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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.arrowFunctionToExpression = arrowFunctionToExpression;
exports.ensureBlock = ensureBlock;
exports.ensureFunctionName = ensureFunctionName;
exports.splitExportDeclaration = splitExportDeclaration;
exports.toComputedKey = toComputedKey;
exports.unwrapFunctionEnvironment = unwrapFunctionEnvironment;
var _t = require("@babel/types");
var _template = require("@babel/template");
var _visitors = require("../visitors.js");
var _context = require("./context.js");
const {
arrowFunctionExpression,
assignmentExpression,
binaryExpression,
blockStatement,
callExpression,
conditionalExpression,
expressionStatement,
identifier,
isIdentifier,
jsxIdentifier,
logicalExpression,
LOGICAL_OPERATORS,
memberExpression,
metaProperty,
numericLiteral,
objectExpression,
restElement,
returnStatement,
sequenceExpression,
spreadElement,
stringLiteral,
super: _super,
thisExpression,
toExpression,
unaryExpression,
toBindingIdentifierName,
isFunction,
isAssignmentPattern,
isRestElement,
getFunctionName,
cloneNode,
variableDeclaration,
variableDeclarator,
exportNamedDeclaration,
exportSpecifier,
inherits
} = _t;
function toComputedKey() {
let key;
if (this.isMemberExpression()) {
key = this.node.property;
} else if (this.isProperty() || this.isMethod()) {
key = this.node.key;
} else {
throw new ReferenceError("todo");
}
if (!this.node.computed) {
if (isIdentifier(key)) key = stringLiteral(key.name);
}
return key;
}
function ensureBlock() {
const body = this.get("body");
const bodyNode = body.node;
if (Array.isArray(body)) {
throw new Error("Can't convert array path to a block statement");
}
if (!bodyNode) {
throw new Error("Can't convert node without a body");
}
if (body.isBlockStatement()) {
return bodyNode;
}
const statements = [];
let stringPath = "body";
let key;
let listKey;
if (body.isStatement()) {
listKey = "body";
key = 0;
statements.push(body.node);
} else {
stringPath += ".body.0";
if (this.isFunction()) {
key = "argument";
statements.push(returnStatement(body.node));
} else {
key = "expression";
statements.push(expressionStatement(body.node));
}
}
this.node.body = blockStatement(statements);
const parentPath = this.get(stringPath);
_context.setup.call(body, parentPath, listKey ? parentPath.node[listKey] : parentPath.node, listKey, key);
return this.node;
}
{
exports.arrowFunctionToShadowed = function () {
if (!this.isArrowFunctionExpression()) return;
this.arrowFunctionToExpression();
};
}
function unwrapFunctionEnvironment() {
if (!this.isArrowFunctionExpression() && !this.isFunctionExpression() && !this.isFunctionDeclaration()) {
throw this.buildCodeFrameError("Can only unwrap the environment of a function.");
}
hoistFunctionEnvironment(this);
}
function setType(path, type) {
path.node.type = type;
}
function arrowFunctionToExpression({
allowInsertArrow = true,
allowInsertArrowWithRest = allowInsertArrow,
noNewArrows = !(_arguments$ => (_arguments$ = arguments[0]) == null ? void 0 : _arguments$.specCompliant)()
} = {}) {
if (!this.isArrowFunctionExpression()) {
throw this.buildCodeFrameError("Cannot convert non-arrow function to a function expression.");
}
let self = this;
if (!noNewArrows) {
var _self$ensureFunctionN;
self = (_self$ensureFunctionN = self.ensureFunctionName(false)) != null ? _self$ensureFunctionN : self;
}
const {
thisBinding,
fnPath: fn
} = hoistFunctionEnvironment(self, noNewArrows, allowInsertArrow, allowInsertArrowWithRest);
fn.ensureBlock();
setType(fn, "FunctionExpression");
if (!noNewArrows) {
const checkBinding = thisBinding ? null : fn.scope.generateUidIdentifier("arrowCheckId");
if (checkBinding) {
fn.parentPath.scope.push({
id: checkBinding,
init: objectExpression([])
});
}
fn.get("body").unshiftContainer("body", expressionStatement(callExpression(this.hub.addHelper("newArrowCheck"), [thisExpression(), checkBinding ? identifier(checkBinding.name) : identifier(thisBinding)])));
fn.replaceWith(callExpression(memberExpression(fn.node, identifier("bind")), [checkBinding ? identifier(checkBinding.name) : thisExpression()]));
return fn.get("callee.object");
}
return fn;
}
const getSuperCallsVisitor = (0, _visitors.environmentVisitor)({
CallExpression(child, {
allSuperCalls
}) {
if (!child.get("callee").isSuper()) return;
