = {
+ animation: cssAnimations.join(',')
+ };
+ attrs["class"] = className;
+ }
+ }
+
+ function createCSSEmphasis(el, attrs, scope) {
+ if (!el.ignore) {
+ if (el.isSilent()) {
+ var style = {
+ 'pointer-events': 'none'
+ };
+ setClassAttribute(style, attrs, scope, true);
+ }
+ else {
+ var emphasisStyle = el.states.emphasis && el.states.emphasis.style
+ ? el.states.emphasis.style
+ : {};
+ var fill = emphasisStyle.fill;
+ if (!fill) {
+ var normalFill = el.style && el.style.fill;
+ var selectFill = el.states.select
+ && el.states.select.style
+ && el.states.select.style.fill;
+ var fromFill = el.currentStates.indexOf('select') >= 0
+ ? (selectFill || normalFill)
+ : normalFill;
+ if (fromFill) {
+ fill = liftColor(fromFill);
+ }
+ }
+ var lineWidth = emphasisStyle.lineWidth;
+ if (lineWidth) {
+ var scaleX = (!emphasisStyle.strokeNoScale && el.transform)
+ ? el.transform[0]
+ : 1;
+ lineWidth = lineWidth / scaleX;
+ }
+ var style = {
+ cursor: 'pointer'
+ };
+ if (fill) {
+ style.fill = fill;
+ }
+ if (emphasisStyle.stroke) {
+ style.stroke = emphasisStyle.stroke;
+ }
+ if (lineWidth) {
+ style['stroke-width'] = lineWidth;
+ }
+ setClassAttribute(style, attrs, scope, true);
+ }
+ }
+ }
+ function setClassAttribute(style, attrs, scope, withHover) {
+ var styleKey = JSON.stringify(style);
+ var className = scope.cssStyleCache[styleKey];
+ if (!className) {
+ className = scope.zrId + '-cls-' + getClassId();
+ scope.cssStyleCache[styleKey] = className;
+ scope.cssNodes['.' + className + (withHover ? ':hover' : '')] = style;
+ }
+ attrs["class"] = attrs["class"] ? (attrs["class"] + ' ' + className) : className;
+ }
+
+ var round$2 = Math.round;
+ function isImageLike$1(val) {
+ return val && isString(val.src);
+ }
+ function isCanvasLike(val) {
+ return val && isFunction(val.toDataURL);
+ }
+ function setStyleAttrs(attrs, style, el, scope) {
+ mapStyleToAttrs(function (key, val) {
+ var isFillStroke = key === 'fill' || key === 'stroke';
+ if (isFillStroke && isGradient(val)) {
+ setGradient(style, attrs, key, scope);
+ }
+ else if (isFillStroke && isPattern(val)) {
+ setPattern(el, attrs, key, scope);
+ }
+ else if (isFillStroke && val === 'none') {
+ attrs[key] = 'transparent';
+ }
+ else {
+ attrs[key] = val;
+ }
+ }, style, el, false);
+ setShadow(el, attrs, scope);
+ }
+ function setMetaData(attrs, el) {
+ var metaData = getElementSSRData(el);
+ if (metaData) {
+ metaData.each(function (val, key) {
+ val != null && (attrs[(META_DATA_PREFIX + key).toLowerCase()] = val + '');
+ });
+ if (el.isSilent()) {
+ attrs[META_DATA_PREFIX + 'silent'] = 'true';
+ }
+ }
+ }
+ function noRotateScale(m) {
+ return isAroundZero$1(m[0] - 1)
+ && isAroundZero$1(m[1])
+ && isAroundZero$1(m[2])
+ && isAroundZero$1(m[3] - 1);
+ }
+ function noTranslate(m) {
+ return isAroundZero$1(m[4]) && isAroundZero$1(m[5]);
+ }
+ function setTransform(attrs, m, compress) {
+ if (m && !(noTranslate(m) && noRotateScale(m))) {
+ var mul = compress ? 10 : 1e4;
+ attrs.transform = noRotateScale(m)
+ ? "translate(" + round$2(m[4] * mul) / mul + " " + round$2(m[5] * mul) / mul + ")" : getMatrixStr(m);
+ }
+ }
+ function convertPolyShape(shape, attrs, mul) {
+ var points = shape.points;
+ var strArr = [];
+ for (var i = 0; i < points.length; i++) {
+ strArr.push(round$2(points[i][0] * mul) / mul);
+ strArr.push(round$2(points[i][1] * mul) / mul);
+ }
+ attrs.points = strArr.join(' ');
+ }
+ function validatePolyShape(shape) {
+ return !shape.smooth;
+ }
+ function createAttrsConvert(desc) {
+ var normalizedDesc = map(desc, function (item) {
+ return (typeof item === 'string' ? [item, item] : item);
+ });
+ return function (shape, attrs, mul) {
+ for (var i = 0; i < normalizedDesc.length; i++) {
+ var item = normalizedDesc[i];
+ var val = shape[item[0]];
+ if (val != null) {
+ attrs[item[1]] = round$2(val * mul) / mul;
+ }
+ }
+ };
+ }
+ var builtinShapesDef = {
+ circle: [createAttrsConvert(['cx', 'cy', 'r'])],
+ polyline: [convertPolyShape, validatePolyShape],
+ polygon: [convertPolyShape, validatePolyShape]
+ };
+ function hasShapeAnimation(el) {
+ var animators = el.animators;
+ for (var i = 0; i < animators.length; i++) {
+ if (animators[i].targetName === 'shape') {
+ return true;
+ }
+ }
+ return false;
+ }
+ function brushSVGPath(el, scope) {
+ var style = el.style;
+ var shape = el.shape;
+ var builtinShpDef = builtinShapesDef[el.type];
+ var attrs = {};
+ var needsAnimate = scope.animation;
+ var svgElType = 'path';
+ var strokePercent = el.style.strokePercent;
+ var precision = (scope.compress && getPathPrecision(el)) || 4;
+ if (builtinShpDef
+ && !scope.willUpdate
+ && !(builtinShpDef[1] && !builtinShpDef[1](shape))
+ && !(needsAnimate && hasShapeAnimation(el))
+ && !(strokePercent < 1)) {
+ svgElType = el.type;
+ var mul = Math.pow(10, precision);
+ builtinShpDef[0](shape, attrs, mul);
+ }
+ else {
+ var needBuildPath = !el.path || el.shapeChanged();
+ if (!el.path) {
+ el.createPathProxy();
+ }
+ var path = el.path;
+ if (needBuildPath) {
+ path.beginPath();
+ el.buildPath(path, el.shape);
+ el.pathUpdated();
+ }
+ var pathVersion = path.getVersion();
+ var elExt = el;
+ var svgPathBuilder = elExt.__svgPathBuilder;
+ if (elExt.__svgPathVersion !== pathVersion
+ || !svgPathBuilder
+ || strokePercent !== elExt.__svgPathStrokePercent) {
+ if (!svgPathBuilder) {
+ svgPathBuilder = elExt.__svgPathBuilder = new SVGPathRebuilder();
+ }
+ svgPathBuilder.reset(precision);
+ path.rebuildPath(svgPathBuilder, strokePercent);
+ svgPathBuilder.generateStr();
+ elExt.__svgPathVersion = pathVersion;
+ elExt.__svgPathStrokePercent = strokePercent;
+ }
+ attrs.d = svgPathBuilder.getStr();
+ }
+ setTransform(attrs, el.transform);
+ setStyleAttrs(attrs, style, el, scope);
+ setMetaData(attrs, el);
+ scope.animation && createCSSAnimation(el, attrs, scope);
+ scope.emphasis && createCSSEmphasis(el, attrs, scope);
+ return createVNode(svgElType, el.id + '', attrs);
+ }
+ function brushSVGImage(el, scope) {
+ var style = el.style;
+ var image = style.image;
+ if (image && !isString(image)) {
+ if (isImageLike$1(image)) {
+ image = image.src;
+ }
+ else if (isCanvasLike(image)) {
+ image = image.toDataURL();
+ }
+ }
+ if (!image) {
+ return;
+ }
+ var x = style.x || 0;
+ var y = style.y || 0;
+ var dw = style.width;
+ var dh = style.height;
+ var attrs = {
+ href: image,
+ width: dw,
+ height: dh
+ };
+ if (x) {
+ attrs.x = x;
+ }
+ if (y) {
+ attrs.y = y;
+ }
+ setTransform(attrs, el.transform);
+ setStyleAttrs(attrs, style, el, scope);
+ setMetaData(attrs, el);
+ scope.animation && createCSSAnimation(el, attrs, scope);
+ return createVNode('image', el.id + '', attrs);
+ }
+ function brushSVGTSpan(el, scope) {
+ var style = el.style;
+ var text = style.text;
+ text != null && (text += '');
+ if (!text || isNaN(style.x) || isNaN(style.y)) {
+ return;
+ }
+ var font = style.font || DEFAULT_FONT;
+ var x = style.x || 0;
+ var y = adjustTextY(style.y || 0, getLineHeight(font), style.textBaseline);
+ var textAlign = TEXT_ALIGN_TO_ANCHOR[style.textAlign]
+ || style.textAlign;
+ var attrs = {
+ 'dominant-baseline': 'central',
+ 'text-anchor': textAlign
+ };
+ if (hasSeparateFont(style)) {
+ var separatedFontStr = '';
+ var fontStyle = style.fontStyle;
+ var fontSize = parseFontSize(style.fontSize);
+ if (!parseFloat(fontSize)) {
+ return;
+ }
+ var fontFamily = style.fontFamily || DEFAULT_FONT_FAMILY;
+ var fontWeight = style.fontWeight;
+ separatedFontStr += "font-size:" + fontSize + ";font-family:" + fontFamily + ";";
+ if (fontStyle && fontStyle !== 'normal') {
+ separatedFontStr += "font-style:" + fontStyle + ";";
+ }
+ if (fontWeight && fontWeight !== 'normal') {
+ separatedFontStr += "font-weight:" + fontWeight + ";";
+ }
+ attrs.style = separatedFontStr;
+ }
+ else {
+ attrs.style = "font: " + font;
+ }
+ if (text.match(/\s/)) {
+ attrs['xml:space'] = 'preserve';
+ }
+ if (x) {
+ attrs.x = x;
+ }
+ if (y) {
+ attrs.y = y;
+ }
+ setTransform(attrs, el.transform);
+ setStyleAttrs(attrs, style, el, scope);
+ setMetaData(attrs, el);
+ scope.animation && createCSSAnimation(el, attrs, scope);
+ return createVNode('text', el.id + '', attrs, undefined, text);
+ }
+ function brush$1(el, scope) {
+ if (el instanceof Path) {
+ return brushSVGPath(el, scope);
+ }
+ else if (el instanceof ZRImage) {
+ return brushSVGImage(el, scope);
+ }
+ else if (el instanceof TSpan) {
+ return brushSVGTSpan(el, scope);
+ }
+ }
+ function setShadow(el, attrs, scope) {
+ var style = el.style;
+ if (hasShadow(style)) {
+ var shadowKey = getShadowKey(el);
+ var shadowCache = scope.shadowCache;
+ var shadowId = shadowCache[shadowKey];
+ if (!shadowId) {
+ var globalScale = el.getGlobalScale();
+ var scaleX = globalScale[0];
+ var scaleY = globalScale[1];
+ if (!scaleX || !scaleY) {
+ return;
+ }
+ var offsetX = style.shadowOffsetX || 0;
+ var offsetY = style.shadowOffsetY || 0;
+ var blur_1 = style.shadowBlur;
+ var _a = normalizeColor(style.shadowColor), opacity = _a.opacity, color = _a.color;
+ var stdDx = blur_1 / 2 / scaleX;
+ var stdDy = blur_1 / 2 / scaleY;
+ var stdDeviation = stdDx + ' ' + stdDy;
+ shadowId = scope.zrId + '-s' + scope.shadowIdx++;
+ scope.defs[shadowId] = createVNode('filter', shadowId, {
+ 'id': shadowId,
+ 'x': '-100%',
+ 'y': '-100%',
+ 'width': '300%',
+ 'height': '300%'
+ }, [
+ createVNode('feDropShadow', '', {
+ 'dx': offsetX / scaleX,
+ 'dy': offsetY / scaleY,
+ 'stdDeviation': stdDeviation,
+ 'flood-color': color,
+ 'flood-opacity': opacity
+ })
+ ]);
+ shadowCache[shadowKey] = shadowId;
+ }
+ attrs.filter = getIdURL(shadowId);
+ }
+ }
+ function setGradient(style, attrs, target, scope) {
+ var val = style[target];
+ var gradientTag;
+ var gradientAttrs = {
+ 'gradientUnits': val.global
+ ? 'userSpaceOnUse'
+ : 'objectBoundingBox'
+ };
+ if (isLinearGradient(val)) {
+ gradientTag = 'linearGradient';
+ gradientAttrs.x1 = val.x;
+ gradientAttrs.y1 = val.y;
+ gradientAttrs.x2 = val.x2;
+ gradientAttrs.y2 = val.y2;
+ }
+ else if (isRadialGradient(val)) {
+ gradientTag = 'radialGradient';
+ gradientAttrs.cx = retrieve2(val.x, 0.5);
+ gradientAttrs.cy = retrieve2(val.y, 0.5);
+ gradientAttrs.r = retrieve2(val.r, 0.5);
+ }
+ else {
+ if ("development" !== 'production') {
+ logError('Illegal gradient type.');
+ }
+ return;
+ }
+ var colors = val.colorStops;
+ var colorStops = [];
+ for (var i = 0, len = colors.length; i < len; ++i) {
+ var offset = round4(colors[i].offset) * 100 + '%';
+ var stopColor = colors[i].color;
+ var _a = normalizeColor(stopColor), color = _a.color, opacity = _a.opacity;
+ var stopsAttrs = {
+ 'offset': offset
+ };
+ stopsAttrs['stop-color'] = color;
+ if (opacity < 1) {
+ stopsAttrs['stop-opacity'] = opacity;
+ }
+ colorStops.push(createVNode('stop', i + '', stopsAttrs));
+ }
+ var gradientVNode = createVNode(gradientTag, '', gradientAttrs, colorStops);
+ var gradientKey = vNodeToString(gradientVNode);
+ var gradientCache = scope.gradientCache;
+ var gradientId = gradientCache[gradientKey];
+ if (!gradientId) {
+ gradientId = scope.zrId + '-g' + scope.gradientIdx++;
+ gradientCache[gradientKey] = gradientId;
+ gradientAttrs.id = gradientId;
+ scope.defs[gradientId] = createVNode(gradientTag, gradientId, gradientAttrs, colorStops);
+ }
+ attrs[target] = getIdURL(gradientId);
+ }
+ function setPattern(el, attrs, target, scope) {
+ var val = el.style[target];
+ var boundingRect = el.getBoundingRect();
+ var patternAttrs = {};
+ var repeat = val.repeat;
+ var noRepeat = repeat === 'no-repeat';
+ var repeatX = repeat === 'repeat-x';
+ var repeatY = repeat === 'repeat-y';
+ var child;
+ if (isImagePattern(val)) {
+ var imageWidth_1 = val.imageWidth;
+ var imageHeight_1 = val.imageHeight;
+ var imageSrc = void 0;
+ var patternImage = val.image;
+ if (isString(patternImage)) {
+ imageSrc = patternImage;
+ }
+ else if (isImageLike$1(patternImage)) {
+ imageSrc = patternImage.src;
+ }
+ else if (isCanvasLike(patternImage)) {
+ imageSrc = patternImage.toDataURL();
+ }
+ if (typeof Image === 'undefined') {
+ var errMsg = 'Image width/height must been given explictly in svg-ssr renderer.';
+ assert(imageWidth_1, errMsg);
+ assert(imageHeight_1, errMsg);
+ }
+ else if (imageWidth_1 == null || imageHeight_1 == null) {
+ var setSizeToVNode_1 = function (vNode, img) {
+ if (vNode) {
+ var svgEl = vNode.elm;
+ var width = imageWidth_1 || img.width;
+ var height = imageHeight_1 || img.height;
+ if (vNode.tag === 'pattern') {
+ if (repeatX) {
+ height = 1;
+ width /= boundingRect.width;
+ }
+ else if (repeatY) {
+ width = 1;
+ height /= boundingRect.height;
+ }
+ }
+ vNode.attrs.width = width;
+ vNode.attrs.height = height;
+ if (svgEl) {
+ svgEl.setAttribute('width', width);
+ svgEl.setAttribute('height', height);
+ }
+ }
+ };
+ var createdImage = createOrUpdateImage(imageSrc, null, el, function (img) {
+ noRepeat || setSizeToVNode_1(patternVNode, img);
+ setSizeToVNode_1(child, img);
+ });
+ if (createdImage && createdImage.width && createdImage.height) {
+ imageWidth_1 = imageWidth_1 || createdImage.width;
+ imageHeight_1 = imageHeight_1 || createdImage.height;
+ }
+ }
+ child = createVNode('image', 'img', {
+ href: imageSrc,
+ width: imageWidth_1,
+ height: imageHeight_1
+ });
+ patternAttrs.width = imageWidth_1;
+ patternAttrs.height = imageHeight_1;
+ }
+ else if (val.svgElement) {
+ child = clone(val.svgElement);
+ patternAttrs.width = val.svgWidth;
+ patternAttrs.height = val.svgHeight;
+ }
+ if (!child) {
+ return;
+ }
+ var patternWidth;
+ var patternHeight;
+ if (noRepeat) {
+ patternWidth = patternHeight = 1;
+ }
+ else if (repeatX) {
+ patternHeight = 1;
+ patternWidth = patternAttrs.width / boundingRect.width;
+ }
+ else if (repeatY) {
+ patternWidth = 1;
+ patternHeight = patternAttrs.height / boundingRect.height;
+ }
+ else {
+ patternAttrs.patternUnits = 'userSpaceOnUse';
+ }
+ if (patternWidth != null && !isNaN(patternWidth)) {
+ patternAttrs.width = patternWidth;
+ }
+ if (patternHeight != null && !isNaN(patternHeight)) {
+ patternAttrs.height = patternHeight;
+ }
+ var patternTransform = getSRTTransformString(val);
+ patternTransform && (patternAttrs.patternTransform = patternTransform);
+ var patternVNode = createVNode('pattern', '', patternAttrs, [child]);
+ var patternKey = vNodeToString(patternVNode);
+ var patternCache = scope.patternCache;
+ var patternId = patternCache[patternKey];
+ if (!patternId) {
+ patternId = scope.zrId + '-p' + scope.patternIdx++;
+ patternCache[patternKey] = patternId;
+ patternAttrs.id = patternId;
+ patternVNode = scope.defs[patternId] = createVNode('pattern', patternId, patternAttrs, [child]);
+ }
+ attrs[target] = getIdURL(patternId);
+ }
+ function setClipPath(clipPath, attrs, scope) {
+ var clipPathCache = scope.clipPathCache, defs = scope.defs;
+ var clipPathId = clipPathCache[clipPath.id];
+ if (!clipPathId) {
+ clipPathId = scope.zrId + '-c' + scope.clipPathIdx++;
+ var clipPathAttrs = {
+ id: clipPathId
+ };
+ clipPathCache[clipPath.id] = clipPathId;
+ defs[clipPathId] = createVNode('clipPath', clipPathId, clipPathAttrs, [brushSVGPath(clipPath, scope)]);
+ }
+ attrs['clip-path'] = getIdURL(clipPathId);
+ }
+
+ function createTextNode(text) {
+ return document.createTextNode(text);
+ }
+ function insertBefore(parentNode, newNode, referenceNode) {
+ parentNode.insertBefore(newNode, referenceNode);
+ }
+ function removeChild(node, child) {
+ node.removeChild(child);
+ }
+ function appendChild(node, child) {
+ node.appendChild(child);
+ }
+ function parentNode(node) {
+ return node.parentNode;
+ }
+ function nextSibling(node) {
+ return node.nextSibling;
+ }
+ function setTextContent(node, text) {
+ node.textContent = text;
+ }
+
+ var colonChar = 58;
+ var xChar = 120;
+ var emptyNode = createVNode('', '');
+ function isUndef(s) {
+ return s === undefined;
+ }
+ function isDef(s) {
+ return s !== undefined;
+ }
+ function createKeyToOldIdx(children, beginIdx, endIdx) {
+ var map = {};
+ for (var i = beginIdx; i <= endIdx; ++i) {
+ var key = children[i].key;
+ if (key !== undefined) {
+ if ("development" !== 'production') {
+ if (map[key] != null) {
+ console.error("Duplicate key " + key);
+ }
+ }
+ map[key] = i;
+ }
+ }
+ return map;
+ }
+ function sameVnode(vnode1, vnode2) {
+ var isSameKey = vnode1.key === vnode2.key;
+ var isSameTag = vnode1.tag === vnode2.tag;
+ return isSameTag && isSameKey;
+ }
+ function createElm(vnode) {
+ var i;
+ var children = vnode.children;
+ var tag = vnode.tag;
+ if (isDef(tag)) {
+ var elm = (vnode.elm = createElement(tag));
+ updateAttrs(emptyNode, vnode);
+ if (isArray(children)) {
+ for (i = 0; i < children.length; ++i) {
+ var ch = children[i];
+ if (ch != null) {
+ appendChild(elm, createElm(ch));
+ }
+ }
+ }
+ else if (isDef(vnode.text) && !isObject(vnode.text)) {
+ appendChild(elm, createTextNode(vnode.text));
+ }
+ }
+ else {
+ vnode.elm = createTextNode(vnode.text);
+ }
+ return vnode.elm;
+ }
+ function addVnodes(parentElm, before, vnodes, startIdx, endIdx) {
+ for (; startIdx <= endIdx; ++startIdx) {
+ var ch = vnodes[startIdx];
+ if (ch != null) {
+ insertBefore(parentElm, createElm(ch), before);
+ }
+ }
+ }
+ function removeVnodes(parentElm, vnodes, startIdx, endIdx) {
+ for (; startIdx <= endIdx; ++startIdx) {
+ var ch = vnodes[startIdx];
+ if (ch != null) {
+ if (isDef(ch.tag)) {
+ var parent_1 = parentNode(ch.elm);
+ removeChild(parent_1, ch.elm);
+ }
+ else {
+ removeChild(parentElm, ch.elm);
+ }
+ }
+ }
+ }
+ function updateAttrs(oldVnode, vnode) {
+ var key;
+ var elm = vnode.elm;
+ var oldAttrs = oldVnode && oldVnode.attrs || {};
+ var attrs = vnode.attrs || {};
+ if (oldAttrs === attrs) {
+ return;
+ }
+ for (key in attrs) {
+ var cur = attrs[key];
+ var old = oldAttrs[key];
+ if (old !== cur) {
+ if (cur === true) {
+ elm.setAttribute(key, '');
+ }
+ else if (cur === false) {
+ elm.removeAttribute(key);
+ }
+ else {
+ if (key === 'style') {
+ elm.style.cssText = cur;
+ }
+ else if (key.charCodeAt(0) !== xChar) {
+ elm.setAttribute(key, cur);
+ }
+ else if (key === 'xmlns:xlink' || key === 'xmlns') {
+ elm.setAttributeNS(XMLNS, key, cur);
+ }
+ else if (key.charCodeAt(3) === colonChar) {
+ elm.setAttributeNS(XML_NAMESPACE, key, cur);
+ }
+ else if (key.charCodeAt(5) === colonChar) {
+ elm.setAttributeNS(XLINKNS, key, cur);
+ }
+ else {
+ elm.setAttribute(key, cur);
+ }
+ }
+ }
+ }
+ for (key in oldAttrs) {
+ if (!(key in attrs)) {
+ elm.removeAttribute(key);
+ }
+ }
+ }
+ function updateChildren(parentElm, oldCh, newCh) {
+ var oldStartIdx = 0;
+ var newStartIdx = 0;
+ var oldEndIdx = oldCh.length - 1;
+ var oldStartVnode = oldCh[0];
+ var oldEndVnode = oldCh[oldEndIdx];
+ var newEndIdx = newCh.length - 1;
+ var newStartVnode = newCh[0];
+ var newEndVnode = newCh[newEndIdx];
+ var oldKeyToIdx;
+ var idxInOld;
+ var elmToMove;
+ var before;
+ while (oldStartIdx <= oldEndIdx && newStartIdx <= newEndIdx) {
+ if (oldStartVnode == null) {
+ oldStartVnode = oldCh[++oldStartIdx];
+ }
+ else if (oldEndVnode == null) {
+ oldEndVnode = oldCh[--oldEndIdx];
+ }
+ else if (newStartVnode == null) {
+ newStartVnode = newCh[++newStartIdx];
+ }
+ else if (newEndVnode == null) {
+ newEndVnode = newCh[--newEndIdx];
+ }
+ else if (sameVnode(oldStartVnode, newStartVnode)) {
+ patchVnode(oldStartVnode, newStartVnode);
+ oldStartVnode = oldCh[++oldStartIdx];
+ newStartVnode = newCh[++newStartIdx];
+ }
+ else if (sameVnode(oldEndVnode, newEndVnode)) {
+ patchVnode(oldEndVnode, newEndVnode);
+ oldEndVnode = oldCh[--oldEndIdx];
+ newEndVnode = newCh[--newEndIdx];
+ }
+ else if (sameVnode(oldStartVnode, newEndVnode)) {
+ patchVnode(oldStartVnode, newEndVnode);
+ insertBefore(parentElm, oldStartVnode.elm, nextSibling(oldEndVnode.elm));
+ oldStartVnode = oldCh[++oldStartIdx];
+ newEndVnode = newCh[--newEndIdx];
+ }
+ else if (sameVnode(oldEndVnode, newStartVnode)) {
+ patchVnode(oldEndVnode, newStartVnode);
+ insertBefore(parentElm, oldEndVnode.elm, oldStartVnode.elm);
+ oldEndVnode = oldCh[--oldEndIdx];
+ newStartVnode = newCh[++newStartIdx];
+ }
+ else {
+ if (isUndef(oldKeyToIdx)) {
+ oldKeyToIdx = createKeyToOldIdx(oldCh, oldStartIdx, oldEndIdx);
+ }
+ idxInOld = oldKeyToIdx[newStartVnode.key];
+ if (isUndef(idxInOld)) {
+ insertBefore(parentElm, createElm(newStartVnode), oldStartVnode.elm);
+ }
+ else {
+ elmToMove = oldCh[idxInOld];
+ if (elmToMove.tag !== newStartVnode.tag) {
+ insertBefore(parentElm, createElm(newStartVnode), oldStartVnode.elm);
+ }
+ else {
+ patchVnode(elmToMove, newStartVnode);
+ oldCh[idxInOld] = undefined;
+ insertBefore(parentElm, elmToMove.elm, oldStartVnode.elm);
+ }
+ }
+ newStartVnode = newCh[++newStartIdx];
+ }
+ }
+ if (oldStartIdx <= oldEndIdx || newStartIdx <= newEndIdx) {
+ if (oldStartIdx > oldEndIdx) {
+ before = newCh[newEndIdx + 1] == null ? null : newCh[newEndIdx + 1].elm;
+ addVnodes(parentElm, before, newCh, newStartIdx, newEndIdx);
+ }
+ else {
+ removeVnodes(parentElm, oldCh, oldStartIdx, oldEndIdx);
+ }
+ }
+ }
+ function patchVnode(oldVnode, vnode) {
+ var elm = (vnode.elm = oldVnode.elm);
+ var oldCh = oldVnode.children;
+ var ch = vnode.children;
+ if (oldVnode === vnode) {
+ return;
+ }
+ updateAttrs(oldVnode, vnode);
+ if (isUndef(vnode.text)) {
+ if (isDef(oldCh) && isDef(ch)) {
+ if (oldCh !== ch) {
+ updateChildren(elm, oldCh, ch);
+ }
+ }
+ else if (isDef(ch)) {
+ if (isDef(oldVnode.text)) {
+ setTextContent(elm, '');
+ }
+ addVnodes(elm, null, ch, 0, ch.length - 1);
+ }
+ else if (isDef(oldCh)) {
+ removeVnodes(elm, oldCh, 0, oldCh.length - 1);
+ }
+ else if (isDef(oldVnode.text)) {
+ setTextContent(elm, '');
+ }
+ }
+ else if (oldVnode.text !== vnode.text) {
+ if (isDef(oldCh)) {
+ removeVnodes(elm, oldCh, 0, oldCh.length - 1);
+ }
+ setTextContent(elm, vnode.text);
+ }
+ }
+ function patch(oldVnode, vnode) {
+ if (sameVnode(oldVnode, vnode)) {
+ patchVnode(oldVnode, vnode);
+ }
+ else {
+ var elm = oldVnode.elm;
+ var parent_2 = parentNode(elm);
+ createElm(vnode);
+ if (parent_2 !== null) {
+ insertBefore(parent_2, vnode.elm, nextSibling(elm));
+ removeVnodes(parent_2, [oldVnode], 0, 0);
+ }
+ }
+ return vnode;
+ }
+
+ var svgId = 0;
+ var SVGPainter = (function () {
+ function SVGPainter(root, storage, opts) {
+ this.type = 'svg';
+ this.refreshHover = createMethodNotSupport('refreshHover');
+ this.configLayer = createMethodNotSupport('configLayer');
+ this.storage = storage;
+ this._opts = opts = extend({}, opts);
+ this.root = root;
+ this._id = 'zr' + svgId++;
+ this._oldVNode = createSVGVNode(opts.width, opts.height);
+ if (root && !opts.ssr) {
+ var viewport = this._viewport = document.createElement('div');
+ viewport.style.cssText = 'position:relative;overflow:hidden';
+ var svgDom = this._svgDom = this._oldVNode.elm = createElement('svg');
+ updateAttrs(null, this._oldVNode);
+ viewport.appendChild(svgDom);
+ root.appendChild(viewport);
+ }
+ this.resize(opts.width, opts.height);
+ }
+ SVGPainter.prototype.getType = function () {
+ return this.type;
+ };
+ SVGPainter.prototype.getViewportRoot = function () {
+ return this._viewport;
+ };
+ SVGPainter.prototype.getViewportRootOffset = function () {
+ var viewportRoot = this.getViewportRoot();
+ if (viewportRoot) {
+ return {
+ offsetLeft: viewportRoot.offsetLeft || 0,
+ offsetTop: viewportRoot.offsetTop || 0
+ };
+ }
+ };
+ SVGPainter.prototype.getSvgDom = function () {
+ return this._svgDom;
+ };
+ SVGPainter.prototype.refresh = function () {
+ if (this.root) {
+ var vnode = this.renderToVNode({
+ willUpdate: true
+ });
+ vnode.attrs.style = 'position:absolute;left:0;top:0;user-select:none';
+ patch(this._oldVNode, vnode);
+ this._oldVNode = vnode;
+ }
+ };
+ SVGPainter.prototype.renderOneToVNode = function (el) {
+ return brush$1(el, createBrushScope(this._id));
+ };
+ SVGPainter.prototype.renderToVNode = function (opts) {
+ opts = opts || {};
+ var list = this.storage.getDisplayList(true);
+ var width = this._width;
+ var height = this._height;
+ var scope = createBrushScope(this._id);
+ scope.animation = opts.animation;
+ scope.willUpdate = opts.willUpdate;
+ scope.compress = opts.compress;
+ scope.emphasis = opts.emphasis;
+ var children = [];
+ var bgVNode = this._bgVNode = createBackgroundVNode(width, height, this._backgroundColor, scope);
+ bgVNode && children.push(bgVNode);
+ var mainVNode = !opts.compress
+ ? (this._mainVNode = createVNode('g', 'main', {}, [])) : null;
+ this._paintList(list, scope, mainVNode ? mainVNode.children : children);
+ mainVNode && children.push(mainVNode);
+ var defs = map(keys(scope.defs), function (id) { return scope.defs[id]; });
+ if (defs.length) {
+ children.push(createVNode('defs', 'defs', {}, defs));
+ }
+ if (opts.animation) {
+ var animationCssStr = getCssString(scope.cssNodes, scope.cssAnims, { newline: true });
+ if (animationCssStr) {
+ var styleNode = createVNode('style', 'stl', {}, [], animationCssStr);
+ children.push(styleNode);
+ }
+ }
+ return createSVGVNode(width, height, children, opts.useViewBox);
+ };
+ SVGPainter.prototype.renderToString = function (opts) {
+ opts = opts || {};
+ return vNodeToString(this.renderToVNode({
+ animation: retrieve2(opts.cssAnimation, true),
+ emphasis: retrieve2(opts.cssEmphasis, true),
+ willUpdate: false,
+ compress: true,
+ useViewBox: retrieve2(opts.useViewBox, true)
+ }), { newline: true });
+ };
+ SVGPainter.prototype.setBackgroundColor = function (backgroundColor) {
+ this._backgroundColor = backgroundColor;
+ };
+ SVGPainter.prototype.getSvgRoot = function () {
+ return this._mainVNode && this._mainVNode.elm;
+ };
+ SVGPainter.prototype._paintList = function (list, scope, out) {
+ var listLen = list.length;
+ var clipPathsGroupsStack = [];
+ var clipPathsGroupsStackDepth = 0;
+ var currentClipPathGroup;
+ var prevClipPaths;
+ var clipGroupNodeIdx = 0;
+ for (var i = 0; i < listLen; i++) {
+ var displayable = list[i];
+ if (!displayable.invisible) {
+ var clipPaths = displayable.__clipPaths;
+ var len = clipPaths && clipPaths.length || 0;
+ var prevLen = prevClipPaths && prevClipPaths.length || 0;
+ var lca = void 0;
+ for (lca = Math.max(len - 1, prevLen - 1); lca >= 0; lca--) {
+ if (clipPaths && prevClipPaths
+ && clipPaths[lca] === prevClipPaths[lca]) {
+ break;
+ }
+ }
+ for (var i_1 = prevLen - 1; i_1 > lca; i_1--) {
+ clipPathsGroupsStackDepth--;
+ currentClipPathGroup = clipPathsGroupsStack[clipPathsGroupsStackDepth - 1];
+ }
+ for (var i_2 = lca + 1; i_2 < len; i_2++) {
+ var groupAttrs = {};
+ setClipPath(clipPaths[i_2], groupAttrs, scope);
+ var g = createVNode('g', 'clip-g-' + clipGroupNodeIdx++, groupAttrs, []);
+ (currentClipPathGroup ? currentClipPathGroup.children : out).push(g);
+ clipPathsGroupsStack[clipPathsGroupsStackDepth++] = g;
+ currentClipPathGroup = g;
+ }
+ prevClipPaths = clipPaths;
+ var ret = brush$1(displayable, scope);
+ if (ret) {
+ (currentClipPathGroup ? currentClipPathGroup.children : out).push(ret);
+ }
+ }
+ }
+ };
+ SVGPainter.prototype.resize = function (width, height) {
+ var opts = this._opts;
+ var root = this.root;
+ var viewport = this._viewport;
+ width != null && (opts.width = width);
+ height != null && (opts.height = height);
+ if (root && viewport) {
+ viewport.style.display = 'none';
+ width = getSize(root, 0, opts);
+ height = getSize(root, 1, opts);
+ viewport.style.display = '';
+ }
+ if (this._width !== width || this._height !== height) {
+ this._width = width;
+ this._height = height;
+ if (viewport) {
+ var viewportStyle = viewport.style;
+ viewportStyle.width = width + 'px';
+ viewportStyle.height = height + 'px';
+ }
+ if (!isPattern(this._backgroundColor)) {
+ var svgDom = this._svgDom;
+ if (svgDom) {
+ svgDom.setAttribute('width', width);
+ svgDom.setAttribute('height', height);
+ }
+ var bgEl = this._bgVNode && this._bgVNode.elm;
+ if (bgEl) {
+ bgEl.setAttribute('width', width);
+ bgEl.setAttribute('height', height);
+ }
+ }
+ else {
+ this.refresh();
+ }
+ }
+ };
+ SVGPainter.prototype.getWidth = function () {
+ return this._width;
+ };
+ SVGPainter.prototype.getHeight = function () {
+ return this._height;
+ };
+ SVGPainter.prototype.dispose = function () {
+ if (this.root) {
+ this.root.innerHTML = '';
+ }
+ this._svgDom =
+ this._viewport =
+ this.storage =
+ this._oldVNode =
+ this._bgVNode =
+ this._mainVNode = null;
+ };
+ SVGPainter.prototype.clear = function () {
+ if (this._svgDom) {
+ this._svgDom.innerHTML = null;
+ }
+ this._oldVNode = null;
+ };
+ SVGPainter.prototype.toDataURL = function (base64) {
+ var str = this.renderToString();
+ var prefix = 'data:image/svg+xml;';
+ if (base64) {
+ str = encodeBase64(str);
+ return str && prefix + 'base64,' + str;
+ }
+ return prefix + 'charset=UTF-8,' + encodeURIComponent(str);
+ };
+ return SVGPainter;
+ }());
+ function createMethodNotSupport(method) {
+ return function () {
+ if ("development" !== 'production') {
+ logError('In SVG mode painter not support method "' + method + '"');
+ }
+ };
+ }
+ function createBackgroundVNode(width, height, backgroundColor, scope) {
+ var bgVNode;
+ if (backgroundColor && backgroundColor !== 'none') {
+ bgVNode = createVNode('rect', 'bg', {
+ width: width,
+ height: height,
+ x: '0',
+ y: '0'
+ });
+ if (isGradient(backgroundColor)) {
+ setGradient({ fill: backgroundColor }, bgVNode.attrs, 'fill', scope);
+ }
+ else if (isPattern(backgroundColor)) {
+ setPattern({
+ style: {
+ fill: backgroundColor
+ },
+ dirty: noop,
+ getBoundingRect: function () { return ({ width: width, height: height }); }
+ }, bgVNode.attrs, 'fill', scope);
+ }
+ else {
+ var _a = normalizeColor(backgroundColor), color = _a.color, opacity = _a.opacity;
+ bgVNode.attrs.fill = color;
+ opacity < 1 && (bgVNode.attrs['fill-opacity'] = opacity);
+ }
+ }
+ return bgVNode;
+ }
+
+ function install(registers) {
+ registers.registerPainter('svg', SVGPainter);
+ }
+
+ function createDom(id, painter, dpr) {
+ var newDom = platformApi.createCanvas();
+ var width = painter.getWidth();
+ var height = painter.getHeight();
+ var newDomStyle = newDom.style;
+ if (newDomStyle) {
+ newDomStyle.position = 'absolute';
+ newDomStyle.left = '0';
+ newDomStyle.top = '0';
+ newDomStyle.width = width + 'px';
+ newDomStyle.height = height + 'px';
+ newDom.setAttribute('data-zr-dom-id', id);
+ }
+ newDom.width = width * dpr;
+ newDom.height = height * dpr;
+ return newDom;
+ }
+ var Layer = (function (_super) {
+ __extends(Layer, _super);
+ function Layer(id, painter, dpr) {
+ var _this = _super.call(this) || this;
+ _this.motionBlur = false;
+ _this.lastFrameAlpha = 0.7;
+ _this.dpr = 1;
+ _this.virtual = false;
+ _this.config = {};
+ _this.incremental = false;
+ _this.zlevel = 0;
+ _this.maxRepaintRectCount = 5;
+ _this.__dirty = true;
+ _this.__firstTimePaint = true;
+ _this.__used = false;
+ _this.__drawIndex = 0;
+ _this.__startIndex = 0;
+ _this.__endIndex = 0;
+ _this.__prevStartIndex = null;
+ _this.__prevEndIndex = null;
+ var dom;
+ dpr = dpr || devicePixelRatio;
+ if (typeof id === 'string') {
+ dom = createDom(id, painter, dpr);
+ }
+ else if (isObject(id)) {
+ dom = id;
+ id = dom.id;
+ }
+ _this.id = id;
+ _this.dom = dom;
+ var domStyle = dom.style;
+ if (domStyle) {
+ disableUserSelect(dom);
+ dom.onselectstart = function () { return false; };
+ domStyle.padding = '0';
+ domStyle.margin = '0';
+ domStyle.borderWidth = '0';
+ }
+ _this.painter = painter;
+ _this.dpr = dpr;
+ return _this;
+ }
+ Layer.prototype.getElementCount = function () {
+ return this.__endIndex - this.__startIndex;
+ };
+ Layer.prototype.afterBrush = function () {
+ this.__prevStartIndex = this.__startIndex;
+ this.__prevEndIndex = this.__endIndex;
+ };
+ Layer.prototype.initContext = function () {
+ this.ctx = this.dom.getContext('2d');
+ this.ctx.dpr = this.dpr;
+ };
+ Layer.prototype.setUnpainted = function () {
+ this.__firstTimePaint = true;
+ };
+ Layer.prototype.createBackBuffer = function () {
+ var dpr = this.dpr;
+ this.domBack = createDom('back-' + this.id, this.painter, dpr);
+ this.ctxBack = this.domBack.getContext('2d');
+ if (dpr !== 1) {
+ this.ctxBack.scale(dpr, dpr);
+ }
+ };
+ Layer.prototype.createRepaintRects = function (displayList, prevList, viewWidth, viewHeight) {
+ if (this.__firstTimePaint) {
+ this.__firstTimePaint = false;
+ return null;
+ }
+ var mergedRepaintRects = [];
+ var maxRepaintRectCount = this.maxRepaintRectCount;
+ var full = false;
+ var pendingRect = new BoundingRect(0, 0, 0, 0);
+ function addRectToMergePool(rect) {
+ if (!rect.isFinite() || rect.isZero()) {
+ return;
+ }
+ if (mergedRepaintRects.length === 0) {
+ var boundingRect = new BoundingRect(0, 0, 0, 0);
+ boundingRect.copy(rect);
+ mergedRepaintRects.push(boundingRect);
+ }
+ else {
+ var isMerged = false;
+ var minDeltaArea = Infinity;
+ var bestRectToMergeIdx = 0;
+ for (var i = 0; i < mergedRepaintRects.length; ++i) {
+ var mergedRect = mergedRepaintRects[i];
+ if (mergedRect.intersect(rect)) {
+ var pendingRect_1 = new BoundingRect(0, 0, 0, 0);
+ pendingRect_1.copy(mergedRect);
+ pendingRect_1.union(rect);
+ mergedRepaintRects[i] = pendingRect_1;
+ isMerged = true;
+ break;
+ }
+ else if (full) {
+ pendingRect.copy(rect);
+ pendingRect.union(mergedRect);
+ var aArea = rect.width * rect.height;
+ var bArea = mergedRect.width * mergedRect.height;
+ var pendingArea = pendingRect.width * pendingRect.height;
+ var deltaArea = pendingArea - aArea - bArea;
+ if (deltaArea < minDeltaArea) {
+ minDeltaArea = deltaArea;
+ bestRectToMergeIdx = i;
+ }
+ }
+ }
+ if (full) {
+ mergedRepaintRects[bestRectToMergeIdx].union(rect);
+ isMerged = true;
+ }
+ if (!isMerged) {
+ var boundingRect = new BoundingRect(0, 0, 0, 0);
+ boundingRect.copy(rect);
+ mergedRepaintRects.push(boundingRect);
+ }
+ if (!full) {
+ full = mergedRepaintRects.length >= maxRepaintRectCount;
+ }
+ }
+ }
+ for (var i = this.__startIndex; i < this.__endIndex; ++i) {
+ var el = displayList[i];
+ if (el) {
+ var shouldPaint = el.shouldBePainted(viewWidth, viewHeight, true, true);
+ var prevRect = el.__isRendered && ((el.__dirty & REDRAW_BIT) || !shouldPaint)
+ ? el.getPrevPaintRect()
+ : null;
+ if (prevRect) {
+ addRectToMergePool(prevRect);
+ }
+ var curRect = shouldPaint && ((el.__dirty & REDRAW_BIT) || !el.__isRendered)
+ ? el.getPaintRect()
+ : null;
+ if (curRect) {
+ addRectToMergePool(curRect);
+ }
+ }
+ }
+ for (var i = this.__prevStartIndex; i < this.__prevEndIndex; ++i) {
+ var el = prevList[i];
+ var shouldPaint = el && el.shouldBePainted(viewWidth, viewHeight, true, true);
+ if (el && (!shouldPaint || !el.__zr) && el.__isRendered) {
+ var prevRect = el.getPrevPaintRect();
+ if (prevRect) {
+ addRectToMergePool(prevRect);
+ }
+ }
+ }
+ var hasIntersections;
+ do {
+ hasIntersections = false;
+ for (var i = 0; i < mergedRepaintRects.length;) {
+ if (mergedRepaintRects[i].isZero()) {
+ mergedRepaintRects.splice(i, 1);
+ continue;
+ }
+ for (var j = i + 1; j < mergedRepaintRects.length;) {
+ if (mergedRepaintRects[i].intersect(mergedRepaintRects[j])) {
+ hasIntersections = true;
+ mergedRepaintRects[i].union(mergedRepaintRects[j]);
+ mergedRepaintRects.splice(j, 1);
+ }
+ else {
+ j++;
+ }
+ }
+ i++;
+ }
+ } while (hasIntersections);
+ this._paintRects = mergedRepaintRects;
+ return mergedRepaintRects;
+ };
+ Layer.prototype.debugGetPaintRects = function () {
+ return (this._paintRects || []).slice();
+ };
+ Layer.prototype.resize = function (width, height) {
+ var dpr = this.dpr;
+ var dom = this.dom;
+ var domStyle = dom.style;
+ var domBack = this.domBack;
+ if (domStyle) {
+ domStyle.width = width + 'px';
+ domStyle.height = height + 'px';
+ }
+ dom.width = width * dpr;
+ dom.height = height * dpr;
+ if (domBack) {
+ domBack.width = width * dpr;
+ domBack.height = height * dpr;
+ if (dpr !== 1) {
+ this.ctxBack.scale(dpr, dpr);
+ }
+ }
+ };
+ Layer.prototype.clear = function (clearAll, clearColor, repaintRects) {
+ var dom = this.dom;
+ var ctx = this.ctx;
+ var width = dom.width;
+ var height = dom.height;
+ clearColor = clearColor || this.clearColor;
+ var haveMotionBLur = this.motionBlur && !clearAll;
+ var lastFrameAlpha = this.lastFrameAlpha;
+ var dpr = this.dpr;
+ var self = this;
+ if (haveMotionBLur) {
+ if (!this.domBack) {
+ this.createBackBuffer();
+ }
+ this.ctxBack.globalCompositeOperation = 'copy';
+ this.ctxBack.drawImage(dom, 0, 0, width / dpr, height / dpr);
+ }
+ var domBack = this.domBack;
+ function doClear(x, y, width, height) {
+ ctx.clearRect(x, y, width, height);
+ if (clearColor && clearColor !== 'transparent') {
+ var clearColorGradientOrPattern = void 0;
+ if (isGradientObject(clearColor)) {
+ var shouldCache = clearColor.global || (clearColor.__width === width
+ && clearColor.__height === height);
+ clearColorGradientOrPattern = shouldCache
+ && clearColor.__canvasGradient
+ || getCanvasGradient(ctx, clearColor, {
+ x: 0,
+ y: 0,
+ width: width,
+ height: height
+ });
+ clearColor.__canvasGradient = clearColorGradientOrPattern;
+ clearColor.__width = width;
+ clearColor.__height = height;
+ }
+ else if (isImagePatternObject(clearColor)) {
+ clearColor.scaleX = clearColor.scaleX || dpr;
+ clearColor.scaleY = clearColor.scaleY || dpr;
+ clearColorGradientOrPattern = createCanvasPattern(ctx, clearColor, {
+ dirty: function () {
+ self.setUnpainted();
+ self.painter.refresh();
+ }
+ });
+ }
+ ctx.save();
+ ctx.fillStyle = clearColorGradientOrPattern || clearColor;
+ ctx.fillRect(x, y, width, height);
+ ctx.restore();
+ }
+ if (haveMotionBLur) {
+ ctx.save();
+ ctx.globalAlpha = lastFrameAlpha;
+ ctx.drawImage(domBack, x, y, width, height);
+ ctx.restore();
+ }
+ }
+ if (!repaintRects || haveMotionBLur) {
+ doClear(0, 0, width, height);
+ }
+ else if (repaintRects.length) {
+ each(repaintRects, function (rect) {
+ doClear(rect.x * dpr, rect.y * dpr, rect.width * dpr, rect.height * dpr);
+ });
+ }
+ };
+ return Layer;
+ }(Eventful));
+
+ var HOVER_LAYER_ZLEVEL = 1e5;
+ var CANVAS_ZLEVEL = 314159;
+ var EL_AFTER_INCREMENTAL_INC = 0.01;
+ var INCREMENTAL_INC = 0.001;
+ function isLayerValid(layer) {
+ if (!layer) {
+ return false;
+ }
+ if (layer.__builtin__) {
+ return true;
+ }
+ if (typeof (layer.resize) !== 'function'
+ || typeof (layer.refresh) !== 'function') {
+ return false;
+ }
+ return true;
+ }
+ function createRoot(width, height) {
+ var domRoot = document.createElement('div');
+ domRoot.style.cssText = [
+ 'position:relative',
+ 'width:' + width + 'px',
+ 'height:' + height + 'px',
+ 'padding:0',
+ 'margin:0',
+ 'border-width:0'
+ ].join(';') + ';';
+ return domRoot;
+ }
+ var CanvasPainter = (function () {
+ function CanvasPainter(root, storage, opts, id) {
+ this.type = 'canvas';
+ this._zlevelList = [];
+ this._prevDisplayList = [];
+ this._layers = {};
+ this._layerConfig = {};
+ this._needsManuallyCompositing = false;
+ this.type = 'canvas';
+ var singleCanvas = !root.nodeName
+ || root.nodeName.toUpperCase() === 'CANVAS';
+ this._opts = opts = extend({}, opts || {});
+ this.dpr = opts.devicePixelRatio || devicePixelRatio;
+ this._singleCanvas = singleCanvas;
+ this.root = root;
+ var rootStyle = root.style;
+ if (rootStyle) {
+ disableUserSelect(root);
+ root.innerHTML = '';
+ }
+ this.storage = storage;
+ var zlevelList = this._zlevelList;
+ this._prevDisplayList = [];
+ var layers = this._layers;
+ if (!singleCanvas) {
+ this._width = getSize(root, 0, opts);
+ this._height = getSize(root, 1, opts);
+ var domRoot = this._domRoot = createRoot(this._width, this._height);
+ root.appendChild(domRoot);
+ }
+ else {
+ var rootCanvas = root;
+ var width = rootCanvas.width;
+ var height = rootCanvas.height;
+ if (opts.width != null) {
+ width = opts.width;
+ }
+ if (opts.height != null) {
+ height = opts.height;
+ }
+ this.dpr = opts.devicePixelRatio || 1;
+ rootCanvas.width = width * this.dpr;
+ rootCanvas.height = height * this.dpr;
+ this._width = width;
+ this._height = height;
+ var mainLayer = new Layer(rootCanvas, this, this.dpr);
+ mainLayer.__builtin__ = true;
+ mainLayer.initContext();
+ layers[CANVAS_ZLEVEL] = mainLayer;
+ mainLayer.zlevel = CANVAS_ZLEVEL;
+ zlevelList.push(CANVAS_ZLEVEL);
+ this._domRoot = root;
+ }
+ }
+ CanvasPainter.prototype.getType = function () {
+ return 'canvas';
+ };
+ CanvasPainter.prototype.isSingleCanvas = function () {
+ return this._singleCanvas;
+ };
+ CanvasPainter.prototype.getViewportRoot = function () {
+ return this._domRoot;
+ };
+ CanvasPainter.prototype.getViewportRootOffset = function () {
+ var viewportRoot = this.getViewportRoot();
+ if (viewportRoot) {
+ return {
+ offsetLeft: viewportRoot.offsetLeft || 0,
+ offsetTop: viewportRoot.offsetTop || 0
+ };
+ }
+ };
+ CanvasPainter.prototype.refresh = function (paintAll) {
+ var list = this.storage.getDisplayList(true);
+ var prevList = this._prevDisplayList;
+ var zlevelList = this._zlevelList;
+ this._redrawId = Math.random();
+ this._paintList(list, prevList, paintAll, this._redrawId);
+ for (var i = 0; i < zlevelList.length; i++) {
+ var z = zlevelList[i];
+ var layer = this._layers[z];
+ if (!layer.__builtin__ && layer.refresh) {
+ var clearColor = i === 0 ? this._backgroundColor : null;
+ layer.refresh(clearColor);
+ }
+ }
+ if (this._opts.useDirtyRect) {
+ this._prevDisplayList = list.slice();
+ }
+ return this;
+ };
+ CanvasPainter.prototype.refreshHover = function () {
+ this._paintHoverList(this.storage.getDisplayList(false));
+ };
+ CanvasPainter.prototype._paintHoverList = function (list) {
+ var len = list.length;
+ var hoverLayer = this._hoverlayer;
+ hoverLayer && hoverLayer.clear();
+ if (!len) {
+ return;
+ }
+ var scope = {
+ inHover: true,
+ viewWidth: this._width,
+ viewHeight: this._height
+ };
+ var ctx;
+ for (var i = 0; i < len; i++) {
+ var el = list[i];
+ if (el.__inHover) {
+ if (!hoverLayer) {
+ hoverLayer = this._hoverlayer = this.getLayer(HOVER_LAYER_ZLEVEL);
+ }
+ if (!ctx) {
+ ctx = hoverLayer.ctx;
+ ctx.save();
+ }
+ brush(ctx, el, scope, i === len - 1);
+ }
+ }
+ if (ctx) {
+ ctx.restore();
+ }
+ };
+ CanvasPainter.prototype.getHoverLayer = function () {
+ return this.getLayer(HOVER_LAYER_ZLEVEL);
+ };
+ CanvasPainter.prototype.paintOne = function (ctx, el) {
+ brushSingle(ctx, el);
+ };
+ CanvasPainter.prototype._paintList = function (list, prevList, paintAll, redrawId) {
+ if (this._redrawId !== redrawId) {
+ return;
+ }
+ paintAll = paintAll || false;
+ this._updateLayerStatus(list);
+ var _a = this._doPaintList(list, prevList, paintAll), finished = _a.finished, needsRefreshHover = _a.needsRefreshHover;
+ if (this._needsManuallyCompositing) {
+ this._compositeManually();
+ }
+ if (needsRefreshHover) {
+ this._paintHoverList(list);
+ }
+ if (!finished) {
+ var self_1 = this;
+ requestAnimationFrame$1(function () {
+ self_1._paintList(list, prevList, paintAll, redrawId);
+ });
+ }
+ else {
+ this.eachLayer(function (layer) {
+ layer.afterBrush && layer.afterBrush();
+ });
+ }
+ };
+ CanvasPainter.prototype._compositeManually = function () {
+ var ctx = this.getLayer(CANVAS_ZLEVEL).ctx;
+ var width = this._domRoot.width;
+ var height = this._domRoot.height;
+ ctx.clearRect(0, 0, width, height);
+ this.eachBuiltinLayer(function (layer) {
+ if (layer.virtual) {
+ ctx.drawImage(layer.dom, 0, 0, width, height);
+ }
+ });
+ };
+ CanvasPainter.prototype._doPaintList = function (list, prevList, paintAll) {
+ var _this = this;
+ var layerList = [];
+ var useDirtyRect = this._opts.useDirtyRect;
+ for (var zi = 0; zi < this._zlevelList.length; zi++) {
+ var zlevel = this._zlevelList[zi];
+ var layer = this._layers[zlevel];
+ if (layer.__builtin__
+ && layer !== this._hoverlayer
+ && (layer.__dirty || paintAll)) {
+ layerList.push(layer);
+ }
+ }
+ var finished = true;
+ var needsRefreshHover = false;
+ var _loop_1 = function (k) {
+ var layer = layerList[k];
+ var ctx = layer.ctx;
+ var repaintRects = useDirtyRect
+ && layer.createRepaintRects(list, prevList, this_1._width, this_1._height);
+ var start = paintAll ? layer.__startIndex : layer.__drawIndex;
+ var useTimer = !paintAll && layer.incremental && Date.now;
+ var startTime = useTimer && Date.now();
+ var clearColor = layer.zlevel === this_1._zlevelList[0]
+ ? this_1._backgroundColor : null;
+ if (layer.__startIndex === layer.__endIndex) {
+ layer.clear(false, clearColor, repaintRects);
+ }
+ else if (start === layer.__startIndex) {
+ var firstEl = list[start];
+ if (!firstEl.incremental || !firstEl.notClear || paintAll) {
+ layer.clear(false, clearColor, repaintRects);
+ }
+ }
+ if (start === -1) {
+ console.error('For some unknown reason. drawIndex is -1');
+ start = layer.__startIndex;
+ }
+ var i;
+ var repaint = function (repaintRect) {
+ var scope = {
+ inHover: false,
+ allClipped: false,
+ prevEl: null,
+ viewWidth: _this._width,
+ viewHeight: _this._height
+ };
+ for (i = start; i < layer.__endIndex; i++) {
+ var el = list[i];
+ if (el.__inHover) {
+ needsRefreshHover = true;
+ }
+ _this._doPaintEl(el, layer, useDirtyRect, repaintRect, scope, i === layer.__endIndex - 1);
+ if (useTimer) {
+ var dTime = Date.now() - startTime;
+ if (dTime > 15) {
+ break;
+ }
+ }
+ }
+ if (scope.prevElClipPaths) {
+ ctx.restore();
+ }
+ };
+ if (repaintRects) {
+ if (repaintRects.length === 0) {
+ i = layer.__endIndex;
+ }
+ else {
+ var dpr = this_1.dpr;
+ for (var r = 0; r < repaintRects.length; ++r) {
+ var rect = repaintRects[r];
+ ctx.save();
+ ctx.beginPath();
+ ctx.rect(rect.x * dpr, rect.y * dpr, rect.width * dpr, rect.height * dpr);
+ ctx.clip();
+ repaint(rect);
+ ctx.restore();
+ }
+ }
+ }
+ else {
+ ctx.save();
+ repaint();
+ ctx.restore();
+ }
+ layer.__drawIndex = i;
+ if (layer.__drawIndex < layer.__endIndex) {
+ finished = false;
+ }
+ };
+ var this_1 = this;
+ for (var k = 0; k < layerList.length; k++) {
+ _loop_1(k);
+ }
+ if (env.wxa) {
+ each(this._layers, function (layer) {
+ if (layer && layer.ctx && layer.ctx.draw) {
+ layer.ctx.draw();
+ }
+ });
+ }
+ return {
+ finished: finished,
+ needsRefreshHover: needsRefreshHover
+ };
+ };
+ CanvasPainter.prototype._doPaintEl = function (el, currentLayer, useDirtyRect, repaintRect, scope, isLast) {
+ var ctx = currentLayer.ctx;
+ if (useDirtyRect) {
+ var paintRect = el.getPaintRect();
+ if (!repaintRect || paintRect && paintRect.intersect(repaintRect)) {
+ brush(ctx, el, scope, isLast);
+ el.setPrevPaintRect(paintRect);
+ }
+ }
+ else {
+ brush(ctx, el, scope, isLast);
+ }
+ };
+ CanvasPainter.prototype.getLayer = function (zlevel, virtual) {
+ if (this._singleCanvas && !this._needsManuallyCompositing) {
+ zlevel = CANVAS_ZLEVEL;
+ }
+ var layer = this._layers[zlevel];
+ if (!layer) {
+ layer = new Layer('zr_' + zlevel, this, this.dpr);
+ layer.zlevel = zlevel;
+ layer.__builtin__ = true;
+ if (this._layerConfig[zlevel]) {
+ merge(layer, this._layerConfig[zlevel], true);
+ }
+ else if (this._layerConfig[zlevel - EL_AFTER_INCREMENTAL_INC]) {
+ merge(layer, this._layerConfig[zlevel - EL_AFTER_INCREMENTAL_INC], true);
+ }
+ if (virtual) {
+ layer.virtual = virtual;
+ }
+ this.insertLayer(zlevel, layer);
+ layer.initContext();
+ }
+ return layer;
+ };
+ CanvasPainter.prototype.insertLayer = function (zlevel, layer) {
+ var layersMap = this._layers;
+ var zlevelList = this._zlevelList;
+ var len = zlevelList.length;
+ var domRoot = this._domRoot;
+ var prevLayer = null;
+ var i = -1;
+ if (layersMap[zlevel]) {
+ if ("development" !== 'production') {
+ logError('ZLevel ' + zlevel + ' has been used already');
+ }
+ return;
+ }
+ if (!isLayerValid(layer)) {
+ if ("development" !== 'production') {
+ logError('Layer of zlevel ' + zlevel + ' is not valid');
+ }
+ return;
+ }
+ if (len > 0 && zlevel > zlevelList[0]) {
+ for (i = 0; i < len - 1; i++) {
+ if (zlevelList[i] < zlevel
+ && zlevelList[i + 1] > zlevel) {
+ break;
+ }
+ }
+ prevLayer = layersMap[zlevelList[i]];
+ }
+ zlevelList.splice(i + 1, 0, zlevel);
+ layersMap[zlevel] = layer;
+ if (!layer.virtual) {
+ if (prevLayer) {
+ var prevDom = prevLayer.dom;
+ if (prevDom.nextSibling) {
+ domRoot.insertBefore(layer.dom, prevDom.nextSibling);
+ }
+ else {
+ domRoot.appendChild(layer.dom);
+ }
+ }
+ else {
+ if (domRoot.firstChild) {
+ domRoot.insertBefore(layer.dom, domRoot.firstChild);
+ }
+ else {
+ domRoot.appendChild(layer.dom);
+ }
+ }
+ }
+ layer.painter || (layer.painter = this);
+ };
+ CanvasPainter.prototype.eachLayer = function (cb, context) {
+ var zlevelList = this._zlevelList;
+ for (var i = 0; i < zlevelList.length; i++) {
+ var z = zlevelList[i];
+ cb.call(context, this._layers[z], z);
+ }
+ };
+ CanvasPainter.prototype.eachBuiltinLayer = function (cb, context) {
+ var zlevelList = this._zlevelList;
+ for (var i = 0; i < zlevelList.length; i++) {
+ var z = zlevelList[i];
+ var layer = this._layers[z];
+ if (layer.__builtin__) {
+ cb.call(context, layer, z);
+ }
+ }
+ };
+ CanvasPainter.prototype.eachOtherLayer = function (cb, context) {
+ var zlevelList = this._zlevelList;
+ for (var i = 0; i < zlevelList.length; i++) {
+ var z = zlevelList[i];
+ var layer = this._layers[z];
+ if (!layer.__builtin__) {
+ cb.call(context, layer, z);
+ }
+ }
+ };
+ CanvasPainter.prototype.getLayers = function () {
+ return this._layers;
+ };
+ CanvasPainter.prototype._updateLayerStatus = function (list) {
+ this.eachBuiltinLayer(function (layer, z) {
+ layer.__dirty = layer.__used = false;
+ });
+ function updatePrevLayer(idx) {
+ if (prevLayer) {
+ if (prevLayer.__endIndex !== idx) {
+ prevLayer.__dirty = true;
+ }
+ prevLayer.__endIndex = idx;
+ }
+ }
+ if (this._singleCanvas) {
+ for (var i_1 = 1; i_1 < list.length; i_1++) {
+ var el = list[i_1];
+ if (el.zlevel !== list[i_1 - 1].zlevel || el.incremental) {
+ this._needsManuallyCompositing = true;
+ break;
+ }
+ }
+ }
+ var prevLayer = null;
+ var incrementalLayerCount = 0;
+ var prevZlevel;
+ var i;
+ for (i = 0; i < list.length; i++) {
+ var el = list[i];
+ var zlevel = el.zlevel;
+ var layer = void 0;
+ if (prevZlevel !== zlevel) {
+ prevZlevel = zlevel;
+ incrementalLayerCount = 0;
+ }
+ if (el.incremental) {
+ layer = this.getLayer(zlevel + INCREMENTAL_INC, this._needsManuallyCompositing);
+ layer.incremental = true;
+ incrementalLayerCount = 1;
+ }
+ else {
+ layer = this.getLayer(zlevel + (incrementalLayerCount > 0 ? EL_AFTER_INCREMENTAL_INC : 0), this._needsManuallyCompositing);
+ }
+ if (!layer.__builtin__) {
+ logError('ZLevel ' + zlevel + ' has been used by unkown layer ' + layer.id);
+ }
+ if (layer !== prevLayer) {
+ layer.__used = true;
+ if (layer.__startIndex !== i) {
+ layer.__dirty = true;
+ }
+ layer.__startIndex = i;
+ if (!layer.incremental) {
+ layer.__drawIndex = i;
+ }
+ else {
+ layer.__drawIndex = -1;
+ }
+ updatePrevLayer(i);
+ prevLayer = layer;
+ }
+ if ((el.__dirty & REDRAW_BIT) && !el.__inHover) {
+ layer.__dirty = true;
+ if (layer.incremental && layer.__drawIndex < 0) {
+ layer.__drawIndex = i;
+ }
+ }
+ }
+ updatePrevLayer(i);
+ this.eachBuiltinLayer(function (layer, z) {
+ if (!layer.__used && layer.getElementCount() > 0) {
+ layer.__dirty = true;
+ layer.__startIndex = layer.__endIndex = layer.__drawIndex = 0;
+ }
+ if (layer.__dirty && layer.__drawIndex < 0) {
+ layer.__drawIndex = layer.__startIndex;
+ }
+ });
+ };
+ CanvasPainter.prototype.clear = function () {
+ this.eachBuiltinLayer(this._clearLayer);
+ return this;
+ };
+ CanvasPainter.prototype._clearLayer = function (layer) {
+ layer.clear();
+ };
+ CanvasPainter.prototype.setBackgroundColor = function (backgroundColor) {
+ this._backgroundColor = backgroundColor;
+ each(this._layers, function (layer) {
+ layer.setUnpainted();
+ });
+ };
+ CanvasPainter.prototype.configLayer = function (zlevel, config) {
+ if (config) {
+ var layerConfig = this._layerConfig;
+ if (!layerConfig[zlevel]) {
+ layerConfig[zlevel] = config;
+ }
+ else {
+ merge(layerConfig[zlevel], config, true);
+ }
+ for (var i = 0; i < this._zlevelList.length; i++) {
+ var _zlevel = this._zlevelList[i];
+ if (_zlevel === zlevel || _zlevel === zlevel + EL_AFTER_INCREMENTAL_INC) {
+ var layer = this._layers[_zlevel];
+ merge(layer, layerConfig[zlevel], true);
+ }
+ }
+ }
+ };
+ CanvasPainter.prototype.delLayer = function (zlevel) {
+ var layers = this._layers;
+ var zlevelList = this._zlevelList;
+ var layer = layers[zlevel];
+ if (!layer) {
+ return;
+ }
+ layer.dom.parentNode.removeChild(layer.dom);
+ delete layers[zlevel];
+ zlevelList.splice(indexOf(zlevelList, zlevel), 1);
+ };
+ CanvasPainter.prototype.resize = function (width, height) {
+ if (!this._domRoot.style) {
+ if (width == null || height == null) {
+ return;
+ }
+ this._width = width;
+ this._height = height;
+ this.getLayer(CANVAS_ZLEVEL).resize(width, height);
+ }
+ else {
+ var domRoot = this._domRoot;
+ domRoot.style.display = 'none';
+ var opts = this._opts;
+ var root = this.root;
+ width != null && (opts.width = width);
+ height != null && (opts.height = height);
+ width = getSize(root, 0, opts);
+ height = getSize(root, 1, opts);
+ domRoot.style.display = '';
+ if (this._width !== width || height !== this._height) {
+ domRoot.style.width = width + 'px';
+ domRoot.style.height = height + 'px';
+ for (var id in this._layers) {
+ if (this._layers.hasOwnProperty(id)) {
+ this._layers[id].resize(width, height);
+ }
+ }
+ this.refresh(true);
+ }
+ this._width = width;
+ this._height = height;
+ }
+ return this;
+ };
+ CanvasPainter.prototype.clearLayer = function (zlevel) {
+ var layer = this._layers[zlevel];
+ if (layer) {
+ layer.clear();
+ }
+ };
+ CanvasPainter.prototype.dispose = function () {
+ this.root.innerHTML = '';
+ this.root =
+ this.storage =
+ this._domRoot =
+ this._layers = null;
+ };
+ CanvasPainter.prototype.getRenderedCanvas = function (opts) {
+ opts = opts || {};
+ if (this._singleCanvas && !this._compositeManually) {
+ return this._layers[CANVAS_ZLEVEL].dom;
+ }
+ var imageLayer = new Layer('image', this, opts.pixelRatio || this.dpr);
+ imageLayer.initContext();
+ imageLayer.clear(false, opts.backgroundColor || this._backgroundColor);
+ var ctx = imageLayer.ctx;
+ if (opts.pixelRatio <= this.dpr) {
+ this.refresh();
+ var width_1 = imageLayer.dom.width;
+ var height_1 = imageLayer.dom.height;
+ this.eachLayer(function (layer) {
+ if (layer.__builtin__) {
+ ctx.drawImage(layer.dom, 0, 0, width_1, height_1);
+ }
+ else if (layer.renderToCanvas) {
+ ctx.save();
+ layer.renderToCanvas(ctx);
+ ctx.restore();
+ }
+ });
+ }
+ else {
+ var scope = {
+ inHover: false,
+ viewWidth: this._width,
+ viewHeight: this._height
+ };
+ var displayList = this.storage.getDisplayList(true);
+ for (var i = 0, len = displayList.length; i < len; i++) {
+ var el = displayList[i];
+ brush(ctx, el, scope, i === len - 1);
+ }
+ }
+ return imageLayer.dom;
+ };
+ CanvasPainter.prototype.getWidth = function () {
+ return this._width;
+ };
+ CanvasPainter.prototype.getHeight = function () {
+ return this._height;
+ };
+ return CanvasPainter;
+ }());
+
+ function install$1(registers) {
+ registers.registerPainter('canvas', CanvasPainter);
+ }
+
+ var LineSeriesModel = /** @class */function (_super) {
+ __extends(LineSeriesModel, _super);
+ function LineSeriesModel() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = LineSeriesModel.type;
+ _this.hasSymbolVisual = true;
+ return _this;
+ }
+ LineSeriesModel.prototype.getInitialData = function (option) {
+ if ("development" !== 'production') {
+ var coordSys = option.coordinateSystem;
+ if (coordSys !== 'polar' && coordSys !== 'cartesian2d') {
+ throw new Error('Line not support coordinateSystem besides cartesian and polar');
+ }
+ }
+ return createSeriesData(null, this, {
+ useEncodeDefaulter: true
+ });
+ };
+ LineSeriesModel.prototype.getLegendIcon = function (opt) {
+ var group = new Group();
+ var line = createSymbol('line', 0, opt.itemHeight / 2, opt.itemWidth, 0, opt.lineStyle.stroke, false);
+ group.add(line);
+ line.setStyle(opt.lineStyle);
+ var visualType = this.getData().getVisual('symbol');
+ var visualRotate = this.getData().getVisual('symbolRotate');
+ var symbolType = visualType === 'none' ? 'circle' : visualType;
+ // Symbol size is 80% when there is a line
+ var size = opt.itemHeight * 0.8;
+ var symbol = createSymbol(symbolType, (opt.itemWidth - size) / 2, (opt.itemHeight - size) / 2, size, size, opt.itemStyle.fill);
+ group.add(symbol);
+ symbol.setStyle(opt.itemStyle);
+ var symbolRotate = opt.iconRotate === 'inherit' ? visualRotate : opt.iconRotate || 0;
+ symbol.rotation = symbolRotate * Math.PI / 180;
+ symbol.setOrigin([opt.itemWidth / 2, opt.itemHeight / 2]);
+ if (symbolType.indexOf('empty') > -1) {
+ symbol.style.stroke = symbol.style.fill;
+ symbol.style.fill = '#fff';
+ symbol.style.lineWidth = 2;
+ }
+ return group;
+ };
+ LineSeriesModel.type = 'series.line';
+ LineSeriesModel.dependencies = ['grid', 'polar'];
+ LineSeriesModel.defaultOption = {
+ // zlevel: 0,
+ z: 3,
+ coordinateSystem: 'cartesian2d',
+ legendHoverLink: true,
+ clip: true,
+ label: {
+ position: 'top'
+ },
+ // itemStyle: {
+ // },
+ endLabel: {
+ show: false,
+ valueAnimation: true,
+ distance: 8
+ },
+ lineStyle: {
+ width: 2,
+ type: 'solid'
+ },
+ emphasis: {
+ scale: true
+ },
+ // areaStyle: {
+ // origin of areaStyle. Valid values:
+ // `'auto'/null/undefined`: from axisLine to data
+ // `'start'`: from min to data
+ // `'end'`: from data to max
+ // origin: 'auto'
+ // },
+ // false, 'start', 'end', 'middle'
+ step: false,
+ // Disabled if step is true
+ smooth: false,
+ smoothMonotone: null,
+ symbol: 'emptyCircle',
+ symbolSize: 4,
+ symbolRotate: null,
+ showSymbol: true,
+ // `false`: follow the label interval strategy.
+ // `true`: show all symbols.
+ // `'auto'`: If possible, show all symbols, otherwise
+ // follow the label interval strategy.
+ showAllSymbol: 'auto',
+ // Whether to connect break point.
+ connectNulls: false,
+ // Sampling for large data. Can be: 'average', 'max', 'min', 'sum', 'lttb'.
+ sampling: 'none',
+ animationEasing: 'linear',
+ // Disable progressive
+ progressive: 0,
+ hoverLayerThreshold: Infinity,
+ universalTransition: {
+ divideShape: 'clone'
+ },
+ triggerLineEvent: false
+ };
+ return LineSeriesModel;
+ }(SeriesModel);
+
+ /**
+ * @return label string. Not null/undefined
+ */
+ function getDefaultLabel(data, dataIndex) {
+ var labelDims = data.mapDimensionsAll('defaultedLabel');
+ var len = labelDims.length;
+ // Simple optimization (in lots of cases, label dims length is 1)
+ if (len === 1) {
+ var rawVal = retrieveRawValue(data, dataIndex, labelDims[0]);
+ return rawVal != null ? rawVal + '' : null;
+ } else if (len) {
+ var vals = [];
+ for (var i = 0; i < labelDims.length; i++) {
+ vals.push(retrieveRawValue(data, dataIndex, labelDims[i]));
+ }
+ return vals.join(' ');
+ }
+ }
+ function getDefaultInterpolatedLabel(data, interpolatedValue) {
+ var labelDims = data.mapDimensionsAll('defaultedLabel');
+ if (!isArray(interpolatedValue)) {
+ return interpolatedValue + '';
+ }
+ var vals = [];
+ for (var i = 0; i < labelDims.length; i++) {
+ var dimIndex = data.getDimensionIndex(labelDims[i]);
+ if (dimIndex >= 0) {
+ vals.push(interpolatedValue[dimIndex]);
+ }
+ }
+ return vals.join(' ');
+ }
+
+ var Symbol = /** @class */function (_super) {
+ __extends(Symbol, _super);
+ function Symbol(data, idx, seriesScope, opts) {
+ var _this = _super.call(this) || this;
+ _this.updateData(data, idx, seriesScope, opts);
+ return _this;
+ }
+ Symbol.prototype._createSymbol = function (symbolType, data, idx, symbolSize, keepAspect) {
+ // Remove paths created before
+ this.removeAll();
+ // let symbolPath = createSymbol(
+ // symbolType, -0.5, -0.5, 1, 1, color
+ // );
+ // If width/height are set too small (e.g., set to 1) on ios10
+ // and macOS Sierra, a circle stroke become a rect, no matter what
+ // the scale is set. So we set width/height as 2. See #4150.
+ var symbolPath = createSymbol(symbolType, -1, -1, 2, 2, null, keepAspect);
+ symbolPath.attr({
+ z2: 100,
+ culling: true,
+ scaleX: symbolSize[0] / 2,
+ scaleY: symbolSize[1] / 2
+ });
+ // Rewrite drift method
+ symbolPath.drift = driftSymbol;
+ this._symbolType = symbolType;
+ this.add(symbolPath);
+ };
+ /**
+ * Stop animation
+ * @param {boolean} toLastFrame
+ */
+ Symbol.prototype.stopSymbolAnimation = function (toLastFrame) {
+ this.childAt(0).stopAnimation(null, toLastFrame);
+ };
+ Symbol.prototype.getSymbolType = function () {
+ return this._symbolType;
+ };
+ /**
+ * FIXME:
+ * Caution: This method breaks the encapsulation of this module,
+ * but it indeed brings convenience. So do not use the method
+ * unless you detailedly know all the implements of `Symbol`,
+ * especially animation.
+ *
+ * Get symbol path element.
+ */
+ Symbol.prototype.getSymbolPath = function () {
+ return this.childAt(0);
+ };
+ /**
+ * Highlight symbol
+ */
+ Symbol.prototype.highlight = function () {
+ enterEmphasis(this.childAt(0));
+ };
+ /**
+ * Downplay symbol
+ */
+ Symbol.prototype.downplay = function () {
+ leaveEmphasis(this.childAt(0));
+ };
+ /**
+ * @param {number} zlevel
+ * @param {number} z
+ */
+ Symbol.prototype.setZ = function (zlevel, z) {
+ var symbolPath = this.childAt(0);
+ symbolPath.zlevel = zlevel;
+ symbolPath.z = z;
+ };
+ Symbol.prototype.setDraggable = function (draggable, hasCursorOption) {
+ var symbolPath = this.childAt(0);
+ symbolPath.draggable = draggable;
+ symbolPath.cursor = !hasCursorOption && draggable ? 'move' : symbolPath.cursor;
+ };
+ /**
+ * Update symbol properties
+ */
+ Symbol.prototype.updateData = function (data, idx, seriesScope, opts) {
+ this.silent = false;
+ var symbolType = data.getItemVisual(idx, 'symbol') || 'circle';
+ var seriesModel = data.hostModel;
+ var symbolSize = Symbol.getSymbolSize(data, idx);
+ var isInit = symbolType !== this._symbolType;
+ var disableAnimation = opts && opts.disableAnimation;
+ if (isInit) {
+ var keepAspect = data.getItemVisual(idx, 'symbolKeepAspect');
+ this._createSymbol(symbolType, data, idx, symbolSize, keepAspect);
+ } else {
+ var symbolPath = this.childAt(0);
+ symbolPath.silent = false;
+ var target = {
+ scaleX: symbolSize[0] / 2,
+ scaleY: symbolSize[1] / 2
+ };
+ disableAnimation ? symbolPath.attr(target) : updateProps(symbolPath, target, seriesModel, idx);
+ saveOldStyle(symbolPath);
+ }
+ this._updateCommon(data, idx, symbolSize, seriesScope, opts);
+ if (isInit) {
+ var symbolPath = this.childAt(0);
+ if (!disableAnimation) {
+ var target = {
+ scaleX: this._sizeX,
+ scaleY: this._sizeY,
+ style: {
+ // Always fadeIn. Because it has fadeOut animation when symbol is removed..
+ opacity: symbolPath.style.opacity
+ }
+ };
+ symbolPath.scaleX = symbolPath.scaleY = 0;
+ symbolPath.style.opacity = 0;
+ initProps(symbolPath, target, seriesModel, idx);
+ }
+ }
+ if (disableAnimation) {
+ // Must stop leave transition manually if don't call initProps or updateProps.
+ this.childAt(0).stopAnimation('leave');
+ }
+ };
+ Symbol.prototype._updateCommon = function (data, idx, symbolSize, seriesScope, opts) {
+ var symbolPath = this.childAt(0);
+ var seriesModel = data.hostModel;
+ var emphasisItemStyle;
+ var blurItemStyle;
+ var selectItemStyle;
+ var focus;
+ var blurScope;
+ var emphasisDisabled;
+ var labelStatesModels;
+ var hoverScale;
+ var cursorStyle;
+ if (seriesScope) {
+ emphasisItemStyle = seriesScope.emphasisItemStyle;
+ blurItemStyle = seriesScope.blurItemStyle;
+ selectItemStyle = seriesScope.selectItemStyle;
+ focus = seriesScope.focus;
+ blurScope = seriesScope.blurScope;
+ labelStatesModels = seriesScope.labelStatesModels;
+ hoverScale = seriesScope.hoverScale;
+ cursorStyle = seriesScope.cursorStyle;
+ emphasisDisabled = seriesScope.emphasisDisabled;
+ }
+ if (!seriesScope || data.hasItemOption) {
+ var itemModel = seriesScope && seriesScope.itemModel ? seriesScope.itemModel : data.getItemModel(idx);
+ var emphasisModel = itemModel.getModel('emphasis');
+ emphasisItemStyle = emphasisModel.getModel('itemStyle').getItemStyle();
+ selectItemStyle = itemModel.getModel(['select', 'itemStyle']).getItemStyle();
+ blurItemStyle = itemModel.getModel(['blur', 'itemStyle']).getItemStyle();
+ focus = emphasisModel.get('focus');
+ blurScope = emphasisModel.get('blurScope');
+ emphasisDisabled = emphasisModel.get('disabled');
+ labelStatesModels = getLabelStatesModels(itemModel);
+ hoverScale = emphasisModel.getShallow('scale');
+ cursorStyle = itemModel.getShallow('cursor');
+ }
+ var symbolRotate = data.getItemVisual(idx, 'symbolRotate');
+ symbolPath.attr('rotation', (symbolRotate || 0) * Math.PI / 180 || 0);
+ var symbolOffset = normalizeSymbolOffset(data.getItemVisual(idx, 'symbolOffset'), symbolSize);
+ if (symbolOffset) {
+ symbolPath.x = symbolOffset[0];
+ symbolPath.y = symbolOffset[1];
+ }
+ cursorStyle && symbolPath.attr('cursor', cursorStyle);
+ var symbolStyle = data.getItemVisual(idx, 'style');
+ var visualColor = symbolStyle.fill;
+ if (symbolPath instanceof ZRImage) {
+ var pathStyle = symbolPath.style;
+ symbolPath.useStyle(extend({
+ // TODO other properties like x, y ?
+ image: pathStyle.image,
+ x: pathStyle.x,
+ y: pathStyle.y,
+ width: pathStyle.width,
+ height: pathStyle.height
+ }, symbolStyle));
+ } else {
+ if (symbolPath.__isEmptyBrush) {
+ // fill and stroke will be swapped if it's empty.
+ // So we cloned a new style to avoid it affecting the original style in visual storage.
+ // TODO Better implementation. No empty logic!
+ symbolPath.useStyle(extend({}, symbolStyle));
+ } else {
+ symbolPath.useStyle(symbolStyle);
+ }
+ // Disable decal because symbol scale will been applied on the decal.
+ symbolPath.style.decal = null;
+ symbolPath.setColor(visualColor, opts && opts.symbolInnerColor);
+ symbolPath.style.strokeNoScale = true;
+ }
+ var liftZ = data.getItemVisual(idx, 'liftZ');
+ var z2Origin = this._z2;
+ if (liftZ != null) {
+ if (z2Origin == null) {
+ this._z2 = symbolPath.z2;
+ symbolPath.z2 += liftZ;
+ }
+ } else if (z2Origin != null) {
+ symbolPath.z2 = z2Origin;
+ this._z2 = null;
+ }
+ var useNameLabel = opts && opts.useNameLabel;
+ setLabelStyle(symbolPath, labelStatesModels, {
+ labelFetcher: seriesModel,
+ labelDataIndex: idx,
+ defaultText: getLabelDefaultText,
+ inheritColor: visualColor,
+ defaultOpacity: symbolStyle.opacity
+ });
+ // Do not execute util needed.
+ function getLabelDefaultText(idx) {
+ return useNameLabel ? data.getName(idx) : getDefaultLabel(data, idx);
+ }
+ this._sizeX = symbolSize[0] / 2;
+ this._sizeY = symbolSize[1] / 2;
+ var emphasisState = symbolPath.ensureState('emphasis');
+ emphasisState.style = emphasisItemStyle;
+ symbolPath.ensureState('select').style = selectItemStyle;
+ symbolPath.ensureState('blur').style = blurItemStyle;
+ // null / undefined / true means to use default strategy.
+ // 0 / false / negative number / NaN / Infinity means no scale.
+ var scaleRatio = hoverScale == null || hoverScale === true ? Math.max(1.1, 3 / this._sizeY)
+ // PENDING: restrict hoverScale > 1? It seems unreasonable to scale down
+ : isFinite(hoverScale) && hoverScale > 0 ? +hoverScale : 1;
+ // always set scale to allow resetting
+ emphasisState.scaleX = this._sizeX * scaleRatio;
+ emphasisState.scaleY = this._sizeY * scaleRatio;
+ this.setSymbolScale(1);
+ toggleHoverEmphasis(this, focus, blurScope, emphasisDisabled);
+ };
+ Symbol.prototype.setSymbolScale = function (scale) {
+ this.scaleX = this.scaleY = scale;
+ };
+ Symbol.prototype.fadeOut = function (cb, seriesModel, opt) {
+ var symbolPath = this.childAt(0);
+ var dataIndex = getECData(this).dataIndex;
+ var animationOpt = opt && opt.animation;
+ // Avoid mistaken hover when fading out
+ this.silent = symbolPath.silent = true;
+ // Not show text when animating
+ if (opt && opt.fadeLabel) {
+ var textContent = symbolPath.getTextContent();
+ if (textContent) {
+ removeElement(textContent, {
+ style: {
+ opacity: 0
+ }
+ }, seriesModel, {
+ dataIndex: dataIndex,
+ removeOpt: animationOpt,
+ cb: function () {
+ symbolPath.removeTextContent();
+ }
+ });
+ }
+ } else {
+ symbolPath.removeTextContent();
+ }
+ removeElement(symbolPath, {
+ style: {
+ opacity: 0
+ },
+ scaleX: 0,
+ scaleY: 0
+ }, seriesModel, {
+ dataIndex: dataIndex,
+ cb: cb,
+ removeOpt: animationOpt
+ });
+ };
+ Symbol.getSymbolSize = function (data, idx) {
+ return normalizeSymbolSize(data.getItemVisual(idx, 'symbolSize'));
+ };
+ return Symbol;
+ }(Group);
+ function driftSymbol(dx, dy) {
+ this.parent.drift(dx, dy);
+ }
+
+ function symbolNeedsDraw(data, point, idx, opt) {
+ return point && !isNaN(point[0]) && !isNaN(point[1]) && !(opt.isIgnore && opt.isIgnore(idx))
+ // We do not set clipShape on group, because it will cut part of
+ // the symbol element shape. We use the same clip shape here as
+ // the line clip.
+ && !(opt.clipShape && !opt.clipShape.contain(point[0], point[1])) && data.getItemVisual(idx, 'symbol') !== 'none';
+ }
+ function normalizeUpdateOpt(opt) {
+ if (opt != null && !isObject(opt)) {
+ opt = {
+ isIgnore: opt
+ };
+ }
+ return opt || {};
+ }
+ function makeSeriesScope(data) {
+ var seriesModel = data.hostModel;
+ var emphasisModel = seriesModel.getModel('emphasis');
+ return {
+ emphasisItemStyle: emphasisModel.getModel('itemStyle').getItemStyle(),
+ blurItemStyle: seriesModel.getModel(['blur', 'itemStyle']).getItemStyle(),
+ selectItemStyle: seriesModel.getModel(['select', 'itemStyle']).getItemStyle(),
+ focus: emphasisModel.get('focus'),
+ blurScope: emphasisModel.get('blurScope'),
+ emphasisDisabled: emphasisModel.get('disabled'),
+ hoverScale: emphasisModel.get('scale'),
+ labelStatesModels: getLabelStatesModels(seriesModel),
+ cursorStyle: seriesModel.get('cursor')
+ };
+ }
+ var SymbolDraw = /** @class */function () {
+ function SymbolDraw(SymbolCtor) {
+ this.group = new Group();
+ this._SymbolCtor = SymbolCtor || Symbol;
+ }
+ /**
+ * Update symbols draw by new data
+ */
+ SymbolDraw.prototype.updateData = function (data, opt) {
+ // Remove progressive els.
+ this._progressiveEls = null;
+ opt = normalizeUpdateOpt(opt);
+ var group = this.group;
+ var seriesModel = data.hostModel;
+ var oldData = this._data;
+ var SymbolCtor = this._SymbolCtor;
+ var disableAnimation = opt.disableAnimation;
+ var seriesScope = makeSeriesScope(data);
+ var symbolUpdateOpt = {
+ disableAnimation: disableAnimation
+ };
+ var getSymbolPoint = opt.getSymbolPoint || function (idx) {
+ return data.getItemLayout(idx);
+ };
+ // There is no oldLineData only when first rendering or switching from
+ // stream mode to normal mode, where previous elements should be removed.
+ if (!oldData) {
+ group.removeAll();
+ }
+ data.diff(oldData).add(function (newIdx) {
+ var point = getSymbolPoint(newIdx);
+ if (symbolNeedsDraw(data, point, newIdx, opt)) {
+ var symbolEl = new SymbolCtor(data, newIdx, seriesScope, symbolUpdateOpt);
+ symbolEl.setPosition(point);
+ data.setItemGraphicEl(newIdx, symbolEl);
+ group.add(symbolEl);
+ }
+ }).update(function (newIdx, oldIdx) {
+ var symbolEl = oldData.getItemGraphicEl(oldIdx);
+ var point = getSymbolPoint(newIdx);
+ if (!symbolNeedsDraw(data, point, newIdx, opt)) {
+ group.remove(symbolEl);
+ return;
+ }
+ var newSymbolType = data.getItemVisual(newIdx, 'symbol') || 'circle';
+ var oldSymbolType = symbolEl && symbolEl.getSymbolType && symbolEl.getSymbolType();
+ if (!symbolEl
+ // Create a new if symbol type changed.
+ || oldSymbolType && oldSymbolType !== newSymbolType) {
+ group.remove(symbolEl);
+ symbolEl = new SymbolCtor(data, newIdx, seriesScope, symbolUpdateOpt);
+ symbolEl.setPosition(point);
+ } else {
+ symbolEl.updateData(data, newIdx, seriesScope, symbolUpdateOpt);
+ var target = {
+ x: point[0],
+ y: point[1]
+ };
+ disableAnimation ? symbolEl.attr(target) : updateProps(symbolEl, target, seriesModel);
+ }
+ // Add back
+ group.add(symbolEl);
+ data.setItemGraphicEl(newIdx, symbolEl);
+ }).remove(function (oldIdx) {
+ var el = oldData.getItemGraphicEl(oldIdx);
+ el && el.fadeOut(function () {
+ group.remove(el);
+ }, seriesModel);
+ }).execute();
+ this._getSymbolPoint = getSymbolPoint;
+ this._data = data;
+ };
+ SymbolDraw.prototype.updateLayout = function () {
+ var _this = this;
+ var data = this._data;
+ if (data) {
+ // Not use animation
+ data.eachItemGraphicEl(function (el, idx) {
+ var point = _this._getSymbolPoint(idx);
+ el.setPosition(point);
+ el.markRedraw();
+ });
+ }
+ };
+ SymbolDraw.prototype.incrementalPrepareUpdate = function (data) {
+ this._seriesScope = makeSeriesScope(data);
+ this._data = null;
+ this.group.removeAll();
+ };
+ /**
+ * Update symbols draw by new data
+ */
+ SymbolDraw.prototype.incrementalUpdate = function (taskParams, data, opt) {
+ // Clear
+ this._progressiveEls = [];
+ opt = normalizeUpdateOpt(opt);
+ function updateIncrementalAndHover(el) {
+ if (!el.isGroup) {
+ el.incremental = true;
+ el.ensureState('emphasis').hoverLayer = true;
+ }
+ }
+ for (var idx = taskParams.start; idx < taskParams.end; idx++) {
+ var point = data.getItemLayout(idx);
+ if (symbolNeedsDraw(data, point, idx, opt)) {
+ var el = new this._SymbolCtor(data, idx, this._seriesScope);
+ el.traverse(updateIncrementalAndHover);
+ el.setPosition(point);
+ this.group.add(el);
+ data.setItemGraphicEl(idx, el);
+ this._progressiveEls.push(el);
+ }
+ }
+ };
+ SymbolDraw.prototype.eachRendered = function (cb) {
+ traverseElements(this._progressiveEls || this.group, cb);
+ };
+ SymbolDraw.prototype.remove = function (enableAnimation) {
+ var group = this.group;
+ var data = this._data;
+ // Incremental model do not have this._data.
+ if (data && enableAnimation) {
+ data.eachItemGraphicEl(function (el) {
+ el.fadeOut(function () {
+ group.remove(el);
+ }, data.hostModel);
+ });
+ } else {
+ group.removeAll();
+ }
+ };
+ return SymbolDraw;
+ }();
+
+ function prepareDataCoordInfo(coordSys, data, valueOrigin) {
+ var baseAxis = coordSys.getBaseAxis();
+ var valueAxis = coordSys.getOtherAxis(baseAxis);
+ var valueStart = getValueStart(valueAxis, valueOrigin);
+ var baseAxisDim = baseAxis.dim;
+ var valueAxisDim = valueAxis.dim;
+ var valueDim = data.mapDimension(valueAxisDim);
+ var baseDim = data.mapDimension(baseAxisDim);
+ var baseDataOffset = valueAxisDim === 'x' || valueAxisDim === 'radius' ? 1 : 0;
+ var dims = map(coordSys.dimensions, function (coordDim) {
+ return data.mapDimension(coordDim);
+ });
+ var stacked = false;
+ var stackResultDim = data.getCalculationInfo('stackResultDimension');
+ if (isDimensionStacked(data, dims[0] /* , dims[1] */)) {
+ // jshint ignore:line
+ stacked = true;
+ dims[0] = stackResultDim;
+ }
+ if (isDimensionStacked(data, dims[1] /* , dims[0] */)) {
+ // jshint ignore:line
+ stacked = true;
+ dims[1] = stackResultDim;
+ }
+ return {
+ dataDimsForPoint: dims,
+ valueStart: valueStart,
+ valueAxisDim: valueAxisDim,
+ baseAxisDim: baseAxisDim,
+ stacked: !!stacked,
+ valueDim: valueDim,
+ baseDim: baseDim,
+ baseDataOffset: baseDataOffset,
+ stackedOverDimension: data.getCalculationInfo('stackedOverDimension')
+ };
+ }
+ function getValueStart(valueAxis, valueOrigin) {
+ var valueStart = 0;
+ var extent = valueAxis.scale.getExtent();
+ if (valueOrigin === 'start') {
+ valueStart = extent[0];
+ } else if (valueOrigin === 'end') {
+ valueStart = extent[1];
+ }
+ // If origin is specified as a number, use it as
+ // valueStart directly
+ else if (isNumber(valueOrigin) && !isNaN(valueOrigin)) {
+ valueStart = valueOrigin;
+ }
+ // auto
+ else {
+ // Both positive
+ if (extent[0] > 0) {
+ valueStart = extent[0];
+ }
+ // Both negative
+ else if (extent[1] < 0) {
+ valueStart = extent[1];
+ }
+ // If is one positive, and one negative, onZero shall be true
+ }
+
+ return valueStart;
+ }
+ function getStackedOnPoint(dataCoordInfo, coordSys, data, idx) {
+ var value = NaN;
+ if (dataCoordInfo.stacked) {
+ value = data.get(data.getCalculationInfo('stackedOverDimension'), idx);
+ }
+ if (isNaN(value)) {
+ value = dataCoordInfo.valueStart;
+ }
+ var baseDataOffset = dataCoordInfo.baseDataOffset;
+ var stackedData = [];
+ stackedData[baseDataOffset] = data.get(dataCoordInfo.baseDim, idx);
+ stackedData[1 - baseDataOffset] = value;
+ return coordSys.dataToPoint(stackedData);
+ }
+
+ function diffData(oldData, newData) {
+ var diffResult = [];
+ newData.diff(oldData).add(function (idx) {
+ diffResult.push({
+ cmd: '+',
+ idx: idx
+ });
+ }).update(function (newIdx, oldIdx) {
+ diffResult.push({
+ cmd: '=',
+ idx: oldIdx,
+ idx1: newIdx
+ });
+ }).remove(function (idx) {
+ diffResult.push({
+ cmd: '-',
+ idx: idx
+ });
+ }).execute();
+ return diffResult;
+ }
+ function lineAnimationDiff(oldData, newData, oldStackedOnPoints, newStackedOnPoints, oldCoordSys, newCoordSys, oldValueOrigin, newValueOrigin) {
+ var diff = diffData(oldData, newData);
+ // let newIdList = newData.mapArray(newData.getId);
+ // let oldIdList = oldData.mapArray(oldData.getId);
+ // convertToIntId(newIdList, oldIdList);
+ // // FIXME One data ?
+ // diff = arrayDiff(oldIdList, newIdList);
+ var currPoints = [];
+ var nextPoints = [];
+ // Points for stacking base line
+ var currStackedPoints = [];
+ var nextStackedPoints = [];
+ var status = [];
+ var sortedIndices = [];
+ var rawIndices = [];
+ var newDataOldCoordInfo = prepareDataCoordInfo(oldCoordSys, newData, oldValueOrigin);
+ // const oldDataNewCoordInfo = prepareDataCoordInfo(newCoordSys, oldData, newValueOrigin);
+ var oldPoints = oldData.getLayout('points') || [];
+ var newPoints = newData.getLayout('points') || [];
+ for (var i = 0; i < diff.length; i++) {
+ var diffItem = diff[i];
+ var pointAdded = true;
+ var oldIdx2 = void 0;
+ var newIdx2 = void 0;
+ // FIXME, animation is not so perfect when dataZoom window moves fast
+ // Which is in case remvoing or add more than one data in the tail or head
+ switch (diffItem.cmd) {
+ case '=':
+ oldIdx2 = diffItem.idx * 2;
+ newIdx2 = diffItem.idx1 * 2;
+ var currentX = oldPoints[oldIdx2];
+ var currentY = oldPoints[oldIdx2 + 1];
+ var nextX = newPoints[newIdx2];
+ var nextY = newPoints[newIdx2 + 1];
+ // If previous data is NaN, use next point directly
+ if (isNaN(currentX) || isNaN(currentY)) {
+ currentX = nextX;
+ currentY = nextY;
+ }
+ currPoints.push(currentX, currentY);
+ nextPoints.push(nextX, nextY);
+ currStackedPoints.push(oldStackedOnPoints[oldIdx2], oldStackedOnPoints[oldIdx2 + 1]);
+ nextStackedPoints.push(newStackedOnPoints[newIdx2], newStackedOnPoints[newIdx2 + 1]);
+ rawIndices.push(newData.getRawIndex(diffItem.idx1));
+ break;
+ case '+':
+ var newIdx = diffItem.idx;
+ var newDataDimsForPoint = newDataOldCoordInfo.dataDimsForPoint;
+ var oldPt = oldCoordSys.dataToPoint([newData.get(newDataDimsForPoint[0], newIdx), newData.get(newDataDimsForPoint[1], newIdx)]);
+ newIdx2 = newIdx * 2;
+ currPoints.push(oldPt[0], oldPt[1]);
+ nextPoints.push(newPoints[newIdx2], newPoints[newIdx2 + 1]);
+ var stackedOnPoint = getStackedOnPoint(newDataOldCoordInfo, oldCoordSys, newData, newIdx);
+ currStackedPoints.push(stackedOnPoint[0], stackedOnPoint[1]);
+ nextStackedPoints.push(newStackedOnPoints[newIdx2], newStackedOnPoints[newIdx2 + 1]);
+ rawIndices.push(newData.getRawIndex(newIdx));
+ break;
+ case '-':
+ pointAdded = false;
+ }
+ // Original indices
+ if (pointAdded) {
+ status.push(diffItem);
+ sortedIndices.push(sortedIndices.length);
+ }
+ }
+ // Diff result may be crossed if all items are changed
+ // Sort by data index
+ sortedIndices.sort(function (a, b) {
+ return rawIndices[a] - rawIndices[b];
+ });
+ var len = currPoints.length;
+ var sortedCurrPoints = createFloat32Array(len);
+ var sortedNextPoints = createFloat32Array(len);
+ var sortedCurrStackedPoints = createFloat32Array(len);
+ var sortedNextStackedPoints = createFloat32Array(len);
+ var sortedStatus = [];
+ for (var i = 0; i < sortedIndices.length; i++) {
+ var idx = sortedIndices[i];
+ var i2 = i * 2;
+ var idx2 = idx * 2;
+ sortedCurrPoints[i2] = currPoints[idx2];
+ sortedCurrPoints[i2 + 1] = currPoints[idx2 + 1];
+ sortedNextPoints[i2] = nextPoints[idx2];
+ sortedNextPoints[i2 + 1] = nextPoints[idx2 + 1];
+ sortedCurrStackedPoints[i2] = currStackedPoints[idx2];
+ sortedCurrStackedPoints[i2 + 1] = currStackedPoints[idx2 + 1];
+ sortedNextStackedPoints[i2] = nextStackedPoints[idx2];
+ sortedNextStackedPoints[i2 + 1] = nextStackedPoints[idx2 + 1];
+ sortedStatus[i] = status[idx];
+ }
+ return {
+ current: sortedCurrPoints,
+ next: sortedNextPoints,
+ stackedOnCurrent: sortedCurrStackedPoints,
+ stackedOnNext: sortedNextStackedPoints,
+ status: sortedStatus
+ };
+ }
+
+ var mathMin$5 = Math.min;
+ var mathMax$5 = Math.max;
+ function isPointNull(x, y) {
+ return isNaN(x) || isNaN(y);
+ }
+ /**
+ * Draw smoothed line in non-monotone, in may cause undesired curve in extreme
+ * situations. This should be used when points are non-monotone neither in x or
+ * y dimension.
+ */
+ function drawSegment(ctx, points, start, segLen, allLen, dir, smooth, smoothMonotone, connectNulls) {
+ var prevX;
+ var prevY;
+ var cpx0;
+ var cpy0;
+ var cpx1;
+ var cpy1;
+ var idx = start;
+ var k = 0;
+ for (; k < segLen; k++) {
+ var x = points[idx * 2];
+ var y = points[idx * 2 + 1];
+ if (idx >= allLen || idx < 0) {
+ break;
+ }
+ if (isPointNull(x, y)) {
+ if (connectNulls) {
+ idx += dir;
+ continue;
+ }
+ break;
+ }
+ if (idx === start) {
+ ctx[dir > 0 ? 'moveTo' : 'lineTo'](x, y);
+ cpx0 = x;
+ cpy0 = y;
+ } else {
+ var dx = x - prevX;
+ var dy = y - prevY;
+ // Ignore tiny segment.
+ if (dx * dx + dy * dy < 0.5) {
+ idx += dir;
+ continue;
+ }
+ if (smooth > 0) {
+ var nextIdx = idx + dir;
+ var nextX = points[nextIdx * 2];
+ var nextY = points[nextIdx * 2 + 1];
+ // Ignore duplicate point
+ while (nextX === x && nextY === y && k < segLen) {
+ k++;
+ nextIdx += dir;
+ idx += dir;
+ nextX = points[nextIdx * 2];
+ nextY = points[nextIdx * 2 + 1];
+ x = points[idx * 2];
+ y = points[idx * 2 + 1];
+ dx = x - prevX;
+ dy = y - prevY;
+ }
+ var tmpK = k + 1;
+ if (connectNulls) {
+ // Find next point not null
+ while (isPointNull(nextX, nextY) && tmpK < segLen) {
+ tmpK++;
+ nextIdx += dir;
+ nextX = points[nextIdx * 2];
+ nextY = points[nextIdx * 2 + 1];
+ }
+ }
+ var ratioNextSeg = 0.5;
+ var vx = 0;
+ var vy = 0;
+ var nextCpx0 = void 0;
+ var nextCpy0 = void 0;
+ // Is last point
+ if (tmpK >= segLen || isPointNull(nextX, nextY)) {
+ cpx1 = x;
+ cpy1 = y;
+ } else {
+ vx = nextX - prevX;
+ vy = nextY - prevY;
+ var dx0 = x - prevX;
+ var dx1 = nextX - x;
+ var dy0 = y - prevY;
+ var dy1 = nextY - y;
+ var lenPrevSeg = void 0;
+ var lenNextSeg = void 0;
+ if (smoothMonotone === 'x') {
+ lenPrevSeg = Math.abs(dx0);
+ lenNextSeg = Math.abs(dx1);
+ var dir_1 = vx > 0 ? 1 : -1;
+ cpx1 = x - dir_1 * lenPrevSeg * smooth;
+ cpy1 = y;
+ nextCpx0 = x + dir_1 * lenNextSeg * smooth;
+ nextCpy0 = y;
+ } else if (smoothMonotone === 'y') {
+ lenPrevSeg = Math.abs(dy0);
+ lenNextSeg = Math.abs(dy1);
+ var dir_2 = vy > 0 ? 1 : -1;
+ cpx1 = x;
+ cpy1 = y - dir_2 * lenPrevSeg * smooth;
+ nextCpx0 = x;
+ nextCpy0 = y + dir_2 * lenNextSeg * smooth;
+ } else {
+ lenPrevSeg = Math.sqrt(dx0 * dx0 + dy0 * dy0);
+ lenNextSeg = Math.sqrt(dx1 * dx1 + dy1 * dy1);
+ // Use ratio of seg length
+ ratioNextSeg = lenNextSeg / (lenNextSeg + lenPrevSeg);
+ cpx1 = x - vx * smooth * (1 - ratioNextSeg);
+ cpy1 = y - vy * smooth * (1 - ratioNextSeg);
+ // cp0 of next segment
+ nextCpx0 = x + vx * smooth * ratioNextSeg;
+ nextCpy0 = y + vy * smooth * ratioNextSeg;
+ // Smooth constraint between point and next point.
+ // Avoid exceeding extreme after smoothing.
+ nextCpx0 = mathMin$5(nextCpx0, mathMax$5(nextX, x));
+ nextCpy0 = mathMin$5(nextCpy0, mathMax$5(nextY, y));
+ nextCpx0 = mathMax$5(nextCpx0, mathMin$5(nextX, x));
+ nextCpy0 = mathMax$5(nextCpy0, mathMin$5(nextY, y));
+ // Reclaculate cp1 based on the adjusted cp0 of next seg.
+ vx = nextCpx0 - x;
+ vy = nextCpy0 - y;
+ cpx1 = x - vx * lenPrevSeg / lenNextSeg;
+ cpy1 = y - vy * lenPrevSeg / lenNextSeg;
+ // Smooth constraint between point and prev point.
+ // Avoid exceeding extreme after smoothing.
+ cpx1 = mathMin$5(cpx1, mathMax$5(prevX, x));
+ cpy1 = mathMin$5(cpy1, mathMax$5(prevY, y));
+ cpx1 = mathMax$5(cpx1, mathMin$5(prevX, x));
+ cpy1 = mathMax$5(cpy1, mathMin$5(prevY, y));
+ // Adjust next cp0 again.