allSuperCalls.push(child);
}
});
function hoistFunctionEnvironment(fnPath, noNewArrows = true, allowInsertArrow = true, allowInsertArrowWithRest = true) {
let arrowParent;
let thisEnvFn = fnPath.findParent(p => {
if (p.isArrowFunctionExpression()) {
var _arrowParent;
(_arrowParent = arrowParent) != null ? _arrowParent : arrowParent = p;
return false;
}
return p.isFunction() || p.isProgram() || p.isClassProperty({
static: false
}) || p.isClassPrivateProperty({
static: false
});
});
const inConstructor = thisEnvFn.isClassMethod({
kind: "constructor"
});
if (thisEnvFn.isClassProperty() || thisEnvFn.isClassPrivateProperty()) {
if (arrowParent) {
thisEnvFn = arrowParent;
} else if (allowInsertArrow) {
fnPath.replaceWith(callExpression(arrowFunctionExpression([], toExpression(fnPath.node)), []));
thisEnvFn = fnPath.get("callee");
fnPath = thisEnvFn.get("body");
} else {
throw fnPath.buildCodeFrameError("Unable to transform arrow inside class property");
}
}
const {
thisPaths,
argumentsPaths,
newTargetPaths,
superProps,
superCalls
} = getScopeInformation(fnPath);
if (inConstructor && superCalls.length > 0) {
if (!allowInsertArrow) {
throw superCalls[0].buildCodeFrameError("When using '@babel/plugin-transform-arrow-functions', " + "it's not possible to compile `super()` in an arrow function without compiling classes.\n" + "Please add '@babel/plugin-transform-classes' to your Babel configuration.");
}
if (!allowInsertArrowWithRest) {
throw superCalls[0].buildCodeFrameError("When using '@babel/plugin-transform-parameters', " + "it's not possible to compile `super()` in an arrow function with default or rest parameters without compiling classes.\n" + "Please add '@babel/plugin-transform-classes' to your Babel configuration.");
}
const allSuperCalls = [];
thisEnvFn.traverse(getSuperCallsVisitor, {
allSuperCalls
});
const superBinding = getSuperBinding(thisEnvFn);
allSuperCalls.forEach(superCall => {
const callee = identifier(superBinding);
callee.loc = superCall.node.callee.loc;
superCall.get("callee").replaceWith(callee);
});
}
if (argumentsPaths.length > 0) {
const argumentsBinding = getBinding(thisEnvFn, "arguments", () => {
const args = () => identifier("arguments");
if (thisEnvFn.scope.path.isProgram()) {
return conditionalExpression(binaryExpression("===", unaryExpression("typeof", args()), stringLiteral("undefined")), thisEnvFn.scope.buildUndefinedNode(), args());
} else {
return args();
}
});
argumentsPaths.forEach(argumentsChild => {
const argsRef = identifier(argumentsBinding);
argsRef.loc = argumentsChild.node.loc;
argumentsChild.replaceWith(argsRef);
});
}
if (newTargetPaths.length > 0) {
const newTargetBinding = getBinding(thisEnvFn, "newtarget", () => metaProperty(identifier("new"), identifier("target")));
newTargetPaths.forEach(targetChild => {
const targetRef = identifier(newTargetBinding);
targetRef.loc = targetChild.node.loc;
targetChild.replaceWith(targetRef);
});
}
if (superProps.length > 0) {
if (!allowInsertArrow) {
throw superProps[0].buildCodeFrameError("When using '@babel/plugin-transform-arrow-functions', " + "it's not possible to compile `super.prop` in an arrow function without compiling classes.\n" + "Please add '@babel/plugin-transform-classes' to your Babel configuration.");
}
const flatSuperProps = superProps.reduce((acc, superProp) => acc.concat(standardizeSuperProperty(superProp)), []);
flatSuperProps.forEach(superProp => {
const key = superProp.node.computed ? "" : superProp.get("property").node.name;
const superParentPath = superProp.parentPath;
const isAssignment = superParentPath.isAssignmentExpression({
left: superProp.node
});
const isCall = superParentPath.isCallExpression({
callee: superProp.node
});
const isTaggedTemplate = superParentPath.isTaggedTemplateExpression({
tag: superProp.node
});
const superBinding = getSuperPropBinding(thisEnvFn, isAssignment, key);
const args = [];
if (superProp.node.computed) {
args.push(superProp.get("property").node);
}
if (isAssignment) {
const value = superParentPath.node.right;
args.push(value);
}
const call = callExpression(identifier(superBinding), args);
if (isCall) {
superParentPath.unshiftContainer("arguments", thisExpression());
superProp.replaceWith(memberExpression(call, identifier("call")));
thisPaths.push(superParentPath.get("arguments.0"));