+ vx = x - cpx1;
+ vy = y - cpy1;
+ nextCpx0 = x + vx * lenNextSeg / lenPrevSeg;
+ nextCpy0 = y + vy * lenNextSeg / lenPrevSeg;
+ }
+ }
+ ctx.bezierCurveTo(cpx0, cpy0, cpx1, cpy1, x, y);
+ cpx0 = nextCpx0;
+ cpy0 = nextCpy0;
+ } else {
+ ctx.lineTo(x, y);
+ }
+ }
+ prevX = x;
+ prevY = y;
+ idx += dir;
+ }
+ return k;
+ }
+ var ECPolylineShape = /** @class */function () {
+ function ECPolylineShape() {
+ this.smooth = 0;
+ this.smoothConstraint = true;
+ }
+ return ECPolylineShape;
+ }();
+ var ECPolyline = /** @class */function (_super) {
+ __extends(ECPolyline, _super);
+ function ECPolyline(opts) {
+ var _this = _super.call(this, opts) || this;
+ _this.type = 'ec-polyline';
+ return _this;
+ }
+ ECPolyline.prototype.getDefaultStyle = function () {
+ return {
+ stroke: '#000',
+ fill: null
+ };
+ };
+ ECPolyline.prototype.getDefaultShape = function () {
+ return new ECPolylineShape();
+ };
+ ECPolyline.prototype.buildPath = function (ctx, shape) {
+ var points = shape.points;
+ var i = 0;
+ var len = points.length / 2;
+ // const result = getBoundingBox(points, shape.smoothConstraint);
+ if (shape.connectNulls) {
+ // Must remove first and last null values avoid draw error in polygon
+ for (; len > 0; len--) {
+ if (!isPointNull(points[len * 2 - 2], points[len * 2 - 1])) {
+ break;
+ }
+ }
+ for (; i < len; i++) {
+ if (!isPointNull(points[i * 2], points[i * 2 + 1])) {
+ break;
+ }
+ }
+ }
+ while (i < len) {
+ i += drawSegment(ctx, points, i, len, len, 1, shape.smooth, shape.smoothMonotone, shape.connectNulls) + 1;
+ }
+ };
+ ECPolyline.prototype.getPointOn = function (xOrY, dim) {
+ if (!this.path) {
+ this.createPathProxy();
+ this.buildPath(this.path, this.shape);
+ }
+ var path = this.path;
+ var data = path.data;
+ var CMD = PathProxy.CMD;
+ var x0;
+ var y0;
+ var isDimX = dim === 'x';
+ var roots = [];
+ for (var i = 0; i < data.length;) {
+ var cmd = data[i++];
+ var x = void 0;
+ var y = void 0;
+ var x2 = void 0;
+ var y2 = void 0;
+ var x3 = void 0;
+ var y3 = void 0;
+ var t = void 0;
+ switch (cmd) {
+ case CMD.M:
+ x0 = data[i++];
+ y0 = data[i++];
+ break;
+ case CMD.L:
+ x = data[i++];
+ y = data[i++];
+ t = isDimX ? (xOrY - x0) / (x - x0) : (xOrY - y0) / (y - y0);
+ if (t <= 1 && t >= 0) {
+ var val = isDimX ? (y - y0) * t + y0 : (x - x0) * t + x0;
+ return isDimX ? [xOrY, val] : [val, xOrY];
+ }
+ x0 = x;
+ y0 = y;
+ break;
+ case CMD.C:
+ x = data[i++];
+ y = data[i++];
+ x2 = data[i++];
+ y2 = data[i++];
+ x3 = data[i++];
+ y3 = data[i++];
+ var nRoot = isDimX ? cubicRootAt(x0, x, x2, x3, xOrY, roots) : cubicRootAt(y0, y, y2, y3, xOrY, roots);
+ if (nRoot > 0) {
+ for (var i_1 = 0; i_1 < nRoot; i_1++) {
+ var t_1 = roots[i_1];
+ if (t_1 <= 1 && t_1 >= 0) {
+ var val = isDimX ? cubicAt(y0, y, y2, y3, t_1) : cubicAt(x0, x, x2, x3, t_1);
+ return isDimX ? [xOrY, val] : [val, xOrY];
+ }
+ }
+ }
+ x0 = x3;
+ y0 = y3;
+ break;
+ }
+ }
+ };
+ return ECPolyline;
+ }(Path);
+ var ECPolygonShape = /** @class */function (_super) {
+ __extends(ECPolygonShape, _super);
+ function ECPolygonShape() {
+ return _super !== null && _super.apply(this, arguments) || this;
+ }
+ return ECPolygonShape;
+ }(ECPolylineShape);
+ var ECPolygon = /** @class */function (_super) {
+ __extends(ECPolygon, _super);
+ function ECPolygon(opts) {
+ var _this = _super.call(this, opts) || this;
+ _this.type = 'ec-polygon';
+ return _this;
+ }
+ ECPolygon.prototype.getDefaultShape = function () {
+ return new ECPolygonShape();
+ };
+ ECPolygon.prototype.buildPath = function (ctx, shape) {
+ var points = shape.points;
+ var stackedOnPoints = shape.stackedOnPoints;
+ var i = 0;
+ var len = points.length / 2;
+ var smoothMonotone = shape.smoothMonotone;
+ if (shape.connectNulls) {
+ // Must remove first and last null values avoid draw error in polygon
+ for (; len > 0; len--) {
+ if (!isPointNull(points[len * 2 - 2], points[len * 2 - 1])) {
+ break;
+ }
+ }
+ for (; i < len; i++) {
+ if (!isPointNull(points[i * 2], points[i * 2 + 1])) {
+ break;
+ }
+ }
+ }
+ while (i < len) {
+ var k = drawSegment(ctx, points, i, len, len, 1, shape.smooth, smoothMonotone, shape.connectNulls);
+ drawSegment(ctx, stackedOnPoints, i + k - 1, k, len, -1, shape.stackedOnSmooth, smoothMonotone, shape.connectNulls);
+ i += k + 1;
+ ctx.closePath();
+ }
+ };
+ return ECPolygon;
+ }(Path);
+
+ function createGridClipPath(cartesian, hasAnimation, seriesModel, done, during) {
+ var rect = cartesian.getArea();
+ var x = rect.x;
+ var y = rect.y;
+ var width = rect.width;
+ var height = rect.height;
+ var lineWidth = seriesModel.get(['lineStyle', 'width']) || 2;
+ // Expand the clip path a bit to avoid the border is clipped and looks thinner
+ x -= lineWidth / 2;
+ y -= lineWidth / 2;
+ width += lineWidth;
+ height += lineWidth;
+ // fix: https://github.com/apache/incubator-echarts/issues/11369
+ width = Math.ceil(width);
+ if (x !== Math.floor(x)) {
+ x = Math.floor(x);
+ // if no extra 1px on `width`, it will still be clipped since `x` is floored
+ width++;
+ }
+ var clipPath = new Rect({
+ shape: {
+ x: x,
+ y: y,
+ width: width,
+ height: height
+ }
+ });
+ if (hasAnimation) {
+ var baseAxis = cartesian.getBaseAxis();
+ var isHorizontal = baseAxis.isHorizontal();
+ var isAxisInversed = baseAxis.inverse;
+ if (isHorizontal) {
+ if (isAxisInversed) {
+ clipPath.shape.x += width;
+ }
+ clipPath.shape.width = 0;
+ } else {
+ if (!isAxisInversed) {
+ clipPath.shape.y += height;
+ }
+ clipPath.shape.height = 0;
+ }
+ var duringCb = isFunction(during) ? function (percent) {
+ during(percent, clipPath);
+ } : null;
+ initProps(clipPath, {
+ shape: {
+ width: width,
+ height: height,
+ x: x,
+ y: y
+ }
+ }, seriesModel, null, done, duringCb);
+ }
+ return clipPath;
+ }
+ function createPolarClipPath(polar, hasAnimation, seriesModel) {
+ var sectorArea = polar.getArea();
+ // Avoid float number rounding error for symbol on the edge of axis extent.
+ var r0 = round(sectorArea.r0, 1);
+ var r = round(sectorArea.r, 1);
+ var clipPath = new Sector({
+ shape: {
+ cx: round(polar.cx, 1),
+ cy: round(polar.cy, 1),
+ r0: r0,
+ r: r,
+ startAngle: sectorArea.startAngle,
+ endAngle: sectorArea.endAngle,
+ clockwise: sectorArea.clockwise
+ }
+ });
+ if (hasAnimation) {
+ var isRadial = polar.getBaseAxis().dim === 'angle';
+ if (isRadial) {
+ clipPath.shape.endAngle = sectorArea.startAngle;
+ } else {
+ clipPath.shape.r = r0;
+ }
+ initProps(clipPath, {
+ shape: {
+ endAngle: sectorArea.endAngle,
+ r: r
+ }
+ }, seriesModel);
+ }
+ return clipPath;
+ }
+ function createClipPath(coordSys, hasAnimation, seriesModel, done, during) {
+ if (!coordSys) {
+ return null;
+ } else if (coordSys.type === 'polar') {
+ return createPolarClipPath(coordSys, hasAnimation, seriesModel);
+ } else if (coordSys.type === 'cartesian2d') {
+ return createGridClipPath(coordSys, hasAnimation, seriesModel, done, during);
+ }
+ return null;
+ }
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+
+
+ /**
+ * AUTO-GENERATED FILE. DO NOT MODIFY.
+ */
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+ function isCoordinateSystemType(coordSys, type) {
+ return coordSys.type === type;
+ }
+
+ function isPointsSame(points1, points2) {
+ if (points1.length !== points2.length) {
+ return;
+ }
+ for (var i = 0; i < points1.length; i++) {
+ if (points1[i] !== points2[i]) {
+ return;
+ }
+ }
+ return true;
+ }
+ function bboxFromPoints(points) {
+ var minX = Infinity;
+ var minY = Infinity;
+ var maxX = -Infinity;
+ var maxY = -Infinity;
+ for (var i = 0; i < points.length;) {
+ var x = points[i++];
+ var y = points[i++];
+ if (!isNaN(x)) {
+ minX = Math.min(x, minX);
+ maxX = Math.max(x, maxX);
+ }
+ if (!isNaN(y)) {
+ minY = Math.min(y, minY);
+ maxY = Math.max(y, maxY);
+ }
+ }
+ return [[minX, minY], [maxX, maxY]];
+ }
+ function getBoundingDiff(points1, points2) {
+ var _a = bboxFromPoints(points1),
+ min1 = _a[0],
+ max1 = _a[1];
+ var _b = bboxFromPoints(points2),
+ min2 = _b[0],
+ max2 = _b[1];
+ // Get a max value from each corner of two boundings.
+ return Math.max(Math.abs(min1[0] - min2[0]), Math.abs(min1[1] - min2[1]), Math.abs(max1[0] - max2[0]), Math.abs(max1[1] - max2[1]));
+ }
+ function getSmooth(smooth) {
+ return isNumber(smooth) ? smooth : smooth ? 0.5 : 0;
+ }
+ function getStackedOnPoints(coordSys, data, dataCoordInfo) {
+ if (!dataCoordInfo.valueDim) {
+ return [];
+ }
+ var len = data.count();
+ var points = createFloat32Array(len * 2);
+ for (var idx = 0; idx < len; idx++) {
+ var pt = getStackedOnPoint(dataCoordInfo, coordSys, data, idx);
+ points[idx * 2] = pt[0];
+ points[idx * 2 + 1] = pt[1];
+ }
+ return points;
+ }
+ function turnPointsIntoStep(points, coordSys, stepTurnAt, connectNulls) {
+ var baseAxis = coordSys.getBaseAxis();
+ var baseIndex = baseAxis.dim === 'x' || baseAxis.dim === 'radius' ? 0 : 1;
+ var stepPoints = [];
+ var i = 0;
+ var stepPt = [];
+ var pt = [];
+ var nextPt = [];
+ var filteredPoints = [];
+ if (connectNulls) {
+ for (i = 0; i < points.length; i += 2) {
+ if (!isNaN(points[i]) && !isNaN(points[i + 1])) {
+ filteredPoints.push(points[i], points[i + 1]);
+ }
+ }
+ points = filteredPoints;
+ }
+ for (i = 0; i < points.length - 2; i += 2) {
+ nextPt[0] = points[i + 2];
+ nextPt[1] = points[i + 3];
+ pt[0] = points[i];
+ pt[1] = points[i + 1];
+ stepPoints.push(pt[0], pt[1]);
+ switch (stepTurnAt) {
+ case 'end':
+ stepPt[baseIndex] = nextPt[baseIndex];
+ stepPt[1 - baseIndex] = pt[1 - baseIndex];
+ stepPoints.push(stepPt[0], stepPt[1]);
+ break;
+ case 'middle':
+ var middle = (pt[baseIndex] + nextPt[baseIndex]) / 2;
+ var stepPt2 = [];
+ stepPt[baseIndex] = stepPt2[baseIndex] = middle;
+ stepPt[1 - baseIndex] = pt[1 - baseIndex];
+ stepPt2[1 - baseIndex] = nextPt[1 - baseIndex];
+ stepPoints.push(stepPt[0], stepPt[1]);
+ stepPoints.push(stepPt2[0], stepPt2[1]);
+ break;
+ default:
+ // default is start
+ stepPt[baseIndex] = pt[baseIndex];
+ stepPt[1 - baseIndex] = nextPt[1 - baseIndex];
+ stepPoints.push(stepPt[0], stepPt[1]);
+ }
+ }
+ // Last points
+ stepPoints.push(points[i++], points[i++]);
+ return stepPoints;
+ }
+ /**
+ * Clip color stops to edge. Avoid creating too large gradients.
+ * Which may lead to blurry when GPU acceleration is enabled. See #15680
+ *
+ * The stops has been sorted from small to large.
+ */
+ function clipColorStops(colorStops, maxSize) {
+ var newColorStops = [];
+ var len = colorStops.length;
+ // coord will always < 0 in prevOutOfRangeColorStop.
+ var prevOutOfRangeColorStop;
+ var prevInRangeColorStop;
+ function lerpStop(stop0, stop1, clippedCoord) {
+ var coord0 = stop0.coord;
+ var p = (clippedCoord - coord0) / (stop1.coord - coord0);
+ var color = lerp$1(p, [stop0.color, stop1.color]);
+ return {
+ coord: clippedCoord,
+ color: color
+ };
+ }
+ for (var i = 0; i < len; i++) {
+ var stop_1 = colorStops[i];
+ var coord = stop_1.coord;
+ if (coord < 0) {
+ prevOutOfRangeColorStop = stop_1;
+ } else if (coord > maxSize) {
+ if (prevInRangeColorStop) {
+ newColorStops.push(lerpStop(prevInRangeColorStop, stop_1, maxSize));
+ } else if (prevOutOfRangeColorStop) {
+ // If there are two stops and coord range is between these two stops
+ newColorStops.push(lerpStop(prevOutOfRangeColorStop, stop_1, 0), lerpStop(prevOutOfRangeColorStop, stop_1, maxSize));
+ }
+ // All following stop will be out of range. So just ignore them.
+ break;
+ } else {
+ if (prevOutOfRangeColorStop) {
+ newColorStops.push(lerpStop(prevOutOfRangeColorStop, stop_1, 0));
+ // Reset
+ prevOutOfRangeColorStop = null;
+ }
+ newColorStops.push(stop_1);
+ prevInRangeColorStop = stop_1;
+ }
+ }
+ return newColorStops;
+ }
+ function getVisualGradient(data, coordSys, api) {
+ var visualMetaList = data.getVisual('visualMeta');
+ if (!visualMetaList || !visualMetaList.length || !data.count()) {
+ // When data.count() is 0, gradient range can not be calculated.
+ return;
+ }
+ if (coordSys.type !== 'cartesian2d') {
+ if ("development" !== 'production') {
+ console.warn('Visual map on line style is only supported on cartesian2d.');
+ }
+ return;
+ }
+ var coordDim;
+ var visualMeta;
+ for (var i = visualMetaList.length - 1; i >= 0; i--) {
+ var dimInfo = data.getDimensionInfo(visualMetaList[i].dimension);
+ coordDim = dimInfo && dimInfo.coordDim;
+ // Can only be x or y
+ if (coordDim === 'x' || coordDim === 'y') {
+ visualMeta = visualMetaList[i];
+ break;
+ }
+ }
+ if (!visualMeta) {
+ if ("development" !== 'production') {
+ console.warn('Visual map on line style only support x or y dimension.');
+ }
+ return;
+ }
+ // If the area to be rendered is bigger than area defined by LinearGradient,
+ // the canvas spec prescribes that the color of the first stop and the last
+ // stop should be used. But if two stops are added at offset 0, in effect
+ // browsers use the color of the second stop to render area outside
+ // LinearGradient. So we can only infinitesimally extend area defined in
+ // LinearGradient to render `outerColors`.
+ var axis = coordSys.getAxis(coordDim);
+ // dataToCoord mapping may not be linear, but must be monotonic.
+ var colorStops = map(visualMeta.stops, function (stop) {
+ // offset will be calculated later.
+ return {
+ coord: axis.toGlobalCoord(axis.dataToCoord(stop.value)),
+ color: stop.color
+ };
+ });
+ var stopLen = colorStops.length;
+ var outerColors = visualMeta.outerColors.slice();
+ if (stopLen && colorStops[0].coord > colorStops[stopLen - 1].coord) {
+ colorStops.reverse();
+ outerColors.reverse();
+ }
+ var colorStopsInRange = clipColorStops(colorStops, coordDim === 'x' ? api.getWidth() : api.getHeight());
+ var inRangeStopLen = colorStopsInRange.length;
+ if (!inRangeStopLen && stopLen) {
+ // All stops are out of range. All will be the same color.
+ return colorStops[0].coord < 0 ? outerColors[1] ? outerColors[1] : colorStops[stopLen - 1].color : outerColors[0] ? outerColors[0] : colorStops[0].color;
+ }
+ var tinyExtent = 10; // Arbitrary value: 10px
+ var minCoord = colorStopsInRange[0].coord - tinyExtent;
+ var maxCoord = colorStopsInRange[inRangeStopLen - 1].coord + tinyExtent;
+ var coordSpan = maxCoord - minCoord;
+ if (coordSpan < 1e-3) {
+ return 'transparent';
+ }
+ each(colorStopsInRange, function (stop) {
+ stop.offset = (stop.coord - minCoord) / coordSpan;
+ });
+ colorStopsInRange.push({
+ // NOTE: inRangeStopLen may still be 0 if stoplen is zero.
+ offset: inRangeStopLen ? colorStopsInRange[inRangeStopLen - 1].offset : 0.5,
+ color: outerColors[1] || 'transparent'
+ });
+ colorStopsInRange.unshift({
+ offset: inRangeStopLen ? colorStopsInRange[0].offset : 0.5,
+ color: outerColors[0] || 'transparent'
+ });
+ var gradient = new LinearGradient(0, 0, 0, 0, colorStopsInRange, true);
+ gradient[coordDim] = minCoord;
+ gradient[coordDim + '2'] = maxCoord;
+ return gradient;
+ }
+ function getIsIgnoreFunc(seriesModel, data, coordSys) {
+ var showAllSymbol = seriesModel.get('showAllSymbol');
+ var isAuto = showAllSymbol === 'auto';
+ if (showAllSymbol && !isAuto) {
+ return;
+ }
+ var categoryAxis = coordSys.getAxesByScale('ordinal')[0];
+ if (!categoryAxis) {
+ return;
+ }
+ // Note that category label interval strategy might bring some weird effect
+ // in some scenario: users may wonder why some of the symbols are not
+ // displayed. So we show all symbols as possible as we can.
+ if (isAuto
+ // Simplify the logic, do not determine label overlap here.
+ && canShowAllSymbolForCategory(categoryAxis, data)) {
+ return;
+ }
+ // Otherwise follow the label interval strategy on category axis.
+ var categoryDataDim = data.mapDimension(categoryAxis.dim);
+ var labelMap = {};
+ each(categoryAxis.getViewLabels(), function (labelItem) {
+ var ordinalNumber = categoryAxis.scale.getRawOrdinalNumber(labelItem.tickValue);
+ labelMap[ordinalNumber] = 1;
+ });
+ return function (dataIndex) {
+ return !labelMap.hasOwnProperty(data.get(categoryDataDim, dataIndex));
+ };
+ }
+ function canShowAllSymbolForCategory(categoryAxis, data) {
+ // In most cases, line is monotonous on category axis, and the label size
+ // is close with each other. So we check the symbol size and some of the
+ // label size alone with the category axis to estimate whether all symbol
+ // can be shown without overlap.
+ var axisExtent = categoryAxis.getExtent();
+ var availSize = Math.abs(axisExtent[1] - axisExtent[0]) / categoryAxis.scale.count();
+ isNaN(availSize) && (availSize = 0); // 0/0 is NaN.
+ // Sampling some points, max 5.
+ var dataLen = data.count();
+ var step = Math.max(1, Math.round(dataLen / 5));
+ for (var dataIndex = 0; dataIndex < dataLen; dataIndex += step) {
+ if (Symbol.getSymbolSize(data, dataIndex
+ // Only for cartesian, where `isHorizontal` exists.
+ )[categoryAxis.isHorizontal() ? 1 : 0]
+ // Empirical number
+ * 1.5 > availSize) {
+ return false;
+ }
+ }
+ return true;
+ }
+ function isPointNull$1(x, y) {
+ return isNaN(x) || isNaN(y);
+ }
+ function getLastIndexNotNull(points) {
+ var len = points.length / 2;
+ for (; len > 0; len--) {
+ if (!isPointNull$1(points[len * 2 - 2], points[len * 2 - 1])) {
+ break;
+ }
+ }
+ return len - 1;
+ }
+ function getPointAtIndex(points, idx) {
+ return [points[idx * 2], points[idx * 2 + 1]];
+ }
+ function getIndexRange(points, xOrY, dim) {
+ var len = points.length / 2;
+ var dimIdx = dim === 'x' ? 0 : 1;
+ var a;
+ var b;
+ var prevIndex = 0;
+ var nextIndex = -1;
+ for (var i = 0; i < len; i++) {
+ b = points[i * 2 + dimIdx];
+ if (isNaN(b) || isNaN(points[i * 2 + 1 - dimIdx])) {
+ continue;
+ }
+ if (i === 0) {
+ a = b;
+ continue;
+ }
+ if (a <= xOrY && b >= xOrY || a >= xOrY && b <= xOrY) {
+ nextIndex = i;
+ break;
+ }
+ prevIndex = i;
+ a = b;
+ }
+ return {
+ range: [prevIndex, nextIndex],
+ t: (xOrY - a) / (b - a)
+ };
+ }
+ function anyStateShowEndLabel(seriesModel) {
+ if (seriesModel.get(['endLabel', 'show'])) {
+ return true;
+ }
+ for (var i = 0; i < SPECIAL_STATES.length; i++) {
+ if (seriesModel.get([SPECIAL_STATES[i], 'endLabel', 'show'])) {
+ return true;
+ }
+ }
+ return false;
+ }
+ function createLineClipPath(lineView, coordSys, hasAnimation, seriesModel) {
+ if (isCoordinateSystemType(coordSys, 'cartesian2d')) {
+ var endLabelModel_1 = seriesModel.getModel('endLabel');
+ var valueAnimation_1 = endLabelModel_1.get('valueAnimation');
+ var data_1 = seriesModel.getData();
+ var labelAnimationRecord_1 = {
+ lastFrameIndex: 0
+ };
+ var during = anyStateShowEndLabel(seriesModel) ? function (percent, clipRect) {
+ lineView._endLabelOnDuring(percent, clipRect, data_1, labelAnimationRecord_1, valueAnimation_1, endLabelModel_1, coordSys);
+ } : null;
+ var isHorizontal = coordSys.getBaseAxis().isHorizontal();
+ var clipPath = createGridClipPath(coordSys, hasAnimation, seriesModel, function () {
+ var endLabel = lineView._endLabel;
+ if (endLabel && hasAnimation) {
+ if (labelAnimationRecord_1.originalX != null) {
+ endLabel.attr({
+ x: labelAnimationRecord_1.originalX,
+ y: labelAnimationRecord_1.originalY
+ });
+ }
+ }
+ }, during);
+ // Expand clip shape to avoid clipping when line value exceeds axis
+ if (!seriesModel.get('clip', true)) {
+ var rectShape = clipPath.shape;
+ var expandSize = Math.max(rectShape.width, rectShape.height);
+ if (isHorizontal) {
+ rectShape.y -= expandSize;
+ rectShape.height += expandSize * 2;
+ } else {
+ rectShape.x -= expandSize;
+ rectShape.width += expandSize * 2;
+ }
+ }
+ // Set to the final frame. To make sure label layout is right.
+ if (during) {
+ during(1, clipPath);
+ }
+ return clipPath;
+ } else {
+ if ("development" !== 'production') {
+ if (seriesModel.get(['endLabel', 'show'])) {
+ console.warn('endLabel is not supported for lines in polar systems.');
+ }
+ }
+ return createPolarClipPath(coordSys, hasAnimation, seriesModel);
+ }
+ }
+ function getEndLabelStateSpecified(endLabelModel, coordSys) {
+ var baseAxis = coordSys.getBaseAxis();
+ var isHorizontal = baseAxis.isHorizontal();
+ var isBaseInversed = baseAxis.inverse;
+ var align = isHorizontal ? isBaseInversed ? 'right' : 'left' : 'center';
+ var verticalAlign = isHorizontal ? 'middle' : isBaseInversed ? 'top' : 'bottom';
+ return {
+ normal: {
+ align: endLabelModel.get('align') || align,
+ verticalAlign: endLabelModel.get('verticalAlign') || verticalAlign
+ }
+ };
+ }
+ var LineView = /** @class */function (_super) {
+ __extends(LineView, _super);
+ function LineView() {
+ return _super !== null && _super.apply(this, arguments) || this;
+ }
+ LineView.prototype.init = function () {
+ var lineGroup = new Group();
+ var symbolDraw = new SymbolDraw();
+ this.group.add(symbolDraw.group);
+ this._symbolDraw = symbolDraw;
+ this._lineGroup = lineGroup;
+ };
+ LineView.prototype.render = function (seriesModel, ecModel, api) {
+ var _this = this;
+ var coordSys = seriesModel.coordinateSystem;
+ var group = this.group;
+ var data = seriesModel.getData();
+ var lineStyleModel = seriesModel.getModel('lineStyle');
+ var areaStyleModel = seriesModel.getModel('areaStyle');
+ var points = data.getLayout('points') || [];
+ var isCoordSysPolar = coordSys.type === 'polar';
+ var prevCoordSys = this._coordSys;
+ var symbolDraw = this._symbolDraw;
+ var polyline = this._polyline;
+ var polygon = this._polygon;
+ var lineGroup = this._lineGroup;
+ var hasAnimation = !ecModel.ssr && seriesModel.get('animation');
+ var isAreaChart = !areaStyleModel.isEmpty();
+ var valueOrigin = areaStyleModel.get('origin');
+ var dataCoordInfo = prepareDataCoordInfo(coordSys, data, valueOrigin);
+ var stackedOnPoints = isAreaChart && getStackedOnPoints(coordSys, data, dataCoordInfo);
+ var showSymbol = seriesModel.get('showSymbol');
+ var connectNulls = seriesModel.get('connectNulls');
+ var isIgnoreFunc = showSymbol && !isCoordSysPolar && getIsIgnoreFunc(seriesModel, data, coordSys);
+ // Remove temporary symbols
+ var oldData = this._data;
+ oldData && oldData.eachItemGraphicEl(function (el, idx) {
+ if (el.__temp) {
+ group.remove(el);
+ oldData.setItemGraphicEl(idx, null);
+ }
+ });
+ // Remove previous created symbols if showSymbol changed to false
+ if (!showSymbol) {
+ symbolDraw.remove();
+ }
+ group.add(lineGroup);
+ // FIXME step not support polar
+ var step = !isCoordSysPolar ? seriesModel.get('step') : false;
+ var clipShapeForSymbol;
+ if (coordSys && coordSys.getArea && seriesModel.get('clip', true)) {
+ clipShapeForSymbol = coordSys.getArea();
+ // Avoid float number rounding error for symbol on the edge of axis extent.
+ // See #7913 and `test/dataZoom-clip.html`.
+ if (clipShapeForSymbol.width != null) {
+ clipShapeForSymbol.x -= 0.1;
+ clipShapeForSymbol.y -= 0.1;
+ clipShapeForSymbol.width += 0.2;
+ clipShapeForSymbol.height += 0.2;
+ } else if (clipShapeForSymbol.r0) {
+ clipShapeForSymbol.r0 -= 0.5;
+ clipShapeForSymbol.r += 0.5;
+ }
+ }
+ this._clipShapeForSymbol = clipShapeForSymbol;
+ var visualColor = getVisualGradient(data, coordSys, api) || data.getVisual('style')[data.getVisual('drawType')];
+ // Initialization animation or coordinate system changed
+ if (!(polyline && prevCoordSys.type === coordSys.type && step === this._step)) {
+ showSymbol && symbolDraw.updateData(data, {
+ isIgnore: isIgnoreFunc,
+ clipShape: clipShapeForSymbol,
+ disableAnimation: true,
+ getSymbolPoint: function (idx) {
+ return [points[idx * 2], points[idx * 2 + 1]];
+ }
+ });
+ hasAnimation && this._initSymbolLabelAnimation(data, coordSys, clipShapeForSymbol);
+ if (step) {
+ // TODO If stacked series is not step
+ points = turnPointsIntoStep(points, coordSys, step, connectNulls);
+ if (stackedOnPoints) {
+ stackedOnPoints = turnPointsIntoStep(stackedOnPoints, coordSys, step, connectNulls);
+ }
+ }
+ polyline = this._newPolyline(points);
+ if (isAreaChart) {
+ polygon = this._newPolygon(points, stackedOnPoints);
+ } // If areaStyle is removed
+ else if (polygon) {
+ lineGroup.remove(polygon);
+ polygon = this._polygon = null;
+ }
+ // NOTE: Must update _endLabel before setClipPath.
+ if (!isCoordSysPolar) {
+ this._initOrUpdateEndLabel(seriesModel, coordSys, convertToColorString(visualColor));
+ }
+ lineGroup.setClipPath(createLineClipPath(this, coordSys, true, seriesModel));
+ } else {
+ if (isAreaChart && !polygon) {
+ // If areaStyle is added
+ polygon = this._newPolygon(points, stackedOnPoints);
+ } else if (polygon && !isAreaChart) {
+ // If areaStyle is removed
+ lineGroup.remove(polygon);
+ polygon = this._polygon = null;
+ }
+ // NOTE: Must update _endLabel before setClipPath.
+ if (!isCoordSysPolar) {
+ this._initOrUpdateEndLabel(seriesModel, coordSys, convertToColorString(visualColor));
+ }
+ // Update clipPath
+ var oldClipPath = lineGroup.getClipPath();
+ if (oldClipPath) {
+ var newClipPath = createLineClipPath(this, coordSys, false, seriesModel);
+ initProps(oldClipPath, {
+ shape: newClipPath.shape
+ }, seriesModel);
+ } else {
+ lineGroup.setClipPath(createLineClipPath(this, coordSys, true, seriesModel));
+ }
+ // Always update, or it is wrong in the case turning on legend
+ // because points are not changed.
+ showSymbol && symbolDraw.updateData(data, {
+ isIgnore: isIgnoreFunc,
+ clipShape: clipShapeForSymbol,
+ disableAnimation: true,
+ getSymbolPoint: function (idx) {
+ return [points[idx * 2], points[idx * 2 + 1]];
+ }
+ });
+ // In the case data zoom triggered refreshing frequently
+ // Data may not change if line has a category axis. So it should animate nothing.
+ if (!isPointsSame(this._stackedOnPoints, stackedOnPoints) || !isPointsSame(this._points, points)) {
+ if (hasAnimation) {
+ this._doUpdateAnimation(data, stackedOnPoints, coordSys, api, step, valueOrigin, connectNulls);
+ } else {
+ // Not do it in update with animation
+ if (step) {
+ // TODO If stacked series is not step
+ points = turnPointsIntoStep(points, coordSys, step, connectNulls);
+ if (stackedOnPoints) {
+ stackedOnPoints = turnPointsIntoStep(stackedOnPoints, coordSys, step, connectNulls);
+ }
+ }
+ polyline.setShape({
+ points: points
+ });
+ polygon && polygon.setShape({
+ points: points,
+ stackedOnPoints: stackedOnPoints
+ });
+ }
+ }
+ }
+ var emphasisModel = seriesModel.getModel('emphasis');
+ var focus = emphasisModel.get('focus');
+ var blurScope = emphasisModel.get('blurScope');
+ var emphasisDisabled = emphasisModel.get('disabled');
+ polyline.useStyle(defaults(
+ // Use color in lineStyle first
+ lineStyleModel.getLineStyle(), {
+ fill: 'none',
+ stroke: visualColor,
+ lineJoin: 'bevel'
+ }));
+ setStatesStylesFromModel(polyline, seriesModel, 'lineStyle');
+ if (polyline.style.lineWidth > 0 && seriesModel.get(['emphasis', 'lineStyle', 'width']) === 'bolder') {
+ var emphasisLineStyle = polyline.getState('emphasis').style;
+ emphasisLineStyle.lineWidth = +polyline.style.lineWidth + 1;
+ }
+ // Needs seriesIndex for focus
+ getECData(polyline).seriesIndex = seriesModel.seriesIndex;
+ toggleHoverEmphasis(polyline, focus, blurScope, emphasisDisabled);
+ var smooth = getSmooth(seriesModel.get('smooth'));
+ var smoothMonotone = seriesModel.get('smoothMonotone');
+ polyline.setShape({
+ smooth: smooth,
+ smoothMonotone: smoothMonotone,
+ connectNulls: connectNulls
+ });
+ if (polygon) {
+ var stackedOnSeries = data.getCalculationInfo('stackedOnSeries');
+ var stackedOnSmooth = 0;
+ polygon.useStyle(defaults(areaStyleModel.getAreaStyle(), {
+ fill: visualColor,
+ opacity: 0.7,
+ lineJoin: 'bevel',
+ decal: data.getVisual('style').decal
+ }));
+ if (stackedOnSeries) {
+ stackedOnSmooth = getSmooth(stackedOnSeries.get('smooth'));
+ }
+ polygon.setShape({
+ smooth: smooth,
+ stackedOnSmooth: stackedOnSmooth,
+ smoothMonotone: smoothMonotone,
+ connectNulls: connectNulls
+ });
+ setStatesStylesFromModel(polygon, seriesModel, 'areaStyle');
+ // Needs seriesIndex for focus
+ getECData(polygon).seriesIndex = seriesModel.seriesIndex;
+ toggleHoverEmphasis(polygon, focus, blurScope, emphasisDisabled);
+ }
+ var changePolyState = function (toState) {
+ _this._changePolyState(toState);
+ };
+ data.eachItemGraphicEl(function (el) {
+ // Switch polyline / polygon state if element changed its state.
+ el && (el.onHoverStateChange = changePolyState);
+ });
+ this._polyline.onHoverStateChange = changePolyState;
+ this._data = data;
+ // Save the coordinate system for transition animation when data changed
+ this._coordSys = coordSys;
+ this._stackedOnPoints = stackedOnPoints;
+ this._points = points;
+ this._step = step;
+ this._valueOrigin = valueOrigin;
+ if (seriesModel.get('triggerLineEvent')) {
+ this.packEventData(seriesModel, polyline);
+ polygon && this.packEventData(seriesModel, polygon);
+ }
+ };
+ LineView.prototype.packEventData = function (seriesModel, el) {
+ getECData(el).eventData = {
+ componentType: 'series',
+ componentSubType: 'line',
+ componentIndex: seriesModel.componentIndex,
+ seriesIndex: seriesModel.seriesIndex,
+ seriesName: seriesModel.name,
+ seriesType: 'line'
+ };
+ };
+ LineView.prototype.highlight = function (seriesModel, ecModel, api, payload) {
+ var data = seriesModel.getData();
+ var dataIndex = queryDataIndex(data, payload);
+ this._changePolyState('emphasis');
+ if (!(dataIndex instanceof Array) && dataIndex != null && dataIndex >= 0) {
+ var points = data.getLayout('points');
+ var symbol = data.getItemGraphicEl(dataIndex);
+ if (!symbol) {
+ // Create a temporary symbol if it is not exists
+ var x = points[dataIndex * 2];
+ var y = points[dataIndex * 2 + 1];
+ if (isNaN(x) || isNaN(y)) {
+ // Null data
+ return;
+ }
+ // fix #11360: shouldn't draw symbol outside clipShapeForSymbol
+ if (this._clipShapeForSymbol && !this._clipShapeForSymbol.contain(x, y)) {
+ return;
+ }
+ var zlevel = seriesModel.get('zlevel') || 0;
+ var z = seriesModel.get('z') || 0;
+ symbol = new Symbol(data, dataIndex);
+ symbol.x = x;
+ symbol.y = y;
+ symbol.setZ(zlevel, z);
+ // ensure label text of the temporary symbol is in front of line and area polygon
+ var symbolLabel = symbol.getSymbolPath().getTextContent();
+ if (symbolLabel) {
+ symbolLabel.zlevel = zlevel;
+ symbolLabel.z = z;
+ symbolLabel.z2 = this._polyline.z2 + 1;
+ }
+ symbol.__temp = true;
+ data.setItemGraphicEl(dataIndex, symbol);
+ // Stop scale animation
+ symbol.stopSymbolAnimation(true);
+ this.group.add(symbol);
+ }
+ symbol.highlight();
+ } else {
+ // Highlight whole series
+ ChartView.prototype.highlight.call(this, seriesModel, ecModel, api, payload);
+ }
+ };
+ LineView.prototype.downplay = function (seriesModel, ecModel, api, payload) {
+ var data = seriesModel.getData();
+ var dataIndex = queryDataIndex(data, payload);
+ this._changePolyState('normal');
+ if (dataIndex != null && dataIndex >= 0) {
+ var symbol = data.getItemGraphicEl(dataIndex);
+ if (symbol) {
+ if (symbol.__temp) {
+ data.setItemGraphicEl(dataIndex, null);
+ this.group.remove(symbol);
+ } else {
+ symbol.downplay();
+ }
+ }
+ } else {
+ // FIXME
+ // can not downplay completely.
+ // Downplay whole series
+ ChartView.prototype.downplay.call(this, seriesModel, ecModel, api, payload);
+ }
+ };
+ LineView.prototype._changePolyState = function (toState) {
+ var polygon = this._polygon;
+ setStatesFlag(this._polyline, toState);
+ polygon && setStatesFlag(polygon, toState);
+ };
+ LineView.prototype._newPolyline = function (points) {
+ var polyline = this._polyline;
+ // Remove previous created polyline
+ if (polyline) {
+ this._lineGroup.remove(polyline);
+ }
+ polyline = new ECPolyline({
+ shape: {
+ points: points
+ },
+ segmentIgnoreThreshold: 2,
+ z2: 10
+ });
+ this._lineGroup.add(polyline);
+ this._polyline = polyline;
+ return polyline;
+ };
+ LineView.prototype._newPolygon = function (points, stackedOnPoints) {
+ var polygon = this._polygon;
+ // Remove previous created polygon
+ if (polygon) {
+ this._lineGroup.remove(polygon);
+ }
+ polygon = new ECPolygon({
+ shape: {
+ points: points,
+ stackedOnPoints: stackedOnPoints
+ },
+ segmentIgnoreThreshold: 2
+ });
+ this._lineGroup.add(polygon);
+ this._polygon = polygon;
+ return polygon;
+ };
+ LineView.prototype._initSymbolLabelAnimation = function (data, coordSys, clipShape) {
+ var isHorizontalOrRadial;
+ var isCoordSysPolar;
+ var baseAxis = coordSys.getBaseAxis();
+ var isAxisInverse = baseAxis.inverse;
+ if (coordSys.type === 'cartesian2d') {
+ isHorizontalOrRadial = baseAxis.isHorizontal();
+ isCoordSysPolar = false;
+ } else if (coordSys.type === 'polar') {
+ isHorizontalOrRadial = baseAxis.dim === 'angle';
+ isCoordSysPolar = true;
+ }
+ var seriesModel = data.hostModel;
+ var seriesDuration = seriesModel.get('animationDuration');
+ if (isFunction(seriesDuration)) {
+ seriesDuration = seriesDuration(null);
+ }
+ var seriesDelay = seriesModel.get('animationDelay') || 0;
+ var seriesDelayValue = isFunction(seriesDelay) ? seriesDelay(null) : seriesDelay;
+ data.eachItemGraphicEl(function (symbol, idx) {
+ var el = symbol;
+ if (el) {
+ var point = [symbol.x, symbol.y];
+ var start = void 0;
+ var end = void 0;
+ var current = void 0;
+ if (clipShape) {
+ if (isCoordSysPolar) {
+ var polarClip = clipShape;
+ var coord = coordSys.pointToCoord(point);
+ if (isHorizontalOrRadial) {
+ start = polarClip.startAngle;
+ end = polarClip.endAngle;
+ current = -coord[1] / 180 * Math.PI;
+ } else {
+ start = polarClip.r0;
+ end = polarClip.r;
+ current = coord[0];
+ }
+ } else {
+ var gridClip = clipShape;
+ if (isHorizontalOrRadial) {
+ start = gridClip.x;
+ end = gridClip.x + gridClip.width;
+ current = symbol.x;
+ } else {
+ start = gridClip.y + gridClip.height;
+ end = gridClip.y;
+ current = symbol.y;
+ }
+ }
+ }
+ var ratio = end === start ? 0 : (current - start) / (end - start);
+ if (isAxisInverse) {
+ ratio = 1 - ratio;
+ }
+ var delay = isFunction(seriesDelay) ? seriesDelay(idx) : seriesDuration * ratio + seriesDelayValue;
+ var symbolPath = el.getSymbolPath();
+ var text = symbolPath.getTextContent();
+ el.attr({
+ scaleX: 0,
+ scaleY: 0
+ });
+ el.animateTo({
+ scaleX: 1,
+ scaleY: 1
+ }, {
+ duration: 200,
+ setToFinal: true,
+ delay: delay
+ });
+ if (text) {
+ text.animateFrom({
+ style: {
+ opacity: 0
+ }
+ }, {
+ duration: 300,
+ delay: delay
+ });
+ }
+ symbolPath.disableLabelAnimation = true;
+ }
+ });
+ };
+ LineView.prototype._initOrUpdateEndLabel = function (seriesModel, coordSys, inheritColor) {
+ var endLabelModel = seriesModel.getModel('endLabel');
+ if (anyStateShowEndLabel(seriesModel)) {
+ var data_2 = seriesModel.getData();
+ var polyline = this._polyline;
+ // series may be filtered.
+ var points = data_2.getLayout('points');
+ if (!points) {
+ polyline.removeTextContent();
+ this._endLabel = null;
+ return;
+ }
+ var endLabel = this._endLabel;
+ if (!endLabel) {
+ endLabel = this._endLabel = new ZRText({
+ z2: 200 // should be higher than item symbol
+ });
+
+ endLabel.ignoreClip = true;
+ polyline.setTextContent(this._endLabel);
+ polyline.disableLabelAnimation = true;
+ }
+ // Find last non-NaN data to display data
+ var dataIndex = getLastIndexNotNull(points);
+ if (dataIndex >= 0) {
+ setLabelStyle(polyline, getLabelStatesModels(seriesModel, 'endLabel'), {
+ inheritColor: inheritColor,
+ labelFetcher: seriesModel,
+ labelDataIndex: dataIndex,
+ defaultText: function (dataIndex, opt, interpolatedValue) {
+ return interpolatedValue != null ? getDefaultInterpolatedLabel(data_2, interpolatedValue) : getDefaultLabel(data_2, dataIndex);
+ },
+ enableTextSetter: true
+ }, getEndLabelStateSpecified(endLabelModel, coordSys));
+ polyline.textConfig.position = null;
+ }
+ } else if (this._endLabel) {
+ this._polyline.removeTextContent();
+ this._endLabel = null;
+ }
+ };
+ LineView.prototype._endLabelOnDuring = function (percent, clipRect, data, animationRecord, valueAnimation, endLabelModel, coordSys) {
+ var endLabel = this._endLabel;
+ var polyline = this._polyline;
+ if (endLabel) {
+ // NOTE: Don't remove percent < 1. percent === 1 means the first frame during render.
+ // The label is not prepared at this time.
+ if (percent < 1 && animationRecord.originalX == null) {
+ animationRecord.originalX = endLabel.x;
+ animationRecord.originalY = endLabel.y;
+ }
+ var points = data.getLayout('points');
+ var seriesModel = data.hostModel;
+ var connectNulls = seriesModel.get('connectNulls');
+ var precision = endLabelModel.get('precision');
+ var distance = endLabelModel.get('distance') || 0;
+ var baseAxis = coordSys.getBaseAxis();
+ var isHorizontal = baseAxis.isHorizontal();
+ var isBaseInversed = baseAxis.inverse;
+ var clipShape = clipRect.shape;
+ var xOrY = isBaseInversed ? isHorizontal ? clipShape.x : clipShape.y + clipShape.height : isHorizontal ? clipShape.x + clipShape.width : clipShape.y;
+ var distanceX = (isHorizontal ? distance : 0) * (isBaseInversed ? -1 : 1);
+ var distanceY = (isHorizontal ? 0 : -distance) * (isBaseInversed ? -1 : 1);
+ var dim = isHorizontal ? 'x' : 'y';
+ var dataIndexRange = getIndexRange(points, xOrY, dim);
+ var indices = dataIndexRange.range;
+ var diff = indices[1] - indices[0];
+ var value = void 0;
+ if (diff >= 1) {
+ // diff > 1 && connectNulls, which is on the null data.
+ if (diff > 1 && !connectNulls) {
+ var pt = getPointAtIndex(points, indices[0]);
+ endLabel.attr({
+ x: pt[0] + distanceX,
+ y: pt[1] + distanceY
+ });
+ valueAnimation && (value = seriesModel.getRawValue(indices[0]));
+ } else {
+ var pt = polyline.getPointOn(xOrY, dim);
+ pt && endLabel.attr({
+ x: pt[0] + distanceX,
+ y: pt[1] + distanceY
+ });
+ var startValue = seriesModel.getRawValue(indices[0]);
+ var endValue = seriesModel.getRawValue(indices[1]);
+ valueAnimation && (value = interpolateRawValues(data, precision, startValue, endValue, dataIndexRange.t));
+ }
+ animationRecord.lastFrameIndex = indices[0];
+ } else {
+ // If diff <= 0, which is the range is not found(Include NaN)
+ // Choose the first point or last point.
+ var idx = percent === 1 || animationRecord.lastFrameIndex > 0 ? indices[0] : 0;
+ var pt = getPointAtIndex(points, idx);
+ valueAnimation && (value = seriesModel.getRawValue(idx));
+ endLabel.attr({
+ x: pt[0] + distanceX,
+ y: pt[1] + distanceY
+ });
+ }
+ if (valueAnimation) {
+ var inner = labelInner(endLabel);
+ if (typeof inner.setLabelText === 'function') {
+ inner.setLabelText(value);
+ }
+ }
+ }
+ };
+ /**
+ * @private
+ */
+ // FIXME Two value axis
+ LineView.prototype._doUpdateAnimation = function (data, stackedOnPoints, coordSys, api, step, valueOrigin, connectNulls) {
+ var polyline = this._polyline;
+ var polygon = this._polygon;
+ var seriesModel = data.hostModel;
+ var diff = lineAnimationDiff(this._data, data, this._stackedOnPoints, stackedOnPoints, this._coordSys, coordSys, this._valueOrigin);
+ var current = diff.current;
+ var stackedOnCurrent = diff.stackedOnCurrent;
+ var next = diff.next;
+ var stackedOnNext = diff.stackedOnNext;
+ if (step) {
+ // TODO If stacked series is not step
+ current = turnPointsIntoStep(diff.current, coordSys, step, connectNulls);
+ stackedOnCurrent = turnPointsIntoStep(diff.stackedOnCurrent, coordSys, step, connectNulls);
+ next = turnPointsIntoStep(diff.next, coordSys, step, connectNulls);
+ stackedOnNext = turnPointsIntoStep(diff.stackedOnNext, coordSys, step, connectNulls);
+ }
+ // Don't apply animation if diff is large.
+ // For better result and avoid memory explosion problems like
+ // https://github.com/apache/incubator-echarts/issues/12229
+ if (getBoundingDiff(current, next) > 3000 || polygon && getBoundingDiff(stackedOnCurrent, stackedOnNext) > 3000) {
+ polyline.stopAnimation();
+ polyline.setShape({
+ points: next
+ });
+ if (polygon) {
+ polygon.stopAnimation();
+ polygon.setShape({
+ points: next,
+ stackedOnPoints: stackedOnNext
+ });
+ }
+ return;
+ }
+ polyline.shape.__points = diff.current;
+ polyline.shape.points = current;
+ var target = {
+ shape: {
+ points: next
+ }
+ };
+ // Also animate the original points.
+ // If points reference is changed when turning into step line.
+ if (diff.current !== current) {
+ target.shape.__points = diff.next;
+ }
+ // Stop previous animation.
+ polyline.stopAnimation();
+ updateProps(polyline, target, seriesModel);
+ if (polygon) {
+ polygon.setShape({
+ // Reuse the points with polyline.
+ points: current,
+ stackedOnPoints: stackedOnCurrent
+ });
+ polygon.stopAnimation();
+ updateProps(polygon, {
+ shape: {
+ stackedOnPoints: stackedOnNext
+ }
+ }, seriesModel);
+ // If use attr directly in updateProps.
+ if (polyline.shape.points !== polygon.shape.points) {
+ polygon.shape.points = polyline.shape.points;
+ }
+ }
+ var updatedDataInfo = [];
+ var diffStatus = diff.status;
+ for (var i = 0; i < diffStatus.length; i++) {
+ var cmd = diffStatus[i].cmd;
+ if (cmd === '=') {
+ var el = data.getItemGraphicEl(diffStatus[i].idx1);
+ if (el) {
+ updatedDataInfo.push({
+ el: el,
+ ptIdx: i // Index of points
+ });
+ }
+ }
+ }
+
+ if (polyline.animators && polyline.animators.length) {
+ polyline.animators[0].during(function () {
+ polygon && polygon.dirtyShape();
+ var points = polyline.shape.__points;
+ for (var i = 0; i < updatedDataInfo.length; i++) {
+ var el = updatedDataInfo[i].el;
+ var offset = updatedDataInfo[i].ptIdx * 2;
+ el.x = points[offset];
+ el.y = points[offset + 1];
+ el.markRedraw();
+ }
+ });
+ }
+ };
+ LineView.prototype.remove = function (ecModel) {
+ var group = this.group;
+ var oldData = this._data;
+ this._lineGroup.removeAll();
+ this._symbolDraw.remove(true);
+ // Remove temporary created elements when highlighting
+ oldData && oldData.eachItemGraphicEl(function (el, idx) {
+ if (el.__temp) {
+ group.remove(el);
+ oldData.setItemGraphicEl(idx, null);
+ }
+ });
+ this._polyline = this._polygon = this._coordSys = this._points = this._stackedOnPoints = this._endLabel = this._data = null;
+ };
+ LineView.type = 'line';
+ return LineView;
+ }(ChartView);
+
+ function pointsLayout(seriesType, forceStoreInTypedArray) {
+ return {
+ seriesType: seriesType,
+ plan: createRenderPlanner(),
+ reset: function (seriesModel) {
+ var data = seriesModel.getData();
+ var coordSys = seriesModel.coordinateSystem;
+ var pipelineContext = seriesModel.pipelineContext;
+ var useTypedArray = forceStoreInTypedArray || pipelineContext.large;
+ if (!coordSys) {
+ return;
+ }
+ var dims = map(coordSys.dimensions, function (dim) {
+ return data.mapDimension(dim);
+ }).slice(0, 2);
+ var dimLen = dims.length;
+ var stackResultDim = data.getCalculationInfo('stackResultDimension');
+ if (isDimensionStacked(data, dims[0])) {
+ dims[0] = stackResultDim;
+ }
+ if (isDimensionStacked(data, dims[1])) {
+ dims[1] = stackResultDim;
+ }
+ var store = data.getStore();
+ var dimIdx0 = data.getDimensionIndex(dims[0]);
+ var dimIdx1 = data.getDimensionIndex(dims[1]);
+ return dimLen && {
+ progress: function (params, data) {
+ var segCount = params.end - params.start;
+ var points = useTypedArray && createFloat32Array(segCount * dimLen);
+ var tmpIn = [];
+ var tmpOut = [];
+ for (var i = params.start, offset = 0; i < params.end; i++) {
+ var point = void 0;
+ if (dimLen === 1) {
+ var x = store.get(dimIdx0, i);
+ // NOTE: Make sure the second parameter is null to use default strategy.
+ point = coordSys.dataToPoint(x, null, tmpOut);
+ } else {
+ tmpIn[0] = store.get(dimIdx0, i);
+ tmpIn[1] = store.get(dimIdx1, i);
+ // Let coordinate system to handle the NaN data.
+ point = coordSys.dataToPoint(tmpIn, null, tmpOut);
+ }
+ if (useTypedArray) {
+ points[offset++] = point[0];
+ points[offset++] = point[1];
+ } else {
+ data.setItemLayout(i, point.slice());
+ }
+ }
+ useTypedArray && data.setLayout('points', points);
+ }
+ };
+ }
+ };
+ }
+
+ var samplers = {
+ average: function (frame) {
+ var sum = 0;
+ var count = 0;
+ for (var i = 0; i < frame.length; i++) {
+ if (!isNaN(frame[i])) {
+ sum += frame[i];
+ count++;
+ }
+ }
+ // Return NaN if count is 0
+ return count === 0 ? NaN : sum / count;
+ },
+ sum: function (frame) {
+ var sum = 0;
+ for (var i = 0; i < frame.length; i++) {
+ // Ignore NaN
+ sum += frame[i] || 0;
+ }
+ return sum;
+ },
+ max: function (frame) {
+ var max = -Infinity;
+ for (var i = 0; i < frame.length; i++) {
+ frame[i] > max && (max = frame[i]);
+ }
+ // NaN will cause illegal axis extent.
+ return isFinite(max) ? max : NaN;
+ },
+ min: function (frame) {
+ var min = Infinity;
+ for (var i = 0; i < frame.length; i++) {
+ frame[i] < min && (min = frame[i]);
+ }
+ // NaN will cause illegal axis extent.
+ return isFinite(min) ? min : NaN;
+ },
+ minmax: function (frame) {
+ var turningPointAbsoluteValue = -Infinity;
+ var turningPointOriginalValue = -Infinity;
+ for (var i = 0; i < frame.length; i++) {
+ var originalValue = frame[i];
+ var absoluteValue = Math.abs(originalValue);
+ if (absoluteValue > turningPointAbsoluteValue) {
+ turningPointAbsoluteValue = absoluteValue;
+ turningPointOriginalValue = originalValue;
+ }
+ }
+ return isFinite(turningPointOriginalValue) ? turningPointOriginalValue : NaN;
+ },
+ // TODO
+ // Median
+ nearest: function (frame) {
+ return frame[0];
+ }
+ };
+ var indexSampler = function (frame) {
+ return Math.round(frame.length / 2);
+ };
+ function dataSample(seriesType) {
+ return {
+ seriesType: seriesType,
+ // FIXME:TS never used, so comment it
+ // modifyOutputEnd: true,
+ reset: function (seriesModel, ecModel, api) {
+ var data = seriesModel.getData();
+ var sampling = seriesModel.get('sampling');
+ var coordSys = seriesModel.coordinateSystem;
+ var count = data.count();
+ // Only cartesian2d support down sampling. Disable it when there is few data.
+ if (count > 10 && coordSys.type === 'cartesian2d' && sampling) {
+ var baseAxis = coordSys.getBaseAxis();
+ var valueAxis = coordSys.getOtherAxis(baseAxis);
+ var extent = baseAxis.getExtent();
+ var dpr = api.getDevicePixelRatio();
+ // Coordinste system has been resized
+ var size = Math.abs(extent[1] - extent[0]) * (dpr || 1);
+ var rate = Math.round(count / size);
+ if (isFinite(rate) && rate > 1) {
+ if (sampling === 'lttb') {
+ seriesModel.setData(data.lttbDownSample(data.mapDimension(valueAxis.dim), 1 / rate));
+ }
+ var sampler = void 0;
+ if (isString(sampling)) {
+ sampler = samplers[sampling];
+ } else if (isFunction(sampling)) {
+ sampler = sampling;
+ }
+ if (sampler) {
+ // Only support sample the first dim mapped from value axis.
+ seriesModel.setData(data.downSample(data.mapDimension(valueAxis.dim), 1 / rate, sampler, indexSampler));
+ }
+ }
+ }
+ }
+ };
+ }
+
+ function install$2(registers) {
+ registers.registerChartView(LineView);
+ registers.registerSeriesModel(LineSeriesModel);
+ registers.registerLayout(pointsLayout('line', true));
+ registers.registerVisual({
+ seriesType: 'line',
+ reset: function (seriesModel) {
+ var data = seriesModel.getData();
+ // Visual coding for legend
+ var lineStyle = seriesModel.getModel('lineStyle').getLineStyle();
+ if (lineStyle && !lineStyle.stroke) {
+ // Fill in visual should be palette color if
+ // has color callback
+ lineStyle.stroke = data.getVisual('style').fill;
+ }
+ data.setVisual('legendLineStyle', lineStyle);
+ }
+ });
+ // Down sample after filter
+ registers.registerProcessor(registers.PRIORITY.PROCESSOR.STATISTIC, dataSample('line'));
+ }
+
+ var BaseBarSeriesModel = /** @class */function (_super) {
+ __extends(BaseBarSeriesModel, _super);
+ function BaseBarSeriesModel() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = BaseBarSeriesModel.type;
+ return _this;
+ }
+ BaseBarSeriesModel.prototype.getInitialData = function (option, ecModel) {
+ return createSeriesData(null, this, {
+ useEncodeDefaulter: true
+ });
+ };
+ BaseBarSeriesModel.prototype.getMarkerPosition = function (value, dims, startingAtTick) {
+ var coordSys = this.coordinateSystem;
+ if (coordSys && coordSys.clampData) {
+ // PENDING if clamp ?
+ var clampData_1 = coordSys.clampData(value);
+ var pt_1 = coordSys.dataToPoint(clampData_1);
+ if (startingAtTick) {
+ each(coordSys.getAxes(), function (axis, idx) {
+ // If axis type is category, use tick coords instead
+ if (axis.type === 'category' && dims != null) {
+ var tickCoords = axis.getTicksCoords();
+ var alignTicksWithLabel = axis.getTickModel().get('alignWithLabel');
+ var targetTickId = clampData_1[idx];
+ // The index of rightmost tick of markArea is 1 larger than x1/y1 index
+ var isEnd = dims[idx] === 'x1' || dims[idx] === 'y1';
+ if (isEnd && !alignTicksWithLabel) {
+ targetTickId += 1;
+ }
+ // The only contains one tick, tickCoords is
+ // like [{coord: 0, tickValue: 0}, {coord: 0}]
+ // to the length should always be larger than 1
+ if (tickCoords.length < 2) {
+ return;
+ } else if (tickCoords.length === 2) {
+ // The left value and right value of the axis are
+ // the same. coord is 0 in both items. Use the max
+ // value of the axis as the coord
+ pt_1[idx] = axis.toGlobalCoord(axis.getExtent()[isEnd ? 1 : 0]);
+ return;
+ }
+ var leftCoord = void 0;
+ var coord = void 0;
+ var stepTickValue = 1;
+ for (var i = 0; i < tickCoords.length; i++) {
+ var tickCoord = tickCoords[i].coord;
+ // The last item of tickCoords doesn't contain
+ // tickValue
+ var tickValue = i === tickCoords.length - 1 ? tickCoords[i - 1].tickValue + stepTickValue : tickCoords[i].tickValue;
+ if (tickValue === targetTickId) {
+ coord = tickCoord;
+ break;
+ } else if (tickValue < targetTickId) {
+ leftCoord = tickCoord;
+ } else if (leftCoord != null && tickValue > targetTickId) {
+ coord = (tickCoord + leftCoord) / 2;
+ break;
+ }
+ if (i === 1) {
+ // Here we assume the step of category axes is
+ // the same
+ stepTickValue = tickValue - tickCoords[0].tickValue;
+ }
+ }
+ if (coord == null) {
+ if (!leftCoord) {
+ // targetTickId is smaller than all tick ids in the
+ // visible area, use the leftmost tick coord
+ coord = tickCoords[0].coord;
+ } else if (leftCoord) {
+ // targetTickId is larger than all tick ids in the
+ // visible area, use the rightmost tick coord
+ coord = tickCoords[tickCoords.length - 1].coord;
+ }
+ }
+ pt_1[idx] = axis.toGlobalCoord(coord);
+ }
+ });
+ } else {
+ var data = this.getData();
+ var offset = data.getLayout('offset');
+ var size = data.getLayout('size');
+ var offsetIndex = coordSys.getBaseAxis().isHorizontal() ? 0 : 1;
+ pt_1[offsetIndex] += offset + size / 2;
+ }
+ return pt_1;
+ }
+ return [NaN, NaN];
+ };
+ BaseBarSeriesModel.type = 'series.__base_bar__';
+ BaseBarSeriesModel.defaultOption = {
+ // zlevel: 0,
+ z: 2,
+ coordinateSystem: 'cartesian2d',
+ legendHoverLink: true,
+ // stack: null
+ // Cartesian coordinate system
+ // xAxisIndex: 0,
+ // yAxisIndex: 0,
+ barMinHeight: 0,
+ barMinAngle: 0,
+ // cursor: null,
+ large: false,
+ largeThreshold: 400,
+ progressive: 3e3,
+ progressiveChunkMode: 'mod'
+ };
+ return BaseBarSeriesModel;
+ }(SeriesModel);
+ SeriesModel.registerClass(BaseBarSeriesModel);
+
+ var BarSeriesModel = /** @class */function (_super) {
+ __extends(BarSeriesModel, _super);
+ function BarSeriesModel() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = BarSeriesModel.type;
+ return _this;
+ }
+ BarSeriesModel.prototype.getInitialData = function () {
+ return createSeriesData(null, this, {
+ useEncodeDefaulter: true,
+ createInvertedIndices: !!this.get('realtimeSort', true) || null
+ });
+ };
+ /**
+ * @override
+ */
+ BarSeriesModel.prototype.getProgressive = function () {
+ // Do not support progressive in normal mode.
+ return this.get('large') ? this.get('progressive') : false;
+ };
+ /**
+ * @override
+ */
+ BarSeriesModel.prototype.getProgressiveThreshold = function () {
+ // Do not support progressive in normal mode.
+ var progressiveThreshold = this.get('progressiveThreshold');
+ var largeThreshold = this.get('largeThreshold');
+ if (largeThreshold > progressiveThreshold) {
+ progressiveThreshold = largeThreshold;
+ }
+ return progressiveThreshold;
+ };
+ BarSeriesModel.prototype.brushSelector = function (dataIndex, data, selectors) {
+ return selectors.rect(data.getItemLayout(dataIndex));
+ };
+ BarSeriesModel.type = 'series.bar';
+ BarSeriesModel.dependencies = ['grid', 'polar'];
+ BarSeriesModel.defaultOption = inheritDefaultOption(BaseBarSeriesModel.defaultOption, {
+ // If clipped
+ // Only available on cartesian2d
+ clip: true,
+ roundCap: false,
+ showBackground: false,
+ backgroundStyle: {
+ color: 'rgba(180, 180, 180, 0.2)',
+ borderColor: null,
+ borderWidth: 0,
+ borderType: 'solid',
+ borderRadius: 0,
+ shadowBlur: 0,
+ shadowColor: null,
+ shadowOffsetX: 0,
+ shadowOffsetY: 0,
+ opacity: 1
+ },
+ select: {
+ itemStyle: {
+ borderColor: '#212121'
+ }
+ },
+ realtimeSort: false
+ });
+ return BarSeriesModel;
+ }(BaseBarSeriesModel);
+
+ /**
+ * Sausage: similar to sector, but have half circle on both sides
+ */
+ var SausageShape = /** @class */function () {
+ function SausageShape() {
+ this.cx = 0;
+ this.cy = 0;
+ this.r0 = 0;
+ this.r = 0;
+ this.startAngle = 0;
+ this.endAngle = Math.PI * 2;
+ this.clockwise = true;
+ }
+ return SausageShape;
+ }();
+ var SausagePath = /** @class */function (_super) {
+ __extends(SausagePath, _super);
+ function SausagePath(opts) {
+ var _this = _super.call(this, opts) || this;
+ _this.type = 'sausage';
+ return _this;
+ }
+ SausagePath.prototype.getDefaultShape = function () {
+ return new SausageShape();
+ };
+ SausagePath.prototype.buildPath = function (ctx, shape) {
+ var cx = shape.cx;
+ var cy = shape.cy;
+ var r0 = Math.max(shape.r0 || 0, 0);
+ var r = Math.max(shape.r, 0);
+ var dr = (r - r0) * 0.5;
+ var rCenter = r0 + dr;
+ var startAngle = shape.startAngle;
+ var endAngle = shape.endAngle;
+ var clockwise = shape.clockwise;
+ var PI2 = Math.PI * 2;
+ var lessThanCircle = clockwise ? endAngle - startAngle < PI2 : startAngle - endAngle < PI2;
+ if (!lessThanCircle) {
+ // Normalize angles
+ startAngle = endAngle - (clockwise ? PI2 : -PI2);
+ }
+ var unitStartX = Math.cos(startAngle);
+ var unitStartY = Math.sin(startAngle);
+ var unitEndX = Math.cos(endAngle);
+ var unitEndY = Math.sin(endAngle);
+ if (lessThanCircle) {
+ ctx.moveTo(unitStartX * r0 + cx, unitStartY * r0 + cy);
+ ctx.arc(unitStartX * rCenter + cx, unitStartY * rCenter + cy, dr, -Math.PI + startAngle, startAngle, !clockwise);
+ } else {
+ ctx.moveTo(unitStartX * r + cx, unitStartY * r + cy);
+ }
+ ctx.arc(cx, cy, r, startAngle, endAngle, !clockwise);
+ ctx.arc(unitEndX * rCenter + cx, unitEndY * rCenter + cy, dr, endAngle - Math.PI * 2, endAngle - Math.PI, !clockwise);
+ if (r0 !== 0) {
+ ctx.arc(cx, cy, r0, endAngle, startAngle, clockwise);
+ }
+ // ctx.closePath();
+ };
+
+ return SausagePath;
+ }(Path);
+
+ function createSectorCalculateTextPosition(positionMapping, opts) {
+ opts = opts || {};
+ var isRoundCap = opts.isRoundCap;
+ return function (out, opts, boundingRect) {
+ var textPosition = opts.position;
+ if (!textPosition || textPosition instanceof Array) {
+ return calculateTextPosition(out, opts, boundingRect);
+ }
+ var mappedSectorPosition = positionMapping(textPosition);
+ var distance = opts.distance != null ? opts.distance : 5;
+ var sector = this.shape;
+ var cx = sector.cx;
+ var cy = sector.cy;
+ var r = sector.r;
+ var r0 = sector.r0;
+ var middleR = (r + r0) / 2;
+ var startAngle = sector.startAngle;
+ var endAngle = sector.endAngle;
+ var middleAngle = (startAngle + endAngle) / 2;
+ var extraDist = isRoundCap ? Math.abs(r - r0) / 2 : 0;
+ var mathCos = Math.cos;
+ var mathSin = Math.sin;
+ // base position: top-left
+ var x = cx + r * mathCos(startAngle);
+ var y = cy + r * mathSin(startAngle);
+ var textAlign = 'left';
+ var textVerticalAlign = 'top';
+ switch (mappedSectorPosition) {
+ case 'startArc':
+ x = cx + (r0 - distance) * mathCos(middleAngle);
+ y = cy + (r0 - distance) * mathSin(middleAngle);
+ textAlign = 'center';
+ textVerticalAlign = 'top';
+ break;
+ case 'insideStartArc':
+ x = cx + (r0 + distance) * mathCos(middleAngle);
+ y = cy + (r0 + distance) * mathSin(middleAngle);
+ textAlign = 'center';
+ textVerticalAlign = 'bottom';
+ break;
+ case 'startAngle':
+ x = cx + middleR * mathCos(startAngle) + adjustAngleDistanceX(startAngle, distance + extraDist, false);
+ y = cy + middleR * mathSin(startAngle) + adjustAngleDistanceY(startAngle, distance + extraDist, false);
+ textAlign = 'right';
+ textVerticalAlign = 'middle';
+ break;
+ case 'insideStartAngle':
+ x = cx + middleR * mathCos(startAngle) + adjustAngleDistanceX(startAngle, -distance + extraDist, false);
+ y = cy + middleR * mathSin(startAngle) + adjustAngleDistanceY(startAngle, -distance + extraDist, false);
+ textAlign = 'left';
+ textVerticalAlign = 'middle';
+ break;
+ case 'middle':
+ x = cx + middleR * mathCos(middleAngle);
+ y = cy + middleR * mathSin(middleAngle);
+ textAlign = 'center';
+ textVerticalAlign = 'middle';
+ break;
+ case 'endArc':
+ x = cx + (r + distance) * mathCos(middleAngle);
+ y = cy + (r + distance) * mathSin(middleAngle);
+ textAlign = 'center';
+ textVerticalAlign = 'bottom';
+ break;
+ case 'insideEndArc':
+ x = cx + (r - distance) * mathCos(middleAngle);
+ y = cy + (r - distance) * mathSin(middleAngle);
+ textAlign = 'center';
+ textVerticalAlign = 'top';
+ break;
+ case 'endAngle':
+ x = cx + middleR * mathCos(endAngle) + adjustAngleDistanceX(endAngle, distance + extraDist, true);
+ y = cy + middleR * mathSin(endAngle) + adjustAngleDistanceY(endAngle, distance + extraDist, true);
+ textAlign = 'left';
+ textVerticalAlign = 'middle';
+ break;
+ case 'insideEndAngle':
+ x = cx + middleR * mathCos(endAngle) + adjustAngleDistanceX(endAngle, -distance + extraDist, true);
+ y = cy + middleR * mathSin(endAngle) + adjustAngleDistanceY(endAngle, -distance + extraDist, true);
+ textAlign = 'right';
+ textVerticalAlign = 'middle';
+ break;
+ default:
+ return calculateTextPosition(out, opts, boundingRect);
+ }
+ out = out || {};
+ out.x = x;
+ out.y = y;
+ out.align = textAlign;
+ out.verticalAlign = textVerticalAlign;
+ return out;
+ };
+ }
+ function setSectorTextRotation(sector, textPosition, positionMapping, rotateType) {
+ if (isNumber(rotateType)) {
+ // user-set rotation
+ sector.setTextConfig({
+ rotation: rotateType
+ });
+ return;
+ } else if (isArray(textPosition)) {
+ // user-set position, use 0 as auto rotation
+ sector.setTextConfig({
+ rotation: 0
+ });
+ return;
+ }
+ var shape = sector.shape;
+ var startAngle = shape.clockwise ? shape.startAngle : shape.endAngle;
+ var endAngle = shape.clockwise ? shape.endAngle : shape.startAngle;
+ var middleAngle = (startAngle + endAngle) / 2;
+ var anchorAngle;
+ var mappedSectorPosition = positionMapping(textPosition);
+ switch (mappedSectorPosition) {
+ case 'startArc':
+ case 'insideStartArc':
+ case 'middle':
+ case 'insideEndArc':
+ case 'endArc':
+ anchorAngle = middleAngle;
+ break;
+ case 'startAngle':
+ case 'insideStartAngle':
+ anchorAngle = startAngle;
+ break;
+ case 'endAngle':
+ case 'insideEndAngle':
+ anchorAngle = endAngle;
+ break;
+ default:
+ sector.setTextConfig({
+ rotation: 0
+ });
+ return;
+ }
+ var rotate = Math.PI * 1.5 - anchorAngle;
+ /**
+ * TODO: labels with rotate > Math.PI / 2 should be rotate another
+ * half round flipped to increase readability. However, only middle
+ * position supports this for now, because in other positions, the
+ * anchor point is not at the center of the text, so the positions
+ * after rotating is not as expected.
+ */
+ if (mappedSectorPosition === 'middle' && rotate > Math.PI / 2 && rotate < Math.PI * 1.5) {
+ rotate -= Math.PI;
+ }
+ sector.setTextConfig({
+ rotation: rotate
+ });
+ }
+ function adjustAngleDistanceX(angle, distance, isEnd) {
+ return distance * Math.sin(angle) * (isEnd ? -1 : 1);
+ }
+ function adjustAngleDistanceY(angle, distance, isEnd) {
+ return distance * Math.cos(angle) * (isEnd ? 1 : -1);
+ }
+
+ function getSectorCornerRadius(model, shape, zeroIfNull) {
+ var cornerRadius = model.get('borderRadius');
+ if (cornerRadius == null) {
+ return zeroIfNull ? {
+ cornerRadius: 0
+ } : null;
+ }
+ if (!isArray(cornerRadius)) {
+ cornerRadius = [cornerRadius, cornerRadius, cornerRadius, cornerRadius];
+ }
+ var dr = Math.abs(shape.r || 0 - shape.r0 || 0);
+ return {
+ cornerRadius: map(cornerRadius, function (cr) {
+ return parsePercent(cr, dr);
+ })
+ };
+ }
+
+ var mathMax$6 = Math.max;
+ var mathMin$6 = Math.min;
+ function getClipArea(coord, data) {
+ var coordSysClipArea = coord.getArea && coord.getArea();
+ if (isCoordinateSystemType(coord, 'cartesian2d')) {
+ var baseAxis = coord.getBaseAxis();
+ // When boundaryGap is false or using time axis. bar may exceed the grid.
+ // We should not clip this part.
+ // See test/bar2.html
+ if (baseAxis.type !== 'category' || !baseAxis.onBand) {
+ var expandWidth = data.getLayout('bandWidth');
+ if (baseAxis.isHorizontal()) {
+ coordSysClipArea.x -= expandWidth;
+ coordSysClipArea.width += expandWidth * 2;
+ } else {
+ coordSysClipArea.y -= expandWidth;
+ coordSysClipArea.height += expandWidth * 2;
+ }
+ }
+ }
+ return coordSysClipArea;
+ }
+ var BarView = /** @class */function (_super) {
+ __extends(BarView, _super);
+ function BarView() {
+ var _this = _super.call(this) || this;
+ _this.type = BarView.type;
+ _this._isFirstFrame = true;
+ return _this;
+ }
+ BarView.prototype.render = function (seriesModel, ecModel, api, payload) {
+ this._model = seriesModel;
+ this._removeOnRenderedListener(api);
+ this._updateDrawMode(seriesModel);
+ var coordinateSystemType = seriesModel.get('coordinateSystem');
+ if (coordinateSystemType === 'cartesian2d' || coordinateSystemType === 'polar') {
+ // Clear previously rendered progressive elements.
+ this._progressiveEls = null;
+ this._isLargeDraw ? this._renderLarge(seriesModel, ecModel, api) : this._renderNormal(seriesModel, ecModel, api, payload);
+ } else if ("development" !== 'production') {
+ warn('Only cartesian2d and polar supported for bar.');
+ }
+ };
+ BarView.prototype.incrementalPrepareRender = function (seriesModel) {
+ this._clear();
+ this._updateDrawMode(seriesModel);
+ // incremental also need to clip, otherwise might be overlow.
+ // But must not set clip in each frame, otherwise all of the children will be marked redraw.
+ this._updateLargeClip(seriesModel);
+ };
+ BarView.prototype.incrementalRender = function (params, seriesModel) {
+ // Reset
+ this._progressiveEls = [];
+ // Do not support progressive in normal mode.
+ this._incrementalRenderLarge(params, seriesModel);
+ };
+ BarView.prototype.eachRendered = function (cb) {
+ traverseElements(this._progressiveEls || this.group, cb);
+ };
+ BarView.prototype._updateDrawMode = function (seriesModel) {
+ var isLargeDraw = seriesModel.pipelineContext.large;
+ if (this._isLargeDraw == null || isLargeDraw !== this._isLargeDraw) {
+ this._isLargeDraw = isLargeDraw;
+ this._clear();
+ }
+ };
+ BarView.prototype._renderNormal = function (seriesModel, ecModel, api, payload) {
+ var group = this.group;
+ var data = seriesModel.getData();
+ var oldData = this._data;
+ var coord = seriesModel.coordinateSystem;
+ var baseAxis = coord.getBaseAxis();
+ var isHorizontalOrRadial;
+ if (coord.type === 'cartesian2d') {
+ isHorizontalOrRadial = baseAxis.isHorizontal();
+ } else if (coord.type === 'polar') {
+ isHorizontalOrRadial = baseAxis.dim === 'angle';
+ }
+ var animationModel = seriesModel.isAnimationEnabled() ? seriesModel : null;
+ var realtimeSortCfg = shouldRealtimeSort(seriesModel, coord);
+ if (realtimeSortCfg) {
+ this._enableRealtimeSort(realtimeSortCfg, data, api);
+ }
+ var needsClip = seriesModel.get('clip', true) || realtimeSortCfg;
+ var coordSysClipArea = getClipArea(coord, data);
+ // If there is clipPath created in large mode. Remove it.
+ group.removeClipPath();
+ // We don't use clipPath in normal mode because we needs a perfect animation
+ // And don't want the label are clipped.
+ var roundCap = seriesModel.get('roundCap', true);
+ var drawBackground = seriesModel.get('showBackground', true);
+ var backgroundModel = seriesModel.getModel('backgroundStyle');
+ var barBorderRadius = backgroundModel.get('borderRadius') || 0;
+ var bgEls = [];
+ var oldBgEls = this._backgroundEls;
+ var isInitSort = payload && payload.isInitSort;
+ var isChangeOrder = payload && payload.type === 'changeAxisOrder';
+ function createBackground(dataIndex) {
+ var bgLayout = getLayout[coord.type](data, dataIndex);
+ var bgEl = createBackgroundEl(coord, isHorizontalOrRadial, bgLayout);
+ bgEl.useStyle(backgroundModel.getItemStyle());
+ // Only cartesian2d support borderRadius.
+ if (coord.type === 'cartesian2d') {
+ bgEl.setShape('r', barBorderRadius);
+ } else {
+ bgEl.setShape('cornerRadius', barBorderRadius);
+ }
+ bgEls[dataIndex] = bgEl;
+ return bgEl;
+ }
+ data.diff(oldData).add(function (dataIndex) {
+ var itemModel = data.getItemModel(dataIndex);
+ var layout = getLayout[coord.type](data, dataIndex, itemModel);
+ if (drawBackground) {
+ createBackground(dataIndex);
+ }
+ // If dataZoom in filteMode: 'empty', the baseValue can be set as NaN in "axisProxy".
+ if (!data.hasValue(dataIndex) || !isValidLayout[coord.type](layout)) {
+ return;
+ }
+ var isClipped = false;
+ if (needsClip) {
+ // Clip will modify the layout params.
+ // And return a boolean to determine if the shape are fully clipped.
+ isClipped = clip[coord.type](coordSysClipArea, layout);
+ }
+ var el = elementCreator[coord.type](seriesModel, data, dataIndex, layout, isHorizontalOrRadial, animationModel, baseAxis.model, false, roundCap);
+ if (realtimeSortCfg) {
+ /**
+ * Force label animation because even if the element is
+ * ignored because it's clipped, it may not be clipped after
+ * changing order. Then, if not using forceLabelAnimation,
+ * the label animation was never started, in which case,
+ * the label will be the final value and doesn't have label
+ * animation.
+ */
+ el.forceLabelAnimation = true;
+ }
+ updateStyle(el, data, dataIndex, itemModel, layout, seriesModel, isHorizontalOrRadial, coord.type === 'polar');
+ if (isInitSort) {
+ el.attr({
+ shape: layout
+ });
+ } else if (realtimeSortCfg) {
+ updateRealtimeAnimation(realtimeSortCfg, animationModel, el, layout, dataIndex, isHorizontalOrRadial, false, false);
+ } else {
+ initProps(el, {
+ shape: layout
+ }, seriesModel, dataIndex);
+ }
+ data.setItemGraphicEl(dataIndex, el);
+ group.add(el);
+ el.ignore = isClipped;
+ }).update(function (newIndex, oldIndex) {
+ var itemModel = data.getItemModel(newIndex);
+ var layout = getLayout[coord.type](data, newIndex, itemModel);
+ if (drawBackground) {
+ var bgEl = void 0;
+ if (oldBgEls.length === 0) {
+ bgEl = createBackground(oldIndex);
+ } else {
+ bgEl = oldBgEls[oldIndex];
+ bgEl.useStyle(backgroundModel.getItemStyle());
+ // Only cartesian2d support borderRadius.
+ if (coord.type === 'cartesian2d') {
+ bgEl.setShape('r', barBorderRadius);
+ } else {
+ bgEl.setShape('cornerRadius', barBorderRadius);
+ }
+ bgEls[newIndex] = bgEl;
+ }
+ var bgLayout = getLayout[coord.type](data, newIndex);
+ var shape = createBackgroundShape(isHorizontalOrRadial, bgLayout, coord);
+ updateProps(bgEl, {
+ shape: shape
+ }, animationModel, newIndex);
+ }
+ var el = oldData.getItemGraphicEl(oldIndex);
+ if (!data.hasValue(newIndex) || !isValidLayout[coord.type](layout)) {
+ group.remove(el);
+ return;
+ }
+ var isClipped = false;
+ if (needsClip) {
+ isClipped = clip[coord.type](coordSysClipArea, layout);
+ if (isClipped) {
+ group.remove(el);
+ }
+ }
+ if (!el) {
+ el = elementCreator[coord.type](seriesModel, data, newIndex, layout, isHorizontalOrRadial, animationModel, baseAxis.model, !!el, roundCap);
+ } else {
+ saveOldStyle(el);
+ }
+ if (realtimeSortCfg) {
+ el.forceLabelAnimation = true;
+ }
+ if (isChangeOrder) {
+ var textEl = el.getTextContent();
+ if (textEl) {
+ var labelInnerStore = labelInner(textEl);
+ if (labelInnerStore.prevValue != null) {
+ /**
+ * Set preValue to be value so that no new label
+ * should be started, otherwise, it will take a full
+ * `animationDurationUpdate` time to finish the
+ * animation, which is not expected.
+ */
+ labelInnerStore.prevValue = labelInnerStore.value;
+ }
+ }
+ }
+ // Not change anything if only order changed.
+ // Especially not change label.
+ else {
+ updateStyle(el, data, newIndex, itemModel, layout, seriesModel, isHorizontalOrRadial, coord.type === 'polar');
+ }
+ if (isInitSort) {
+ el.attr({
+ shape: layout
+ });
+ } else if (realtimeSortCfg) {
+ updateRealtimeAnimation(realtimeSortCfg, animationModel, el, layout, newIndex, isHorizontalOrRadial, true, isChangeOrder);
+ } else {
+ updateProps(el, {
+ shape: layout
+ }, seriesModel, newIndex, null);
+ }
+ data.setItemGraphicEl(newIndex, el);
+ el.ignore = isClipped;
+ group.add(el);
+ }).remove(function (dataIndex) {
+ var el = oldData.getItemGraphicEl(dataIndex);
+ el && removeElementWithFadeOut(el, seriesModel, dataIndex);
+ }).execute();
+ var bgGroup = this._backgroundGroup || (this._backgroundGroup = new Group());
+ bgGroup.removeAll();
+ for (var i = 0; i < bgEls.length; ++i) {
+ bgGroup.add(bgEls[i]);
+ }
+ group.add(bgGroup);
+ this._backgroundEls = bgEls;
+ this._data = data;
+ };
+ BarView.prototype._renderLarge = function (seriesModel, ecModel, api) {
+ this._clear();
+ createLarge(seriesModel, this.group);
+ this._updateLargeClip(seriesModel);
+ };
+ BarView.prototype._incrementalRenderLarge = function (params, seriesModel) {
+ this._removeBackground();
+ createLarge(seriesModel, this.group, this._progressiveEls, true);
+ };
+ BarView.prototype._updateLargeClip = function (seriesModel) {
+ // Use clipPath in large mode.
+ var clipPath = seriesModel.get('clip', true) && createClipPath(seriesModel.coordinateSystem, false, seriesModel);
+ var group = this.group;
+ if (clipPath) {
+ group.setClipPath(clipPath);
+ } else {
+ group.removeClipPath();
+ }
+ };
+ BarView.prototype._enableRealtimeSort = function (realtimeSortCfg, data, api) {
+ var _this = this;
+ // If no data in the first frame, wait for data to initSort
+ if (!data.count()) {
+ return;
+ }
+ var baseAxis = realtimeSortCfg.baseAxis;
+ if (this._isFirstFrame) {
+ this._dispatchInitSort(data, realtimeSortCfg, api);
+ this._isFirstFrame = false;
+ } else {
+ var orderMapping_1 = function (idx) {
+ var el = data.getItemGraphicEl(idx);
+ var shape = el && el.shape;
+ return shape &&
+ // The result should be consistent with the initial sort by data value.
+ // Do not support the case that both positive and negative exist.
+ Math.abs(baseAxis.isHorizontal() ? shape.height : shape.width)
+ // If data is NaN, shape.xxx may be NaN, so use || 0 here in case
+ || 0;
+ };
+ this._onRendered = function () {
+ _this._updateSortWithinSameData(data, orderMapping_1, baseAxis, api);
+ };
+ api.getZr().on('rendered', this._onRendered);
+ }
+ };
+ BarView.prototype._dataSort = function (data, baseAxis, orderMapping) {
+ var info = [];
+ data.each(data.mapDimension(baseAxis.dim), function (ordinalNumber, dataIdx) {
+ var mappedValue = orderMapping(dataIdx);
+ mappedValue = mappedValue == null ? NaN : mappedValue;
+ info.push({
+ dataIndex: dataIdx,
+ mappedValue: mappedValue,
+ ordinalNumber: ordinalNumber
+ });
+ });
+ info.sort(function (a, b) {
+ // If NaN, it will be treated as min val.
+ return b.mappedValue - a.mappedValue;
+ });
+ return {
+ ordinalNumbers: map(info, function (item) {
+ return item.ordinalNumber;
+ })
+ };
+ };
+ BarView.prototype._isOrderChangedWithinSameData = function (data, orderMapping, baseAxis) {
+ var scale = baseAxis.scale;
+ var ordinalDataDim = data.mapDimension(baseAxis.dim);
+ var lastValue = Number.MAX_VALUE;
+ for (var tickNum = 0, len = scale.getOrdinalMeta().categories.length; tickNum < len; ++tickNum) {
+ var rawIdx = data.rawIndexOf(ordinalDataDim, scale.getRawOrdinalNumber(tickNum));
+ var value = rawIdx < 0
+ // If some tick have no bar, the tick will be treated as min.
+ ? Number.MIN_VALUE
+ // PENDING: if dataZoom on baseAxis exits, is it a performance issue?
+ : orderMapping(data.indexOfRawIndex(rawIdx));
+ if (value > lastValue) {
+ return true;
+ }
+ lastValue = value;
+ }
+ return false;
+ };
+ /*
+ * Consider the case when A and B changed order, whose representing
+ * bars are both out of sight, we don't wish to trigger reorder action
+ * as long as the order in the view doesn't change.
+ */
+ BarView.prototype._isOrderDifferentInView = function (orderInfo, baseAxis) {
+ var scale = baseAxis.scale;
+ var extent = scale.getExtent();
+ var tickNum = Math.max(0, extent[0]);
+ var tickMax = Math.min(extent[1], scale.getOrdinalMeta().categories.length - 1);
+ for (; tickNum <= tickMax; ++tickNum) {
+ if (orderInfo.ordinalNumbers[tickNum] !== scale.getRawOrdinalNumber(tickNum)) {
+ return true;
+ }
+ }
+ };
+ BarView.prototype._updateSortWithinSameData = function (data, orderMapping, baseAxis, api) {
+ if (!this._isOrderChangedWithinSameData(data, orderMapping, baseAxis)) {
+ return;
+ }
+ var sortInfo = this._dataSort(data, baseAxis, orderMapping);
+ if (this._isOrderDifferentInView(sortInfo, baseAxis)) {
+ this._removeOnRenderedListener(api);
+ api.dispatchAction({
+ type: 'changeAxisOrder',
+ componentType: baseAxis.dim + 'Axis',
+ axisId: baseAxis.index,
+ sortInfo: sortInfo
+ });
+ }
+ };
+ BarView.prototype._dispatchInitSort = function (data, realtimeSortCfg, api) {
+ var baseAxis = realtimeSortCfg.baseAxis;
+ var sortResult = this._dataSort(data, baseAxis, function (dataIdx) {
+ return data.get(data.mapDimension(realtimeSortCfg.otherAxis.dim), dataIdx);
+ });
+ api.dispatchAction({
+ type: 'changeAxisOrder',
+ componentType: baseAxis.dim + 'Axis',
+ isInitSort: true,
+ axisId: baseAxis.index,
+ sortInfo: sortResult
+ });
+ };
+ BarView.prototype.remove = function (ecModel, api) {
+ this._clear(this._model);
+ this._removeOnRenderedListener(api);
+ };
+ BarView.prototype.dispose = function (ecModel, api) {
+ this._removeOnRenderedListener(api);
+ };
+ BarView.prototype._removeOnRenderedListener = function (api) {
+ if (this._onRendered) {
+ api.getZr().off('rendered', this._onRendered);
+ this._onRendered = null;
+ }
+ };
+ BarView.prototype._clear = function (model) {
+ var group = this.group;
+ var data = this._data;
+ if (model && model.isAnimationEnabled() && data && !this._isLargeDraw) {
+ this._removeBackground();
+ this._backgroundEls = [];
+ data.eachItemGraphicEl(function (el) {
+ removeElementWithFadeOut(el, model, getECData(el).dataIndex);
+ });
+ } else {
+ group.removeAll();
+ }
+ this._data = null;
+ this._isFirstFrame = true;
+ };
+ BarView.prototype._removeBackground = function () {
+ this.group.remove(this._backgroundGroup);
+ this._backgroundGroup = null;
+ };
+ BarView.type = 'bar';
+ return BarView;
+ }(ChartView);
+ var clip = {
+ cartesian2d: function (coordSysBoundingRect, layout) {
+ var signWidth = layout.width < 0 ? -1 : 1;
+ var signHeight = layout.height < 0 ? -1 : 1;
+ // Needs positive width and height
+ if (signWidth < 0) {
+ layout.x += layout.width;
+ layout.width = -layout.width;
+ }
+ if (signHeight < 0) {
+ layout.y += layout.height;
+ layout.height = -layout.height;
+ }
+ var coordSysX2 = coordSysBoundingRect.x + coordSysBoundingRect.width;
+ var coordSysY2 = coordSysBoundingRect.y + coordSysBoundingRect.height;
+ var x = mathMax$6(layout.x, coordSysBoundingRect.x);
+ var x2 = mathMin$6(layout.x + layout.width, coordSysX2);
+ var y = mathMax$6(layout.y, coordSysBoundingRect.y);
+ var y2 = mathMin$6(layout.y + layout.height, coordSysY2);
+ var xClipped = x2 < x;
+ var yClipped = y2 < y;
+ // When xClipped or yClipped, the element will be marked as `ignore`.
+ // But we should also place the element at the edge of the coord sys bounding rect.
+ // Because if data changed and the bar shows again, its transition animation
+ // will begin at this place.
+ layout.x = xClipped && x > coordSysX2 ? x2 : x;
+ layout.y = yClipped && y > coordSysY2 ? y2 : y;
+ layout.width = xClipped ? 0 : x2 - x;
+ layout.height = yClipped ? 0 : y2 - y;
+ // Reverse back
+ if (signWidth < 0) {
+ layout.x += layout.width;
+ layout.width = -layout.width;
+ }
+ if (signHeight < 0) {
+ layout.y += layout.height;
+ layout.height = -layout.height;
+ }
+ return xClipped || yClipped;
+ },
+ polar: function (coordSysClipArea, layout) {
+ var signR = layout.r0 <= layout.r ? 1 : -1;
+ // Make sure r is larger than r0
+ if (signR < 0) {
+ var tmp = layout.r;
+ layout.r = layout.r0;
+ layout.r0 = tmp;
+ }
+ var r = mathMin$6(layout.r, coordSysClipArea.r);
+ var r0 = mathMax$6(layout.r0, coordSysClipArea.r0);
+ layout.r = r;
+ layout.r0 = r0;
+ var clipped = r - r0 < 0;
+ // Reverse back
+ if (signR < 0) {
+ var tmp = layout.r;
+ layout.r = layout.r0;
+ layout.r0 = tmp;
+ }
+ return clipped;
+ }
+ };
+ var elementCreator = {
+ cartesian2d: function (seriesModel, data, newIndex, layout, isHorizontal, animationModel, axisModel, isUpdate, roundCap) {
+ var rect = new Rect({
+ shape: extend({}, layout),
+ z2: 1
+ });
+ rect.__dataIndex = newIndex;
+ rect.name = 'item';
+ if (animationModel) {
+ var rectShape = rect.shape;
+ var animateProperty = isHorizontal ? 'height' : 'width';
+ rectShape[animateProperty] = 0;
+ }
+ return rect;
+ },
+ polar: function (seriesModel, data, newIndex, layout, isRadial, animationModel, axisModel, isUpdate, roundCap) {
+ var ShapeClass = !isRadial && roundCap ? SausagePath : Sector;
+ var sector = new ShapeClass({
+ shape: layout,
+ z2: 1
+ });
+ sector.name = 'item';
+ var positionMap = createPolarPositionMapping(isRadial);
+ sector.calculateTextPosition = createSectorCalculateTextPosition(positionMap, {
+ isRoundCap: ShapeClass === SausagePath
+ });
+ // Animation
+ if (animationModel) {
+ var sectorShape = sector.shape;
+ var animateProperty = isRadial ? 'r' : 'endAngle';
+ var animateTarget = {};
+ sectorShape[animateProperty] = isRadial ? layout.r0 : layout.startAngle;
+ animateTarget[animateProperty] = layout[animateProperty];
+ (isUpdate ? updateProps : initProps)(sector, {
+ shape: animateTarget
+ // __value: typeof dataValue === 'string' ? parseInt(dataValue, 10) : dataValue
+ }, animationModel);
+ }
+ return sector;
+ }
+ };
+ function shouldRealtimeSort(seriesModel, coordSys) {
+ var realtimeSortOption = seriesModel.get('realtimeSort', true);
+ var baseAxis = coordSys.getBaseAxis();
+ if ("development" !== 'production') {
+ if (realtimeSortOption) {
+ if (baseAxis.type !== 'category') {
+ warn('`realtimeSort` will not work because this bar series is not based on a category axis.');
+ }
+ if (coordSys.type !== 'cartesian2d') {
+ warn('`realtimeSort` will not work because this bar series is not on cartesian2d.');
+ }
+ }
+ }
+ if (realtimeSortOption && baseAxis.type === 'category' && coordSys.type === 'cartesian2d') {
+ return {
+ baseAxis: baseAxis,
+ otherAxis: coordSys.getOtherAxis(baseAxis)
+ };
+ }
+ }
+ function updateRealtimeAnimation(realtimeSortCfg, seriesAnimationModel, el, layout, newIndex, isHorizontal, isUpdate, isChangeOrder) {
+ var seriesTarget;
+ var axisTarget;
+ if (isHorizontal) {
+ axisTarget = {
+ x: layout.x,
+ width: layout.width
+ };
+ seriesTarget = {
+ y: layout.y,
+ height: layout.height
+ };
+ } else {
+ axisTarget = {
+ y: layout.y,
+ height: layout.height
+ };
+ seriesTarget = {
+ x: layout.x,
+ width: layout.width
+ };
+ }
+ if (!isChangeOrder) {
+ // Keep the original growth animation if only axis order changed.
+ // Not start a new animation.
+ (isUpdate ? updateProps : initProps)(el, {
+ shape: seriesTarget
+ }, seriesAnimationModel, newIndex, null);
+ }
+ var axisAnimationModel = seriesAnimationModel ? realtimeSortCfg.baseAxis.model : null;
+ (isUpdate ? updateProps : initProps)(el, {
+ shape: axisTarget
+ }, axisAnimationModel, newIndex);
+ }
+ function checkPropertiesNotValid(obj, props) {
+ for (var i = 0; i < props.length; i++) {
+ if (!isFinite(obj[props[i]])) {
+ return true;
+ }
+ }
+ return false;
+ }
+ var rectPropties = ['x', 'y', 'width', 'height'];
+ var polarPropties = ['cx', 'cy', 'r', 'startAngle', 'endAngle'];
+ var isValidLayout = {
+ cartesian2d: function (layout) {
+ return !checkPropertiesNotValid(layout, rectPropties);
+ },
+ polar: function (layout) {
+ return !checkPropertiesNotValid(layout, polarPropties);
+ }
+ };
+ var getLayout = {
+ // itemModel is only used to get borderWidth, which is not needed
+ // when calculating bar background layout.
+ cartesian2d: function (data, dataIndex, itemModel) {
+ var layout = data.getItemLayout(dataIndex);
+ var fixedLineWidth = itemModel ? getLineWidth(itemModel, layout) : 0;
+ // fix layout with lineWidth
+ var signX = layout.width > 0 ? 1 : -1;
+ var signY = layout.height > 0 ? 1 : -1;
+ return {
+ x: layout.x + signX * fixedLineWidth / 2,
+ y: layout.y + signY * fixedLineWidth / 2,
+ width: layout.width - signX * fixedLineWidth,
+ height: layout.height - signY * fixedLineWidth
+ };
+ },
+ polar: function (data, dataIndex, itemModel) {
+ var layout = data.getItemLayout(dataIndex);
+ return {
+ cx: layout.cx,
+ cy: layout.cy,
+ r0: layout.r0,
+ r: layout.r,
+ startAngle: layout.startAngle,
+ endAngle: layout.endAngle,
+ clockwise: layout.clockwise
+ };
+ }
+ };
+ function isZeroOnPolar(layout) {
+ return layout.startAngle != null && layout.endAngle != null && layout.startAngle === layout.endAngle;
+ }
+ function createPolarPositionMapping(isRadial) {
+ return function (isRadial) {
+ var arcOrAngle = isRadial ? 'Arc' : 'Angle';
+ return function (position) {
+ switch (position) {
+ case 'start':
+ case 'insideStart':
+ case 'end':
+ case 'insideEnd':
+ return position + arcOrAngle;
+ default:
+ return position;
+ }
+ };
+ }(isRadial);
+ }
+ function updateStyle(el, data, dataIndex, itemModel, layout, seriesModel, isHorizontalOrRadial, isPolar) {
+ var style = data.getItemVisual(dataIndex, 'style');
+ if (!isPolar) {
+ var borderRadius = itemModel.get(['itemStyle', 'borderRadius']) || 0;
+ el.setShape('r', borderRadius);
+ } else if (!seriesModel.get('roundCap')) {
+ var sectorShape = el.shape;
+ var cornerRadius = getSectorCornerRadius(itemModel.getModel('itemStyle'), sectorShape, true);
+ extend(sectorShape, cornerRadius);
+ el.setShape(sectorShape);
+ }
+ el.useStyle(style);
+ var cursorStyle = itemModel.getShallow('cursor');
+ cursorStyle && el.attr('cursor', cursorStyle);
+ var labelPositionOutside = isPolar ? isHorizontalOrRadial ? layout.r >= layout.r0 ? 'endArc' : 'startArc' : layout.endAngle >= layout.startAngle ? 'endAngle' : 'startAngle' : isHorizontalOrRadial ? layout.height >= 0 ? 'bottom' : 'top' : layout.width >= 0 ? 'right' : 'left';
+ var labelStatesModels = getLabelStatesModels(itemModel);
+ setLabelStyle(el, labelStatesModels, {
+ labelFetcher: seriesModel,
+ labelDataIndex: dataIndex,
+ defaultText: getDefaultLabel(seriesModel.getData(), dataIndex),
+ inheritColor: style.fill,
+ defaultOpacity: style.opacity,
+ defaultOutsidePosition: labelPositionOutside
+ });
+ var label = el.getTextContent();
+ if (isPolar && label) {
+ var position = itemModel.get(['label', 'position']);
+ el.textConfig.inside = position === 'middle' ? true : null;
+ setSectorTextRotation(el, position === 'outside' ? labelPositionOutside : position, createPolarPositionMapping(isHorizontalOrRadial), itemModel.get(['label', 'rotate']));
+ }
+ setLabelValueAnimation(label, labelStatesModels, seriesModel.getRawValue(dataIndex), function (value) {
+ return getDefaultInterpolatedLabel(data, value);
+ });
+ var emphasisModel = itemModel.getModel(['emphasis']);
+ toggleHoverEmphasis(el, emphasisModel.get('focus'), emphasisModel.get('blurScope'), emphasisModel.get('disabled'));
+ setStatesStylesFromModel(el, itemModel);
+ if (isZeroOnPolar(layout)) {
+ el.style.fill = 'none';
+ el.style.stroke = 'none';
+ each(el.states, function (state) {
+ if (state.style) {
+ state.style.fill = state.style.stroke = 'none';
+ }
+ });
+ }
+ }
+ // In case width or height are too small.
+ function getLineWidth(itemModel, rawLayout) {
+ // Has no border.
+ var borderColor = itemModel.get(['itemStyle', 'borderColor']);
+ if (!borderColor || borderColor === 'none') {
+ return 0;
+ }
+ var lineWidth = itemModel.get(['itemStyle', 'borderWidth']) || 0;
+ // width or height may be NaN for empty data
+ var width = isNaN(rawLayout.width) ? Number.MAX_VALUE : Math.abs(rawLayout.width);
+ var height = isNaN(rawLayout.height) ? Number.MAX_VALUE : Math.abs(rawLayout.height);
+ return Math.min(lineWidth, width, height);
+ }
+ var LagePathShape = /** @class */function () {
+ function LagePathShape() {}
+ return LagePathShape;
+ }();
+ var LargePath = /** @class */function (_super) {
+ __extends(LargePath, _super);
+ function LargePath(opts) {
+ var _this = _super.call(this, opts) || this;
+ _this.type = 'largeBar';
+ return _this;
+ }
+ LargePath.prototype.getDefaultShape = function () {
+ return new LagePathShape();
+ };
+ LargePath.prototype.buildPath = function (ctx, shape) {
+ // Drawing lines is more efficient than drawing
+ // a whole line or drawing rects.
+ var points = shape.points;
+ var baseDimIdx = this.baseDimIdx;
+ var valueDimIdx = 1 - this.baseDimIdx;
+ var startPoint = [];
+ var size = [];
+ var barWidth = this.barWidth;
+ for (var i = 0; i < points.length; i += 3) {
+ size[baseDimIdx] = barWidth;
+ size[valueDimIdx] = points[i + 2];
+ startPoint[baseDimIdx] = points[i + baseDimIdx];
+ startPoint[valueDimIdx] = points[i + valueDimIdx];
+ ctx.rect(startPoint[0], startPoint[1], size[0], size[1]);
+ }
+ };
+ return LargePath;
+ }(Path);
+ function createLarge(seriesModel, group, progressiveEls, incremental) {
+ // TODO support polar
+ var data = seriesModel.getData();
+ var baseDimIdx = data.getLayout('valueAxisHorizontal') ? 1 : 0;
+ var largeDataIndices = data.getLayout('largeDataIndices');
+ var barWidth = data.getLayout('size');
+ var backgroundModel = seriesModel.getModel('backgroundStyle');
+ var bgPoints = data.getLayout('largeBackgroundPoints');
+ if (bgPoints) {
+ var bgEl = new LargePath({
+ shape: {
+ points: bgPoints
+ },
+ incremental: !!incremental,
+ silent: true,
+ z2: 0
+ });
+ bgEl.baseDimIdx = baseDimIdx;
+ bgEl.largeDataIndices = largeDataIndices;
+ bgEl.barWidth = barWidth;
+ bgEl.useStyle(backgroundModel.getItemStyle());
+ group.add(bgEl);
+ progressiveEls && progressiveEls.push(bgEl);
+ }
+ var el = new LargePath({
+ shape: {
+ points: data.getLayout('largePoints')
+ },
+ incremental: !!incremental,
+ ignoreCoarsePointer: true,
+ z2: 1
+ });
+ el.baseDimIdx = baseDimIdx;
+ el.largeDataIndices = largeDataIndices;
+ el.barWidth = barWidth;
+ group.add(el);
+ el.useStyle(data.getVisual('style'));
+ // Enable tooltip and user mouse/touch event handlers.
+ getECData(el).seriesIndex = seriesModel.seriesIndex;
+ if (!seriesModel.get('silent')) {
+ el.on('mousedown', largePathUpdateDataIndex);
+ el.on('mousemove', largePathUpdateDataIndex);
+ }
+ progressiveEls && progressiveEls.push(el);
+ }
+ // Use throttle to avoid frequently traverse to find dataIndex.
+ var largePathUpdateDataIndex = throttle(function (event) {
+ var largePath = this;
+ var dataIndex = largePathFindDataIndex(largePath, event.offsetX, event.offsetY);
+ getECData(largePath).dataIndex = dataIndex >= 0 ? dataIndex : null;
+ }, 30, false);
+ function largePathFindDataIndex(largePath, x, y) {
+ var baseDimIdx = largePath.baseDimIdx;
+ var valueDimIdx = 1 - baseDimIdx;
+ var points = largePath.shape.points;
+ var largeDataIndices = largePath.largeDataIndices;
+ var startPoint = [];
+ var size = [];
+ var barWidth = largePath.barWidth;
+ for (var i = 0, len = points.length / 3; i < len; i++) {
+ var ii = i * 3;
+ size[baseDimIdx] = barWidth;
+ size[valueDimIdx] = points[ii + 2];
+ startPoint[baseDimIdx] = points[ii + baseDimIdx];
+ startPoint[valueDimIdx] = points[ii + valueDimIdx];
+ if (size[valueDimIdx] < 0) {
+ startPoint[valueDimIdx] += size[valueDimIdx];
+ size[valueDimIdx] = -size[valueDimIdx];
+ }
+ if (x >= startPoint[0] && x <= startPoint[0] + size[0] && y >= startPoint[1] && y <= startPoint[1] + size[1]) {
+ return largeDataIndices[i];
+ }
+ }
+ return -1;
+ }
+ function createBackgroundShape(isHorizontalOrRadial, layout, coord) {
+ if (isCoordinateSystemType(coord, 'cartesian2d')) {
+ var rectShape = layout;
+ var coordLayout = coord.getArea();
+ return {
+ x: isHorizontalOrRadial ? rectShape.x : coordLayout.x,
+ y: isHorizontalOrRadial ? coordLayout.y : rectShape.y,
+ width: isHorizontalOrRadial ? rectShape.width : coordLayout.width,
+ height: isHorizontalOrRadial ? coordLayout.height : rectShape.height
+ };
+ } else {
+ var coordLayout = coord.getArea();
+ var sectorShape = layout;
+ return {
+ cx: coordLayout.cx,
+ cy: coordLayout.cy,
+ r0: isHorizontalOrRadial ? coordLayout.r0 : sectorShape.r0,
+ r: isHorizontalOrRadial ? coordLayout.r : sectorShape.r,
+ startAngle: isHorizontalOrRadial ? sectorShape.startAngle : 0,
+ endAngle: isHorizontalOrRadial ? sectorShape.endAngle : Math.PI * 2
+ };
+ }
+ }
+ function createBackgroundEl(coord, isHorizontalOrRadial, layout) {
+ var ElementClz = coord.type === 'polar' ? Sector : Rect;
+ return new ElementClz({
+ shape: createBackgroundShape(isHorizontalOrRadial, layout, coord),
+ silent: true,
+ z2: 0
+ });
+ }
+
+ function install$3(registers) {
+ registers.registerChartView(BarView);
+ registers.registerSeriesModel(BarSeriesModel);
+ registers.registerLayout(registers.PRIORITY.VISUAL.LAYOUT, curry(layout, 'bar'));
+ // Do layout after other overall layout, which can prepare some information.
+ registers.registerLayout(registers.PRIORITY.VISUAL.PROGRESSIVE_LAYOUT, createProgressiveLayout('bar'));
+ // Down sample after filter
+ registers.registerProcessor(registers.PRIORITY.PROCESSOR.STATISTIC, dataSample('bar'));
+ /**
+ * @payload
+ * @property {string} [componentType=series]
+ * @property {number} [dx]
+ * @property {number} [dy]
+ * @property {number} [zoom]
+ * @property {number} [originX]
+ * @property {number} [originY]
+ */
+ registers.registerAction({
+ type: 'changeAxisOrder',
+ event: 'changeAxisOrder',
+ update: 'update'
+ }, function (payload, ecModel) {
+ var componentType = payload.componentType || 'series';
+ ecModel.eachComponent({
+ mainType: componentType,
+ query: payload
+ }, function (componentModel) {
+ if (payload.sortInfo) {
+ componentModel.axis.setCategorySortInfo(payload.sortInfo);
+ }
+ });
+ });
+ }
+
+ var PI2$8 = Math.PI * 2;
+ var RADIAN = Math.PI / 180;
+ function getViewRect(seriesModel, api) {
+ return getLayoutRect(seriesModel.getBoxLayoutParams(), {
+ width: api.getWidth(),
+ height: api.getHeight()
+ });
+ }
+ function getBasicPieLayout(seriesModel, api) {
+ var viewRect = getViewRect(seriesModel, api);
+ // center can be string or number when coordinateSystem is specified
+ var center = seriesModel.get('center');
+ var radius = seriesModel.get('radius');
+ if (!isArray(radius)) {
+ radius = [0, radius];
+ }
+ var width = parsePercent$1(viewRect.width, api.getWidth());
+ var height = parsePercent$1(viewRect.height, api.getHeight());
+ var size = Math.min(width, height);
+ var r0 = parsePercent$1(radius[0], size / 2);
+ var r = parsePercent$1(radius[1], size / 2);
+ var cx;
+ var cy;
+ var coordSys = seriesModel.coordinateSystem;
+ if (coordSys) {
+ // percentage is not allowed when coordinate system is specified
+ var point = coordSys.dataToPoint(center);
+ cx = point[0] || 0;
+ cy = point[1] || 0;
+ } else {
+ if (!isArray(center)) {
+ center = [center, center];
+ }
+ cx = parsePercent$1(center[0], width) + viewRect.x;
+ cy = parsePercent$1(center[1], height) + viewRect.y;
+ }
+ return {
+ cx: cx,
+ cy: cy,
+ r0: r0,
+ r: r
+ };
+ }
+ function pieLayout(seriesType, ecModel, api) {
+ ecModel.eachSeriesByType(seriesType, function (seriesModel) {
+ var data = seriesModel.getData();
+ var valueDim = data.mapDimension('value');
+ var viewRect = getViewRect(seriesModel, api);
+ var _a = getBasicPieLayout(seriesModel, api),
+ cx = _a.cx,
+ cy = _a.cy,
+ r = _a.r,
+ r0 = _a.r0;
+ var startAngle = -seriesModel.get('startAngle') * RADIAN;
+ var endAngle = seriesModel.get('endAngle');
+ var padAngle = seriesModel.get('padAngle') * RADIAN;
+ endAngle = endAngle === 'auto' ? startAngle - PI2$8 : -endAngle * RADIAN;
+ var minAngle = seriesModel.get('minAngle') * RADIAN;
+ var minAndPadAngle = minAngle + padAngle;
+ var validDataCount = 0;
+ data.each(valueDim, function (value) {
+ !isNaN(value) && validDataCount++;
+ });
+ var sum = data.getSum(valueDim);
+ // Sum may be 0
+ var unitRadian = Math.PI / (sum || validDataCount) * 2;
+ var clockwise = seriesModel.get('clockwise');
+ var roseType = seriesModel.get('roseType');
+ var stillShowZeroSum = seriesModel.get('stillShowZeroSum');
+ // [0...max]
+ var extent = data.getDataExtent(valueDim);
+ extent[0] = 0;
+ var dir = clockwise ? 1 : -1;
+ var angles = [startAngle, endAngle];
+ var halfPadAngle = dir * padAngle / 2;
+ normalizeArcAngles(angles, !clockwise);
+ startAngle = angles[0], endAngle = angles[1];
+ var angleRange = Math.abs(endAngle - startAngle);
+ // In the case some sector angle is smaller than minAngle
+ var restAngle = angleRange;
+ var valueSumLargerThanMinAngle = 0;
+ var currentAngle = startAngle;
+ data.setLayout({
+ viewRect: viewRect,
+ r: r
+ });
+ data.each(valueDim, function (value, idx) {
+ var angle;
+ if (isNaN(value)) {
+ data.setItemLayout(idx, {
+ angle: NaN,
+ startAngle: NaN,
+ endAngle: NaN,
+ clockwise: clockwise,
+ cx: cx,
+ cy: cy,
+ r0: r0,
+ r: roseType ? NaN : r
+ });
+ return;
+ }
+ // FIXME 兼容 2.0 但是 roseType 是 area 的时候才是这样?
+ if (roseType !== 'area') {
+ angle = sum === 0 && stillShowZeroSum ? unitRadian : value * unitRadian;
+ } else {
+ angle = angleRange / validDataCount;
+ }
+ if (angle < minAndPadAngle) {
+ angle = minAndPadAngle;
+ restAngle -= minAndPadAngle;
+ } else {
+ valueSumLargerThanMinAngle += value;
+ }
+ var endAngle = currentAngle + dir * angle;
+ // calculate display angle
+ var actualStartAngle = 0;
+ var actualEndAngle = 0;
+ if (padAngle > angle) {
+ actualStartAngle = currentAngle + dir * angle / 2;
+ actualEndAngle = actualStartAngle;
+ } else {
+ actualStartAngle = currentAngle + halfPadAngle;
+ actualEndAngle = endAngle - halfPadAngle;
+ }
+ data.setItemLayout(idx, {
+ angle: angle,
+ startAngle: actualStartAngle,
+ endAngle: actualEndAngle,
+ clockwise: clockwise,
+ cx: cx,
+ cy: cy,
+ r0: r0,
+ r: roseType ? linearMap(value, extent, [r0, r]) : r
+ });
+ currentAngle = endAngle;
+ });
+ // Some sector is constrained by minAngle and padAngle
+ // Rest sectors needs recalculate angle
+ if (restAngle < PI2$8 && validDataCount) {
+ // Average the angle if rest angle is not enough after all angles is
+ // Constrained by minAngle and padAngle
+ if (restAngle <= 1e-3) {
+ var angle_1 = angleRange / validDataCount;
+ data.each(valueDim, function (value, idx) {
+ if (!isNaN(value)) {
+ var layout_1 = data.getItemLayout(idx);
+ layout_1.angle = angle_1;
+ var actualStartAngle = 0;
+ var actualEndAngle = 0;
+ if (angle_1 < padAngle) {
+ actualStartAngle = startAngle + dir * (idx + 1 / 2) * angle_1;
+ actualEndAngle = actualStartAngle;
+ } else {
+ actualStartAngle = startAngle + dir * idx * angle_1 + halfPadAngle;
+ actualEndAngle = startAngle + dir * (idx + 1) * angle_1 - halfPadAngle;
+ }
+ layout_1.startAngle = actualStartAngle;
+ layout_1.endAngle = actualEndAngle;
+ }
+ });
+ } else {
+ unitRadian = restAngle / valueSumLargerThanMinAngle;
+ currentAngle = startAngle;
+ data.each(valueDim, function (value, idx) {
+ if (!isNaN(value)) {
+ var layout_2 = data.getItemLayout(idx);
+ var angle = layout_2.angle === minAndPadAngle ? minAndPadAngle : value * unitRadian;
+ var actualStartAngle = 0;
+ var actualEndAngle = 0;
+ if (angle < padAngle) {
+ actualStartAngle = currentAngle + dir * angle / 2;
+ actualEndAngle = actualStartAngle;
+ } else {
+ actualStartAngle = currentAngle + halfPadAngle;
+ actualEndAngle = currentAngle + dir * angle - halfPadAngle;
+ }
+ layout_2.startAngle = actualStartAngle;
+ layout_2.endAngle = actualEndAngle;
+ currentAngle += dir * angle;
+ }
+ });
+ }
+ }
+ });
+ }
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+
+
+ /**
+ * AUTO-GENERATED FILE. DO NOT MODIFY.
+ */
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+ function dataFilter(seriesType) {
+ return {
+ seriesType: seriesType,
+ reset: function (seriesModel, ecModel) {
+ var legendModels = ecModel.findComponents({
+ mainType: 'legend'
+ });
+ if (!legendModels || !legendModels.length) {
+ return;
+ }
+ var data = seriesModel.getData();
+ data.filterSelf(function (idx) {
+ var name = data.getName(idx);
+ // If in any legend component the status is not selected.
+ for (var i = 0; i < legendModels.length; i++) {
+ // @ts-ignore FIXME: LegendModel
+ if (!legendModels[i].isSelected(name)) {
+ return false;
+ }
+ }
+ return true;
+ });
+ }
+ };
+ }
+
+ var RADIAN$1 = Math.PI / 180;
+ function adjustSingleSide(list, cx, cy, r, dir, viewWidth, viewHeight, viewLeft, viewTop, farthestX) {
+ if (list.length < 2) {
+ return;
+ }
+ function recalculateXOnSemiToAlignOnEllipseCurve(semi) {
+ var rB = semi.rB;
+ var rB2 = rB * rB;
+ for (var i = 0; i < semi.list.length; i++) {
+ var item = semi.list[i];
+ var dy = Math.abs(item.label.y - cy);
+ // horizontal r is always same with original r because x is not changed.
+ var rA = r + item.len;
+ var rA2 = rA * rA;
+ // Use ellipse implicit function to calculate x
+ var dx = Math.sqrt((1 - Math.abs(dy * dy / rB2)) * rA2);
+ var newX = cx + (dx + item.len2) * dir;
+ var deltaX = newX - item.label.x;
+ var newTargetWidth = item.targetTextWidth - deltaX * dir;
+ // text x is changed, so need to recalculate width.
+ constrainTextWidth(item, newTargetWidth, true);
+ item.label.x = newX;
+ }
+ }
+ // Adjust X based on the shifted y. Make tight labels aligned on an ellipse curve.
+ function recalculateX(items) {
+ // Extremes of
+ var topSemi = {
+ list: [],
+ maxY: 0
+ };
+ var bottomSemi = {
+ list: [],
+ maxY: 0
+ };
+ for (var i = 0; i < items.length; i++) {
+ if (items[i].labelAlignTo !== 'none') {
+ continue;
+ }
+ var item = items[i];
+ var semi = item.label.y > cy ? bottomSemi : topSemi;
+ var dy = Math.abs(item.label.y - cy);
+ if (dy >= semi.maxY) {
+ var dx = item.label.x - cx - item.len2 * dir;
+ // horizontal r is always same with original r because x is not changed.
+ var rA = r + item.len;
+ // Canculate rB based on the topest / bottemest label.
+ var rB = Math.abs(dx) < rA ? Math.sqrt(dy * dy / (1 - dx * dx / rA / rA)) : rA;
+ semi.rB = rB;
+ semi.maxY = dy;
+ }
+ semi.list.push(item);
+ }
+ recalculateXOnSemiToAlignOnEllipseCurve(topSemi);
+ recalculateXOnSemiToAlignOnEllipseCurve(bottomSemi);
+ }
+ var len = list.length;
+ for (var i = 0; i < len; i++) {
+ if (list[i].position === 'outer' && list[i].labelAlignTo === 'labelLine') {
+ var dx = list[i].label.x - farthestX;
+ list[i].linePoints[1][0] += dx;
+ list[i].label.x = farthestX;
+ }
+ }
+ if (shiftLayoutOnY(list, viewTop, viewTop + viewHeight)) {
+ recalculateX(list);
+ }
+ }
+ function avoidOverlap(labelLayoutList, cx, cy, r, viewWidth, viewHeight, viewLeft, viewTop) {
+ var leftList = [];
+ var rightList = [];
+ var leftmostX = Number.MAX_VALUE;
+ var rightmostX = -Number.MAX_VALUE;
+ for (var i = 0; i < labelLayoutList.length; i++) {
+ var label = labelLayoutList[i].label;
+ if (isPositionCenter(labelLayoutList[i])) {
+ continue;
+ }
+ if (label.x < cx) {
+ leftmostX = Math.min(leftmostX, label.x);
+ leftList.push(labelLayoutList[i]);
+ } else {
+ rightmostX = Math.max(rightmostX, label.x);
+ rightList.push(labelLayoutList[i]);
+ }
+ }
+ for (var i = 0; i < labelLayoutList.length; i++) {
+ var layout = labelLayoutList[i];
+ if (!isPositionCenter(layout) && layout.linePoints) {
+ if (layout.labelStyleWidth != null) {
+ continue;
+ }
+ var label = layout.label;
+ var linePoints = layout.linePoints;
+ var targetTextWidth = void 0;
+ if (layout.labelAlignTo === 'edge') {
+ if (label.x < cx) {
+ targetTextWidth = linePoints[2][0] - layout.labelDistance - viewLeft - layout.edgeDistance;
+ } else {
+ targetTextWidth = viewLeft + viewWidth - layout.edgeDistance - linePoints[2][0] - layout.labelDistance;
+ }
+ } else if (layout.labelAlignTo === 'labelLine') {
+ if (label.x < cx) {
+ targetTextWidth = leftmostX - viewLeft - layout.bleedMargin;
+ } else {
+ targetTextWidth = viewLeft + viewWidth - rightmostX - layout.bleedMargin;
+ }
+ } else {
+ if (label.x < cx) {
+ targetTextWidth = label.x - viewLeft - layout.bleedMargin;
+ } else {
+ targetTextWidth = viewLeft + viewWidth - label.x - layout.bleedMargin;
+ }
+ }
+ layout.targetTextWidth = targetTextWidth;
+ constrainTextWidth(layout, targetTextWidth);
+ }
+ }
+ adjustSingleSide(rightList, cx, cy, r, 1, viewWidth, viewHeight, viewLeft, viewTop, rightmostX);
+ adjustSingleSide(leftList, cx, cy, r, -1, viewWidth, viewHeight, viewLeft, viewTop, leftmostX);
+ for (var i = 0; i < labelLayoutList.length; i++) {
+ var layout = labelLayoutList[i];
+ if (!isPositionCenter(layout) && layout.linePoints) {
+ var label = layout.label;
+ var linePoints = layout.linePoints;
+ var isAlignToEdge = layout.labelAlignTo === 'edge';
+ var padding = label.style.padding;
+ var paddingH = padding ? padding[1] + padding[3] : 0;
+ // textRect.width already contains paddingH if bgColor is set
+ var extraPaddingH = label.style.backgroundColor ? 0 : paddingH;
+ var realTextWidth = layout.rect.width + extraPaddingH;
+ var dist = linePoints[1][0] - linePoints[2][0];
+ if (isAlignToEdge) {
+ if (label.x < cx) {
+ linePoints[2][0] = viewLeft + layout.edgeDistance + realTextWidth + layout.labelDistance;
+ } else {
+ linePoints[2][0] = viewLeft + viewWidth - layout.edgeDistance - realTextWidth - layout.labelDistance;
+ }
+ } else {
+ if (label.x < cx) {
+ linePoints[2][0] = label.x + layout.labelDistance;
+ } else {
+ linePoints[2][0] = label.x - layout.labelDistance;
+ }
+ linePoints[1][0] = linePoints[2][0] + dist;
+ }
+ linePoints[1][1] = linePoints[2][1] = label.y;
+ }
+ }
+ }
+ /**
+ * Set max width of each label, and then wrap each label to the max width.
+ *
+ * @param layout label layout
+ * @param availableWidth max width for the label to display
+ * @param forceRecalculate recaculate the text layout even if the current width
+ * is smaller than `availableWidth`. This is useful when the text was previously
+ * wrapped by calling `constrainTextWidth` but now `availableWidth` changed, in
+ * which case, previous wrapping should be redo.
+ */
+ function constrainTextWidth(layout, availableWidth, forceRecalculate) {
+ if (forceRecalculate === void 0) {
+ forceRecalculate = false;
+ }
+ if (layout.labelStyleWidth != null) {
+ // User-defined style.width has the highest priority.
+ return;
+ }
+ var label = layout.label;
+ var style = label.style;
+ var textRect = layout.rect;
+ var bgColor = style.backgroundColor;
+ var padding = style.padding;
+ var paddingH = padding ? padding[1] + padding[3] : 0;
+ var overflow = style.overflow;
+ // textRect.width already contains paddingH if bgColor is set
+ var oldOuterWidth = textRect.width + (bgColor ? 0 : paddingH);
+ if (availableWidth < oldOuterWidth || forceRecalculate) {
+ var oldHeight = textRect.height;
+ if (overflow && overflow.match('break')) {
+ // Temporarily set background to be null to calculate
+ // the bounding box without background.
+ label.setStyle('backgroundColor', null);
+ // Set constraining width
+ label.setStyle('width', availableWidth - paddingH);
+ // This is the real bounding box of the text without padding.
+ var innerRect = label.getBoundingRect();
+ label.setStyle('width', Math.ceil(innerRect.width));
+ label.setStyle('backgroundColor', bgColor);
+ } else {
+ var availableInnerWidth = availableWidth - paddingH;
+ var newWidth = availableWidth < oldOuterWidth
+ // Current text is too wide, use `availableWidth` as max width.
+ ? availableInnerWidth :
+ // Current available width is enough, but the text may have
+ // already been wrapped with a smaller available width.
+ forceRecalculate ? availableInnerWidth > layout.unconstrainedWidth
+ // Current available is larger than text width,
+ // so don't constrain width (otherwise it may have
+ // empty space in the background).
+ ? null
+ // Current available is smaller than text width, so
+ // use the current available width as constraining
+ // width.
+ : availableInnerWidth
+ // Current available width is enough, so no need to
+ // constrain.
+ : null;
+ label.setStyle('width', newWidth);
+ }
+ var newRect = label.getBoundingRect();
+ textRect.width = newRect.width;
+ var margin = (label.style.margin || 0) + 2.1;
+ textRect.height = newRect.height + margin;
+ textRect.y -= (textRect.height - oldHeight) / 2;
+ }
+ }
+ function isPositionCenter(sectorShape) {
+ // Not change x for center label
+ return sectorShape.position === 'center';
+ }
+ function pieLabelLayout(seriesModel) {
+ var data = seriesModel.getData();
+ var labelLayoutList = [];
+ var cx;
+ var cy;
+ var hasLabelRotate = false;
+ var minShowLabelRadian = (seriesModel.get('minShowLabelAngle') || 0) * RADIAN$1;
+ var viewRect = data.getLayout('viewRect');
+ var r = data.getLayout('r');
+ var viewWidth = viewRect.width;
+ var viewLeft = viewRect.x;
+ var viewTop = viewRect.y;
+ var viewHeight = viewRect.height;
+ function setNotShow(el) {
+ el.ignore = true;
+ }
+ function isLabelShown(label) {
+ if (!label.ignore) {
+ return true;
+ }
+ for (var key in label.states) {
+ if (label.states[key].ignore === false) {
+ return true;
+ }
+ }
+ return false;
+ }
+ data.each(function (idx) {
+ var sector = data.getItemGraphicEl(idx);
+ var sectorShape = sector.shape;
+ var label = sector.getTextContent();
+ var labelLine = sector.getTextGuideLine();
+ var itemModel = data.getItemModel(idx);
+ var labelModel = itemModel.getModel('label');
+ // Use position in normal or emphasis
+ var labelPosition = labelModel.get('position') || itemModel.get(['emphasis', 'label', 'position']);
+ var labelDistance = labelModel.get('distanceToLabelLine');
+ var labelAlignTo = labelModel.get('alignTo');
+ var edgeDistance = parsePercent$1(labelModel.get('edgeDistance'), viewWidth);
+ var bleedMargin = labelModel.get('bleedMargin');
+ var labelLineModel = itemModel.getModel('labelLine');
+ var labelLineLen = labelLineModel.get('length');
+ labelLineLen = parsePercent$1(labelLineLen, viewWidth);
+ var labelLineLen2 = labelLineModel.get('length2');
+ labelLineLen2 = parsePercent$1(labelLineLen2, viewWidth);
+ if (Math.abs(sectorShape.endAngle - sectorShape.startAngle) < minShowLabelRadian) {
+ each(label.states, setNotShow);
+ label.ignore = true;
+ if (labelLine) {
+ each(labelLine.states, setNotShow);
+ labelLine.ignore = true;
+ }
+ return;
+ }
+ if (!isLabelShown(label)) {
+ return;
+ }
+ var midAngle = (sectorShape.startAngle + sectorShape.endAngle) / 2;
+ var nx = Math.cos(midAngle);
+ var ny = Math.sin(midAngle);
+ var textX;
+ var textY;
+ var linePoints;
+ var textAlign;
+ cx = sectorShape.cx;
+ cy = sectorShape.cy;
+ var isLabelInside = labelPosition === 'inside' || labelPosition === 'inner';
+ if (labelPosition === 'center') {
+ textX = sectorShape.cx;
+ textY = sectorShape.cy;
+ textAlign = 'center';
+ } else {
+ var x1 = (isLabelInside ? (sectorShape.r + sectorShape.r0) / 2 * nx : sectorShape.r * nx) + cx;
+ var y1 = (isLabelInside ? (sectorShape.r + sectorShape.r0) / 2 * ny : sectorShape.r * ny) + cy;
+ textX = x1 + nx * 3;
+ textY = y1 + ny * 3;
+ if (!isLabelInside) {
+ // For roseType
+ var x2 = x1 + nx * (labelLineLen + r - sectorShape.r);
+ var y2 = y1 + ny * (labelLineLen + r - sectorShape.r);
+ var x3 = x2 + (nx < 0 ? -1 : 1) * labelLineLen2;
+ var y3 = y2;
+ if (labelAlignTo === 'edge') {
+ // Adjust textX because text align of edge is opposite
+ textX = nx < 0 ? viewLeft + edgeDistance : viewLeft + viewWidth - edgeDistance;
+ } else {
+ textX = x3 + (nx < 0 ? -labelDistance : labelDistance);
+ }
+ textY = y3;
+ linePoints = [[x1, y1], [x2, y2], [x3, y3]];
+ }
+ textAlign = isLabelInside ? 'center' : labelAlignTo === 'edge' ? nx > 0 ? 'right' : 'left' : nx > 0 ? 'left' : 'right';
+ }
+ var PI = Math.PI;
+ var labelRotate = 0;
+ var rotate = labelModel.get('rotate');
+ if (isNumber(rotate)) {
+ labelRotate = rotate * (PI / 180);
+ } else if (labelPosition === 'center') {
+ labelRotate = 0;
+ } else if (rotate === 'radial' || rotate === true) {
+ var radialAngle = nx < 0 ? -midAngle + PI : -midAngle;
+ labelRotate = radialAngle;
+ } else if (rotate === 'tangential' && labelPosition !== 'outside' && labelPosition !== 'outer') {
+ var rad = Math.atan2(nx, ny);
+ if (rad < 0) {
+ rad = PI * 2 + rad;
+ }
+ var isDown = ny > 0;
+ if (isDown) {
+ rad = PI + rad;
+ }
+ labelRotate = rad - PI;
+ }
+ hasLabelRotate = !!labelRotate;
+ label.x = textX;
+ label.y = textY;
+ label.rotation = labelRotate;
+ label.setStyle({
+ verticalAlign: 'middle'
+ });
+ // Not sectorShape the inside label
+ if (!isLabelInside) {
+ var textRect = label.getBoundingRect().clone();
+ textRect.applyTransform(label.getComputedTransform());
+ // Text has a default 1px stroke. Exclude this.
+ var margin = (label.style.margin || 0) + 2.1;
+ textRect.y -= margin / 2;
+ textRect.height += margin;
+ labelLayoutList.push({
+ label: label,
+ labelLine: labelLine,
+ position: labelPosition,
+ len: labelLineLen,
+ len2: labelLineLen2,
+ minTurnAngle: labelLineModel.get('minTurnAngle'),
+ maxSurfaceAngle: labelLineModel.get('maxSurfaceAngle'),
+ surfaceNormal: new Point(nx, ny),
+ linePoints: linePoints,
+ textAlign: textAlign,
+ labelDistance: labelDistance,
+ labelAlignTo: labelAlignTo,
+ edgeDistance: edgeDistance,
+ bleedMargin: bleedMargin,
+ rect: textRect,
+ unconstrainedWidth: textRect.width,
+ labelStyleWidth: label.style.width
+ });
+ } else {
+ label.setStyle({
+ align: textAlign
+ });
+ var selectState = label.states.select;
+ if (selectState) {
+ selectState.x += label.x;
+ selectState.y += label.y;
+ }
+ }
+ sector.setTextConfig({
+ inside: isLabelInside
+ });
+ });
+ if (!hasLabelRotate && seriesModel.get('avoidLabelOverlap')) {
+ avoidOverlap(labelLayoutList, cx, cy, r, viewWidth, viewHeight, viewLeft, viewTop);
+ }
+ for (var i = 0; i < labelLayoutList.length; i++) {
+ var layout = labelLayoutList[i];
+ var label = layout.label;
+ var labelLine = layout.labelLine;
+ var notShowLabel = isNaN(label.x) || isNaN(label.y);
+ if (label) {
+ label.setStyle({
+ align: layout.textAlign
+ });
+ if (notShowLabel) {
+ each(label.states, setNotShow);
+ label.ignore = true;
+ }
+ var selectState = label.states.select;
+ if (selectState) {
+ selectState.x += label.x;
+ selectState.y += label.y;
+ }
+ }
+ if (labelLine) {
+ var linePoints = layout.linePoints;
+ if (notShowLabel || !linePoints) {
+ each(labelLine.states, setNotShow);
+ labelLine.ignore = true;
+ } else {
+ limitTurnAngle(linePoints, layout.minTurnAngle);
+ limitSurfaceAngle(linePoints, layout.surfaceNormal, layout.maxSurfaceAngle);
+ labelLine.setShape({
+ points: linePoints
+ });
+ // Set the anchor to the midpoint of sector
+ label.__hostTarget.textGuideLineConfig = {
+ anchor: new Point(linePoints[0][0], linePoints[0][1])
+ };
+ }
+ }
+ }
+ }
+
+ /**
+ * Piece of pie including Sector, Label, LabelLine
+ */
+ var PiePiece = /** @class */function (_super) {
+ __extends(PiePiece, _super);
+ function PiePiece(data, idx, startAngle) {
+ var _this = _super.call(this) || this;
+ _this.z2 = 2;
+ var text = new ZRText();
+ _this.setTextContent(text);
+ _this.updateData(data, idx, startAngle, true);
+ return _this;
+ }
+ PiePiece.prototype.updateData = function (data, idx, startAngle, firstCreate) {
+ var sector = this;
+ var seriesModel = data.hostModel;
+ var itemModel = data.getItemModel(idx);
+ var emphasisModel = itemModel.getModel('emphasis');
+ var layout = data.getItemLayout(idx);
+ // cornerRadius & innerCornerRadius doesn't exist in the item layout. Use `0` if null value is specified.
+ // see `setItemLayout` in `pieLayout.ts`.
+ var sectorShape = extend(getSectorCornerRadius(itemModel.getModel('itemStyle'), layout, true), layout);
+ // Ignore NaN data.
+ if (isNaN(sectorShape.startAngle)) {
+ // Use NaN shape to avoid drawing shape.
+ sector.setShape(sectorShape);
+ return;
+ }
+ if (firstCreate) {
+ sector.setShape(sectorShape);
+ var animationType = seriesModel.getShallow('animationType');
+ if (seriesModel.ecModel.ssr) {
+ // Use scale animation in SSR mode(opacity?)
+ // Because CSS SVG animation doesn't support very customized shape animation.
+ initProps(sector, {
+ scaleX: 0,
+ scaleY: 0
+ }, seriesModel, {
+ dataIndex: idx,
+ isFrom: true
+ });
+ sector.originX = sectorShape.cx;
+ sector.originY = sectorShape.cy;
+ } else if (animationType === 'scale') {
+ sector.shape.r = layout.r0;
+ initProps(sector, {
+ shape: {
+ r: layout.r
+ }
+ }, seriesModel, idx);
+ }
+ // Expansion
+ else {
+ if (startAngle != null) {
+ sector.setShape({
+ startAngle: startAngle,
+ endAngle: startAngle
+ });
+ initProps(sector, {
+ shape: {
+ startAngle: layout.startAngle,
+ endAngle: layout.endAngle
+ }
+ }, seriesModel, idx);
+ } else {
+ sector.shape.endAngle = layout.startAngle;
+ updateProps(sector, {
+ shape: {
+ endAngle: layout.endAngle
+ }
+ }, seriesModel, idx);
+ }
+ }
+ } else {
+ saveOldStyle(sector);
+ // Transition animation from the old shape
+ updateProps(sector, {
+ shape: sectorShape
+ }, seriesModel, idx);
+ }
+ sector.useStyle(data.getItemVisual(idx, 'style'));
+ setStatesStylesFromModel(sector, itemModel);
+ var midAngle = (layout.startAngle + layout.endAngle) / 2;
+ var offset = seriesModel.get('selectedOffset');
+ var dx = Math.cos(midAngle) * offset;
+ var dy = Math.sin(midAngle) * offset;
+ var cursorStyle = itemModel.getShallow('cursor');
+ cursorStyle && sector.attr('cursor', cursorStyle);
+ this._updateLabel(seriesModel, data, idx);
+ sector.ensureState('emphasis').shape = extend({
+ r: layout.r + (emphasisModel.get('scale') ? emphasisModel.get('scaleSize') || 0 : 0)
+ }, getSectorCornerRadius(emphasisModel.getModel('itemStyle'), layout));
+ extend(sector.ensureState('select'), {
+ x: dx,
+ y: dy,
+ shape: getSectorCornerRadius(itemModel.getModel(['select', 'itemStyle']), layout)
+ });
+ extend(sector.ensureState('blur'), {
+ shape: getSectorCornerRadius(itemModel.getModel(['blur', 'itemStyle']), layout)
+ });
+ var labelLine = sector.getTextGuideLine();
+ var labelText = sector.getTextContent();
+ labelLine && extend(labelLine.ensureState('select'), {
+ x: dx,
+ y: dy
+ });
+ // TODO: needs dx, dy in zrender?
+ extend(labelText.ensureState('select'), {
+ x: dx,
+ y: dy
+ });
+ toggleHoverEmphasis(this, emphasisModel.get('focus'), emphasisModel.get('blurScope'), emphasisModel.get('disabled'));
+ };
+ PiePiece.prototype._updateLabel = function (seriesModel, data, idx) {
+ var sector = this;
+ var itemModel = data.getItemModel(idx);
+ var labelLineModel = itemModel.getModel('labelLine');
+ var style = data.getItemVisual(idx, 'style');
+ var visualColor = style && style.fill;
+ var visualOpacity = style && style.opacity;
+ setLabelStyle(sector, getLabelStatesModels(itemModel), {
+ labelFetcher: data.hostModel,
+ labelDataIndex: idx,
+ inheritColor: visualColor,
+ defaultOpacity: visualOpacity,
+ defaultText: seriesModel.getFormattedLabel(idx, 'normal') || data.getName(idx)
+ });
+ var labelText = sector.getTextContent();
+ // Set textConfig on sector.
+ sector.setTextConfig({
+ // reset position, rotation
+ position: null,
+ rotation: null
+ });
+ // Make sure update style on labelText after setLabelStyle.
+ // Because setLabelStyle will replace a new style on it.
+ labelText.attr({
+ z2: 10
+ });
+ var labelPosition = seriesModel.get(['label', 'position']);
+ if (labelPosition !== 'outside' && labelPosition !== 'outer') {
+ sector.removeTextGuideLine();
+ } else {
+ var polyline = this.getTextGuideLine();
+ if (!polyline) {
+ polyline = new Polyline();
+ this.setTextGuideLine(polyline);
+ }
+ // Default use item visual color
+ setLabelLineStyle(this, getLabelLineStatesModels(itemModel), {
+ stroke: visualColor,
+ opacity: retrieve3(labelLineModel.get(['lineStyle', 'opacity']), visualOpacity, 1)
+ });
+ }
+ };
+ return PiePiece;
+ }(Sector);
+ // Pie view
+ var PieView = /** @class */function (_super) {
+ __extends(PieView, _super);
+ function PieView() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.ignoreLabelLineUpdate = true;
+ return _this;
+ }
+ PieView.prototype.render = function (seriesModel, ecModel, api, payload) {
+ var data = seriesModel.getData();
+ var oldData = this._data;
+ var group = this.group;
+ var startAngle;
+ // First render
+ if (!oldData && data.count() > 0) {
+ var shape = data.getItemLayout(0);
+ for (var s = 1; isNaN(shape && shape.startAngle) && s < data.count(); ++s) {
+ shape = data.getItemLayout(s);
+ }
+ if (shape) {
+ startAngle = shape.startAngle;
+ }
+ }
+ // remove empty-circle if it exists
+ if (this._emptyCircleSector) {
+ group.remove(this._emptyCircleSector);
+ }
+ // when all data are filtered, show lightgray empty circle
+ if (data.count() === 0 && seriesModel.get('showEmptyCircle')) {
+ var sector = new Sector({
+ shape: getBasicPieLayout(seriesModel, api)
+ });
+ sector.useStyle(seriesModel.getModel('emptyCircleStyle').getItemStyle());
+ this._emptyCircleSector = sector;
+ group.add(sector);
+ }
+ data.diff(oldData).add(function (idx) {
+ var piePiece = new PiePiece(data, idx, startAngle);
+ data.setItemGraphicEl(idx, piePiece);
+ group.add(piePiece);
+ }).update(function (newIdx, oldIdx) {
+ var piePiece = oldData.getItemGraphicEl(oldIdx);
+ piePiece.updateData(data, newIdx, startAngle);
+ piePiece.off('click');
+ group.add(piePiece);
+ data.setItemGraphicEl(newIdx, piePiece);
+ }).remove(function (idx) {
+ var piePiece = oldData.getItemGraphicEl(idx);
+ removeElementWithFadeOut(piePiece, seriesModel, idx);
+ }).execute();
+ pieLabelLayout(seriesModel);
+ // Always use initial animation.
+ if (seriesModel.get('animationTypeUpdate') !== 'expansion') {
+ this._data = data;
+ }
+ };
+ PieView.prototype.dispose = function () {};
+ PieView.prototype.containPoint = function (point, seriesModel) {
+ var data = seriesModel.getData();
+ var itemLayout = data.getItemLayout(0);
+ if (itemLayout) {
+ var dx = point[0] - itemLayout.cx;
+ var dy = point[1] - itemLayout.cy;
+ var radius = Math.sqrt(dx * dx + dy * dy);
+ return radius <= itemLayout.r && radius >= itemLayout.r0;
+ }
+ };
+ PieView.type = 'pie';
+ return PieView;
+ }(ChartView);
+
+ /**
+ * [Usage]:
+ * (1)
+ * createListSimply(seriesModel, ['value']);
+ * (2)
+ * createListSimply(seriesModel, {
+ * coordDimensions: ['value'],
+ * dimensionsCount: 5
+ * });
+ */
+ function createSeriesDataSimply(seriesModel, opt, nameList) {
+ opt = isArray(opt) && {
+ coordDimensions: opt
+ } || extend({
+ encodeDefine: seriesModel.getEncode()
+ }, opt);
+ var source = seriesModel.getSource();
+ var dimensions = prepareSeriesDataSchema(source, opt).dimensions;
+ var list = new SeriesData(dimensions, seriesModel);
+ list.initData(source, nameList);
+ return list;
+ }
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+
+
+ /**
+ * AUTO-GENERATED FILE. DO NOT MODIFY.
+ */
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+ /**
+ * LegendVisualProvider is an bridge that pick encoded color from data and
+ * provide to the legend component.
+ */
+ var LegendVisualProvider = /** @class */function () {
+ function LegendVisualProvider(
+ // Function to get data after filtered. It stores all the encoding info
+ getDataWithEncodedVisual,
+ // Function to get raw data before filtered.
+ getRawData) {
+ this._getDataWithEncodedVisual = getDataWithEncodedVisual;
+ this._getRawData = getRawData;
+ }
+ LegendVisualProvider.prototype.getAllNames = function () {
+ var rawData = this._getRawData();
+ // We find the name from the raw data. In case it's filtered by the legend component.
+ // Normally, the name can be found in rawData, but can't be found in filtered data will display as gray.
+ return rawData.mapArray(rawData.getName);
+ };
+ LegendVisualProvider.prototype.containName = function (name) {
+ var rawData = this._getRawData();
+ return rawData.indexOfName(name) >= 0;
+ };
+ LegendVisualProvider.prototype.indexOfName = function (name) {
+ // Only get data when necessary.
+ // Because LegendVisualProvider constructor may be new in the stage that data is not prepared yet.
+ // Invoking Series#getData immediately will throw an error.
+ var dataWithEncodedVisual = this._getDataWithEncodedVisual();
+ return dataWithEncodedVisual.indexOfName(name);
+ };
+ LegendVisualProvider.prototype.getItemVisual = function (dataIndex, key) {
+ // Get encoded visual properties from final filtered data.
+ var dataWithEncodedVisual = this._getDataWithEncodedVisual();
+ return dataWithEncodedVisual.getItemVisual(dataIndex, key);
+ };
+ return LegendVisualProvider;
+ }();
+
+ var innerData = makeInner();
+ var PieSeriesModel = /** @class */function (_super) {
+ __extends(PieSeriesModel, _super);
+ function PieSeriesModel() {
+ return _super !== null && _super.apply(this, arguments) || this;
+ }
+ /**
+ * @overwrite
+ */
+ PieSeriesModel.prototype.init = function (option) {
+ _super.prototype.init.apply(this, arguments);
+ // Enable legend selection for each data item
+ // Use a function instead of direct access because data reference may changed
+ this.legendVisualProvider = new LegendVisualProvider(bind(this.getData, this), bind(this.getRawData, this));
+ this._defaultLabelLine(option);
+ };
+ /**
+ * @overwrite
+ */
+ PieSeriesModel.prototype.mergeOption = function () {
+ _super.prototype.mergeOption.apply(this, arguments);
+ };
+ /**
+ * @overwrite
+ */
+ PieSeriesModel.prototype.getInitialData = function () {
+ return createSeriesDataSimply(this, {
+ coordDimensions: ['value'],
+ encodeDefaulter: curry(makeSeriesEncodeForNameBased, this)
+ });
+ };
+ /**
+ * @overwrite
+ */
+ PieSeriesModel.prototype.getDataParams = function (dataIndex) {
+ var data = this.getData();
+ // update seats when data is changed
+ var dataInner = innerData(data);
+ var seats = dataInner.seats;
+ if (!seats) {
+ var valueList_1 = [];
+ data.each(data.mapDimension('value'), function (value) {
+ valueList_1.push(value);
+ });
+ seats = dataInner.seats = getPercentSeats(valueList_1, data.hostModel.get('percentPrecision'));
+ }
+ var params = _super.prototype.getDataParams.call(this, dataIndex);
+ // seats may be empty when sum is 0
+ params.percent = seats[dataIndex] || 0;
+ params.$vars.push('percent');
+ return params;
+ };
+ PieSeriesModel.prototype._defaultLabelLine = function (option) {
+ // Extend labelLine emphasis
+ defaultEmphasis(option, 'labelLine', ['show']);
+ var labelLineNormalOpt = option.labelLine;
+ var labelLineEmphasisOpt = option.emphasis.labelLine;
+ // Not show label line if `label.normal.show = false`
+ labelLineNormalOpt.show = labelLineNormalOpt.show && option.label.show;
+ labelLineEmphasisOpt.show = labelLineEmphasisOpt.show && option.emphasis.label.show;
+ };
+ PieSeriesModel.type = 'series.pie';
+ PieSeriesModel.defaultOption = {
+ // zlevel: 0,
+ z: 2,
+ legendHoverLink: true,
+ colorBy: 'data',
+ // 默认全局居中
+ center: ['50%', '50%'],
+ radius: [0, '75%'],
+ // 默认顺时针
+ clockwise: true,
+ startAngle: 90,
+ endAngle: 'auto',
+ padAngle: 0,
+ // 最小角度改为0
+ minAngle: 0,
+ // If the angle of a sector less than `minShowLabelAngle`,
+ // the label will not be displayed.
+ minShowLabelAngle: 0,
+ // 选中时扇区偏移量
+ selectedOffset: 10,
+ // 选择模式,默认关闭,可选single,multiple
+ // selectedMode: false,
+ // 南丁格尔玫瑰图模式,'radius'(半径) | 'area'(面积)
+ // roseType: null,
+ percentPrecision: 2,
+ // If still show when all data zero.
+ stillShowZeroSum: true,
+ // cursor: null,
+ left: 0,
+ top: 0,
+ right: 0,
+ bottom: 0,
+ width: null,
+ height: null,
+ label: {
+ // color: 'inherit',
+ // If rotate around circle
+ rotate: 0,
+ show: true,
+ overflow: 'truncate',
+ // 'outer', 'inside', 'center'
+ position: 'outer',
+ // 'none', 'labelLine', 'edge'. Works only when position is 'outer'
+ alignTo: 'none',
+ // Closest distance between label and chart edge.
+ // Works only position is 'outer' and alignTo is 'edge'.
+ edgeDistance: '25%',
+ // Works only position is 'outer' and alignTo is not 'edge'.
+ bleedMargin: 10,
+ // Distance between text and label line.
+ distanceToLabelLine: 5
+ // formatter: 标签文本格式器,同 tooltip.formatter,不支持异步回调
+ // 默认使用全局文本样式,详见 textStyle
+ // distance: 当position为inner时有效,为label位置到圆心的距离与圆半径(环状图为内外半径和)的比例系数
+ },
+
+ // Enabled when label.normal.position is 'outer'
+ labelLine: {
+ show: true,
+ // 引导线两段中的第一段长度
+ length: 15,
+ // 引导线两段中的第二段长度
+ length2: 15,
+ smooth: false,
+ minTurnAngle: 90,
+ maxSurfaceAngle: 90,
+ lineStyle: {
+ // color: 各异,
+ width: 1,
+ type: 'solid'
+ }
+ },
+ itemStyle: {
+ borderWidth: 1,
+ borderJoin: 'round'
+ },
+ showEmptyCircle: true,
+ emptyCircleStyle: {
+ color: 'lightgray',
+ opacity: 1
+ },
+ labelLayout: {
+ // Hide the overlapped label.
+ hideOverlap: true
+ },
+ emphasis: {
+ scale: true,
+ scaleSize: 5
+ },
+ // If use strategy to avoid label overlapping
+ avoidLabelOverlap: true,
+ // Animation type. Valid values: expansion, scale
+ animationType: 'expansion',
+ animationDuration: 1000,
+ // Animation type when update. Valid values: transition, expansion
+ animationTypeUpdate: 'transition',
+ animationEasingUpdate: 'cubicInOut',
+ animationDurationUpdate: 500,
+ animationEasing: 'cubicInOut'
+ };
+ return PieSeriesModel;
+ }(SeriesModel);
+
+ function negativeDataFilter(seriesType) {
+ return {
+ seriesType: seriesType,
+ reset: function (seriesModel, ecModel) {
+ var data = seriesModel.getData();
+ data.filterSelf(function (idx) {
+ // handle negative value condition
+ var valueDim = data.mapDimension('value');
+ var curValue = data.get(valueDim, idx);
+ if (isNumber(curValue) && !isNaN(curValue) && curValue < 0) {
+ return false;
+ }
+ return true;
+ });
+ }
+ };
+ }
+
+ function install$4(registers) {
+ registers.registerChartView(PieView);
+ registers.registerSeriesModel(PieSeriesModel);
+ createLegacyDataSelectAction('pie', registers.registerAction);
+ registers.registerLayout(curry(pieLayout, 'pie'));
+ registers.registerProcessor(dataFilter('pie'));
+ registers.registerProcessor(negativeDataFilter('pie'));
+ }
+
+ var ScatterSeriesModel = /** @class */function (_super) {
+ __extends(ScatterSeriesModel, _super);
+ function ScatterSeriesModel() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = ScatterSeriesModel.type;
+ _this.hasSymbolVisual = true;
+ return _this;
+ }
+ ScatterSeriesModel.prototype.getInitialData = function (option, ecModel) {
+ return createSeriesData(null, this, {
+ useEncodeDefaulter: true
+ });
+ };
+ ScatterSeriesModel.prototype.getProgressive = function () {
+ var progressive = this.option.progressive;
+ if (progressive == null) {
+ // PENDING
+ return this.option.large ? 5e3 : this.get('progressive');
+ }
+ return progressive;
+ };
+ ScatterSeriesModel.prototype.getProgressiveThreshold = function () {
+ var progressiveThreshold = this.option.progressiveThreshold;
+ if (progressiveThreshold == null) {
+ // PENDING
+ return this.option.large ? 1e4 : this.get('progressiveThreshold');
+ }
+ return progressiveThreshold;
+ };
+ ScatterSeriesModel.prototype.brushSelector = function (dataIndex, data, selectors) {
+ return selectors.point(data.getItemLayout(dataIndex));
+ };
+ ScatterSeriesModel.prototype.getZLevelKey = function () {
+ // Each progressive series has individual key.
+ return this.getData().count() > this.getProgressiveThreshold() ? this.id : '';
+ };
+ ScatterSeriesModel.type = 'series.scatter';
+ ScatterSeriesModel.dependencies = ['grid', 'polar', 'geo', 'singleAxis', 'calendar'];
+ ScatterSeriesModel.defaultOption = {
+ coordinateSystem: 'cartesian2d',
+ // zlevel: 0,
+ z: 2,
+ legendHoverLink: true,
+ symbolSize: 10,
+ // symbolRotate: null, // 图形旋转控制
+ large: false,
+ // Available when large is true
+ largeThreshold: 2000,
+ // cursor: null,
+ itemStyle: {
+ opacity: 0.8
+ // color: 各异
+ },
+
+ emphasis: {
+ scale: true
+ },
+ // If clip the overflow graphics
+ // Works on cartesian / polar series
+ clip: true,
+ select: {
+ itemStyle: {
+ borderColor: '#212121'
+ }
+ },
+ universalTransition: {
+ divideShape: 'clone'
+ }
+ // progressive: null
+ };
+
+ return ScatterSeriesModel;
+ }(SeriesModel);
+
+ var BOOST_SIZE_THRESHOLD = 4;
+ var LargeSymbolPathShape = /** @class */function () {
+ function LargeSymbolPathShape() {}
+ return LargeSymbolPathShape;
+ }();
+ var LargeSymbolPath = /** @class */function (_super) {
+ __extends(LargeSymbolPath, _super);
+ function LargeSymbolPath(opts) {
+ var _this = _super.call(this, opts) || this;
+ _this._off = 0;
+ _this.hoverDataIdx = -1;
+ return _this;
+ }
+ LargeSymbolPath.prototype.getDefaultShape = function () {
+ return new LargeSymbolPathShape();
+ };
+ LargeSymbolPath.prototype.reset = function () {
+ this.notClear = false;
+ this._off = 0;
+ };
+ LargeSymbolPath.prototype.buildPath = function (path, shape) {
+ var points = shape.points;
+ var size = shape.size;
+ var symbolProxy = this.symbolProxy;
+ var symbolProxyShape = symbolProxy.shape;
+ var ctx = path.getContext ? path.getContext() : path;
+ var canBoost = ctx && size[0] < BOOST_SIZE_THRESHOLD;
+ var softClipShape = this.softClipShape;
+ var i;
+ // Do draw in afterBrush.
+ if (canBoost) {
+ this._ctx = ctx;
+ return;
+ }
+ this._ctx = null;
+ for (i = this._off; i < points.length;) {
+ var x = points[i++];
+ var y = points[i++];
+ if (isNaN(x) || isNaN(y)) {
+ continue;
+ }
+ if (softClipShape && !softClipShape.contain(x, y)) {
+ continue;
+ }
+ symbolProxyShape.x = x - size[0] / 2;
+ symbolProxyShape.y = y - size[1] / 2;
+ symbolProxyShape.width = size[0];
+ symbolProxyShape.height = size[1];
+ symbolProxy.buildPath(path, symbolProxyShape, true);
+ }
+ if (this.incremental) {
+ this._off = i;
+ this.notClear = true;
+ }
+ };
+ LargeSymbolPath.prototype.afterBrush = function () {
+ var shape = this.shape;
+ var points = shape.points;
+ var size = shape.size;
+ var ctx = this._ctx;
+ var softClipShape = this.softClipShape;
+ var i;
+ if (!ctx) {
+ return;
+ }
+ // PENDING If style or other canvas status changed?
+ for (i = this._off; i < points.length;) {
+ var x = points[i++];
+ var y = points[i++];
+ if (isNaN(x) || isNaN(y)) {
+ continue;
+ }
+ if (softClipShape && !softClipShape.contain(x, y)) {
+ continue;
+ }
+ // fillRect is faster than building a rect path and draw.
+ // And it support light globalCompositeOperation.
+ ctx.fillRect(x - size[0] / 2, y - size[1] / 2, size[0], size[1]);
+ }
+ if (this.incremental) {
+ this._off = i;
+ this.notClear = true;
+ }
+ };
+ LargeSymbolPath.prototype.findDataIndex = function (x, y) {
+ // TODO ???
+ // Consider transform
+ var shape = this.shape;
+ var points = shape.points;
+ var size = shape.size;
+ var w = Math.max(size[0], 4);
+ var h = Math.max(size[1], 4);
+ // Not consider transform
+ // Treat each element as a rect
+ // top down traverse
+ for (var idx = points.length / 2 - 1; idx >= 0; idx--) {
+ var i = idx * 2;
+ var x0 = points[i] - w / 2;
+ var y0 = points[i + 1] - h / 2;
+ if (x >= x0 && y >= y0 && x <= x0 + w && y <= y0 + h) {
+ return idx;
+ }
+ }
+ return -1;
+ };
+ LargeSymbolPath.prototype.contain = function (x, y) {
+ var localPos = this.transformCoordToLocal(x, y);
+ var rect = this.getBoundingRect();
+ x = localPos[0];
+ y = localPos[1];
+ if (rect.contain(x, y)) {
+ // Cache found data index.
+ var dataIdx = this.hoverDataIdx = this.findDataIndex(x, y);
+ return dataIdx >= 0;
+ }
+ this.hoverDataIdx = -1;
+ return false;
+ };
+ LargeSymbolPath.prototype.getBoundingRect = function () {
+ // Ignore stroke for large symbol draw.
+ var rect = this._rect;
+ if (!rect) {
+ var shape = this.shape;
+ var points = shape.points;
+ var size = shape.size;
+ var w = size[0];
+ var h = size[1];
+ var minX = Infinity;
+ var minY = Infinity;
+ var maxX = -Infinity;
+ var maxY = -Infinity;
+ for (var i = 0; i < points.length;) {
+ var x = points[i++];
+ var y = points[i++];
+ minX = Math.min(x, minX);
+ maxX = Math.max(x, maxX);
+ minY = Math.min(y, minY);
+ maxY = Math.max(y, maxY);
+ }
+ rect = this._rect = new BoundingRect(minX - w / 2, minY - h / 2, maxX - minX + w, maxY - minY + h);
+ }
+ return rect;
+ };
+ return LargeSymbolPath;
+ }(Path);
+ var LargeSymbolDraw = /** @class */function () {
+ function LargeSymbolDraw() {
+ this.group = new Group();
+ }
+ /**
+ * Update symbols draw by new data
+ */
+ LargeSymbolDraw.prototype.updateData = function (data, opt) {
+ this._clear();
+ var symbolEl = this._create();
+ symbolEl.setShape({
+ points: data.getLayout('points')
+ });
+ this._setCommon(symbolEl, data, opt);
+ };
+ LargeSymbolDraw.prototype.updateLayout = function (data) {
+ var points = data.getLayout('points');
+ this.group.eachChild(function (child) {
+ if (child.startIndex != null) {
+ var len = (child.endIndex - child.startIndex) * 2;
+ var byteOffset = child.startIndex * 4 * 2;
+ points = new Float32Array(points.buffer, byteOffset, len);
+ }
+ child.setShape('points', points);
+ // Reset draw cursor.
+ child.reset();
+ });
+ };
+ LargeSymbolDraw.prototype.incrementalPrepareUpdate = function (data) {
+ this._clear();
+ };
+ LargeSymbolDraw.prototype.incrementalUpdate = function (taskParams, data, opt) {
+ var lastAdded = this._newAdded[0];
+ var points = data.getLayout('points');
+ var oldPoints = lastAdded && lastAdded.shape.points;
+ // Merging the exists. Each element has 1e4 points.
+ // Consider the performance balance between too much elements and too much points in one shape(may affect hover optimization)
+ if (oldPoints && oldPoints.length < 2e4) {
+ var oldLen = oldPoints.length;
+ var newPoints = new Float32Array(oldLen + points.length);
+ // Concat two array
+ newPoints.set(oldPoints);
+ newPoints.set(points, oldLen);
+ // Update endIndex
+ lastAdded.endIndex = taskParams.end;
+ lastAdded.setShape({
+ points: newPoints
+ });
+ } else {
+ // Clear
+ this._newAdded = [];
+ var symbolEl = this._create();
+ symbolEl.startIndex = taskParams.start;
+ symbolEl.endIndex = taskParams.end;
+ symbolEl.incremental = true;
+ symbolEl.setShape({
+ points: points
+ });
+ this._setCommon(symbolEl, data, opt);
+ }
+ };
+ LargeSymbolDraw.prototype.eachRendered = function (cb) {
+ this._newAdded[0] && cb(this._newAdded[0]);
+ };
+ LargeSymbolDraw.prototype._create = function () {
+ var symbolEl = new LargeSymbolPath({
+ cursor: 'default'
+ });
+ symbolEl.ignoreCoarsePointer = true;
+ this.group.add(symbolEl);
+ this._newAdded.push(symbolEl);
+ return symbolEl;
+ };
+ LargeSymbolDraw.prototype._setCommon = function (symbolEl, data, opt) {
+ var hostModel = data.hostModel;
+ opt = opt || {};
+ var size = data.getVisual('symbolSize');
+ symbolEl.setShape('size', size instanceof Array ? size : [size, size]);
+ symbolEl.softClipShape = opt.clipShape || null;
+ // Create symbolProxy to build path for each data
+ symbolEl.symbolProxy = createSymbol(data.getVisual('symbol'), 0, 0, 0, 0);
+ // Use symbolProxy setColor method
+ symbolEl.setColor = symbolEl.symbolProxy.setColor;
+ var extrudeShadow = symbolEl.shape.size[0] < BOOST_SIZE_THRESHOLD;
+ symbolEl.useStyle(
+ // Draw shadow when doing fillRect is extremely slow.
+ hostModel.getModel('itemStyle').getItemStyle(extrudeShadow ? ['color', 'shadowBlur', 'shadowColor'] : ['color']));
+ var globalStyle = data.getVisual('style');
+ var visualColor = globalStyle && globalStyle.fill;
+ if (visualColor) {
+ symbolEl.setColor(visualColor);
+ }
+ var ecData = getECData(symbolEl);
+ // Enable tooltip
+ // PENDING May have performance issue when path is extremely large
+ ecData.seriesIndex = hostModel.seriesIndex;
+ symbolEl.on('mousemove', function (e) {
+ ecData.dataIndex = null;
+ var dataIndex = symbolEl.hoverDataIdx;
+ if (dataIndex >= 0) {
+ // Provide dataIndex for tooltip
+ ecData.dataIndex = dataIndex + (symbolEl.startIndex || 0);
+ }
+ });
+ };
+ LargeSymbolDraw.prototype.remove = function () {
+ this._clear();
+ };
+ LargeSymbolDraw.prototype._clear = function () {
+ this._newAdded = [];
+ this.group.removeAll();
+ };
+ return LargeSymbolDraw;
+ }();
+
+ var ScatterView = /** @class */function (_super) {
+ __extends(ScatterView, _super);
+ function ScatterView() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = ScatterView.type;
+ return _this;
+ }
+ ScatterView.prototype.render = function (seriesModel, ecModel, api) {
+ var data = seriesModel.getData();
+ var symbolDraw = this._updateSymbolDraw(data, seriesModel);
+ symbolDraw.updateData(data, {
+ // TODO
+ // If this parameter should be a shape or a bounding volume
+ // shape will be more general.
+ // But bounding volume like bounding rect will be much faster in the contain calculation
+ clipShape: this._getClipShape(seriesModel)
+ });
+ this._finished = true;
+ };
+ ScatterView.prototype.incrementalPrepareRender = function (seriesModel, ecModel, api) {
+ var data = seriesModel.getData();
+ var symbolDraw = this._updateSymbolDraw(data, seriesModel);
+ symbolDraw.incrementalPrepareUpdate(data);
+ this._finished = false;
+ };
+ ScatterView.prototype.incrementalRender = function (taskParams, seriesModel, ecModel) {
+ this._symbolDraw.incrementalUpdate(taskParams, seriesModel.getData(), {
+ clipShape: this._getClipShape(seriesModel)
+ });
+ this._finished = taskParams.end === seriesModel.getData().count();
+ };
+ ScatterView.prototype.updateTransform = function (seriesModel, ecModel, api) {
+ var data = seriesModel.getData();
+ // Must mark group dirty and make sure the incremental layer will be cleared
+ // PENDING
+ this.group.dirty();
+ if (!this._finished || data.count() > 1e4) {
+ return {
+ update: true
+ };
+ } else {
+ var res = pointsLayout('').reset(seriesModel, ecModel, api);
+ if (res.progress) {
+ res.progress({
+ start: 0,
+ end: data.count(),
+ count: data.count()
+ }, data);
+ }
+ this._symbolDraw.updateLayout(data);
+ }
+ };
+ ScatterView.prototype.eachRendered = function (cb) {
+ this._symbolDraw && this._symbolDraw.eachRendered(cb);
+ };
+ ScatterView.prototype._getClipShape = function (seriesModel) {
+ if (!seriesModel.get('clip', true)) {
+ return;
+ }
+ var coordSys = seriesModel.coordinateSystem;
+ // PENDING make `0.1` configurable, for example, `clipTolerance`?
+ return coordSys && coordSys.getArea && coordSys.getArea(.1);
+ };
+ ScatterView.prototype._updateSymbolDraw = function (data, seriesModel) {
+ var symbolDraw = this._symbolDraw;
+ var pipelineContext = seriesModel.pipelineContext;
+ var isLargeDraw = pipelineContext.large;
+ if (!symbolDraw || isLargeDraw !== this._isLargeDraw) {
+ symbolDraw && symbolDraw.remove();
+ symbolDraw = this._symbolDraw = isLargeDraw ? new LargeSymbolDraw() : new SymbolDraw();
+ this._isLargeDraw = isLargeDraw;
+ this.group.removeAll();
+ }
+ this.group.add(symbolDraw.group);
+ return symbolDraw;
+ };
+ ScatterView.prototype.remove = function (ecModel, api) {
+ this._symbolDraw && this._symbolDraw.remove(true);
+ this._symbolDraw = null;
+ };
+ ScatterView.prototype.dispose = function () {};
+ ScatterView.type = 'scatter';
+ return ScatterView;
+ }(ChartView);
+
+ var GridModel = /** @class */function (_super) {
+ __extends(GridModel, _super);
+ function GridModel() {
+ return _super !== null && _super.apply(this, arguments) || this;
+ }
+ GridModel.type = 'grid';
+ GridModel.dependencies = ['xAxis', 'yAxis'];
+ GridModel.layoutMode = 'box';
+ GridModel.defaultOption = {
+ show: false,
+ // zlevel: 0,
+ z: 0,
+ left: '10%',
+ top: 60,
+ right: '10%',
+ bottom: 70,
+ // If grid size contain label
+ containLabel: false,
+ // width: {totalWidth} - left - right,
+ // height: {totalHeight} - top - bottom,
+ backgroundColor: 'rgba(0,0,0,0)',
+ borderWidth: 1,
+ borderColor: '#ccc'
+ };
+ return GridModel;
+ }(ComponentModel);
+
+ var CartesianAxisModel = /** @class */function (_super) {
+ __extends(CartesianAxisModel, _super);
+ function CartesianAxisModel() {
+ return _super !== null && _super.apply(this, arguments) || this;
+ }
+ CartesianAxisModel.prototype.getCoordSysModel = function () {
+ return this.getReferringComponents('grid', SINGLE_REFERRING).models[0];
+ };
+ CartesianAxisModel.type = 'cartesian2dAxis';
+ return CartesianAxisModel;
+ }(ComponentModel);
+ mixin(CartesianAxisModel, AxisModelCommonMixin);
+
+ var defaultOption = {
+ show: true,
+ // zlevel: 0,
+ z: 0,
+ // Inverse the axis.
+ inverse: false,
+ // Axis name displayed.
+ name: '',
+ // 'start' | 'middle' | 'end'
+ nameLocation: 'end',
+ // By degree. By default auto rotate by nameLocation.
+ nameRotate: null,
+ nameTruncate: {
+ maxWidth: null,
+ ellipsis: '...',
+ placeholder: '.'
+ },
+ // Use global text style by default.
+ nameTextStyle: {},
+ // The gap between axisName and axisLine.
+ nameGap: 15,
+ // Default `false` to support tooltip.
+ silent: false,
+ // Default `false` to avoid legacy user event listener fail.
+ triggerEvent: false,
+ tooltip: {
+ show: false
+ },
+ axisPointer: {},
+ axisLine: {
+ show: true,
+ onZero: true,
+ onZeroAxisIndex: null,
+ lineStyle: {
+ color: '#6E7079',
+ width: 1,
+ type: 'solid'
+ },
+ // The arrow at both ends the the axis.
+ symbol: ['none', 'none'],
+ symbolSize: [10, 15]
+ },
+ axisTick: {
+ show: true,
+ // Whether axisTick is inside the grid or outside the grid.
+ inside: false,
+ // The length of axisTick.
+ length: 5,
+ lineStyle: {
+ width: 1
+ }
+ },
+ axisLabel: {
+ show: true,
+ // Whether axisLabel is inside the grid or outside the grid.
+ inside: false,
+ rotate: 0,
+ // true | false | null/undefined (auto)
+ showMinLabel: null,
+ // true | false | null/undefined (auto)
+ showMaxLabel: null,
+ margin: 8,
+ // formatter: null,
+ fontSize: 12
+ },
+ splitLine: {
+ show: true,
+ lineStyle: {
+ color: ['#E0E6F1'],
+ width: 1,
+ type: 'solid'
+ }
+ },
+ splitArea: {
+ show: false,
+ areaStyle: {
+ color: ['rgba(250,250,250,0.2)', 'rgba(210,219,238,0.2)']
+ }
+ }
+ };
+ var categoryAxis = merge({
+ // The gap at both ends of the axis. For categoryAxis, boolean.
+ boundaryGap: true,
+ // Set false to faster category collection.
+ deduplication: null,
+ // splitArea: {
+ // show: false
+ // },
+ splitLine: {
+ show: false
+ },
+ axisTick: {
+ // If tick is align with label when boundaryGap is true
+ alignWithLabel: false,
+ interval: 'auto'
+ },
+ axisLabel: {
+ interval: 'auto'
+ }
+ }, defaultOption);
+ var valueAxis = merge({
+ boundaryGap: [0, 0],
+ axisLine: {
+ // Not shown when other axis is categoryAxis in cartesian
+ show: 'auto'
+ },
+ axisTick: {
+ // Not shown when other axis is categoryAxis in cartesian
+ show: 'auto'
+ },
+ // TODO
+ // min/max: [30, datamin, 60] or [20, datamin] or [datamin, 60]
+ splitNumber: 5,
+ minorTick: {
+ // Minor tick, not available for cateogry axis.
+ show: false,
+ // Split number of minor ticks. The value should be in range of (0, 100)
+ splitNumber: 5,
+ // Length of minor tick
+ length: 3,
+ // Line style
+ lineStyle: {
+ // Default to be same with axisTick
+ }
+ },
+ minorSplitLine: {
+ show: false,
+ lineStyle: {
+ color: '#F4F7FD',
+ width: 1
+ }
+ }
+ }, defaultOption);
+ var timeAxis = merge({
+ splitNumber: 6,
+ axisLabel: {
+ // To eliminate labels that are not nice
+ showMinLabel: false,
+ showMaxLabel: false,
+ rich: {
+ primary: {
+ fontWeight: 'bold'
+ }
+ }
+ },
+ splitLine: {
+ show: false
+ }
+ }, valueAxis);
+ var logAxis = defaults({
+ logBase: 10
+ }, valueAxis);
+ var axisDefault = {
+ category: categoryAxis,
+ value: valueAxis,
+ time: timeAxis,
+ log: logAxis
+ };
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+
+
+ /**
+ * AUTO-GENERATED FILE. DO NOT MODIFY.
+ */
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+ var AXIS_TYPES = {
+ value: 1,
+ category: 1,
+ time: 1,
+ log: 1
+ };
+
+ /**
+ * Generate sub axis model class
+ * @param axisName 'x' 'y' 'radius' 'angle' 'parallel' ...
+ */
+ function axisModelCreator(registers, axisName, BaseAxisModelClass, extraDefaultOption) {
+ each(AXIS_TYPES, function (v, axisType) {
+ var defaultOption = merge(merge({}, axisDefault[axisType], true), extraDefaultOption, true);
+ var AxisModel = /** @class */function (_super) {
+ __extends(AxisModel, _super);
+ function AxisModel() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = axisName + 'Axis.' + axisType;
+ return _this;
+ }
+ AxisModel.prototype.mergeDefaultAndTheme = function (option, ecModel) {
+ var layoutMode = fetchLayoutMode(this);
+ var inputPositionParams = layoutMode ? getLayoutParams(option) : {};
+ var themeModel = ecModel.getTheme();
+ merge(option, themeModel.get(axisType + 'Axis'));
+ merge(option, this.getDefaultOption());
+ option.type = getAxisType(option);
+ if (layoutMode) {
+ mergeLayoutParam(option, inputPositionParams, layoutMode);
+ }
+ };
+ AxisModel.prototype.optionUpdated = function () {
+ var thisOption = this.option;
+ if (thisOption.type === 'category') {
+ this.__ordinalMeta = OrdinalMeta.createByAxisModel(this);
+ }
+ };
+ /**
+ * Should not be called before all of 'getInitailData' finished.
+ * Because categories are collected during initializing data.
+ */
+ AxisModel.prototype.getCategories = function (rawData) {
+ var option = this.option;
+ // FIXME
+ // warning if called before all of 'getInitailData' finished.
+ if (option.type === 'category') {
+ if (rawData) {
+ return option.data;
+ }
+ return this.__ordinalMeta.categories;
+ }
+ };
+ AxisModel.prototype.getOrdinalMeta = function () {
+ return this.__ordinalMeta;
+ };
+ AxisModel.type = axisName + 'Axis.' + axisType;
+ AxisModel.defaultOption = defaultOption;
+ return AxisModel;
+ }(BaseAxisModelClass);
+ registers.registerComponentModel(AxisModel);
+ });
+ registers.registerSubTypeDefaulter(axisName + 'Axis', getAxisType);
+ }
+ function getAxisType(option) {
+ // Default axis with data is category axis
+ return option.type || (option.data ? 'category' : 'value');
+ }
+
+ var Cartesian = /** @class */function () {
+ function Cartesian(name) {
+ this.type = 'cartesian';
+ this._dimList = [];
+ this._axes = {};
+ this.name = name || '';
+ }
+ Cartesian.prototype.getAxis = function (dim) {
+ return this._axes[dim];
+ };
+ Cartesian.prototype.getAxes = function () {
+ return map(this._dimList, function (dim) {
+ return this._axes[dim];
+ }, this);
+ };
+ Cartesian.prototype.getAxesByScale = function (scaleType) {
+ scaleType = scaleType.toLowerCase();
+ return filter(this.getAxes(), function (axis) {
+ return axis.scale.type === scaleType;
+ });
+ };
+ Cartesian.prototype.addAxis = function (axis) {
+ var dim = axis.dim;
+ this._axes[dim] = axis;
+ this._dimList.push(dim);
+ };
+ return Cartesian;
+ }();
+
+ var cartesian2DDimensions = ['x', 'y'];
+ function canCalculateAffineTransform(scale) {
+ return scale.type === 'interval' || scale.type === 'time';
+ }
+ var Cartesian2D = /** @class */function (_super) {
+ __extends(Cartesian2D, _super);
+ function Cartesian2D() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = 'cartesian2d';
+ _this.dimensions = cartesian2DDimensions;
+ return _this;
+ }
+ /**
+ * Calculate an affine transform matrix if two axes are time or value.
+ * It's mainly for accelartion on the large time series data.
+ */
+ Cartesian2D.prototype.calcAffineTransform = function () {
+ this._transform = this._invTransform = null;
+ var xAxisScale = this.getAxis('x').scale;
+ var yAxisScale = this.getAxis('y').scale;
+ if (!canCalculateAffineTransform(xAxisScale) || !canCalculateAffineTransform(yAxisScale)) {
+ return;
+ }
+ var xScaleExtent = xAxisScale.getExtent();
+ var yScaleExtent = yAxisScale.getExtent();
+ var start = this.dataToPoint([xScaleExtent[0], yScaleExtent[0]]);
+ var end = this.dataToPoint([xScaleExtent[1], yScaleExtent[1]]);
+ var xScaleSpan = xScaleExtent[1] - xScaleExtent[0];
+ var yScaleSpan = yScaleExtent[1] - yScaleExtent[0];
+ if (!xScaleSpan || !yScaleSpan) {
+ return;
+ }
+ // Accelerate data to point calculation on the special large time series data.
+ var scaleX = (end[0] - start[0]) / xScaleSpan;
+ var scaleY = (end[1] - start[1]) / yScaleSpan;
+ var translateX = start[0] - xScaleExtent[0] * scaleX;
+ var translateY = start[1] - yScaleExtent[0] * scaleY;
+ var m = this._transform = [scaleX, 0, 0, scaleY, translateX, translateY];
+ this._invTransform = invert([], m);
+ };
+ /**
+ * Base axis will be used on stacking.
+ */
+ Cartesian2D.prototype.getBaseAxis = function () {
+ return this.getAxesByScale('ordinal')[0] || this.getAxesByScale('time')[0] || this.getAxis('x');
+ };
+ Cartesian2D.prototype.containPoint = function (point) {
+ var axisX = this.getAxis('x');
+ var axisY = this.getAxis('y');
+ return axisX.contain(axisX.toLocalCoord(point[0])) && axisY.contain(axisY.toLocalCoord(point[1]));
+ };
+ Cartesian2D.prototype.containData = function (data) {
+ return this.getAxis('x').containData(data[0]) && this.getAxis('y').containData(data[1]);
+ };
+ Cartesian2D.prototype.containZone = function (data1, data2) {
+ var zoneDiag1 = this.dataToPoint(data1);
+ var zoneDiag2 = this.dataToPoint(data2);
+ var area = this.getArea();
+ var zone = new BoundingRect(zoneDiag1[0], zoneDiag1[1], zoneDiag2[0] - zoneDiag1[0], zoneDiag2[1] - zoneDiag1[1]);
+ return area.intersect(zone);
+ };
+ Cartesian2D.prototype.dataToPoint = function (data, clamp, out) {
+ out = out || [];
+ var xVal = data[0];
+ var yVal = data[1];
+ // Fast path
+ if (this._transform
+ // It's supported that if data is like `[Inifity, 123]`, where only Y pixel calculated.
+ && xVal != null && isFinite(xVal) && yVal != null && isFinite(yVal)) {
+ return applyTransform(out, data, this._transform);
+ }
+ var xAxis = this.getAxis('x');
+ var yAxis = this.getAxis('y');
+ out[0] = xAxis.toGlobalCoord(xAxis.dataToCoord(xVal, clamp));
+ out[1] = yAxis.toGlobalCoord(yAxis.dataToCoord(yVal, clamp));
+ return out;
+ };
+ Cartesian2D.prototype.clampData = function (data, out) {
+ var xScale = this.getAxis('x').scale;
+ var yScale = this.getAxis('y').scale;
+ var xAxisExtent = xScale.getExtent();
+ var yAxisExtent = yScale.getExtent();
+ var x = xScale.parse(data[0]);
+ var y = yScale.parse(data[1]);
+ out = out || [];
+ out[0] = Math.min(Math.max(Math.min(xAxisExtent[0], xAxisExtent[1]), x), Math.max(xAxisExtent[0], xAxisExtent[1]));
+ out[1] = Math.min(Math.max(Math.min(yAxisExtent[0], yAxisExtent[1]), y), Math.max(yAxisExtent[0], yAxisExtent[1]));
+ return out;
+ };
+ Cartesian2D.prototype.pointToData = function (point, clamp) {
+ var out = [];
+ if (this._invTransform) {
+ return applyTransform(out, point, this._invTransform);
+ }
+ var xAxis = this.getAxis('x');
+ var yAxis = this.getAxis('y');
+ out[0] = xAxis.coordToData(xAxis.toLocalCoord(point[0]), clamp);
+ out[1] = yAxis.coordToData(yAxis.toLocalCoord(point[1]), clamp);
+ return out;
+ };
+ Cartesian2D.prototype.getOtherAxis = function (axis) {
+ return this.getAxis(axis.dim === 'x' ? 'y' : 'x');
+ };
+ /**
+ * Get rect area of cartesian.
+ * Area will have a contain function to determine if a point is in the coordinate system.
+ */
+ Cartesian2D.prototype.getArea = function (tolerance) {
+ tolerance = tolerance || 0;
+ var xExtent = this.getAxis('x').getGlobalExtent();
+ var yExtent = this.getAxis('y').getGlobalExtent();
+ var x = Math.min(xExtent[0], xExtent[1]) - tolerance;
+ var y = Math.min(yExtent[0], yExtent[1]) - tolerance;
+ var width = Math.max(xExtent[0], xExtent[1]) - x + tolerance;
+ var height = Math.max(yExtent[0], yExtent[1]) - y + tolerance;
+ return new BoundingRect(x, y, width, height);
+ };
+ return Cartesian2D;
+ }(Cartesian);
+
+ var Axis2D = /** @class */function (_super) {
+ __extends(Axis2D, _super);
+ function Axis2D(dim, scale, coordExtent, axisType, position) {
+ var _this = _super.call(this, dim, scale, coordExtent) || this;
+ /**
+ * Index of axis, can be used as key
+ * Injected outside.
+ */
+ _this.index = 0;
+ _this.type = axisType || 'value';
+ _this.position = position || 'bottom';
+ return _this;
+ }
+ Axis2D.prototype.isHorizontal = function () {
+ var position = this.position;
+ return position === 'top' || position === 'bottom';
+ };
+ /**
+ * Each item cooresponds to this.getExtent(), which
+ * means globalExtent[0] may greater than globalExtent[1],
+ * unless `asc` is input.
+ *
+ * @param {boolean} [asc]
+ * @return {Array.}
+ */
+ Axis2D.prototype.getGlobalExtent = function (asc) {
+ var ret = this.getExtent();
+ ret[0] = this.toGlobalCoord(ret[0]);
+ ret[1] = this.toGlobalCoord(ret[1]);
+ asc && ret[0] > ret[1] && ret.reverse();
+ return ret;
+ };
+ Axis2D.prototype.pointToData = function (point, clamp) {
+ return this.coordToData(this.toLocalCoord(point[this.dim === 'x' ? 0 : 1]), clamp);
+ };
+ /**
+ * Set ordinalSortInfo
+ * @param info new OrdinalSortInfo
+ */
+ Axis2D.prototype.setCategorySortInfo = function (info) {
+ if (this.type !== 'category') {
+ return false;
+ }
+ this.model.option.categorySortInfo = info;
+ this.scale.setSortInfo(info);
+ };
+ return Axis2D;
+ }(Axis);
+
+ /**
+ * Can only be called after coordinate system creation stage.
+ * (Can be called before coordinate system update stage).
+ */
+ function layout$1(gridModel, axisModel, opt) {
+ opt = opt || {};
+ var grid = gridModel.coordinateSystem;
+ var axis = axisModel.axis;
+ var layout = {};
+ var otherAxisOnZeroOf = axis.getAxesOnZeroOf()[0];
+ var rawAxisPosition = axis.position;
+ var axisPosition = otherAxisOnZeroOf ? 'onZero' : rawAxisPosition;
+ var axisDim = axis.dim;
+ var rect = grid.getRect();
+ var rectBound = [rect.x, rect.x + rect.width, rect.y, rect.y + rect.height];
+ var idx = {
+ left: 0,
+ right: 1,
+ top: 0,
+ bottom: 1,
+ onZero: 2
+ };
+ var axisOffset = axisModel.get('offset') || 0;
+ var posBound = axisDim === 'x' ? [rectBound[2] - axisOffset, rectBound[3] + axisOffset] : [rectBound[0] - axisOffset, rectBound[1] + axisOffset];
+ if (otherAxisOnZeroOf) {
+ var onZeroCoord = otherAxisOnZeroOf.toGlobalCoord(otherAxisOnZeroOf.dataToCoord(0));
+ posBound[idx.onZero] = Math.max(Math.min(onZeroCoord, posBound[1]), posBound[0]);
+ }
+ // Axis position
+ layout.position = [axisDim === 'y' ? posBound[idx[axisPosition]] : rectBound[0], axisDim === 'x' ? posBound[idx[axisPosition]] : rectBound[3]];
+ // Axis rotation
+ layout.rotation = Math.PI / 2 * (axisDim === 'x' ? 0 : 1);
+ // Tick and label direction, x y is axisDim
+ var dirMap = {
+ top: -1,
+ bottom: 1,
+ left: -1,
+ right: 1
+ };
+ layout.labelDirection = layout.tickDirection = layout.nameDirection = dirMap[rawAxisPosition];
+ layout.labelOffset = otherAxisOnZeroOf ? posBound[idx[rawAxisPosition]] - posBound[idx.onZero] : 0;
+ if (axisModel.get(['axisTick', 'inside'])) {
+ layout.tickDirection = -layout.tickDirection;
+ }
+ if (retrieve(opt.labelInside, axisModel.get(['axisLabel', 'inside']))) {
+ layout.labelDirection = -layout.labelDirection;
+ }
+ // Special label rotation
+ var labelRotate = axisModel.get(['axisLabel', 'rotate']);
+ layout.labelRotate = axisPosition === 'top' ? -labelRotate : labelRotate;
+ // Over splitLine and splitArea
+ layout.z2 = 1;
+ return layout;
+ }
+ function isCartesian2DSeries(seriesModel) {
+ return seriesModel.get('coordinateSystem') === 'cartesian2d';
+ }
+ function findAxisModels(seriesModel) {
+ var axisModelMap = {
+ xAxisModel: null,
+ yAxisModel: null
+ };
+ each(axisModelMap, function (v, key) {
+ var axisType = key.replace(/Model$/, '');
+ var axisModel = seriesModel.getReferringComponents(axisType, SINGLE_REFERRING).models[0];
+ if ("development" !== 'production') {
+ if (!axisModel) {
+ throw new Error(axisType + ' "' + retrieve3(seriesModel.get(axisType + 'Index'), seriesModel.get(axisType + 'Id'), 0) + '" not found');
+ }
+ }
+ axisModelMap[key] = axisModel;
+ });
+ return axisModelMap;
+ }
+
+ var mathLog$1 = Math.log;
+ function alignScaleTicks(scale, axisModel, alignToScale) {
+ var intervalScaleProto = IntervalScale.prototype;
+ // NOTE: There is a precondition for log scale here:
+ // In log scale we store _interval and _extent of exponent value.
+ // So if we use the method of InternalScale to set/get these data.
+ // It process the exponent value, which is linear and what we want here.
+ var alignToTicks = intervalScaleProto.getTicks.call(alignToScale);
+ var alignToNicedTicks = intervalScaleProto.getTicks.call(alignToScale, true);
+ var alignToSplitNumber = alignToTicks.length - 1;
+ var alignToInterval = intervalScaleProto.getInterval.call(alignToScale);
+ var scaleExtent = getScaleExtent(scale, axisModel);
+ var rawExtent = scaleExtent.extent;
+ var isMinFixed = scaleExtent.fixMin;
+ var isMaxFixed = scaleExtent.fixMax;
+ if (scale.type === 'log') {
+ var logBase = mathLog$1(scale.base);
+ rawExtent = [mathLog$1(rawExtent[0]) / logBase, mathLog$1(rawExtent[1]) / logBase];
+ }
+ scale.setExtent(rawExtent[0], rawExtent[1]);
+ scale.calcNiceExtent({
+ splitNumber: alignToSplitNumber,
+ fixMin: isMinFixed,
+ fixMax: isMaxFixed
+ });
+ var extent = intervalScaleProto.getExtent.call(scale);
+ // Need to update the rawExtent.
+ // Because value in rawExtent may be not parsed. e.g. 'dataMin', 'dataMax'
+ if (isMinFixed) {
+ rawExtent[0] = extent[0];
+ }
+ if (isMaxFixed) {
+ rawExtent[1] = extent[1];
+ }
+ var interval = intervalScaleProto.getInterval.call(scale);
+ var min = rawExtent[0];
+ var max = rawExtent[1];
+ if (isMinFixed && isMaxFixed) {
+ // User set min, max, divide to get new interval
+ interval = (max - min) / alignToSplitNumber;
+ } else if (isMinFixed) {
+ max = rawExtent[0] + interval * alignToSplitNumber;
+ // User set min, expand extent on the other side
+ while (max < rawExtent[1] && isFinite(max) && isFinite(rawExtent[1])) {
+ interval = increaseInterval(interval);
+ max = rawExtent[0] + interval * alignToSplitNumber;
+ }
+ } else if (isMaxFixed) {
+ // User set max, expand extent on the other side
+ min = rawExtent[1] - interval * alignToSplitNumber;
+ while (min > rawExtent[0] && isFinite(min) && isFinite(rawExtent[0])) {
+ interval = increaseInterval(interval);
+ min = rawExtent[1] - interval * alignToSplitNumber;
+ }
+ } else {
+ var nicedSplitNumber = scale.getTicks().length - 1;
+ if (nicedSplitNumber > alignToSplitNumber) {
+ interval = increaseInterval(interval);
+ }
+ var range = interval * alignToSplitNumber;
+ max = Math.ceil(rawExtent[1] / interval) * interval;
+ min = round(max - range);
+ // Not change the result that crossing zero.
+ if (min < 0 && rawExtent[0] >= 0) {
+ min = 0;
+ max = round(range);
+ } else if (max > 0 && rawExtent[1] <= 0) {
+ max = 0;
+ min = -round(range);
+ }
+ }
+ // Adjust min, max based on the extent of alignTo. When min or max is set in alignTo scale
+ var t0 = (alignToTicks[0].value - alignToNicedTicks[0].value) / alignToInterval;
+ var t1 = (alignToTicks[alignToSplitNumber].value - alignToNicedTicks[alignToSplitNumber].value) / alignToInterval;
+ // NOTE: Must in setExtent -> setInterval -> setNiceExtent order.
+ intervalScaleProto.setExtent.call(scale, min + interval * t0, max + interval * t1);
+ intervalScaleProto.setInterval.call(scale, interval);
+ if (t0 || t1) {
+ intervalScaleProto.setNiceExtent.call(scale, min + interval, max - interval);
+ }
+ if ("development" !== 'production') {
+ var ticks = intervalScaleProto.getTicks.call(scale);
+ if (ticks[1] && (!isValueNice(interval) || getPrecisionSafe(ticks[1].value) > getPrecisionSafe(interval))) {
+ warn(
+ // eslint-disable-next-line
+ "The ticks may be not readable when set min: " + axisModel.get('min') + ", max: " + axisModel.get('max') + " and alignTicks: true");
+ }
+ }
+ }
+
+ var Grid = /** @class */function () {
+ function Grid(gridModel, ecModel, api) {
+ // FIXME:TS where used (different from registered type 'cartesian2d')?
+ this.type = 'grid';
+ this._coordsMap = {};
+ this._coordsList = [];
+ this._axesMap = {};
+ this._axesList = [];
+ this.axisPointerEnabled = true;
+ this.dimensions = cartesian2DDimensions;
+ this._initCartesian(gridModel, ecModel, api);
+ this.model = gridModel;
+ }
+ Grid.prototype.getRect = function () {
+ return this._rect;
+ };
+ Grid.prototype.update = function (ecModel, api) {
+ var axesMap = this._axesMap;
+ this._updateScale(ecModel, this.model);
+ function updateAxisTicks(axes) {
+ var alignTo;
+ // Axis is added in order of axisIndex.
+ var axesIndices = keys(axes);
+ var len = axesIndices.length;
+ if (!len) {
+ return;
+ }
+ var axisNeedsAlign = [];
+ // Process once and calculate the ticks for those don't use alignTicks.
+ for (var i = len - 1; i >= 0; i--) {
+ var idx = +axesIndices[i]; // Convert to number.
+ var axis = axes[idx];
+ var model = axis.model;
+ var scale = axis.scale;
+ if (
+ // Only value and log axis without interval support alignTicks.
+ isIntervalOrLogScale(scale) && model.get('alignTicks') && model.get('interval') == null) {
+ axisNeedsAlign.push(axis);
+ } else {
+ niceScaleExtent(scale, model);
+ if (isIntervalOrLogScale(scale)) {
+ // Can only align to interval or log axis.
+ alignTo = axis;
+ }
+ }
+ }
+ // All axes has set alignTicks. Pick the first one.
+ // PENDING. Should we find the axis that both set interval, min, max and align to this one?
+ if (axisNeedsAlign.length) {
+ if (!alignTo) {
+ alignTo = axisNeedsAlign.pop();
+ niceScaleExtent(alignTo.scale, alignTo.model);
+ }
+ each(axisNeedsAlign, function (axis) {
+ alignScaleTicks(axis.scale, axis.model, alignTo.scale);
+ });
+ }
+ }
+ updateAxisTicks(axesMap.x);
+ updateAxisTicks(axesMap.y);
+ // Key: axisDim_axisIndex, value: boolean, whether onZero target.
+ var onZeroRecords = {};
+ each(axesMap.x, function (xAxis) {
+ fixAxisOnZero(axesMap, 'y', xAxis, onZeroRecords);
+ });
+ each(axesMap.y, function (yAxis) {
+ fixAxisOnZero(axesMap, 'x', yAxis, onZeroRecords);
+ });
+ // Resize again if containLabel is enabled
+ // FIXME It may cause getting wrong grid size in data processing stage
+ this.resize(this.model, api);
+ };
+ /**
+ * Resize the grid
+ */
+ Grid.prototype.resize = function (gridModel, api, ignoreContainLabel) {
+ var boxLayoutParams = gridModel.getBoxLayoutParams();
+ var isContainLabel = !ignoreContainLabel && gridModel.get('containLabel');
+ var gridRect = getLayoutRect(boxLayoutParams, {
+ width: api.getWidth(),
+ height: api.getHeight()
+ });
+ this._rect = gridRect;
+ var axesList = this._axesList;
+ adjustAxes();
+ // Minus label size
+ if (isContainLabel) {
+ each(axesList, function (axis) {
+ if (!axis.model.get(['axisLabel', 'inside'])) {
+ var labelUnionRect = estimateLabelUnionRect(axis);
+ if (labelUnionRect) {
+ var dim = axis.isHorizontal() ? 'height' : 'width';
+ var margin = axis.model.get(['axisLabel', 'margin']);
+ gridRect[dim] -= labelUnionRect[dim] + margin;
+ if (axis.position === 'top') {
+ gridRect.y += labelUnionRect.height + margin;
+ } else if (axis.position === 'left') {
+ gridRect.x += labelUnionRect.width + margin;
+ }
+ }
+ }
+ });
+ adjustAxes();
+ }
+ each(this._coordsList, function (coord) {
+ // Calculate affine matrix to accelerate the data to point transform.
+ // If all the axes scales are time or value.
+ coord.calcAffineTransform();
+ });
+ function adjustAxes() {
+ each(axesList, function (axis) {
+ var isHorizontal = axis.isHorizontal();
+ var extent = isHorizontal ? [0, gridRect.width] : [0, gridRect.height];
+ var idx = axis.inverse ? 1 : 0;
+ axis.setExtent(extent[idx], extent[1 - idx]);
+ updateAxisTransform(axis, isHorizontal ? gridRect.x : gridRect.y);
+ });
+ }
+ };
+ Grid.prototype.getAxis = function (dim, axisIndex) {
+ var axesMapOnDim = this._axesMap[dim];
+ if (axesMapOnDim != null) {
+ return axesMapOnDim[axisIndex || 0];
+ }
+ };
+ Grid.prototype.getAxes = function () {
+ return this._axesList.slice();
+ };
+ Grid.prototype.getCartesian = function (xAxisIndex, yAxisIndex) {
+ if (xAxisIndex != null && yAxisIndex != null) {
+ var key = 'x' + xAxisIndex + 'y' + yAxisIndex;
+ return this._coordsMap[key];
+ }
+ if (isObject(xAxisIndex)) {
+ yAxisIndex = xAxisIndex.yAxisIndex;
+ xAxisIndex = xAxisIndex.xAxisIndex;
+ }
+ for (var i = 0, coordList = this._coordsList; i < coordList.length; i++) {
+ if (coordList[i].getAxis('x').index === xAxisIndex || coordList[i].getAxis('y').index === yAxisIndex) {
+ return coordList[i];
+ }
+ }
+ };
+ Grid.prototype.getCartesians = function () {
+ return this._coordsList.slice();
+ };
+ /**
+ * @implements
+ */
+ Grid.prototype.convertToPixel = function (ecModel, finder, value) {
+ var target = this._findConvertTarget(finder);
+ return target.cartesian ? target.cartesian.dataToPoint(value) : target.axis ? target.axis.toGlobalCoord(target.axis.dataToCoord(value)) : null;
+ };
+ /**
+ * @implements
+ */
+ Grid.prototype.convertFromPixel = function (ecModel, finder, value) {
+ var target = this._findConvertTarget(finder);
+ return target.cartesian ? target.cartesian.pointToData(value) : target.axis ? target.axis.coordToData(target.axis.toLocalCoord(value)) : null;
+ };
+ Grid.prototype._findConvertTarget = function (finder) {
+ var seriesModel = finder.seriesModel;
+ var xAxisModel = finder.xAxisModel || seriesModel && seriesModel.getReferringComponents('xAxis', SINGLE_REFERRING).models[0];
+ var yAxisModel = finder.yAxisModel || seriesModel && seriesModel.getReferringComponents('yAxis', SINGLE_REFERRING).models[0];
+ var gridModel = finder.gridModel;
+ var coordsList = this._coordsList;
+ var cartesian;
+ var axis;
+ if (seriesModel) {
+ cartesian = seriesModel.coordinateSystem;
+ indexOf(coordsList, cartesian) < 0 && (cartesian = null);
+ } else if (xAxisModel && yAxisModel) {
+ cartesian = this.getCartesian(xAxisModel.componentIndex, yAxisModel.componentIndex);
+ } else if (xAxisModel) {
+ axis = this.getAxis('x', xAxisModel.componentIndex);
+ } else if (yAxisModel) {
+ axis = this.getAxis('y', yAxisModel.componentIndex);
+ }
+ // Lowest priority.
+ else if (gridModel) {
+ var grid = gridModel.coordinateSystem;
+ if (grid === this) {
+ cartesian = this._coordsList[0];
+ }
+ }
+ return {
+ cartesian: cartesian,
+ axis: axis
+ };
+ };
+ /**
+ * @implements
+ */
+ Grid.prototype.containPoint = function (point) {
+ var coord = this._coordsList[0];
+ if (coord) {
+ return coord.containPoint(point);
+ }
+ };
+ /**
+ * Initialize cartesian coordinate systems
+ */
+ Grid.prototype._initCartesian = function (gridModel, ecModel, api) {
+ var _this = this;
+ var grid = this;
+ var axisPositionUsed = {
+ left: false,
+ right: false,
+ top: false,
+ bottom: false
+ };
+ var axesMap = {
+ x: {},
+ y: {}
+ };
+ var axesCount = {
+ x: 0,
+ y: 0
+ };
+ // Create axis
+ ecModel.eachComponent('xAxis', createAxisCreator('x'), this);
+ ecModel.eachComponent('yAxis', createAxisCreator('y'), this);
+ if (!axesCount.x || !axesCount.y) {
+ // Roll back when there no either x or y axis
+ this._axesMap = {};
+ this._axesList = [];
+ return;
+ }
+ this._axesMap = axesMap;
+ // Create cartesian2d
+ each(axesMap.x, function (xAxis, xAxisIndex) {
+ each(axesMap.y, function (yAxis, yAxisIndex) {
+ var key = 'x' + xAxisIndex + 'y' + yAxisIndex;
+ var cartesian = new Cartesian2D(key);
+ cartesian.master = _this;
+ cartesian.model = gridModel;
+ _this._coordsMap[key] = cartesian;
+ _this._coordsList.push(cartesian);
+ cartesian.addAxis(xAxis);
+ cartesian.addAxis(yAxis);
+ });
+ });
+ function createAxisCreator(dimName) {
+ return function (axisModel, idx) {
+ if (!isAxisUsedInTheGrid(axisModel, gridModel)) {
+ return;
+ }
+ var axisPosition = axisModel.get('position');
+ if (dimName === 'x') {
+ // Fix position
+ if (axisPosition !== 'top' && axisPosition !== 'bottom') {
+ // Default bottom of X
+ axisPosition = axisPositionUsed.bottom ? 'top' : 'bottom';
+ }
+ } else {
+ // Fix position
+ if (axisPosition !== 'left' && axisPosition !== 'right') {
+ // Default left of Y
+ axisPosition = axisPositionUsed.left ? 'right' : 'left';
+ }
+ }
+ axisPositionUsed[axisPosition] = true;
+ var axis = new Axis2D(dimName, createScaleByModel(axisModel), [0, 0], axisModel.get('type'), axisPosition);
+ var isCategory = axis.type === 'category';
+ axis.onBand = isCategory && axisModel.get('boundaryGap');
+ axis.inverse = axisModel.get('inverse');
+ // Inject axis into axisModel
+ axisModel.axis = axis;
+ // Inject axisModel into axis
+ axis.model = axisModel;
+ // Inject grid info axis
+ axis.grid = grid;
+ // Index of axis, can be used as key
+ axis.index = idx;
+ grid._axesList.push(axis);
+ axesMap[dimName][idx] = axis;
+ axesCount[dimName]++;
+ };
+ }
+ };
+ /**
+ * Update cartesian properties from series.
+ */
+ Grid.prototype._updateScale = function (ecModel, gridModel) {
+ // Reset scale
+ each(this._axesList, function (axis) {
+ axis.scale.setExtent(Infinity, -Infinity);
+ if (axis.type === 'category') {
+ var categorySortInfo = axis.model.get('categorySortInfo');
+ axis.scale.setSortInfo(categorySortInfo);
+ }
+ });
+ ecModel.eachSeries(function (seriesModel) {
+ if (isCartesian2DSeries(seriesModel)) {
+ var axesModelMap = findAxisModels(seriesModel);
+ var xAxisModel = axesModelMap.xAxisModel;
+ var yAxisModel = axesModelMap.yAxisModel;
+ if (!isAxisUsedInTheGrid(xAxisModel, gridModel) || !isAxisUsedInTheGrid(yAxisModel, gridModel)) {
+ return;
+ }
+ var cartesian = this.getCartesian(xAxisModel.componentIndex, yAxisModel.componentIndex);
+ var data = seriesModel.getData();
+ var xAxis = cartesian.getAxis('x');
+ var yAxis = cartesian.getAxis('y');
+ unionExtent(data, xAxis);
+ unionExtent(data, yAxis);
+ }
+ }, this);
+ function unionExtent(data, axis) {
+ each(getDataDimensionsOnAxis(data, axis.dim), function (dim) {
+ axis.scale.unionExtentFromData(data, dim);
+ });
+ }
+ };
+ /**
+ * @param dim 'x' or 'y' or 'auto' or null/undefined
+ */
+ Grid.prototype.getTooltipAxes = function (dim) {
+ var baseAxes = [];
+ var otherAxes = [];
+ each(this.getCartesians(), function (cartesian) {
+ var baseAxis = dim != null && dim !== 'auto' ? cartesian.getAxis(dim) : cartesian.getBaseAxis();
+ var otherAxis = cartesian.getOtherAxis(baseAxis);
+ indexOf(baseAxes, baseAxis) < 0 && baseAxes.push(baseAxis);
+ indexOf(otherAxes, otherAxis) < 0 && otherAxes.push(otherAxis);
+ });
+ return {
+ baseAxes: baseAxes,
+ otherAxes: otherAxes
+ };
+ };
+ Grid.create = function (ecModel, api) {
+ var grids = [];
+ ecModel.eachComponent('grid', function (gridModel, idx) {
+ var grid = new Grid(gridModel, ecModel, api);
+ grid.name = 'grid_' + idx;
+ // dataSampling requires axis extent, so resize
+ // should be performed in create stage.
+ grid.resize(gridModel, api, true);
+ gridModel.coordinateSystem = grid;
+ grids.push(grid);
+ });
+ // Inject the coordinateSystems into seriesModel
+ ecModel.eachSeries(function (seriesModel) {
+ if (!isCartesian2DSeries(seriesModel)) {
+ return;
+ }
+ var axesModelMap = findAxisModels(seriesModel);
+ var xAxisModel = axesModelMap.xAxisModel;
+ var yAxisModel = axesModelMap.yAxisModel;
+ var gridModel = xAxisModel.getCoordSysModel();
+ if ("development" !== 'production') {
+ if (!gridModel) {
+ throw new Error('Grid "' + retrieve3(xAxisModel.get('gridIndex'), xAxisModel.get('gridId'), 0) + '" not found');
+ }
+ if (xAxisModel.getCoordSysModel() !== yAxisModel.getCoordSysModel()) {
+ throw new Error('xAxis and yAxis must use the same grid');
+ }
+ }
+ var grid = gridModel.coordinateSystem;
+ seriesModel.coordinateSystem = grid.getCartesian(xAxisModel.componentIndex, yAxisModel.componentIndex);
+ });
+ return grids;
+ };
+ // For deciding which dimensions to use when creating list data
+ Grid.dimensions = cartesian2DDimensions;
+ return Grid;
+ }();
+ /**
+ * Check if the axis is used in the specified grid.
+ */
+ function isAxisUsedInTheGrid(axisModel, gridModel) {
+ return axisModel.getCoordSysModel() === gridModel;
+ }
+ function fixAxisOnZero(axesMap, otherAxisDim, axis,
+ // Key: see `getOnZeroRecordKey`
+ onZeroRecords) {
+ axis.getAxesOnZeroOf = function () {
+ // TODO: onZero of multiple axes.
+ return otherAxisOnZeroOf ? [otherAxisOnZeroOf] : [];
+ };
+ // onZero can not be enabled in these two situations:
+ // 1. When any other axis is a category axis.
+ // 2. When no axis is cross 0 point.
+ var otherAxes = axesMap[otherAxisDim];
+ var otherAxisOnZeroOf;
+ var axisModel = axis.model;
+ var onZero = axisModel.get(['axisLine', 'onZero']);
+ var onZeroAxisIndex = axisModel.get(['axisLine', 'onZeroAxisIndex']);
+ if (!onZero) {
+ return;
+ }
+ // If target axis is specified.
+ if (onZeroAxisIndex != null) {
+ if (canOnZeroToAxis(otherAxes[onZeroAxisIndex])) {
+ otherAxisOnZeroOf = otherAxes[onZeroAxisIndex];
+ }
+ } else {
+ // Find the first available other axis.
+ for (var idx in otherAxes) {
+ if (otherAxes.hasOwnProperty(idx) && canOnZeroToAxis(otherAxes[idx])
+ // Consider that two Y axes on one value axis,
+ // if both onZero, the two Y axes overlap.
+ && !onZeroRecords[getOnZeroRecordKey(otherAxes[idx])]) {
+ otherAxisOnZeroOf = otherAxes[idx];
+ break;
+ }
+ }
+ }
+ if (otherAxisOnZeroOf) {
+ onZeroRecords[getOnZeroRecordKey(otherAxisOnZeroOf)] = true;
+ }
+ function getOnZeroRecordKey(axis) {
+ return axis.dim + '_' + axis.index;
+ }
+ }
+ function canOnZeroToAxis(axis) {
+ return axis && axis.type !== 'category' && axis.type !== 'time' && ifAxisCrossZero(axis);
+ }
+ function updateAxisTransform(axis, coordBase) {
+ var axisExtent = axis.getExtent();
+ var axisExtentSum = axisExtent[0] + axisExtent[1];
+ // Fast transform
+ axis.toGlobalCoord = axis.dim === 'x' ? function (coord) {
+ return coord + coordBase;
+ } : function (coord) {
+ return axisExtentSum - coord + coordBase;
+ };
+ axis.toLocalCoord = axis.dim === 'x' ? function (coord) {
+ return coord - coordBase;
+ } : function (coord) {
+ return axisExtentSum - coord + coordBase;
+ };
+ }
+
+ var PI$5 = Math.PI;
+ /**
+ * A final axis is translated and rotated from a "standard axis".
+ * So opt.position and opt.rotation is required.
+ *
+ * A standard axis is and axis from [0, 0] to [0, axisExtent[1]],
+ * for example: (0, 0) ------------> (0, 50)
+ *
+ * nameDirection or tickDirection or labelDirection is 1 means tick
+ * or label is below the standard axis, whereas is -1 means above
+ * the standard axis. labelOffset means offset between label and axis,
+ * which is useful when 'onZero', where axisLabel is in the grid and
+ * label in outside grid.
+ *
+ * Tips: like always,
+ * positive rotation represents anticlockwise, and negative rotation
+ * represents clockwise.
+ * The direction of position coordinate is the same as the direction
+ * of screen coordinate.
+ *
+ * Do not need to consider axis 'inverse', which is auto processed by
+ * axis extent.
+ */
+ var AxisBuilder = /** @class */function () {
+ function AxisBuilder(axisModel, opt) {
+ this.group = new Group();
+ this.opt = opt;
+ this.axisModel = axisModel;
+ // Default value
+ defaults(opt, {
+ labelOffset: 0,
+ nameDirection: 1,
+ tickDirection: 1,
+ labelDirection: 1,
+ silent: true,
+ handleAutoShown: function () {
+ return true;
+ }
+ });
+ // FIXME Not use a separate text group?
+ var transformGroup = new Group({
+ x: opt.position[0],
+ y: opt.position[1],
+ rotation: opt.rotation
+ });
+ // this.group.add(transformGroup);
+ // this._transformGroup = transformGroup;
+ transformGroup.updateTransform();
+ this._transformGroup = transformGroup;
+ }
+ AxisBuilder.prototype.hasBuilder = function (name) {
+ return !!builders[name];
+ };
+ AxisBuilder.prototype.add = function (name) {
+ builders[name](this.opt, this.axisModel, this.group, this._transformGroup);
+ };
+ AxisBuilder.prototype.getGroup = function () {
+ return this.group;
+ };
+ AxisBuilder.innerTextLayout = function (axisRotation, textRotation, direction) {
+ var rotationDiff = remRadian(textRotation - axisRotation);
+ var textAlign;
+ var textVerticalAlign;
+ if (isRadianAroundZero(rotationDiff)) {
+ // Label is parallel with axis line.
+ textVerticalAlign = direction > 0 ? 'top' : 'bottom';
+ textAlign = 'center';
+ } else if (isRadianAroundZero(rotationDiff - PI$5)) {
+ // Label is inverse parallel with axis line.
+ textVerticalAlign = direction > 0 ? 'bottom' : 'top';
+ textAlign = 'center';
+ } else {
+ textVerticalAlign = 'middle';
+ if (rotationDiff > 0 && rotationDiff < PI$5) {
+ textAlign = direction > 0 ? 'right' : 'left';
+ } else {
+ textAlign = direction > 0 ? 'left' : 'right';
+ }
+ }
+ return {
+ rotation: rotationDiff,
+ textAlign: textAlign,
+ textVerticalAlign: textVerticalAlign
+ };
+ };
+ AxisBuilder.makeAxisEventDataBase = function (axisModel) {
+ var eventData = {
+ componentType: axisModel.mainType,
+ componentIndex: axisModel.componentIndex
+ };
+ eventData[axisModel.mainType + 'Index'] = axisModel.componentIndex;
+ return eventData;
+ };
+ AxisBuilder.isLabelSilent = function (axisModel) {
+ var tooltipOpt = axisModel.get('tooltip');
+ return axisModel.get('silent')
+ // Consider mouse cursor, add these restrictions.
+ || !(axisModel.get('triggerEvent') || tooltipOpt && tooltipOpt.show);
+ };
+ return AxisBuilder;
+ }();
+ var builders = {
+ axisLine: function (opt, axisModel, group, transformGroup) {
+ var shown = axisModel.get(['axisLine', 'show']);
+ if (shown === 'auto' && opt.handleAutoShown) {
+ shown = opt.handleAutoShown('axisLine');
+ }
+ if (!shown) {
+ return;
+ }
+ var extent = axisModel.axis.getExtent();
+ var matrix = transformGroup.transform;
+ var pt1 = [extent[0], 0];
+ var pt2 = [extent[1], 0];
+ var inverse = pt1[0] > pt2[0];
+ if (matrix) {
+ applyTransform(pt1, pt1, matrix);
+ applyTransform(pt2, pt2, matrix);
+ }
+ var lineStyle = extend({
+ lineCap: 'round'
+ }, axisModel.getModel(['axisLine', 'lineStyle']).getLineStyle());
+ var line = new Line({
+ shape: {
+ x1: pt1[0],
+ y1: pt1[1],
+ x2: pt2[0],
+ y2: pt2[1]
+ },
+ style: lineStyle,
+ strokeContainThreshold: opt.strokeContainThreshold || 5,
+ silent: true,
+ z2: 1
+ });
+ subPixelOptimizeLine$1(line.shape, line.style.lineWidth);
+ line.anid = 'line';
+ group.add(line);
+ var arrows = axisModel.get(['axisLine', 'symbol']);
+ if (arrows != null) {
+ var arrowSize = axisModel.get(['axisLine', 'symbolSize']);
+ if (isString(arrows)) {
+ // Use the same arrow for start and end point
+ arrows = [arrows, arrows];
+ }
+ if (isString(arrowSize) || isNumber(arrowSize)) {
+ // Use the same size for width and height
+ arrowSize = [arrowSize, arrowSize];
+ }
+ var arrowOffset = normalizeSymbolOffset(axisModel.get(['axisLine', 'symbolOffset']) || 0, arrowSize);
+ var symbolWidth_1 = arrowSize[0];
+ var symbolHeight_1 = arrowSize[1];
+ each([{
+ rotate: opt.rotation + Math.PI / 2,
+ offset: arrowOffset[0],
+ r: 0
+ }, {
+ rotate: opt.rotation - Math.PI / 2,
+ offset: arrowOffset[1],
+ r: Math.sqrt((pt1[0] - pt2[0]) * (pt1[0] - pt2[0]) + (pt1[1] - pt2[1]) * (pt1[1] - pt2[1]))
+ }], function (point, index) {
+ if (arrows[index] !== 'none' && arrows[index] != null) {
+ var symbol = createSymbol(arrows[index], -symbolWidth_1 / 2, -symbolHeight_1 / 2, symbolWidth_1, symbolHeight_1, lineStyle.stroke, true);
+ // Calculate arrow position with offset
+ var r = point.r + point.offset;
+ var pt = inverse ? pt2 : pt1;
+ symbol.attr({
+ rotation: point.rotate,
+ x: pt[0] + r * Math.cos(opt.rotation),
+ y: pt[1] - r * Math.sin(opt.rotation),
+ silent: true,
+ z2: 11
+ });
+ group.add(symbol);
+ }
+ });
+ }
+ },
+ axisTickLabel: function (opt, axisModel, group, transformGroup) {
+ var ticksEls = buildAxisMajorTicks(group, transformGroup, axisModel, opt);
+ var labelEls = buildAxisLabel(group, transformGroup, axisModel, opt);
+ fixMinMaxLabelShow(axisModel, labelEls, ticksEls);
+ buildAxisMinorTicks(group, transformGroup, axisModel, opt.tickDirection);
+ // This bit fixes the label overlap issue for the time chart.
+ // See https://github.com/apache/echarts/issues/14266 for more.
+ if (axisModel.get(['axisLabel', 'hideOverlap'])) {
+ var labelList = prepareLayoutList(map(labelEls, function (label) {
+ return {
+ label: label,
+ priority: label.z2,
+ defaultAttr: {
+ ignore: label.ignore
+ }
+ };
+ }));
+ hideOverlap(labelList);
+ }
+ },
+ axisName: function (opt, axisModel, group, transformGroup) {
+ var name = retrieve(opt.axisName, axisModel.get('name'));
+ if (!name) {
+ return;
+ }
+ var nameLocation = axisModel.get('nameLocation');
+ var nameDirection = opt.nameDirection;
+ var textStyleModel = axisModel.getModel('nameTextStyle');
+ var gap = axisModel.get('nameGap') || 0;
+ var extent = axisModel.axis.getExtent();
+ var gapSignal = extent[0] > extent[1] ? -1 : 1;
+ var pos = [nameLocation === 'start' ? extent[0] - gapSignal * gap : nameLocation === 'end' ? extent[1] + gapSignal * gap : (extent[0] + extent[1]) / 2,
+ // Reuse labelOffset.
+ isNameLocationCenter(nameLocation) ? opt.labelOffset + nameDirection * gap : 0];
+ var labelLayout;
+ var nameRotation = axisModel.get('nameRotate');
+ if (nameRotation != null) {
+ nameRotation = nameRotation * PI$5 / 180; // To radian.
+ }
+
+ var axisNameAvailableWidth;
+ if (isNameLocationCenter(nameLocation)) {
+ labelLayout = AxisBuilder.innerTextLayout(opt.rotation, nameRotation != null ? nameRotation : opt.rotation,
+ // Adapt to axis.
+ nameDirection);
+ } else {
+ labelLayout = endTextLayout(opt.rotation, nameLocation, nameRotation || 0, extent);
+ axisNameAvailableWidth = opt.axisNameAvailableWidth;
+ if (axisNameAvailableWidth != null) {
+ axisNameAvailableWidth = Math.abs(axisNameAvailableWidth / Math.sin(labelLayout.rotation));
+ !isFinite(axisNameAvailableWidth) && (axisNameAvailableWidth = null);
+ }
+ }
+ var textFont = textStyleModel.getFont();
+ var truncateOpt = axisModel.get('nameTruncate', true) || {};
+ var ellipsis = truncateOpt.ellipsis;
+ var maxWidth = retrieve(opt.nameTruncateMaxWidth, truncateOpt.maxWidth, axisNameAvailableWidth);
+ var textEl = new ZRText({
+ x: pos[0],
+ y: pos[1],
+ rotation: labelLayout.rotation,
+ silent: AxisBuilder.isLabelSilent(axisModel),
+ style: createTextStyle(textStyleModel, {
+ text: name,
+ font: textFont,
+ overflow: 'truncate',
+ width: maxWidth,
+ ellipsis: ellipsis,
+ fill: textStyleModel.getTextColor() || axisModel.get(['axisLine', 'lineStyle', 'color']),
+ align: textStyleModel.get('align') || labelLayout.textAlign,
+ verticalAlign: textStyleModel.get('verticalAlign') || labelLayout.textVerticalAlign
+ }),
+ z2: 1
+ });
+ setTooltipConfig({
+ el: textEl,
+ componentModel: axisModel,
+ itemName: name
+ });
+ textEl.__fullText = name;
+ // Id for animation
+ textEl.anid = 'name';
+ if (axisModel.get('triggerEvent')) {
+ var eventData = AxisBuilder.makeAxisEventDataBase(axisModel);
+ eventData.targetType = 'axisName';
+ eventData.name = name;
+ getECData(textEl).eventData = eventData;
+ }
+ // FIXME
+ transformGroup.add(textEl);
+ textEl.updateTransform();
+ group.add(textEl);
+ textEl.decomposeTransform();
+ }
+ };
+ function endTextLayout(rotation, textPosition, textRotate, extent) {
+ var rotationDiff = remRadian(textRotate - rotation);
+ var textAlign;
+ var textVerticalAlign;
+ var inverse = extent[0] > extent[1];
+ var onLeft = textPosition === 'start' && !inverse || textPosition !== 'start' && inverse;
+ if (isRadianAroundZero(rotationDiff - PI$5 / 2)) {
+ textVerticalAlign = onLeft ? 'bottom' : 'top';
+ textAlign = 'center';
+ } else if (isRadianAroundZero(rotationDiff - PI$5 * 1.5)) {
+ textVerticalAlign = onLeft ? 'top' : 'bottom';
+ textAlign = 'center';
+ } else {
+ textVerticalAlign = 'middle';
+ if (rotationDiff < PI$5 * 1.5 && rotationDiff > PI$5 / 2) {
+ textAlign = onLeft ? 'left' : 'right';
+ } else {
+ textAlign = onLeft ? 'right' : 'left';
+ }
+ }
+ return {
+ rotation: rotationDiff,
+ textAlign: textAlign,
+ textVerticalAlign: textVerticalAlign
+ };
+ }
+ function fixMinMaxLabelShow(axisModel, labelEls, tickEls) {
+ if (shouldShowAllLabels(axisModel.axis)) {
+ return;
+ }
+ // If min or max are user set, we need to check
+ // If the tick on min(max) are overlap on their neighbour tick
+ // If they are overlapped, we need to hide the min(max) tick label
+ var showMinLabel = axisModel.get(['axisLabel', 'showMinLabel']);
+ var showMaxLabel = axisModel.get(['axisLabel', 'showMaxLabel']);
+ // FIXME
+ // Have not consider onBand yet, where tick els is more than label els.
+ labelEls = labelEls || [];
+ tickEls = tickEls || [];
+ var firstLabel = labelEls[0];
+ var nextLabel = labelEls[1];
+ var lastLabel = labelEls[labelEls.length - 1];
+ var prevLabel = labelEls[labelEls.length - 2];
+ var firstTick = tickEls[0];
+ var nextTick = tickEls[1];
+ var lastTick = tickEls[tickEls.length - 1];
+ var prevTick = tickEls[tickEls.length - 2];
+ if (showMinLabel === false) {
+ ignoreEl(firstLabel);
+ ignoreEl(firstTick);
+ } else if (isTwoLabelOverlapped(firstLabel, nextLabel)) {
+ if (showMinLabel) {
+ ignoreEl(nextLabel);
+ ignoreEl(nextTick);
+ } else {
+ ignoreEl(firstLabel);
+ ignoreEl(firstTick);
+ }
+ }
+ if (showMaxLabel === false) {
+ ignoreEl(lastLabel);
+ ignoreEl(lastTick);
+ } else if (isTwoLabelOverlapped(prevLabel, lastLabel)) {
+ if (showMaxLabel) {
+ ignoreEl(prevLabel);
+ ignoreEl(prevTick);
+ } else {
+ ignoreEl(lastLabel);
+ ignoreEl(lastTick);
+ }
+ }
+ }
+ function ignoreEl(el) {
+ el && (el.ignore = true);
+ }
+ function isTwoLabelOverlapped(current, next) {
+ // current and next has the same rotation.
+ var firstRect = current && current.getBoundingRect().clone();
+ var nextRect = next && next.getBoundingRect().clone();
+ if (!firstRect || !nextRect) {
+ return;
+ }
+ // When checking intersect of two rotated labels, we use mRotationBack
+ // to avoid that boundingRect is enlarge when using `boundingRect.applyTransform`.
+ var mRotationBack = identity([]);
+ rotate(mRotationBack, mRotationBack, -current.rotation);
+ firstRect.applyTransform(mul$1([], mRotationBack, current.getLocalTransform()));
+ nextRect.applyTransform(mul$1([], mRotationBack, next.getLocalTransform()));
+ return firstRect.intersect(nextRect);
+ }
+ function isNameLocationCenter(nameLocation) {
+ return nameLocation === 'middle' || nameLocation === 'center';
+ }
+ function createTicks(ticksCoords, tickTransform, tickEndCoord, tickLineStyle, anidPrefix) {
+ var tickEls = [];
+ var pt1 = [];
+ var pt2 = [];
+ for (var i = 0; i < ticksCoords.length; i++) {
+ var tickCoord = ticksCoords[i].coord;
+ pt1[0] = tickCoord;
+ pt1[1] = 0;
+ pt2[0] = tickCoord;
+ pt2[1] = tickEndCoord;
+ if (tickTransform) {
+ applyTransform(pt1, pt1, tickTransform);
+ applyTransform(pt2, pt2, tickTransform);
+ }
+ // Tick line, Not use group transform to have better line draw
+ var tickEl = new Line({
+ shape: {
+ x1: pt1[0],
+ y1: pt1[1],
+ x2: pt2[0],
+ y2: pt2[1]
+ },
+ style: tickLineStyle,
+ z2: 2,
+ autoBatch: true,
+ silent: true
+ });
+ subPixelOptimizeLine$1(tickEl.shape, tickEl.style.lineWidth);
+ tickEl.anid = anidPrefix + '_' + ticksCoords[i].tickValue;
+ tickEls.push(tickEl);
+ }
+ return tickEls;
+ }
+ function buildAxisMajorTicks(group, transformGroup, axisModel, opt) {
+ var axis = axisModel.axis;
+ var tickModel = axisModel.getModel('axisTick');
+ var shown = tickModel.get('show');
+ if (shown === 'auto' && opt.handleAutoShown) {
+ shown = opt.handleAutoShown('axisTick');
+ }
+ if (!shown || axis.scale.isBlank()) {
+ return;
+ }
+ var lineStyleModel = tickModel.getModel('lineStyle');
+ var tickEndCoord = opt.tickDirection * tickModel.get('length');
+ var ticksCoords = axis.getTicksCoords();
+ var ticksEls = createTicks(ticksCoords, transformGroup.transform, tickEndCoord, defaults(lineStyleModel.getLineStyle(), {
+ stroke: axisModel.get(['axisLine', 'lineStyle', 'color'])
+ }), 'ticks');
+ for (var i = 0; i < ticksEls.length; i++) {
+ group.add(ticksEls[i]);
+ }
+ return ticksEls;
+ }
+ function buildAxisMinorTicks(group, transformGroup, axisModel, tickDirection) {
+ var axis = axisModel.axis;
+ var minorTickModel = axisModel.getModel('minorTick');
+ if (!minorTickModel.get('show') || axis.scale.isBlank()) {
+ return;
+ }
+ var minorTicksCoords = axis.getMinorTicksCoords();
+ if (!minorTicksCoords.length) {
+ return;
+ }
+ var lineStyleModel = minorTickModel.getModel('lineStyle');
+ var tickEndCoord = tickDirection * minorTickModel.get('length');
+ var minorTickLineStyle = defaults(lineStyleModel.getLineStyle(), defaults(axisModel.getModel('axisTick').getLineStyle(), {
+ stroke: axisModel.get(['axisLine', 'lineStyle', 'color'])
+ }));
+ for (var i = 0; i < minorTicksCoords.length; i++) {
+ var minorTicksEls = createTicks(minorTicksCoords[i], transformGroup.transform, tickEndCoord, minorTickLineStyle, 'minorticks_' + i);
+ for (var k = 0; k < minorTicksEls.length; k++) {
+ group.add(minorTicksEls[k]);
+ }
+ }
+ }
+ function buildAxisLabel(group, transformGroup, axisModel, opt) {
+ var axis = axisModel.axis;
+ var show = retrieve(opt.axisLabelShow, axisModel.get(['axisLabel', 'show']));
+ if (!show || axis.scale.isBlank()) {
+ return;
+ }
+ var labelModel = axisModel.getModel('axisLabel');
+ var labelMargin = labelModel.get('margin');
+ var labels = axis.getViewLabels();
+ // Special label rotate.
+ var labelRotation = (retrieve(opt.labelRotate, labelModel.get('rotate')) || 0) * PI$5 / 180;
+ var labelLayout = AxisBuilder.innerTextLayout(opt.rotation, labelRotation, opt.labelDirection);
+ var rawCategoryData = axisModel.getCategories && axisModel.getCategories(true);
+ var labelEls = [];
+ var silent = AxisBuilder.isLabelSilent(axisModel);
+ var triggerEvent = axisModel.get('triggerEvent');
+ each(labels, function (labelItem, index) {
+ var tickValue = axis.scale.type === 'ordinal' ? axis.scale.getRawOrdinalNumber(labelItem.tickValue) : labelItem.tickValue;
+ var formattedLabel = labelItem.formattedLabel;
+ var rawLabel = labelItem.rawLabel;
+ var itemLabelModel = labelModel;
+ if (rawCategoryData && rawCategoryData[tickValue]) {
+ var rawCategoryItem = rawCategoryData[tickValue];
+ if (isObject(rawCategoryItem) && rawCategoryItem.textStyle) {
+ itemLabelModel = new Model(rawCategoryItem.textStyle, labelModel, axisModel.ecModel);
+ }
+ }
+ var textColor = itemLabelModel.getTextColor() || axisModel.get(['axisLine', 'lineStyle', 'color']);
+ var tickCoord = axis.dataToCoord(tickValue);
+ var align = itemLabelModel.getShallow('align', true) || labelLayout.textAlign;
+ var alignMin = retrieve2(itemLabelModel.getShallow('alignMinLabel', true), align);
+ var alignMax = retrieve2(itemLabelModel.getShallow('alignMaxLabel', true), align);
+ var verticalAlign = itemLabelModel.getShallow('verticalAlign', true) || itemLabelModel.getShallow('baseline', true) || labelLayout.textVerticalAlign;
+ var verticalAlignMin = retrieve2(itemLabelModel.getShallow('verticalAlignMinLabel', true), verticalAlign);
+ var verticalAlignMax = retrieve2(itemLabelModel.getShallow('verticalAlignMaxLabel', true), verticalAlign);
+ var textEl = new ZRText({
+ x: tickCoord,
+ y: opt.labelOffset + opt.labelDirection * labelMargin,
+ rotation: labelLayout.rotation,
+ silent: silent,
+ z2: 10 + (labelItem.level || 0),
+ style: createTextStyle(itemLabelModel, {
+ text: formattedLabel,
+ align: index === 0 ? alignMin : index === labels.length - 1 ? alignMax : align,
+ verticalAlign: index === 0 ? verticalAlignMin : index === labels.length - 1 ? verticalAlignMax : verticalAlign,
+ fill: isFunction(textColor) ? textColor(
+ // (1) In category axis with data zoom, tick is not the original
+ // index of axis.data. So tick should not be exposed to user
+ // in category axis.
+ // (2) Compatible with previous version, which always use formatted label as
+ // input. But in interval scale the formatted label is like '223,445', which
+ // maked user replace ','. So we modify it to return original val but remain
+ // it as 'string' to avoid error in replacing.
+ axis.type === 'category' ? rawLabel : axis.type === 'value' ? tickValue + '' : tickValue, index) : textColor
+ })
+ });
+ textEl.anid = 'label_' + tickValue;
+ // Pack data for mouse event
+ if (triggerEvent) {
+ var eventData = AxisBuilder.makeAxisEventDataBase(axisModel);
+ eventData.targetType = 'axisLabel';
+ eventData.value = rawLabel;
+ eventData.tickIndex = index;
+ if (axis.type === 'category') {
+ eventData.dataIndex = tickValue;
+ }
+ getECData(textEl).eventData = eventData;
+ }
+ // FIXME
+ transformGroup.add(textEl);
+ textEl.updateTransform();
+ labelEls.push(textEl);
+ group.add(textEl);
+ textEl.decomposeTransform();
+ });
+ return labelEls;
+ }
+
+ // Build axisPointerModel, mergin tooltip.axisPointer model for each axis.
+ // allAxesInfo should be updated when setOption performed.
+ function collect(ecModel, api) {
+ var result = {
+ /**
+ * key: makeKey(axis.model)
+ * value: {
+ * axis,
+ * coordSys,
+ * axisPointerModel,
+ * triggerTooltip,
+ * triggerEmphasis,
+ * involveSeries,
+ * snap,
+ * seriesModels,
+ * seriesDataCount
+ * }
+ */
+ axesInfo: {},
+ seriesInvolved: false,
+ /**
+ * key: makeKey(coordSys.model)
+ * value: Object: key makeKey(axis.model), value: axisInfo
+ */
+ coordSysAxesInfo: {},
+ coordSysMap: {}
+ };
+ collectAxesInfo(result, ecModel, api);
+ // Check seriesInvolved for performance, in case too many series in some chart.
+ result.seriesInvolved && collectSeriesInfo(result, ecModel);
+ return result;
+ }
+ function collectAxesInfo(result, ecModel, api) {
+ var globalTooltipModel = ecModel.getComponent('tooltip');
+ var globalAxisPointerModel = ecModel.getComponent('axisPointer');
+ // links can only be set on global.
+ var linksOption = globalAxisPointerModel.get('link', true) || [];
+ var linkGroups = [];
+ // Collect axes info.
+ each(api.getCoordinateSystems(), function (coordSys) {
+ // Some coordinate system do not support axes, like geo.
+ if (!coordSys.axisPointerEnabled) {
+ return;
+ }
+ var coordSysKey = makeKey(coordSys.model);
+ var axesInfoInCoordSys = result.coordSysAxesInfo[coordSysKey] = {};
+ result.coordSysMap[coordSysKey] = coordSys;
+ // Set tooltip (like 'cross') is a convenient way to show axisPointer
+ // for user. So we enable setting tooltip on coordSys model.
+ var coordSysModel = coordSys.model;
+ var baseTooltipModel = coordSysModel.getModel('tooltip', globalTooltipModel);
+ each(coordSys.getAxes(), curry(saveTooltipAxisInfo, false, null));
+ // If axis tooltip used, choose tooltip axis for each coordSys.
+ // Notice this case: coordSys is `grid` but not `cartesian2D` here.
+ if (coordSys.getTooltipAxes && globalTooltipModel
+ // If tooltip.showContent is set as false, tooltip will not
+ // show but axisPointer will show as normal.
+ && baseTooltipModel.get('show')) {
+ // Compatible with previous logic. But series.tooltip.trigger: 'axis'
+ // or series.data[n].tooltip.trigger: 'axis' are not support any more.
+ var triggerAxis = baseTooltipModel.get('trigger') === 'axis';
+ var cross = baseTooltipModel.get(['axisPointer', 'type']) === 'cross';
+ var tooltipAxes = coordSys.getTooltipAxes(baseTooltipModel.get(['axisPointer', 'axis']));
+ if (triggerAxis || cross) {
+ each(tooltipAxes.baseAxes, curry(saveTooltipAxisInfo, cross ? 'cross' : true, triggerAxis));
+ }
+ if (cross) {
+ each(tooltipAxes.otherAxes, curry(saveTooltipAxisInfo, 'cross', false));
+ }
+ }
+ // fromTooltip: true | false | 'cross'
+ // triggerTooltip: true | false | null
+ function saveTooltipAxisInfo(fromTooltip, triggerTooltip, axis) {
+ var axisPointerModel = axis.model.getModel('axisPointer', globalAxisPointerModel);
+ var axisPointerShow = axisPointerModel.get('show');
+ if (!axisPointerShow || axisPointerShow === 'auto' && !fromTooltip && !isHandleTrigger(axisPointerModel)) {
+ return;
+ }
+ if (triggerTooltip == null) {
+ triggerTooltip = axisPointerModel.get('triggerTooltip');
+ }
+ axisPointerModel = fromTooltip ? makeAxisPointerModel(axis, baseTooltipModel, globalAxisPointerModel, ecModel, fromTooltip, triggerTooltip) : axisPointerModel;
+ var snap = axisPointerModel.get('snap');
+ var triggerEmphasis = axisPointerModel.get('triggerEmphasis');
+ var axisKey = makeKey(axis.model);
+ var involveSeries = triggerTooltip || snap || axis.type === 'category';
+ // If result.axesInfo[key] exist, override it (tooltip has higher priority).
+ var axisInfo = result.axesInfo[axisKey] = {
+ key: axisKey,
+ axis: axis,
+ coordSys: coordSys,
+ axisPointerModel: axisPointerModel,
+ triggerTooltip: triggerTooltip,
+ triggerEmphasis: triggerEmphasis,
+ involveSeries: involveSeries,
+ snap: snap,
+ useHandle: isHandleTrigger(axisPointerModel),
+ seriesModels: [],
+ linkGroup: null
+ };
+ axesInfoInCoordSys[axisKey] = axisInfo;
+ result.seriesInvolved = result.seriesInvolved || involveSeries;
+ var groupIndex = getLinkGroupIndex(linksOption, axis);
+ if (groupIndex != null) {
+ var linkGroup = linkGroups[groupIndex] || (linkGroups[groupIndex] = {
+ axesInfo: {}
+ });
+ linkGroup.axesInfo[axisKey] = axisInfo;
+ linkGroup.mapper = linksOption[groupIndex].mapper;
+ axisInfo.linkGroup = linkGroup;
+ }
+ }
+ });
+ }
+ function makeAxisPointerModel(axis, baseTooltipModel, globalAxisPointerModel, ecModel, fromTooltip, triggerTooltip) {
+ var tooltipAxisPointerModel = baseTooltipModel.getModel('axisPointer');
+ var fields = ['type', 'snap', 'lineStyle', 'shadowStyle', 'label', 'animation', 'animationDurationUpdate', 'animationEasingUpdate', 'z'];
+ var volatileOption = {};
+ each(fields, function (field) {
+ volatileOption[field] = clone(tooltipAxisPointerModel.get(field));
+ });
+ // category axis do not auto snap, otherwise some tick that do not
+ // has value can not be hovered. value/time/log axis default snap if
+ // triggered from tooltip and trigger tooltip.
+ volatileOption.snap = axis.type !== 'category' && !!triggerTooltip;
+ // Compatible with previous behavior, tooltip axis does not show label by default.
+ // Only these properties can be overridden from tooltip to axisPointer.
+ if (tooltipAxisPointerModel.get('type') === 'cross') {
+ volatileOption.type = 'line';
+ }
+ var labelOption = volatileOption.label || (volatileOption.label = {});
+ // Follow the convention, do not show label when triggered by tooltip by default.
+ labelOption.show == null && (labelOption.show = false);
+ if (fromTooltip === 'cross') {
+ // When 'cross', both axes show labels.
+ var tooltipAxisPointerLabelShow = tooltipAxisPointerModel.get(['label', 'show']);
+ labelOption.show = tooltipAxisPointerLabelShow != null ? tooltipAxisPointerLabelShow : true;
+ // If triggerTooltip, this is a base axis, which should better not use cross style
+ // (cross style is dashed by default)
+ if (!triggerTooltip) {
+ var crossStyle = volatileOption.lineStyle = tooltipAxisPointerModel.get('crossStyle');
+ crossStyle && defaults(labelOption, crossStyle.textStyle);
+ }
+ }
+ return axis.model.getModel('axisPointer', new Model(volatileOption, globalAxisPointerModel, ecModel));
+ }
+ function collectSeriesInfo(result, ecModel) {
+ // Prepare data for axis trigger
+ ecModel.eachSeries(function (seriesModel) {
+ // Notice this case: this coordSys is `cartesian2D` but not `grid`.
+ var coordSys = seriesModel.coordinateSystem;
+ var seriesTooltipTrigger = seriesModel.get(['tooltip', 'trigger'], true);
+ var seriesTooltipShow = seriesModel.get(['tooltip', 'show'], true);
+ if (!coordSys || seriesTooltipTrigger === 'none' || seriesTooltipTrigger === false || seriesTooltipTrigger === 'item' || seriesTooltipShow === false || seriesModel.get(['axisPointer', 'show'], true) === false) {
+ return;
+ }
+ each(result.coordSysAxesInfo[makeKey(coordSys.model)], function (axisInfo) {
+ var axis = axisInfo.axis;
+ if (coordSys.getAxis(axis.dim) === axis) {
+ axisInfo.seriesModels.push(seriesModel);
+ axisInfo.seriesDataCount == null && (axisInfo.seriesDataCount = 0);
+ axisInfo.seriesDataCount += seriesModel.getData().count();
+ }
+ });
+ });
+ }
+ /**
+ * For example:
+ * {
+ * axisPointer: {
+ * links: [{
+ * xAxisIndex: [2, 4],
+ * yAxisIndex: 'all'
+ * }, {
+ * xAxisId: ['a5', 'a7'],
+ * xAxisName: 'xxx'
+ * }]
+ * }
+ * }
+ */
+ function getLinkGroupIndex(linksOption, axis) {
+ var axisModel = axis.model;
+ var dim = axis.dim;
+ for (var i = 0; i < linksOption.length; i++) {
+ var linkOption = linksOption[i] || {};
+ if (checkPropInLink(linkOption[dim + 'AxisId'], axisModel.id) || checkPropInLink(linkOption[dim + 'AxisIndex'], axisModel.componentIndex) || checkPropInLink(linkOption[dim + 'AxisName'], axisModel.name)) {
+ return i;
+ }
+ }
+ }
+ function checkPropInLink(linkPropValue, axisPropValue) {
+ return linkPropValue === 'all' || isArray(linkPropValue) && indexOf(linkPropValue, axisPropValue) >= 0 || linkPropValue === axisPropValue;
+ }
+ function fixValue(axisModel) {
+ var axisInfo = getAxisInfo(axisModel);
+ if (!axisInfo) {
+ return;
+ }
+ var axisPointerModel = axisInfo.axisPointerModel;
+ var scale = axisInfo.axis.scale;
+ var option = axisPointerModel.option;
+ var status = axisPointerModel.get('status');
+ var value = axisPointerModel.get('value');
+ // Parse init value for category and time axis.
+ if (value != null) {
+ value = scale.parse(value);
+ }
+ var useHandle = isHandleTrigger(axisPointerModel);
+ // If `handle` used, `axisPointer` will always be displayed, so value
+ // and status should be initialized.
+ if (status == null) {
+ option.status = useHandle ? 'show' : 'hide';
+ }
+ var extent = scale.getExtent().slice();
+ extent[0] > extent[1] && extent.reverse();
+ if (
+ // Pick a value on axis when initializing.
+ value == null
+ // If both `handle` and `dataZoom` are used, value may be out of axis extent,
+ // where we should re-pick a value to keep `handle` displaying normally.
+ || value > extent[1]) {
+ // Make handle displayed on the end of the axis when init, which looks better.
+ value = extent[1];
+ }
+ if (value < extent[0]) {
+ value = extent[0];
+ }
+ option.value = value;
+ if (useHandle) {
+ option.status = axisInfo.axis.scale.isBlank() ? 'hide' : 'show';
+ }
+ }
+ function getAxisInfo(axisModel) {
+ var coordSysAxesInfo = (axisModel.ecModel.getComponent('axisPointer') || {}).coordSysAxesInfo;
+ return coordSysAxesInfo && coordSysAxesInfo.axesInfo[makeKey(axisModel)];
+ }
+ function getAxisPointerModel(axisModel) {
+ var axisInfo = getAxisInfo(axisModel);
+ return axisInfo && axisInfo.axisPointerModel;
+ }
+ function isHandleTrigger(axisPointerModel) {
+ return !!axisPointerModel.get(['handle', 'show']);
+ }
+ /**
+ * @param {module:echarts/model/Model} model
+ * @return {string} unique key
+ */
+ function makeKey(model) {
+ return model.type + '||' + model.id;
+ }
+
+ var axisPointerClazz = {};
+ /**
+ * Base class of AxisView.
+ */
+ var AxisView = /** @class */function (_super) {
+ __extends(AxisView, _super);
+ function AxisView() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = AxisView.type;
+ return _this;
+ }
+ /**
+ * @override
+ */
+ AxisView.prototype.render = function (axisModel, ecModel, api, payload) {
+ // FIXME
+ // This process should proformed after coordinate systems updated
+ // (axis scale updated), and should be performed each time update.
+ // So put it here temporarily, although it is not appropriate to
+ // put a model-writing procedure in `view`.
+ this.axisPointerClass && fixValue(axisModel);
+ _super.prototype.render.apply(this, arguments);
+ this._doUpdateAxisPointerClass(axisModel, api, true);
+ };
+ /**
+ * Action handler.
+ */
+ AxisView.prototype.updateAxisPointer = function (axisModel, ecModel, api, payload) {
+ this._doUpdateAxisPointerClass(axisModel, api, false);
+ };
+ /**
+ * @override
+ */
+ AxisView.prototype.remove = function (ecModel, api) {
+ var axisPointer = this._axisPointer;
+ axisPointer && axisPointer.remove(api);
+ };
+ /**
+ * @override
+ */
+ AxisView.prototype.dispose = function (ecModel, api) {
+ this._disposeAxisPointer(api);
+ _super.prototype.dispose.apply(this, arguments);
+ };
+ AxisView.prototype._doUpdateAxisPointerClass = function (axisModel, api, forceRender) {
+ var Clazz = AxisView.getAxisPointerClass(this.axisPointerClass);
+ if (!Clazz) {
+ return;
+ }
+ var axisPointerModel = getAxisPointerModel(axisModel);
+ axisPointerModel ? (this._axisPointer || (this._axisPointer = new Clazz())).render(axisModel, axisPointerModel, api, forceRender) : this._disposeAxisPointer(api);
+ };
+ AxisView.prototype._disposeAxisPointer = function (api) {
+ this._axisPointer && this._axisPointer.dispose(api);
+ this._axisPointer = null;
+ };
+ AxisView.registerAxisPointerClass = function (type, clazz) {
+ if ("development" !== 'production') {
+ if (axisPointerClazz[type]) {
+ throw new Error('axisPointer ' + type + ' exists');
+ }
+ }
+ axisPointerClazz[type] = clazz;
+ };
+ AxisView.getAxisPointerClass = function (type) {
+ return type && axisPointerClazz[type];
+ };
+ AxisView.type = 'axis';
+ return AxisView;
+ }(ComponentView);
+
+ var inner$6 = makeInner();
+ function rectCoordAxisBuildSplitArea(axisView, axisGroup, axisModel, gridModel) {
+ var axis = axisModel.axis;
+ if (axis.scale.isBlank()) {
+ return;
+ }
+ // TODO: TYPE
+ var splitAreaModel = axisModel.getModel('splitArea');
+ var areaStyleModel = splitAreaModel.getModel('areaStyle');
+ var areaColors = areaStyleModel.get('color');
+ var gridRect = gridModel.coordinateSystem.getRect();
+ var ticksCoords = axis.getTicksCoords({
+ tickModel: splitAreaModel,
+ clamp: true
+ });
+ if (!ticksCoords.length) {
+ return;
+ }
+ // For Making appropriate splitArea animation, the color and anid
+ // should be corresponding to previous one if possible.
+ var areaColorsLen = areaColors.length;
+ var lastSplitAreaColors = inner$6(axisView).splitAreaColors;
+ var newSplitAreaColors = createHashMap();
+ var colorIndex = 0;
+ if (lastSplitAreaColors) {
+ for (var i = 0; i < ticksCoords.length; i++) {
+ var cIndex = lastSplitAreaColors.get(ticksCoords[i].tickValue);
+ if (cIndex != null) {
+ colorIndex = (cIndex + (areaColorsLen - 1) * i) % areaColorsLen;
+ break;
+ }
+ }
+ }
+ var prev = axis.toGlobalCoord(ticksCoords[0].coord);
+ var areaStyle = areaStyleModel.getAreaStyle();
+ areaColors = isArray(areaColors) ? areaColors : [areaColors];
+ for (var i = 1; i < ticksCoords.length; i++) {
+ var tickCoord = axis.toGlobalCoord(ticksCoords[i].coord);
+ var x = void 0;
+ var y = void 0;
+ var width = void 0;
+ var height = void 0;
+ if (axis.isHorizontal()) {
+ x = prev;
+ y = gridRect.y;
+ width = tickCoord - x;
+ height = gridRect.height;
+ prev = x + width;
+ } else {
+ x = gridRect.x;
+ y = prev;
+ width = gridRect.width;
+ height = tickCoord - y;
+ prev = y + height;
+ }
+ var tickValue = ticksCoords[i - 1].tickValue;
+ tickValue != null && newSplitAreaColors.set(tickValue, colorIndex);
+ axisGroup.add(new Rect({
+ anid: tickValue != null ? 'area_' + tickValue : null,
+ shape: {
+ x: x,
+ y: y,
+ width: width,
+ height: height
+ },
+ style: defaults({
+ fill: areaColors[colorIndex]
+ }, areaStyle),
+ autoBatch: true,
+ silent: true
+ }));
+ colorIndex = (colorIndex + 1) % areaColorsLen;
+ }
+ inner$6(axisView).splitAreaColors = newSplitAreaColors;
+ }
+ function rectCoordAxisHandleRemove(axisView) {
+ inner$6(axisView).splitAreaColors = null;
+ }
+
+ var axisBuilderAttrs = ['axisLine', 'axisTickLabel', 'axisName'];
+ var selfBuilderAttrs = ['splitArea', 'splitLine', 'minorSplitLine'];
+ var CartesianAxisView = /** @class */function (_super) {
+ __extends(CartesianAxisView, _super);
+ function CartesianAxisView() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = CartesianAxisView.type;
+ _this.axisPointerClass = 'CartesianAxisPointer';
+ return _this;
+ }
+ /**
+ * @override
+ */
+ CartesianAxisView.prototype.render = function (axisModel, ecModel, api, payload) {
+ this.group.removeAll();
+ var oldAxisGroup = this._axisGroup;
+ this._axisGroup = new Group();
+ this.group.add(this._axisGroup);
+ if (!axisModel.get('show')) {
+ return;
+ }
+ var gridModel = axisModel.getCoordSysModel();
+ var layout = layout$1(gridModel, axisModel);
+ var axisBuilder = new AxisBuilder(axisModel, extend({
+ handleAutoShown: function (elementType) {
+ var cartesians = gridModel.coordinateSystem.getCartesians();
+ for (var i = 0; i < cartesians.length; i++) {
+ if (isIntervalOrLogScale(cartesians[i].getOtherAxis(axisModel.axis).scale)) {
+ // Still show axis tick or axisLine if other axis is value / log
+ return true;
+ }
+ }
+ // Not show axisTick or axisLine if other axis is category / time
+ return false;
+ }
+ }, layout));
+ each(axisBuilderAttrs, axisBuilder.add, axisBuilder);
+ this._axisGroup.add(axisBuilder.getGroup());
+ each(selfBuilderAttrs, function (name) {
+ if (axisModel.get([name, 'show'])) {
+ axisElementBuilders[name](this, this._axisGroup, axisModel, gridModel);
+ }
+ }, this);
+ // THIS is a special case for bar racing chart.
+ // Update the axis label from the natural initial layout to
+ // sorted layout should has no animation.
+ var isInitialSortFromBarRacing = payload && payload.type === 'changeAxisOrder' && payload.isInitSort;
+ if (!isInitialSortFromBarRacing) {
+ groupTransition(oldAxisGroup, this._axisGroup, axisModel);
+ }
+ _super.prototype.render.call(this, axisModel, ecModel, api, payload);
+ };
+ CartesianAxisView.prototype.remove = function () {
+ rectCoordAxisHandleRemove(this);
+ };
+ CartesianAxisView.type = 'cartesianAxis';
+ return CartesianAxisView;
+ }(AxisView);
+ var axisElementBuilders = {
+ splitLine: function (axisView, axisGroup, axisModel, gridModel) {
+ var axis = axisModel.axis;
+ if (axis.scale.isBlank()) {
+ return;
+ }
+ var splitLineModel = axisModel.getModel('splitLine');
+ var lineStyleModel = splitLineModel.getModel('lineStyle');
+ var lineColors = lineStyleModel.get('color');
+ lineColors = isArray(lineColors) ? lineColors : [lineColors];
+ var gridRect = gridModel.coordinateSystem.getRect();
+ var isHorizontal = axis.isHorizontal();
+ var lineCount = 0;
+ var ticksCoords = axis.getTicksCoords({
+ tickModel: splitLineModel
+ });
+ var p1 = [];
+ var p2 = [];
+ var lineStyle = lineStyleModel.getLineStyle();
+ for (var i = 0; i < ticksCoords.length; i++) {
+ var tickCoord = axis.toGlobalCoord(ticksCoords[i].coord);
+ if (isHorizontal) {
+ p1[0] = tickCoord;
+ p1[1] = gridRect.y;
+ p2[0] = tickCoord;
+ p2[1] = gridRect.y + gridRect.height;
+ } else {
+ p1[0] = gridRect.x;
+ p1[1] = tickCoord;
+ p2[0] = gridRect.x + gridRect.width;
+ p2[1] = tickCoord;
+ }
+ var colorIndex = lineCount++ % lineColors.length;
+ var tickValue = ticksCoords[i].tickValue;
+ var line = new Line({
+ anid: tickValue != null ? 'line_' + ticksCoords[i].tickValue : null,
+ autoBatch: true,
+ shape: {
+ x1: p1[0],
+ y1: p1[1],
+ x2: p2[0],
+ y2: p2[1]
+ },
+ style: defaults({
+ stroke: lineColors[colorIndex]
+ }, lineStyle),
+ silent: true
+ });
+ subPixelOptimizeLine$1(line.shape, lineStyle.lineWidth);
+ axisGroup.add(line);
+ }
+ },
+ minorSplitLine: function (axisView, axisGroup, axisModel, gridModel) {
+ var axis = axisModel.axis;
+ var minorSplitLineModel = axisModel.getModel('minorSplitLine');
+ var lineStyleModel = minorSplitLineModel.getModel('lineStyle');
+ var gridRect = gridModel.coordinateSystem.getRect();
+ var isHorizontal = axis.isHorizontal();
+ var minorTicksCoords = axis.getMinorTicksCoords();
+ if (!minorTicksCoords.length) {
+ return;
+ }
+ var p1 = [];
+ var p2 = [];
+ var lineStyle = lineStyleModel.getLineStyle();
+ for (var i = 0; i < minorTicksCoords.length; i++) {
+ for (var k = 0; k < minorTicksCoords[i].length; k++) {
+ var tickCoord = axis.toGlobalCoord(minorTicksCoords[i][k].coord);
+ if (isHorizontal) {
+ p1[0] = tickCoord;
+ p1[1] = gridRect.y;
+ p2[0] = tickCoord;
+ p2[1] = gridRect.y + gridRect.height;
+ } else {
+ p1[0] = gridRect.x;
+ p1[1] = tickCoord;
+ p2[0] = gridRect.x + gridRect.width;
+ p2[1] = tickCoord;
+ }
+ var line = new Line({
+ anid: 'minor_line_' + minorTicksCoords[i][k].tickValue,
+ autoBatch: true,
+ shape: {
+ x1: p1[0],
+ y1: p1[1],
+ x2: p2[0],
+ y2: p2[1]
+ },
+ style: lineStyle,
+ silent: true
+ });
+ subPixelOptimizeLine$1(line.shape, lineStyle.lineWidth);
+ axisGroup.add(line);
+ }
+ }
+ },
+ splitArea: function (axisView, axisGroup, axisModel, gridModel) {
+ rectCoordAxisBuildSplitArea(axisView, axisGroup, axisModel, gridModel);
+ }
+ };
+ var CartesianXAxisView = /** @class */function (_super) {
+ __extends(CartesianXAxisView, _super);
+ function CartesianXAxisView() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = CartesianXAxisView.type;
+ return _this;
+ }
+ CartesianXAxisView.type = 'xAxis';
+ return CartesianXAxisView;
+ }(CartesianAxisView);
+ var CartesianYAxisView = /** @class */function (_super) {
+ __extends(CartesianYAxisView, _super);
+ function CartesianYAxisView() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = CartesianXAxisView.type;
+ return _this;
+ }
+ CartesianYAxisView.type = 'yAxis';
+ return CartesianYAxisView;
+ }(CartesianAxisView);
+
+ // Grid view
+ var GridView = /** @class */function (_super) {
+ __extends(GridView, _super);
+ function GridView() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = 'grid';
+ return _this;
+ }
+ GridView.prototype.render = function (gridModel, ecModel) {
+ this.group.removeAll();
+ if (gridModel.get('show')) {
+ this.group.add(new Rect({
+ shape: gridModel.coordinateSystem.getRect(),
+ style: defaults({
+ fill: gridModel.get('backgroundColor')
+ }, gridModel.getItemStyle()),
+ silent: true,
+ z2: -1
+ }));
+ }
+ };
+ GridView.type = 'grid';
+ return GridView;
+ }(ComponentView);
+ var extraOption = {
+ // gridIndex: 0,
+ // gridId: '',
+ offset: 0
+ };
+ function install$5(registers) {
+ registers.registerComponentView(GridView);
+ registers.registerComponentModel(GridModel);
+ registers.registerCoordinateSystem('cartesian2d', Grid);
+ axisModelCreator(registers, 'x', CartesianAxisModel, extraOption);
+ axisModelCreator(registers, 'y', CartesianAxisModel, extraOption);
+ registers.registerComponentView(CartesianXAxisView);
+ registers.registerComponentView(CartesianYAxisView);
+ registers.registerPreprocessor(function (option) {
+ // Only create grid when need
+ if (option.xAxis && option.yAxis && !option.grid) {
+ option.grid = {};
+ }
+ });
+ }
+
+ function install$6(registers) {
+ // In case developer forget to include grid component
+ use(install$5);
+ registers.registerSeriesModel(ScatterSeriesModel);
+ registers.registerChartView(ScatterView);
+ registers.registerLayout(pointsLayout('scatter'));
+ }
+
+ function radarLayout(ecModel) {
+ ecModel.eachSeriesByType('radar', function (seriesModel) {
+ var data = seriesModel.getData();
+ var points = [];
+ var coordSys = seriesModel.coordinateSystem;
+ if (!coordSys) {
+ return;
+ }
+ var axes = coordSys.getIndicatorAxes();
+ each(axes, function (axis, axisIndex) {
+ data.each(data.mapDimension(axes[axisIndex].dim), function (val, dataIndex) {
+ points[dataIndex] = points[dataIndex] || [];
+ var point = coordSys.dataToPoint(val, axisIndex);
+ points[dataIndex][axisIndex] = isValidPoint(point) ? point : getValueMissingPoint(coordSys);
+ });
+ });
+ // Close polygon
+ data.each(function (idx) {
+ // TODO
+ // Is it appropriate to connect to the next data when some data is missing?
+ // Or, should trade it like `connectNull` in line chart?
+ var firstPoint = find(points[idx], function (point) {
+ return isValidPoint(point);
+ }) || getValueMissingPoint(coordSys);
+ // Copy the first actual point to the end of the array
+ points[idx].push(firstPoint.slice());
+ data.setItemLayout(idx, points[idx]);
+ });
+ });
+ }
+ function isValidPoint(point) {
+ return !isNaN(point[0]) && !isNaN(point[1]);
+ }
+ function getValueMissingPoint(coordSys) {
+ // It is error-prone to input [NaN, NaN] into polygon, polygon.
+ // (probably cause problem when refreshing or animating)
+ return [coordSys.cx, coordSys.cy];
+ }
+
+ function radarBackwardCompat(option) {
+ var polarOptArr = option.polar;
+ if (polarOptArr) {
+ if (!isArray(polarOptArr)) {
+ polarOptArr = [polarOptArr];
+ }
+ var polarNotRadar_1 = [];
+ each(polarOptArr, function (polarOpt, idx) {
+ if (polarOpt.indicator) {
+ if (polarOpt.type && !polarOpt.shape) {
+ polarOpt.shape = polarOpt.type;
+ }
+ option.radar = option.radar || [];
+ if (!isArray(option.radar)) {
+ option.radar = [option.radar];
+ }
+ option.radar.push(polarOpt);
+ } else {
+ polarNotRadar_1.push(polarOpt);
+ }
+ });
+ option.polar = polarNotRadar_1;
+ }
+ each(option.series, function (seriesOpt) {
+ if (seriesOpt && seriesOpt.type === 'radar' && seriesOpt.polarIndex) {
+ seriesOpt.radarIndex = seriesOpt.polarIndex;
+ }
+ });
+ }
+
+ var RadarView = /** @class */function (_super) {
+ __extends(RadarView, _super);
+ function RadarView() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = RadarView.type;
+ return _this;
+ }
+ RadarView.prototype.render = function (seriesModel, ecModel, api) {
+ var polar = seriesModel.coordinateSystem;
+ var group = this.group;
+ var data = seriesModel.getData();
+ var oldData = this._data;
+ function createSymbol$1(data, idx) {
+ var symbolType = data.getItemVisual(idx, 'symbol') || 'circle';
+ if (symbolType === 'none') {
+ return;
+ }
+ var symbolSize = normalizeSymbolSize(data.getItemVisual(idx, 'symbolSize'));
+ var symbolPath = createSymbol(symbolType, -1, -1, 2, 2);
+ var symbolRotate = data.getItemVisual(idx, 'symbolRotate') || 0;
+ symbolPath.attr({
+ style: {
+ strokeNoScale: true
+ },
+ z2: 100,
+ scaleX: symbolSize[0] / 2,
+ scaleY: symbolSize[1] / 2,
+ rotation: symbolRotate * Math.PI / 180 || 0
+ });
+ return symbolPath;
+ }
+ function updateSymbols(oldPoints, newPoints, symbolGroup, data, idx, isInit) {
+ // Simply rerender all
+ symbolGroup.removeAll();
+ for (var i = 0; i < newPoints.length - 1; i++) {
+ var symbolPath = createSymbol$1(data, idx);
+ if (symbolPath) {
+ symbolPath.__dimIdx = i;
+ if (oldPoints[i]) {
+ symbolPath.setPosition(oldPoints[i]);
+ graphic[isInit ? 'initProps' : 'updateProps'](symbolPath, {
+ x: newPoints[i][0],
+ y: newPoints[i][1]
+ }, seriesModel, idx);
+ } else {
+ symbolPath.setPosition(newPoints[i]);
+ }
+ symbolGroup.add(symbolPath);
+ }
+ }
+ }
+ function getInitialPoints(points) {
+ return map(points, function (pt) {
+ return [polar.cx, polar.cy];
+ });
+ }
+ data.diff(oldData).add(function (idx) {
+ var points = data.getItemLayout(idx);
+ if (!points) {
+ return;
+ }
+ var polygon = new Polygon();
+ var polyline = new Polyline();
+ var target = {
+ shape: {
+ points: points
+ }
+ };
+ polygon.shape.points = getInitialPoints(points);
+ polyline.shape.points = getInitialPoints(points);
+ initProps(polygon, target, seriesModel, idx);
+ initProps(polyline, target, seriesModel, idx);
+ var itemGroup = new Group();
+ var symbolGroup = new Group();
+ itemGroup.add(polyline);
+ itemGroup.add(polygon);
+ itemGroup.add(symbolGroup);
+ updateSymbols(polyline.shape.points, points, symbolGroup, data, idx, true);
+ data.setItemGraphicEl(idx, itemGroup);
+ }).update(function (newIdx, oldIdx) {
+ var itemGroup = oldData.getItemGraphicEl(oldIdx);
+ var polyline = itemGroup.childAt(0);
+ var polygon = itemGroup.childAt(1);
+ var symbolGroup = itemGroup.childAt(2);
+ var target = {
+ shape: {
+ points: data.getItemLayout(newIdx)
+ }
+ };
+ if (!target.shape.points) {
+ return;
+ }
+ updateSymbols(polyline.shape.points, target.shape.points, symbolGroup, data, newIdx, false);
+ saveOldStyle(polygon);
+ saveOldStyle(polyline);
+ updateProps(polyline, target, seriesModel);
+ updateProps(polygon, target, seriesModel);
+ data.setItemGraphicEl(newIdx, itemGroup);
+ }).remove(function (idx) {
+ group.remove(oldData.getItemGraphicEl(idx));
+ }).execute();
+ data.eachItemGraphicEl(function (itemGroup, idx) {
+ var itemModel = data.getItemModel(idx);
+ var polyline = itemGroup.childAt(0);
+ var polygon = itemGroup.childAt(1);
+ var symbolGroup = itemGroup.childAt(2);
+ // Radar uses the visual encoded from itemStyle.
+ var itemStyle = data.getItemVisual(idx, 'style');
+ var color = itemStyle.fill;
+ group.add(itemGroup);
+ polyline.useStyle(defaults(itemModel.getModel('lineStyle').getLineStyle(), {
+ fill: 'none',
+ stroke: color
+ }));
+ setStatesStylesFromModel(polyline, itemModel, 'lineStyle');
+ setStatesStylesFromModel(polygon, itemModel, 'areaStyle');
+ var areaStyleModel = itemModel.getModel('areaStyle');
+ var polygonIgnore = areaStyleModel.isEmpty() && areaStyleModel.parentModel.isEmpty();
+ polygon.ignore = polygonIgnore;
+ each(['emphasis', 'select', 'blur'], function (stateName) {
+ var stateModel = itemModel.getModel([stateName, 'areaStyle']);
+ var stateIgnore = stateModel.isEmpty() && stateModel.parentModel.isEmpty();
+ // Won't be ignore if normal state is not ignore.
+ polygon.ensureState(stateName).ignore = stateIgnore && polygonIgnore;
+ });
+ polygon.useStyle(defaults(areaStyleModel.getAreaStyle(), {
+ fill: color,
+ opacity: 0.7,
+ decal: itemStyle.decal
+ }));
+ var emphasisModel = itemModel.getModel('emphasis');
+ var itemHoverStyle = emphasisModel.getModel('itemStyle').getItemStyle();
+ symbolGroup.eachChild(function (symbolPath) {
+ if (symbolPath instanceof ZRImage) {
+ var pathStyle = symbolPath.style;
+ symbolPath.useStyle(extend({
+ // TODO other properties like x, y ?
+ image: pathStyle.image,
+ x: pathStyle.x,
+ y: pathStyle.y,
+ width: pathStyle.width,
+ height: pathStyle.height
+ }, itemStyle));
+ } else {
+ symbolPath.useStyle(itemStyle);
+ symbolPath.setColor(color);
+ symbolPath.style.strokeNoScale = true;
+ }
+ var pathEmphasisState = symbolPath.ensureState('emphasis');
+ pathEmphasisState.style = clone(itemHoverStyle);
+ var defaultText = data.getStore().get(data.getDimensionIndex(symbolPath.__dimIdx), idx);
+ (defaultText == null || isNaN(defaultText)) && (defaultText = '');
+ setLabelStyle(symbolPath, getLabelStatesModels(itemModel), {
+ labelFetcher: data.hostModel,
+ labelDataIndex: idx,
+ labelDimIndex: symbolPath.__dimIdx,
+ defaultText: defaultText,
+ inheritColor: color,
+ defaultOpacity: itemStyle.opacity
+ });
+ });
+ toggleHoverEmphasis(itemGroup, emphasisModel.get('focus'), emphasisModel.get('blurScope'), emphasisModel.get('disabled'));
+ });
+ this._data = data;
+ };
+ RadarView.prototype.remove = function () {
+ this.group.removeAll();
+ this._data = null;
+ };
+ RadarView.type = 'radar';
+ return RadarView;
+ }(ChartView);
+
+ var RadarSeriesModel = /** @class */function (_super) {
+ __extends(RadarSeriesModel, _super);
+ function RadarSeriesModel() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = RadarSeriesModel.type;
+ _this.hasSymbolVisual = true;
+ return _this;
+ }
+ // Overwrite
+ RadarSeriesModel.prototype.init = function (option) {
+ _super.prototype.init.apply(this, arguments);
+ // Enable legend selection for each data item
+ // Use a function instead of direct access because data reference may changed
+ this.legendVisualProvider = new LegendVisualProvider(bind(this.getData, this), bind(this.getRawData, this));
+ };
+ RadarSeriesModel.prototype.getInitialData = function (option, ecModel) {
+ return createSeriesDataSimply(this, {
+ generateCoord: 'indicator_',
+ generateCoordCount: Infinity
+ });
+ };
+ RadarSeriesModel.prototype.formatTooltip = function (dataIndex, multipleSeries, dataType) {
+ var data = this.getData();
+ var coordSys = this.coordinateSystem;
+ var indicatorAxes = coordSys.getIndicatorAxes();
+ var name = this.getData().getName(dataIndex);
+ var nameToDisplay = name === '' ? this.name : name;
+ var markerColor = retrieveVisualColorForTooltipMarker(this, dataIndex);
+ return createTooltipMarkup('section', {
+ header: nameToDisplay,
+ sortBlocks: true,
+ blocks: map(indicatorAxes, function (axis) {
+ var val = data.get(data.mapDimension(axis.dim), dataIndex);
+ return createTooltipMarkup('nameValue', {
+ markerType: 'subItem',
+ markerColor: markerColor,
+ name: axis.name,
+ value: val,
+ sortParam: val
+ });
+ })
+ });
+ };
+ RadarSeriesModel.prototype.getTooltipPosition = function (dataIndex) {
+ if (dataIndex != null) {
+ var data_1 = this.getData();
+ var coordSys = this.coordinateSystem;
+ var values = data_1.getValues(map(coordSys.dimensions, function (dim) {
+ return data_1.mapDimension(dim);
+ }), dataIndex);
+ for (var i = 0, len = values.length; i < len; i++) {
+ if (!isNaN(values[i])) {
+ var indicatorAxes = coordSys.getIndicatorAxes();
+ return coordSys.coordToPoint(indicatorAxes[i].dataToCoord(values[i]), i);
+ }
+ }
+ }
+ };
+ RadarSeriesModel.type = 'series.radar';
+ RadarSeriesModel.dependencies = ['radar'];
+ RadarSeriesModel.defaultOption = {
+ // zlevel: 0,
+ z: 2,
+ colorBy: 'data',
+ coordinateSystem: 'radar',
+ legendHoverLink: true,
+ radarIndex: 0,
+ lineStyle: {
+ width: 2,
+ type: 'solid',
+ join: 'round'
+ },
+ label: {
+ position: 'top'
+ },
+ // areaStyle: {
+ // },
+ // itemStyle: {}
+ symbolSize: 8
+ // symbolRotate: null
+ };
+
+ return RadarSeriesModel;
+ }(SeriesModel);
+
+ var valueAxisDefault = axisDefault.value;
+ function defaultsShow(opt, show) {
+ return defaults({
+ show: show
+ }, opt);
+ }
+ var RadarModel = /** @class */function (_super) {
+ __extends(RadarModel, _super);
+ function RadarModel() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = RadarModel.type;
+ return _this;
+ }
+ RadarModel.prototype.optionUpdated = function () {
+ var boundaryGap = this.get('boundaryGap');
+ var splitNumber = this.get('splitNumber');
+ var scale = this.get('scale');
+ var axisLine = this.get('axisLine');
+ var axisTick = this.get('axisTick');
+ // let axisType = this.get('axisType');
+ var axisLabel = this.get('axisLabel');
+ var nameTextStyle = this.get('axisName');
+ var showName = this.get(['axisName', 'show']);
+ var nameFormatter = this.get(['axisName', 'formatter']);
+ var nameGap = this.get('axisNameGap');
+ var triggerEvent = this.get('triggerEvent');
+ var indicatorModels = map(this.get('indicator') || [], function (indicatorOpt) {
+ // PENDING
+ if (indicatorOpt.max != null && indicatorOpt.max > 0 && !indicatorOpt.min) {
+ indicatorOpt.min = 0;
+ } else if (indicatorOpt.min != null && indicatorOpt.min < 0 && !indicatorOpt.max) {
+ indicatorOpt.max = 0;
+ }
+ var iNameTextStyle = nameTextStyle;
+ if (indicatorOpt.color != null) {
+ iNameTextStyle = defaults({
+ color: indicatorOpt.color
+ }, nameTextStyle);
+ }
+ // Use same configuration
+ var innerIndicatorOpt = merge(clone(indicatorOpt), {
+ boundaryGap: boundaryGap,
+ splitNumber: splitNumber,
+ scale: scale,
+ axisLine: axisLine,
+ axisTick: axisTick,
+ // axisType: axisType,
+ axisLabel: axisLabel,
+ // Compatible with 2 and use text
+ name: indicatorOpt.text,
+ showName: showName,
+ nameLocation: 'end',
+ nameGap: nameGap,
+ // min: 0,
+ nameTextStyle: iNameTextStyle,
+ triggerEvent: triggerEvent
+ }, false);
+ if (isString(nameFormatter)) {
+ var indName = innerIndicatorOpt.name;
+ innerIndicatorOpt.name = nameFormatter.replace('{value}', indName != null ? indName : '');
+ } else if (isFunction(nameFormatter)) {
+ innerIndicatorOpt.name = nameFormatter(innerIndicatorOpt.name, innerIndicatorOpt);
+ }
+ var model = new Model(innerIndicatorOpt, null, this.ecModel);
+ mixin(model, AxisModelCommonMixin.prototype);
+ // For triggerEvent.
+ model.mainType = 'radar';
+ model.componentIndex = this.componentIndex;
+ return model;
+ }, this);
+ this._indicatorModels = indicatorModels;
+ };
+ RadarModel.prototype.getIndicatorModels = function () {
+ return this._indicatorModels;
+ };
+ RadarModel.type = 'radar';
+ RadarModel.defaultOption = {
+ // zlevel: 0,
+ z: 0,
+ center: ['50%', '50%'],
+ radius: '75%',
+ startAngle: 90,
+ axisName: {
+ show: true
+ // formatter: null
+ // textStyle: {}
+ },
+
+ boundaryGap: [0, 0],
+ splitNumber: 5,
+ axisNameGap: 15,
+ scale: false,
+ // Polygon or circle
+ shape: 'polygon',
+ axisLine: merge({
+ lineStyle: {
+ color: '#bbb'
+ }
+ }, valueAxisDefault.axisLine),
+ axisLabel: defaultsShow(valueAxisDefault.axisLabel, false),
+ axisTick: defaultsShow(valueAxisDefault.axisTick, false),
+ // axisType: 'value',
+ splitLine: defaultsShow(valueAxisDefault.splitLine, true),
+ splitArea: defaultsShow(valueAxisDefault.splitArea, true),
+ // {text, min, max}
+ indicator: []
+ };
+ return RadarModel;
+ }(ComponentModel);
+
+ var axisBuilderAttrs$1 = ['axisLine', 'axisTickLabel', 'axisName'];
+ var RadarView$1 = /** @class */function (_super) {
+ __extends(RadarView, _super);
+ function RadarView() {
+ var _this = _super !== null && _super.apply(this, arguments) || this;
+ _this.type = RadarView.type;
+ return _this;
+ }
+ RadarView.prototype.render = function (radarModel, ecModel, api) {
+ var group = this.group;
+ group.removeAll();
+ this._buildAxes(radarModel);
+ this._buildSplitLineAndArea(radarModel);
+ };
+ RadarView.prototype._buildAxes = function (radarModel) {
+ var radar = radarModel.coordinateSystem;
+ var indicatorAxes = radar.getIndicatorAxes();
+ var axisBuilders = map(indicatorAxes, function (indicatorAxis) {
+ var axisName = indicatorAxis.model.get('showName') ? indicatorAxis.name : ''; // hide name
+ var axisBuilder = new AxisBuilder(indicatorAxis.model, {
+ axisName: axisName,
+ position: [radar.cx, radar.cy],
+ rotation: indicatorAxis.angle,
+ labelDirection: -1,
+ tickDirection: -1,
+ nameDirection: 1
+ });
+ return axisBuilder;
+ });
+ each(axisBuilders, function (axisBuilder) {
+ each(axisBuilderAttrs$1, axisBuilder.add, axisBuilder);
+ this.group.add(axisBuilder.getGroup());
+ }, this);
+ };
+ RadarView.prototype._buildSplitLineAndArea = function (radarModel) {
+ var radar = radarModel.coordinateSystem;
+ var indicatorAxes = radar.getIndicatorAxes();
+ if (!indicatorAxes.length) {
+ return;
+ }
+ var shape = radarModel.get('shape');
+ var splitLineModel = radarModel.getModel('splitLine');
+ var splitAreaModel = radarModel.getModel('splitArea');
+ var lineStyleModel = splitLineModel.getModel('lineStyle');
+ var areaStyleModel = splitAreaModel.getModel('areaStyle');
+ var showSplitLine = splitLineModel.get('show');
+ var showSplitArea = splitAreaModel.get('show');
+ var splitLineColors = lineStyleModel.get('color');
+ var splitAreaColors = areaStyleModel.get('color');
+ var splitLineColorsArr = isArray(splitLineColors) ? splitLineColors : [splitLineColors];
+ var splitAreaColorsArr = isArray(splitAreaColors) ? splitAreaColors : [splitAreaColors];
+ var splitLines = [];
+ var splitAreas = [];
+ function getColorIndex(areaOrLine, areaOrLineColorList, idx) {
+ var colorIndex = idx % areaOrLineColorList.length;
+ areaOrLine[colorIndex] = areaOrLine[colorIndex] || [];
+ return colorIndex;
+ }
+ if (shape === 'circle') {
+ var ticksRadius = indicatorAxes[0].getTicksCoords();
+ var cx = radar.cx;
+ var cy = radar.cy;
+ for (var i = 0; i < ticksRadius.length; i++) {
+ if (showSplitLine) {
+ var colorIndex = getColorIndex(splitLines, splitLineColorsArr, i);
+ splitLines[colorIndex].push(new Circle({
+ shape: {
+ cx: cx,
+ cy: cy,
+ r: ticksRadius[i].coord
+ }
+ }));
+ }
+ if (showSplitArea && i < ticksRadius.length - 1) {
+ var colorIndex = getColorIndex(splitAreas, splitAreaColorsArr, i);
+ splitAreas[colorIndex].push(new Ring({
+ shape: {
+ cx: cx,
+ cy: cy,
+ r0: ticksRadius[i].coord,
+ r: ticksRadius[i + 1].coord
+ }
+ }));
+ }
+ }
+ }
+ // Polyyon
+ else {
+ var realSplitNumber_1;
+ var axesTicksPoints = map(indicatorAxes, function (indicatorAxis, idx) {
+ var ticksCoords = indicatorAxis.getTicksCoords();
+ realSplitNumber_1 = realSplitNumber_1 == null ? ticksCoords.length - 1 : Math.min(ticksCoords.length - 1, realSplitNumber_1);
+ return map(ticksCoords, function (tickCoord) {
+ return radar.coordToPoint(tickCoord.coord, idx);
+ });
+ });
+ var prevPoints = [];
+ for (var i = 0; i <= realSplitNumber_1; i++) {
+ var points = [];
+ for (var j = 0; j < indicatorAxes.length; j++) {
+ points.push(axesTicksPoints[j][i]);
+ }
+ // Close
+ if (points[0]) {
+ points.push(points[0].slice());
+ } else {
+ if ("development" !== 'production') {
+ console.error('Can\'t draw value axis ' + i);
+ }
+ }
+ if (showSplitLine) {
+ var colorIndex = getColorIndex(splitLines, splitLineColorsArr, i);
+ splitLines[colorIndex].push(new Polyline({
+ shape: {
+ points: points
+ }
+ }));
+ }
+ if (showSplitArea && prevPoints) {
+ var colorIndex = getColorIndex(splitAreas, splitAreaColorsArr, i - 1);
+ splitAreas[colorIndex].push(new Polygon({
+ shape: {
+ points: points.concat(prevPoints)
+ }
+ }));
+ }
+ prevPoints = points.slice().reverse();
+ }
+ }
+ var lineStyle = lineStyleModel.getLineStyle();
+ var areaStyle = areaStyleModel.getAreaStyle();
+ // Add splitArea before splitLine
+ each(splitAreas, function (splitAreas, idx) {
+ this.group.add(mergePath$1(splitAreas, {
+ style: defaults({
+ stroke: 'none',
+ fill: splitAreaColorsArr[idx % splitAreaColorsArr.length]
+ }, areaStyle),
+ silent: true
+ }));
+ }, this);
+ each(splitLines, function (splitLines, idx) {
+ this.group.add(mergePath$1(splitLines, {
+ style: defaults({
+ fill: 'none',
+ stroke: splitLineColorsArr[idx % splitLineColorsArr.length]
+ }, lineStyle),
+ silent: true
+ }));
+ }, this);
+ };
+ RadarView.type = 'radar';
+ return RadarView;
+ }(ComponentView);
+
+ var IndicatorAxis = /** @class */function (_super) {
+ __extends(IndicatorAxis, _super);
+ function IndicatorAxis(dim, scale, radiusExtent) {
+ var _this = _super.call(this, dim, scale, radiusExtent) || this;
+ _this.type = 'value';
+ _this.angle = 0;
+ _this.name = '';
+ return _this;
+ }
+ return IndicatorAxis;
+ }(Axis);
+
+ var Radar = /** @class */function () {
+ function Radar(radarModel, ecModel, api) {
+ /**
+ *
+ * Radar dimensions
+ */
+ this.dimensions = [];
+ this._model = radarModel;
+ this._indicatorAxes = map(radarModel.getIndicatorModels(), function (indicatorModel, idx) {
+ var dim = 'indicator_' + idx;
+ var indicatorAxis = new IndicatorAxis(dim, new IntervalScale()
+ // (indicatorModel.get('axisType') === 'log') ? new LogScale() : new IntervalScale()
+ );
+
+ indicatorAxis.name = indicatorModel.get('name');
+ // Inject model and axis
+ indicatorAxis.model = indicatorModel;
+ indicatorModel.axis = indicatorAxis;
+ this.dimensions.push(dim);
+ return indicatorAxis;
+ }, this);
+ this.resize(radarModel, api);
+ }
+ Radar.prototype.getIndicatorAxes = function () {
+ return this._indicatorAxes;
+ };
+ Radar.prototype.dataToPoint = function (value, indicatorIndex) {
+ var indicatorAxis = this._indicatorAxes[indicatorIndex];
+ return this.coordToPoint(indicatorAxis.dataToCoord(value), indicatorIndex);
+ };
+ // TODO: API should be coordToPoint([coord, indicatorIndex])
+ Radar.prototype.coordToPoint = function (coord, indicatorIndex) {
+ var indicatorAxis = this._indicatorAxes[indicatorIndex];
+ var angle = indicatorAxis.angle;
+ var x = this.cx + coord * Math.cos(angle);
+ var y = this.cy - coord * Math.sin(angle);
+ return [x, y];
+ };
+ Radar.prototype.pointToData = function (pt) {
+ var dx = pt[0] - this.cx;
+ var dy = pt[1] - this.cy;
+ var radius = Math.sqrt(dx * dx + dy * dy);
+ dx /= radius;
+ dy /= radius;
+ var radian = Math.atan2(-dy, dx);
+ // Find the closest angle
+ // FIXME index can calculated directly
+ var minRadianDiff = Infinity;
+ var closestAxis;
+ var closestAxisIdx = -1;
+ for (var i = 0; i < this._indicatorAxes.length; i++) {
+ var indicatorAxis = this._indicatorAxes[i];
+ var diff = Math.abs(radian - indicatorAxis.angle);
+ if (diff < minRadianDiff) {
+ closestAxis = indicatorAxis;
+ closestAxisIdx = i;
+ minRadianDiff = diff;
+ }
+ }
+ return [closestAxisIdx, +(closestAxis && closestAxis.coordToData(radius))];
+ };
+ Radar.prototype.resize = function (radarModel, api) {
+ var center = radarModel.get('center');
+ var viewWidth = api.getWidth();
+ var viewHeight = api.getHeight();
+ var viewSize = Math.min(viewWidth, viewHeight) / 2;
+ this.cx = parsePercent$1(center[0], viewWidth);
+ this.cy = parsePercent$1(center[1], viewHeight);
+ this.startAngle = radarModel.get('startAngle') * Math.PI / 180;
+ // radius may be single value like `20`, `'80%'`, or array like `[10, '80%']`
+ var radius = radarModel.get('radius');
+ if (isString(radius) || isNumber(radius)) {
+ radius = [0, radius];
+ }
+ this.r0 = parsePercent$1(radius[0], viewSize);
+ this.r = parsePercent$1(radius[1], viewSize);
+ each(this._indicatorAxes, function (indicatorAxis, idx) {
+ indicatorAxis.setExtent(this.r0, this.r);
+ var angle = this.startAngle + idx * Math.PI * 2 / this._indicatorAxes.length;
+ // Normalize to [-PI, PI]
+ angle = Math.atan2(Math.sin(angle), Math.cos(angle));
+ indicatorAxis.angle = angle;
+ }, this);
+ };
+ Radar.prototype.update = function (ecModel, api) {
+ var indicatorAxes = this._indicatorAxes;
+ var radarModel = this._model;
+ each(indicatorAxes, function (indicatorAxis) {
+ indicatorAxis.scale.setExtent(Infinity, -Infinity);
+ });
+ ecModel.eachSeriesByType('radar', function (radarSeries, idx) {
+ if (radarSeries.get('coordinateSystem') !== 'radar'
+ // @ts-ignore
+ || ecModel.getComponent('radar', radarSeries.get('radarIndex')) !== radarModel) {
+ return;
+ }
+ var data = radarSeries.getData();
+ each(indicatorAxes, function (indicatorAxis) {
+ indicatorAxis.scale.unionExtentFromData(data, data.mapDimension(indicatorAxis.dim));
+ });
+ }, this);
+ var splitNumber = radarModel.get('splitNumber');
+ var dummyScale = new IntervalScale();
+ dummyScale.setExtent(0, splitNumber);
+ dummyScale.setInterval(1);
+ // Force all the axis fixing the maxSplitNumber.
+ each(indicatorAxes, function (indicatorAxis, idx) {
+ alignScaleTicks(indicatorAxis.scale, indicatorAxis.model, dummyScale);
+ });
+ };
+ Radar.prototype.convertToPixel = function (ecModel, finder, value) {
+ console.warn('Not implemented.');
+ return null;
+ };
+ Radar.prototype.convertFromPixel = function (ecModel, finder, pixel) {
+ console.warn('Not implemented.');
+ return null;
+ };
+ Radar.prototype.containPoint = function (point) {
+ console.warn('Not implemented.');
+ return false;
+ };
+ Radar.create = function (ecModel, api) {
+ var radarList = [];
+ ecModel.eachComponent('radar', function (radarModel) {
+ var radar = new Radar(radarModel, ecModel, api);
+ radarList.push(radar);
+ radarModel.coordinateSystem = radar;
+ });
+ ecModel.eachSeriesByType('radar', function (radarSeries) {
+ if (radarSeries.get('coordinateSystem') === 'radar') {
+ // Inject coordinate system
+ // @ts-ignore
+ radarSeries.coordinateSystem = radarList[radarSeries.get('radarIndex') || 0];
+ }
+ });
+ return radarList;
+ };
+ /**
+ * Radar dimensions is based on the data
+ */
+ Radar.dimensions = [];
+ return Radar;
+ }();
+
+ function install$7(registers) {
+ registers.registerCoordinateSystem('radar', Radar);
+ registers.registerComponentModel(RadarModel);
+ registers.registerComponentView(RadarView$1);
+ registers.registerVisual({
+ seriesType: 'radar',
+ reset: function (seriesModel) {
+ var data = seriesModel.getData();
+ // itemVisual symbol is for selected data
+ data.each(function (idx) {
+ data.setItemVisual(idx, 'legendIcon', 'roundRect');
+ });
+ // visual is for unselected data
+ data.setVisual('legendIcon', 'roundRect');
+ }
+ });
+ }
+
+ function install$8(registers) {
+ use(install$7);
+ registers.registerChartView(RadarView);
+ registers.registerSeriesModel(RadarSeriesModel);
+ registers.registerLayout(radarLayout);
+ registers.registerProcessor(dataFilter('radar'));
+ registers.registerPreprocessor(radarBackwardCompat);
+ }
+
+ var ATTR = '\0_ec_interaction_mutex';
+ function take(zr, resourceKey, userKey) {
+ var store = getStore(zr);
+ store[resourceKey] = userKey;
+ }
+ function release(zr, resourceKey, userKey) {
+ var store = getStore(zr);
+ var uKey = store[resourceKey];
+ if (uKey === userKey) {
+ store[resourceKey] = null;
+ }
+ }
+ function isTaken(zr, resourceKey) {
+ return !!getStore(zr)[resourceKey];
+ }
+ function getStore(zr) {
+ return zr[ATTR] || (zr[ATTR] = {});
+ }
+ /**
+ * payload: {
+ * type: 'takeGlobalCursor',
+ * key: 'dataZoomSelect', or 'brush', or ...,
+ * If no userKey, release global cursor.
+ * }
+ */
+ // TODO: SELF REGISTERED.
+ registerAction({
+ type: 'takeGlobalCursor',
+ event: 'globalCursorTaken',
+ update: 'update'
+ }, noop);
+
+ var RoamController = /** @class */function (_super) {
+ __extends(RoamController, _super);
+ function RoamController(zr) {
+ var _this = _super.call(this) || this;
+ _this._zr = zr;
+ // Avoid two roamController bind the same handler
+ var mousedownHandler = bind(_this._mousedownHandler, _this);
+ var mousemoveHandler = bind(_this._mousemoveHandler, _this);
+ var mouseupHandler = bind(_this._mouseupHandler, _this);
+ var mousewheelHandler = bind(_this._mousewheelHandler, _this);
+ var pinchHandler = bind(_this._pinchHandler, _this);
+ /**
+ * Notice: only enable needed types. For example, if 'zoom'
+ * is not needed, 'zoom' should not be enabled, otherwise
+ * default mousewheel behaviour (scroll page) will be disabled.
+ */
+ _this.enable = function (controlType, opt) {
+ // Disable previous first
+ this.disable();
+ this._opt = defaults(clone(opt) || {}, {
+ zoomOnMouseWheel: true,
+ moveOnMouseMove: true,
+ // By default, wheel do not trigger move.
+ moveOnMouseWheel: false,
+ preventDefaultMouseMove: true
+ });
+ if (controlType == null) {
+ controlType = true;
+ }
+ if (controlType === true || controlType === 'move' || controlType === 'pan') {
+ zr.on('mousedown', mousedownHandler);
+ zr.on('mousemove', mousemoveHandler);
+ zr.on('mouseup', mouseupHandler);
+ }
+ if (controlType === true || controlType === 'scale' || controlType === 'zoom') {
+ zr.on('mousewheel', mousewheelHandler);
+ zr.on('pinch', pinchHandler);
+ }
+ };
+ _this.disable = function () {
+ zr.off('mousedown', mousedownHandler);
+ zr.off('mousemove', mousemoveHandler);
+ zr.off('mouseup', mouseupHandler);
+ zr.off('mousewheel', mousewheelHandler);
+ zr.off('pinch', pinchHandler);
+ };
+ return _this;
+ }
+ RoamController.prototype.isDragging = function () {
+ return this._dragging;
+ };
+ RoamController.prototype.isPinching = function () {
+ return this._pinching;
+ };
+ RoamController.prototype.setPointerChecker = function (pointerChecker) {
+ this.pointerChecker = pointerChecker;
+ };
+ RoamController.prototype.dispose = function () {
+ this.disable();
+ };
+ RoamController.prototype._mousedownHandler = function (e) {
+ if (isMiddleOrRightButtonOnMouseUpDown(e)) {
+ return;
+ }
+ var el = e.target;
+ while (el) {
+ if (el.draggable) {
+ return;
+ }
+ // check if host is draggable
+ el = el.__hostTarget || el.parent;
+ }
+ var x = e.offsetX;
+ var y = e.offsetY;
+ // Only check on mosedown, but not mousemove.
+ // Mouse can be out of target when mouse moving.
+ if (this.pointerChecker && this.pointerChecker(e, x, y)) {
+ this._x = x;
+ this._y = y;
+ this._dragging = true;
+ }
+ };
+ RoamController.prototype._mousemoveHandler = function (e) {
+ if (!this._dragging || !isAvailableBehavior('moveOnMouseMove', e, this._opt) || e.gestureEvent === 'pinch' || isTaken(this._zr, 'globalPan')) {
+ return;
+ }
+ var x = e.offsetX;
+ var y = e.offsetY;
+ var oldX = this._x;
+ var oldY = this._y;
+ var dx = x - oldX;
+ var dy = y - oldY;
+ this._x = x;
+ this._y = y;
+ this._opt.preventDefaultMouseMove && stop(e.event);
+ trigger(this, 'pan', 'moveOnMouseMove', e, {
+ dx: dx,
+ dy: dy,
+ oldX: oldX,
+ oldY: oldY,
+ newX: x,
+ newY: y,
+ isAvailableBehavior: null
+ });
+ };
+ RoamController.prototype._mouseupHandler = function (e) {
+ if (!isMiddleOrRightButtonOnMouseUpDown(e)) {
+ this._dragging = false;
+ }
+ };
+ RoamController.prototype._mousewheelHandler = function (e) {
+ var shouldZoom = isAvailableBehavior('zoomOnMouseWheel', e, this._opt);
+ var shouldMove = isAvailableBehavior('moveOnMouseWheel', e, this._opt);
+ var wheelDelta = e.wheelDelta;
+ var absWheelDeltaDelta = Math.abs(wheelDelta);
+ var originX = e.offsetX;
+ var originY = e.offsetY;
+ // wheelDelta maybe -0 in chrome mac.
+ if (wheelDelta === 0 || !shouldZoom && !shouldMove) {
+ return;
+ }
+ // If both `shouldZoom` and `shouldMove` is true, trigger
+ // their event both, and the final behavior is determined
+ // by event listener themselves.
+ if (shouldZoom) {
+ // Convenience:
+ // Mac and VM Windows on Mac: scroll up: zoom out.
+ // Windows: scroll up: zoom in.
+ // FIXME: Should do more test in different environment.
+ // wheelDelta is too complicated in difference nvironment
+ // (https://developer.mozilla.org/en-US/docs/Web/Events/mousewheel),
+ // although it has been normallized by zrender.
+ // wheelDelta of mouse wheel is bigger than touch pad.
+ var factor = absWheelDeltaDelta > 3 ? 1.4 : absWheelDeltaDelta > 1 ? 1.2 : 1.1;
+ var scale = wheelDelta > 0 ? factor : 1 / factor;
+ checkPointerAndTrigger(this, 'zoom', 'zoomOnMouseWheel', e, {
+ scale: scale,
+ originX: originX,
+ originY: originY,
+ isAvailableBehavior: null
+ });
+ }
+ if (shouldMove) {
+ // FIXME: Should do more test in different environment.
+ var absDelta = Math.abs(wheelDelta);
+ // wheelDelta of mouse wheel is bigger than touch pad.
+ var scrollDelta = (wheelDelta > 0 ? 1 : -1) * (absDelta > 3 ? 0.4 : absDelta > 1 ? 0.15 : 0.05);
+ checkPointerAndTrigger(this, 'scrollMove', 'moveOnMouseWheel', e, {
+ scrollDelta: scrollDelta,
+ originX: originX,
+ originY: originY,
+ isAvailableBehavior: null
+ });
+ }
+ };
+ RoamController.prototype._pinchHandler = function (e) {
+ if (isTaken(this._zr, 'globalPan')) {
+ return;
+ }
+ var scale = e.pinchScale > 1 ? 1.1 : 1 / 1.1;
+ checkPointerAndTrigger(this, 'zoom', null, e, {
+ scale: scale,
+ originX: e.pinchX,
+ originY: e.pinchY,
+ isAvailableBehavior: null
+ });
+ };
+ return RoamController;
+ }(Eventful);
+ function checkPointerAndTrigger(controller, eventName, behaviorToCheck, e, contollerEvent) {
+ if (controller.pointerChecker && controller.pointerChecker(e, contollerEvent.originX, contollerEvent.originY)) {
+ // When mouse is out of roamController rect,
+ // default befavoius should not be be disabled, otherwise
+ // page sliding is disabled, contrary to expectation.
+ stop(e.event);
+ trigger(controller, eventName, behaviorToCheck, e, contollerEvent);
+ }
+ }
+ function trigger(controller, eventName, behaviorToCheck, e, contollerEvent) {
+ // Also provide behavior checker for event listener, for some case that
+ // multiple components share one listener.
+ contollerEvent.isAvailableBehavior = bind(isAvailableBehavior, null, behaviorToCheck, e);
+ // TODO should not have type issue.
+ controller.trigger(eventName, contollerEvent);
+ }
+ // settings: {
+ // zoomOnMouseWheel
+ // moveOnMouseMove
+ // moveOnMouseWheel
+ // }
+ // The value can be: true / false / 'shift' / 'ctrl' / 'alt'.
+ function isAvailableBehavior(behaviorToCheck, e, settings) {
+ var setting = settings[behaviorToCheck];
+ return !behaviorToCheck || setting && (!isString(setting) || e.event[setting + 'Key']);
+ }
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+
+
+ /**
+ * AUTO-GENERATED FILE. DO NOT MODIFY.
+ */
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+ /**
+ * For geo and graph.
+ */
+ function updateViewOnPan(controllerHost, dx, dy) {
+ var target = controllerHost.target;
+ target.x += dx;
+ target.y += dy;
+ target.dirty();
+ }
+ /**
+ * For geo and graph.
+ */
+ function updateViewOnZoom(controllerHost, zoomDelta, zoomX, zoomY) {
+ var target = controllerHost.target;
+ var zoomLimit = controllerHost.zoomLimit;
+ var newZoom = controllerHost.zoom = controllerHost.zoom || 1;
+ newZoom *= zoomDelta;
+ if (zoomLimit) {
+ var zoomMin = zoomLimit.min || 0;
+ var zoomMax = zoomLimit.max || Infinity;
+ newZoom = Math.max(Math.min(zoomMax, newZoom), zoomMin);
+ }
+ var zoomScale = newZoom / controllerHost.zoom;
+ controllerHost.zoom = newZoom;
+ // Keep the mouse center when scaling
+ target.x -= (zoomX - target.x) * (zoomScale - 1);
+ target.y -= (zoomY - target.y) * (zoomScale - 1);
+ target.scaleX *= zoomScale;
+ target.scaleY *= zoomScale;
+ target.dirty();
+ }
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+
+
+ /**
+ * AUTO-GENERATED FILE. DO NOT MODIFY.
+ */
+
+ /*
+ * Licensed to the Apache Software Foundation (ASF) under one
+ * or more contributor license agreements. See the NOTICE file
+ * distributed with this work for additional information
+ * regarding copyright ownership. The ASF licenses this file
+ * to you under the Apache License, Version 2.0 (the
+ * "License"); you may not use this file except in compliance
+ * with the License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an
+ * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
+ * KIND, either express or implied. See the License for the
+ * specific language governing permissions and limitations
+ * under the License.
+ */
+ var IRRELEVANT_EXCLUDES = {
+ 'axisPointer': 1,
+ 'tooltip': 1,
+ 'brush': 1
+ };
+ /**
+ * Avoid that: mouse click on a elements that is over geo or graph,
+ * but roam is triggered.
+ */
+ function onIrrelevantElement(e, api, targetCoordSysModel) {
+ var model = api.getComponentByElement(e.topTarget);
+ // If model is axisModel, it works only if it is injected with coordinateSystem.
+ var coordSys = model && model.coordinateSystem;
+ return model && model !== targetCoordSysModel && !IRRELEVANT_EXCLUDES.hasOwnProperty(model.mainType) && coordSys && coordSys.model !== targetCoordSysModel;
+ }
+
+ function parseXML(svg) {
+ if (isString(svg)) {
+ var parser = new DOMParser();
+ svg = parser.parseFromString(svg, 'text/xml');
+ }
+ var svgNode = svg;
+ if (svgNode.nodeType === 9) {
+ svgNode = svgNode.firstChild;
+ }
+ while (svgNode.nodeName.toLowerCase() !== 'svg' || svgNode.nodeType !== 1) {
+ svgNode = svgNode.nextSibling;
+ }
+ return svgNode;
+ }
+
+ var nodeParsers;
+ var INHERITABLE_STYLE_ATTRIBUTES_MAP = {
+ 'fill': 'fill',
+ 'stroke': 'stroke',
+ 'stroke-width': 'lineWidth',
+ 'opacity': 'opacity',
+ 'fill-opacity': 'fillOpacity',
+ 'stroke-opacity': 'strokeOpacity',
+ 'stroke-dasharray': 'lineDash',
+ 'stroke-dashoffset': 'lineDashOffset',
+ 'stroke-linecap': 'lineCap',
+ 'stroke-linejoin': 'lineJoin',
+ 'stroke-miterlimit': 'miterLimit',
+ 'font-family': 'fontFamily',
+ 'font-size': 'fontSize',
+ 'font-style': 'fontStyle',
+ 'font-weight': 'fontWeight',
+ 'text-anchor': 'textAlign',
+ 'visibility': 'visibility',
+ 'display': 'display'
+ };
+ var INHERITABLE_STYLE_ATTRIBUTES_MAP_KEYS = keys(INHERITABLE_STYLE_ATTRIBUTES_MAP);
+ var SELF_STYLE_ATTRIBUTES_MAP = {
+ 'alignment-baseline': 'textBaseline',
+ 'stop-color': 'stopColor'
+ };
+ var SELF_STYLE_ATTRIBUTES_MAP_KEYS = keys(SELF_STYLE_ATTRIBUTES_MAP);
+ var SVGParser = (function () {
+ function SVGParser() {
+ this._defs = {};
+ this._root = null;
+ }
+ SVGParser.prototype.parse = function (xml, opt) {
+ opt = opt || {};
+ var svg = parseXML(xml);
+ if ("development" !== 'production') {
+ if (!svg) {
+ throw new Error('Illegal svg');
+ }
+ }
+ this._defsUsePending = [];
+ var root = new Group();
+ this._root = root;
+ var named = [];
+ var viewBox = svg.getAttribute('viewBox') || '';
+ var width = parseFloat((svg.getAttribute('width') || opt.width));
+ var height = parseFloat((svg.getAttribute('height') || opt.height));
+ isNaN(width) && (width = null);
+ isNaN(height) && (height = null);
+ parseAttributes(svg, root, null, true, false);
+ var child = svg.firstChild;
+ while (child) {
+ this._parseNode(child, root, named, null, false, false);
+ child = child.nextSibling;
+ }
+ applyDefs(this._defs, this._defsUsePending);
+ this._defsUsePending = [];
+ var viewBoxRect;
+ var viewBoxTransform;
+ if (viewBox) {
+ var viewBoxArr = splitNumberSequence(viewBox);
+ if (viewBoxArr.length >= 4) {
+ viewBoxRect = {
+ x: parseFloat((viewBoxArr[0] || 0)),
+ y: parseFloat((viewBoxArr[1] || 0)),
+ width: parseFloat(viewBoxArr[2]),
+ height: parseFloat(viewBoxArr[3])
+ };
+ }
+ }
+ if (viewBoxRect && width != null && height != null) {
+ viewBoxTransform = makeViewBoxTransform(viewBoxRect, { x: 0, y: 0, width: width, height: height });
+ if (!opt.ignoreViewBox) {
+ var elRoot = root;
+ root = new Group();
+ root.add(elRoot);
+ elRoot.scaleX = elRoot.scaleY = viewBoxTransform.scale;
+ elRoot.x = viewBoxTransform.x;
+ elRoot.y = viewBoxTransform.y;
+ }
+ }
+ if (!opt.ignoreRootClip && width != null && height != null) {
+ root.setClipPath(new Rect({
+ shape: { x: 0, y: 0, width: width, height: height }
+ }));
+ }
+ return {
+ root: root,
+ width: width,
+ height: height,
+ viewBoxRect: viewBoxRect,
+ viewBoxTransform: viewBoxTransform,
+ named: named
+ };
+ };
+ SVGParser.prototype._parseNode = function (xmlNode, parentGroup, named, namedFrom, isInDefs, isInText) {
+ var nodeName = xmlNode.nodeName.toLowerCase();
+ var el;
+ var namedFromForSub = namedFrom;
+ if (nodeName === 'defs') {
+ isInDefs = true;
+ }
+ if (nodeName === 'text') {
+ isInText = true;
+ }
+ if (nodeName === 'defs' || nodeName === 'switch') {
+ el = parentGroup;
+ }
+ else {
+ if (!isInDefs) {
+ var parser_1 = nodeParsers[nodeName];
+ if (parser_1 && hasOwn(nodeParsers, nodeName)) {
+ el = parser_1.call(this, xmlNode, parentGroup);
+ var nameAttr = xmlNode.getAttribute('name');
+ if (nameAttr) {
+ var newNamed = {
+ name: nameAttr,
+ namedFrom: null,
+ svgNodeTagLower: nodeName,
+ el: el
+ };
+ named.push(newNamed);
+ if (nodeName === 'g') {
+ namedFromForSub = newNamed;
+ }
+ }
+ else if (namedFrom) {
+ named.push({
+ name: namedFrom.name,
+ namedFrom: namedFrom,
+ svgNodeTagLower: nodeName,
+ el: el
+ });
+ }
+ parentGroup.add(el);
+ }
+ }
+ var parser = paintServerParsers[nodeName];
+ if (parser && hasOwn(paintServerParsers, nodeName)) {
+ var def = parser.call(this, xmlNode);
+ var id = xmlNode.getAttribute('id');
+ if (id) {
+ this._defs[id] = def;
+ }
+ }
+ }
+ if (el && el.isGroup) {
+ var child = xmlNode.firstChild;
+ while (child) {
+ if (child.nodeType === 1) {
+ this._parseNode(child, el, named, namedFromForSub, isInDefs, isInText);
+ }
+ else if (child.nodeType === 3 && isInText) {
+ this._parseText(child, el);
+ }
+ child = child.nextSibling;
+ }
+ }
+ };
+ SVGParser.prototype._parseText = function (xmlNode, parentGroup) {
+ var text = new TSpan({
+ style: {
+ text: xmlNode.textContent
+ },
+ silent: true,
+ x: this._textX || 0,
+ y: this._textY || 0
+ });
+ inheritStyle(parentGroup, text);
+ parseAttributes(xmlNode, text, this._defsUsePending, false, false);
+ applyTextAlignment(text, parentGroup);
+ var textStyle = text.style;
+ var fontSize = textStyle.fontSize;
+ if (fontSize && fontSize < 9) {
+ textStyle.fontSize = 9;
+ text.scaleX *= fontSize / 9;
+ text.scaleY *= fontSize / 9;
+ }
+ var font = (textStyle.fontSize || textStyle.fontFamily) && [
+ textStyle.fontStyle,
+ textStyle.fontWeight,
+ (textStyle.fontSize || 12) + 'px',
+ textStyle.fontFamily || 'sans-serif'
+ ].join(' ');
+ textStyle.font = font;
+ var rect = text.getBoundingRect();
+ this._textX += rect.width;
+ parentGroup.add(text);
+ return text;
+ };
+ SVGParser.internalField = (function () {
+ nodeParsers = {
+ 'g': function (xmlNode, parentGroup) {
+ var g = new Group();
+ inheritStyle(parentGroup, g);
+ parseAttributes(xmlNode, g, this._defsUsePending, false, false);
+ return g;
+ },
+ 'rect': function (xmlNode, parentGroup) {
+ var rect = new Rect();
+ inheritStyle(parentGroup, rect);
+ parseAttributes(xmlNode, rect, this._defsUsePending, false, false);
+ rect.setShape({
+ x: parseFloat(xmlNode.getAttribute('x') || '0'),
+ y: parseFloat(xmlNode.getAttribute('y') || '0'),
+ width: parseFloat(xmlNode.getAttribute('width') || '0'),
+ height: parseFloat(xmlNode.getAttribute('height') || '0')
+ });
+ rect.silent = true;
+ return rect;
+ },
+ 'circle': function (xmlNode, parentGroup) {
+ var circle = new Circle();
+ inheritStyle(parentGroup, circle);
+ parseAttributes(xmlNode, circle, this._defsUsePending, false, false);
+ circle.setShape({
+ cx: parseFloat(xmlNode.getAttribute('cx') || '0'),
+ cy: parseFloat(xmlNode.getAttribute('cy') || '0'),
+ r: parseFloat(xmlNode.getAttribute('r') || '0')
+ });
+ circle.silent = true;
+ return circle;
+ },
+ 'line': function (xmlNode, parentGroup) {
+ var line = new Line();
+ inheritStyle(parentGroup, line);
+ parseAttributes(xmlNode, line, this._defsUsePending, false, false);
+ line.setShape({
+ x1: parseFloat(xmlNode.getAttribute('x1') || '0'),
+ y1: parseFloat(xmlNode.getAttribute('y1') || '0'),
+ x2: parseFloat(xmlNode.getAttribute('x2') || '0'),
+ y2: parseFloat(xmlNode.getAttribute('y2') || '0')
+ });
+ line.silent = true;
+ return line;
+ },
+ 'ellipse': function (xmlNode, parentGroup) {
+ var ellipse = new Ellipse();
+ inheritStyle(parentGroup, ellipse);
+ parseAttributes(xmlNode, ellipse, this._defsUsePending, false, false);
+ ellipse.setShape({
+ cx: parseFloat(xmlNode.getAttribute('cx') || '0'),
+ cy: parseFloat(xmlNode.getAttribute('cy') || '0'),
+ rx: parseFloat(xmlNode.getAttribute('rx') || '0'),
+ ry: parseFloat(xmlNode.getAttribute('ry') || '0')
+ });
+ ellipse.silent = true;
+ return ellipse;
+ },
+ 'polygon': function (xmlNode, parentGroup) {
+ var pointsStr = xmlNode.getAttribute('points');
+ var pointsArr;
+ if (pointsStr) {
+ pointsArr = parsePoints(pointsStr);
+ }
+ var polygon = new Polygon({
+ shape: {
+ points: pointsArr || []
+ },
+ silent: true
+ });
+ inheritStyle(parentGroup, polygon);
+ parseAttributes(xmlNode, polygon, this._defsUsePending, false, false);
+ return polygon;
+ },
+ 'polyline': function (xmlNode, parentGroup) {
+ var pointsStr = xmlNode.getAttribute('points');
+ var pointsArr;
+ if (pointsStr) {
+ pointsArr = parsePoints(pointsStr);
+ }
+ var polyline = new Polyline({
+ shape: {
+ points: pointsArr || []
+ },
+ silent: true
+ });
+ inheritStyle(parentGroup, polyline);
+ parseAttributes(xmlNode, polyline, this._defsUsePending, false, false);
+ return polyline;
+ },
+ 'image': function (xmlNode, parentGroup) {
+ var img = new ZRImage();
+ inheritStyle(parentGroup, img);
+ parseAttributes(xmlNode, img, this._defsUsePending, false, false);
+ img.setStyle({
+ image: xmlNode.getAttribute('xlink:href') || xmlNode.getAttribute('href'),
+ x: +xmlNode.getAttribute('x'),
+ y: +xmlNode.getAttribute('y'),
+ width: +xmlNode.getAttribute('width'),
+ height: +xmlNode.getAttribute('height')
+ });
+ img.silent = true;
+ return img;
+ },
+ 'text': function (xmlNode, parentGroup) {
+ var x = xmlNode.getAttribute('x') || '0';
+ var y = xmlNode.getAttribute('y') || '0';
+ var dx = xmlNode.getAttribute('dx') || '0';
+ var dy = xmlNode.getAttribute('dy') || '0';
+ this._textX = parseFloat(x) + parseFloat(dx);
+ this._textY = parseFloat(y) + parseFloat(dy);
+ var g = new Group();
+ inheritStyle(parentGroup, g);
+ parseAttributes(xmlNode, g, this._defsUsePending, false, true);
+ return g;
+ },
+ 'tspan': function (xmlNode, parentGroup) {
+ var x = xmlNode.getAttribute('x');
+ var y = xmlNode.getAttribute('y');
+ if (x != null) {
+ this._textX = parseFloat(x);
+ }
+ if (y != null) {
+ this._textY = parseFloat(y);
+ }
+ var dx = xmlNode.getAttribute('dx') || '0';
+ var dy = xmlNode.getAttribute('dy') || '0';
+ var g = new Group();
+ inheritStyle(parentGroup, g);
+ parseAttributes(xmlNode, g, this._defsUsePending, false, true);
+ this._textX += parseFloat(dx);
+ this._textY += parseFloat(dy);
+ return g;
+ },
+ 'path': function (xmlNode, parentGroup) {
+ var d = xmlNode.getAttribute('d') || '';
+ var path = createFromString(d);
+ inheritStyle(parentGroup, path);
+ parseAttributes(xmlNode, path, this._defsUsePending, false, false);
+ path.silent = true;
+ return path;
+ }
+ };
+ })();
+ return SVGParser;
+ }());
+ var paintServerParsers = {
+ 'lineargradient': function (xmlNode) {
+ var x1 = parseInt(xmlNode.getAttribute('x1') || '0', 10);
+ var y1 = parseInt(xmlNode.getAttribute('y1') || '0', 10);
+ var x2 = parseInt(xmlNode.getAttribute('x2') || '10', 10);
+ var y2 = parseInt(xmlNode.getAttribute('y2') || '0', 10);
+ var gradient = new LinearGradient(x1, y1, x2, y2);
+ parsePaintServerUnit(xmlNode, gradient);
+ parseGradientColorStops(xmlNode, gradient);
+ return gradient;
+ },
+ 'radialgradient': function (xmlNode) {
+ var cx = parseInt(xmlNode.getAttribute('cx') || '0', 10);
+ var cy = parseInt(xmlNode.getAttribute('cy') || '0', 10);
+ var r = parseInt(xmlNode.getAttribute('r') || '0', 10);
+ var gradient = new RadialGradient(cx, cy, r);
+ parsePaintServerUnit(xmlNode, gradient);
+ parseGradientColorStops(xmlNode, gradient);
+ return gradient;
+ }
+ };
+ function parsePaintServerUnit(xmlNode, gradient) {
+ var gradientUnits = xmlNode.getAttribute('gradientUnits');
+ if (gradientUnits === 'userSpaceOnUse') {
+ gradient.global = true;
+ }
+ }
+ function parseGradientColorStops(xmlNode, gradient) {
+ var stop = xmlNode.firstChild;
+ while (stop) {
+ if (stop.nodeType === 1
+ && stop.nodeName.toLocaleLowerCase() === 'stop') {
+ var offsetStr = stop.getAttribute('offset');
+ var offset = void 0;
+ if (offsetStr && offsetStr.indexOf('%') > 0) {
+ offset = parseInt(offsetStr, 10) / 100;
+ }
+ else if (offsetStr) {
+ offset = parseFloat(offsetStr);
+ }
+ else {
+ offset = 0;
+ }
+ var styleVals = {};
+ parseInlineStyle(stop, styleVals, styleVals);
+ var stopColor = styleVals.stopColor
+ || stop.getAttribute('stop-color')
+ || '#000000';
+ gradient.colorStops.push({
+ offset: offset,
+ color: stopColor
+ });
+ }
+ stop = stop.nextSibling;
+ }
+ }
+ function inheritStyle(parent, child) {
+ if (parent && parent.__inheritedStyle) {
+ if (!child.__inheritedStyle) {
+ child.__inheritedStyle = {};
+ }
+ defaults(child.__inheritedStyle, parent.__inheritedStyle);
+ }
+ }
+ function parsePoints(pointsString) {
+ var list = splitNumberSequence(pointsString);
+ var points = [];
+ for (var i = 0; i < list.length; i += 2) {
+ var x = parseFloat(list[i]);
+ var y = parseFloat(list[i + 1]);
+ points.push([x, y]);
+ }
+ return points;
+ }
+ function parseAttributes(xmlNode, el, defsUsePending, onlyInlineStyle, isTextGroup) {
+ var disp = el;
+ var inheritedStyle = disp.__inheritedStyle = disp.__inheritedStyle || {};
+ var selfStyle = {};
+ if (xmlNode.nodeType === 1) {
+ parseTransformAttribute(xmlNode, el);
+ parseInlineStyle(xmlNode, inheritedStyle, selfStyle);
+ if (!onlyInlineStyle) {
+ parseAttributeStyle(xmlNode, inheritedStyle, selfStyle);
+ }
+ }
+ disp.style = disp.style || {};
+ if (inheritedStyle.fill != null) {
+ disp.style.fill = getFillStrokeStyle(disp, 'fill', inheritedStyle.fill, defsUsePending);
+ }
+ if (inheritedStyle.stroke != null) {
+ disp.style.stroke = getFillStrokeStyle(disp, 'stroke', inheritedStyle.stroke, defsUsePending);
+ }
+ each([
+ 'lineWidth', 'opacity', 'fillOpacity', 'strokeOpacity', 'miterLimit', 'fontSize'
+ ], function (propName) {
+ if (inheritedStyle[propName] != null) {
+ disp.style[propName] = parseFloat(inheritedStyle[propName]);
+ }
+ });
+ each([
+ 'lineDashOffset', 'lineCap', 'lineJoin', 'fontWeight', 'fontFamily', 'fontStyle', 'textAlign'
+ ], function (propName) {
+ if (inheritedStyle[propName] != null) {
+ disp.style[propName] = inheritedStyle[propName];
+ }
+ });
+ if (isTextGroup) {
+ disp.__selfStyle = selfStyle;
+ }
+ if (inheritedStyle.lineDash) {
+ disp.style.lineDash = map(splitNumberSequence(inheritedStyle.lineDash), function (str) {
+ return parseFloat(str);
+ });
+ }
+ if (inheritedStyle.visibility === 'hidden' || inheritedStyle.visibility === 'collapse') {
+ disp.invisible = true;
+ }
+ if (inheritedStyle.display === 'none') {
+ disp.ignore = true;
+ }
+ }
+ function applyTextAlignment(text, parentGroup) {
+ var parentSelfStyle = parentGroup.__selfStyle;
+ if (parentSelfStyle) {
+ var textBaseline = parentSelfStyle.textBaseline;
+ var zrTextBaseline = textBaseline;
+ if (!textBaseline || textBaseline === 'auto') {
+ zrTextBaseline = 'alphabetic';
+ }
+ else if (textBaseline === 'baseline') {
+ zrTextBaseline = 'alphabetic';
+ }
+ else if (textBaseline === 'before-edge' || textBaseline === 'text-before-edge') {
+ zrTextBaseline = 'top';
+ }
+ else if (textBaseline === 'after-edge' || textBaseline === 'text-after-edge') {
+ zrTextBaseline = 'bottom';
+ }
+ else if (textBaseline === 'central' || textBaseline === 'mathematical') {
+ zrTextBaseline = 'middle';
+ }
+ text.style.textBaseline = zrTextBaseline;
+ }
+ var parentInheritedStyle = parentGroup.__inheritedStyle;
+ if (parentInheritedStyle) {
+ var textAlign = parentInheritedStyle.textAlign;
+ var zrTextAlign = textAlign;
+ if (textAlign) {
+ if (textAlign === 'middle') {
+ zrTextAlign = 'center';
+ }
+ text.style.textAlign = zrTextAlign;
+ }
+ }
+ }
+ var urlRegex = /^url\(\s*#(.*?)\)/;
+ function getFillStrokeStyle(el, method, str, defsUsePending) {
+ var urlMatch = str && str.match(urlRegex);
+ if (urlMatch) {
+ var url = trim(urlMatch[1]);
+ defsUsePending.push([el, method, url]);
+ return;
+ }
+ if (str === 'none') {
+ str = null;
+ }
+ return str;
+ }
+ function applyDefs(defs, defsUsePending) {
+ for (var i = 0; i < defsUsePending.length; i++) {
+ var item = defsUsePending[i];
+ item[0].style[item[1]] = defs[item[2]];
+ }
+ }
+ var numberReg$1 = /-?([0-9]*\.)?[0-9]+([eE]-?[0-9]+)?/g;
+ function splitNumberSequence(rawStr) {
+ return rawStr.match(numberReg$1) || [];
+ }
+ var transformRegex = /(translate|scale|rotate|skewX|skewY|matrix)\(([\-\s0-9\.eE,]*)\)/g;
+ var DEGREE_TO_ANGLE = Math.PI / 180;
+ function parseTransformAttribute(xmlNode, node) {
+ var transform = xmlNode.getAttribute('transform');
+ if (transform) {
+ transform = transform.replace(/,/g, ' ');
+ var transformOps_1 = [];
+ var mt = null;
+ transform.replace(transformRegex, function (str, type, value) {
+ transformOps_1.push(type, value);
+ return '';
+ });
+ for (var i = transformOps_1.length - 1; i > 0; i -= 2) {
+ var value = transformOps_1[i];
+ var type = transformOps_1[i - 1];
+ var valueArr = splitNumberSequence(value);
+ mt = mt || create$1();
+ switch (type) {
+ case 'translate':
+ translate(mt, mt, [parseFloat(valueArr[0]), parseFloat(valueArr[1] || '0')]);
+ break;
+ case 'scale':
+ scale$1(mt, mt, [parseFloat(valueArr[0]), parseFloat(valueArr[1] || valueArr[0])]);
+ break;
+ case 'rotate':
+ rotate(mt, mt, -parseFloat(valueArr[0]) * DEGREE_TO_ANGLE, [
+ parseFloat(valueArr[1] || '0'),
+ parseFloat(valueArr[2] || '0')
+ ]);
+ break;
+ case 'skewX':
+ var sx = Math.tan(parseFloat(valueArr[0]) * DEGREE_TO_ANGLE);
+ mul$1(mt, [1, 0, sx, 1, 0, 0], mt);
+ break;
+ case 'skewY':
+ var sy = Math.tan(parseFloat(valueArr[0]) * DEGREE_TO_ANGLE);
+ mul$1(mt, [1, sy, 0, 1, 0, 0], mt);
+ break;
+ case 'matrix':
+ mt[0] = parseFloat(valueArr[0]);
+ mt[1] = parseFloat(valueArr[1]);
+ mt[2] = parseFloat(valueArr[2]);
+ mt[3] = parseFloat(valueArr[3]);
+ mt[4] = parseFloat(valueArr[4]);
+ mt[5] = parseFloat(valueArr[5]);
+ break;
+ }
+ }
+ node.setLocalTransform(mt);
+ }
+ }
+ var styleRegex = /([^\s:;]+)\s*:\s*([^:;]+)/g;
+ function parseInlineStyle(xmlNode, inheritableStyleResult, selfStyleResult) {
+ var style = xmlNode.getAttribute('style');
+ if (!style) {
+ return;
+ }
+ styleRegex.lastIndex = 0;
+ var styleRegResult;
+ while ((styleRegResult = styleRegex.exec(style)) != null) {
+ var svgStlAttr = styleRegResult[1];
+ var zrInheritableStlAttr = hasOwn(INHERITABLE_STYLE_ATTRIBUTES_MAP, svgStlAttr)
+ ? INHERITABLE_STYLE_ATTRIBUTES_MAP[svgStlAttr]
+ : null;
+ if (zrInheritableStlAttr) {
+ inheritableStyleResult[zrInheritableStlAttr] = styleRegResult[2];
+ }
+ var zrSelfStlAttr = hasOwn(SELF_STYLE_ATTRIBUTES_MAP, svgStlAttr)
+ ? SELF_STYLE_ATTRIBUTES_MAP[svgStlAttr]
+ : null;
+ if (zrSelfStlAttr) {
+ selfStyleResult[zrSelfStlAttr] = styleRegResult[2];
+ }
+ }
+ }
+ function parseAttributeStyle(xmlNode, inheritableStyleResult, selfStyleResult) {
+ for (var i = 0; i < INHERITABLE_STYLE_ATTRIBUTES_MAP_KEYS.length; i++) {
+ var svgAttrName = INHERITABLE_STYLE_ATTRIBUTES_MAP_KEYS[i];
+ var attrValue = xmlNode.getAttribute(svgAttrName);
+ if (attrValue != null) {
+ inheritableStyleResult[INHERITABLE_STYLE_ATTRIBUTES_MAP[svgAttrName]] = attrValue;
+ }
+ }
+ for (var i = 0; i < SELF_STYLE_ATTRIBUTES_MAP_KEYS.length; i++) {
+ var svgAttrName = SELF_STYLE_ATTRIBUTES_MAP_KEYS[i];
+ var attrValue = xmlNode.getAttribute(svgAttrName);
+ if (attrValue != null) {
+ selfStyleResult[SELF_STYLE_ATTRIBUTES_MAP[svgAttrName]] = attrValue;
+ }
+ }
+ }
+ function makeViewBoxTransform(viewBoxRect, boundingRect) {
+ var scaleX = boundingRect.width / viewBoxRect.width;
+ var scaleY = boundingRect.height / viewBoxRect.height;
+ var scale = Math.min(scaleX, scaleY);
+ return {
+ scale: scale,
+ x: -(viewBoxRect.x + viewBoxRect.width / 2) * scale + (boundingRect.x + boundingRect.width / 2),
+ y: -(viewBoxRect.y + viewBoxRect.height / 2) * scale + (boundingRect.y + boundingRect.height / 2)
+ };
+ }
+ function parseSVG(xml, opt) {
+ var parser = new SVGParser();
+ return parser.parse(xml, opt);
+ }
+
+ /**
+ * "region available" means that: enable users to set attribute `name="xxx"` on those tags
+ * to make it be a region.
+ * 1. region styles and its label styles can be defined in echarts opton:
+ * ```js
+ * geo: {
+ * regions: [{
+ * name: 'xxx',
+ * itemStyle: { ... },
+ * label: { ... }
+ * }, {
+ * ...
+ * },
+ * ...]
+ * };
+ * ```
+ * 2. name can be duplicated in different SVG tag. All of the tags with the same name share
+ * a region option. For exampel if there are two representing two lung lobes. They have
+ * no common parents but both of them need to display label "lung" inside.
+ */
+ var REGION_AVAILABLE_SVG_TAG_MAP = createHashMap(['rect', 'circle', 'line', 'ellipse', 'polygon', 'polyline', 'path',
+ // are also enabled because some SVG might paint text itself,
+ // but still need to trigger events or tooltip.
+ 'text', 'tspan',
+ // is also enabled because this case: if multiple tags share one name
+ // and need label displayed, every tags will display the name, which is not
+ // expected. So we can put them into a . Thereby only one label
+ // displayed and located based on the bounding rect of the .
+ 'g']);
+ var GeoSVGResource = /** @class */function () {
+ function GeoSVGResource(mapName, svg) {
+ this.type = 'geoSVG';
+ // All used graphics. key: hostKey, value: root
+ this._usedGraphicMap = createHashMap();
+ // All unused graphics.
+ this._freedGraphics = [];
+ this._mapName = mapName;
+ // Only perform parse to XML object here, which might be time
+ // consiming for large SVG.
+ // Although convert XML to zrender element is also time consiming,
+ // if we do it here, the clone of zrender elements has to be
+ // required. So we do it once for each geo instance, util real
+ // performance issues call for optimizing it.
+ this._parsedXML = parseXML(svg);
+ }
+ GeoSVGResource.prototype.load = function /* nameMap: NameMap */
+ () {
+ // In the "load" stage, graphic need to be built to
+ // get boundingRect for geo coordinate system.
+ var firstGraphic = this._firstGraphic;
+ // Create the return data structure only when first graphic created.
+ // Because they will be used in geo coordinate system update stage,
+ // and `regions` will be mounted at `geo` coordinate system,
+ // in which there is no "view" info, so that it should better not to
+ // make references to graphic elements.
+ if (!firstGraphic) {
+ firstGraphic = this._firstGraphic = this._buildGraphic(this._parsedXML);
+ this._freedGraphics.push(firstGraphic);
+ this._boundingRect = this._firstGraphic.boundingRect.clone();
+ // PENDING: `nameMap` will not be supported until some real requirement come.
+ // if (nameMap) {
+ // named = applyNameMap(named, nameMap);
+ // }
+ var _a = createRegions(firstGraphic.named),
+ regions = _a.regions,
+ regionsMap = _a.regionsMap;
+ this._regions = regions;
+ this._regionsMap = regionsMap;
+ }
+ return {
+ boundingRect: this._boundingRect,
+ regions: this._regions,
+ regionsMap: this._regionsMap
+ };
+ };
+ GeoSVGResource.prototype._buildGraphic = function (svgXML) {
+ var result;
+ var rootFromParse;
+ try {
+ result = svgXML && parseSVG(svgXML, {
+ ignoreViewBox: true,
+ ignoreRootClip: true
+ }) || {};
+ rootFromParse = result.root;
+ assert(rootFromParse != null);
+ } catch (e) {
+ throw new Error('Invalid svg format\n' + e.message);
+ }
+ // Note: we keep the covenant that the root has no transform. So always add an extra root.
+ var root = new Group();
+ root.add(rootFromParse);
+ root.isGeoSVGGraphicRoot = true;
+ // [THE_RULE_OF_VIEWPORT_AND_VIEWBOX]
+ //
+ // Consider: `
+ 
+ 
+ 
+ 
+
+ 
+ 
+