} else if (isAssignment) {
superParentPath.replaceWith(call);
} else if (isTaggedTemplate) {
superProp.replaceWith(callExpression(memberExpression(call, identifier("bind"), false), [thisExpression()]));
thisPaths.push(superProp.get("arguments.0"));
} else {
superProp.replaceWith(call);
}
});
}
let thisBinding;
if (thisPaths.length > 0 || !noNewArrows) {
thisBinding = getThisBinding(thisEnvFn, inConstructor);
if (noNewArrows || inConstructor && hasSuperClass(thisEnvFn)) {
thisPaths.forEach(thisChild => {
const thisRef = thisChild.isJSX() ? jsxIdentifier(thisBinding) : identifier(thisBinding);
thisRef.loc = thisChild.node.loc;
thisChild.replaceWith(thisRef);
});
if (!noNewArrows) thisBinding = null;
}
}
return {
thisBinding,
fnPath
};
}
function isLogicalOp(op) {
return LOGICAL_OPERATORS.includes(op);
}
function standardizeSuperProperty(superProp) {
if (superProp.parentPath.isAssignmentExpression() && superProp.parentPath.node.operator !== "=") {
const assignmentPath = superProp.parentPath;
const op = assignmentPath.node.operator.slice(0, -1);
const value = assignmentPath.node.right;
const isLogicalAssignment = isLogicalOp(op);
if (superProp.node.computed) {
const tmp = superProp.scope.generateDeclaredUidIdentifier("tmp");
const object = superProp.node.object;
const property = superProp.node.property;
assignmentPath.get("left").replaceWith(memberExpression(object, assignmentExpression("=", tmp, property), true));
assignmentPath.get("right").replaceWith(rightExpression(isLogicalAssignment ? "=" : op, memberExpression(object, identifier(tmp.name), true), value));
} else {
const object = superProp.node.object;
const property = superProp.node.property;
assignmentPath.get("left").replaceWith(memberExpression(object, property));
assignmentPath.get("right").replaceWith(rightExpression(isLogicalAssignment ? "=" : op, memberExpression(object, identifier(property.name)), value));
}
if (isLogicalAssignment) {
assignmentPath.replaceWith(logicalExpression(op, assignmentPath.node.left, assignmentPath.node.right));
} else {
assignmentPath.node.operator = "=";
}
return [assignmentPath.get("left"), assignmentPath.get("right").get("left")];
} else if (superProp.parentPath.isUpdateExpression()) {
const updateExpr = superProp.parentPath;
const tmp = superProp.scope.generateDeclaredUidIdentifier("tmp");
const computedKey = superProp.node.computed ? superProp.scope.generateDeclaredUidIdentifier("prop") : null;
const parts = [assignmentExpression("=", tmp, memberExpression(superProp.node.object, computedKey ? assignmentExpression("=", computedKey, superProp.node.property) : superProp.node.property, superProp.node.computed)), assignmentExpression("=", memberExpression(superProp.node.object, computedKey ? identifier(computedKey.name) : superProp.node.property, superProp.node.computed), binaryExpression(superProp.parentPath.node.operator[0], identifier(tmp.name), numericLiteral(1)))];
if (!superProp.parentPath.node.prefix) {
parts.push(identifier(tmp.name));
}
updateExpr.replaceWith(sequenceExpression(parts));
const left = updateExpr.get("expressions.0.right");
const right = updateExpr.get("expressions.1.left");
return [left, right];
}
return [superProp];
function rightExpression(op, left, right) {
if (op === "=") {
return assignmentExpression("=", left, right);
} else {
return binaryExpression(op, left, right);
}
}
}
function hasSuperClass(thisEnvFn) {
return thisEnvFn.isClassMethod() && !!thisEnvFn.parentPath.parentPath.node.superClass;
}
const assignSuperThisVisitor = (0, _visitors.environmentVisitor)({
CallExpression(child, {
supers,
thisBinding
}) {
if (!child.get("callee").isSuper()) return;
if (supers.has(child.node)) return;
supers.add(child.node);
child.replaceWithMultiple([child.node, assignmentExpression("=", identifier(thisBinding), identifier("this"))]);
}
});
function getThisBinding(thisEnvFn, inConstructor) {
return getBinding(thisEnvFn, "this", thisBinding => {
if (!inConstructor || !hasSuperClass(thisEnvFn)) return thisExpression();
thisEnvFn.traverse(assignSuperThisVisitor, {
supers: new WeakSet(),
thisBinding
});
});
}
function getSuperBinding(thisEnvFn) {
return getBinding(thisEnvFn, "supercall", () => {
const argsBinding = thisEnvFn.scope.generateUidIdentifier("args");
return arrowFunctionExpression([restElement(argsBinding)], callExpression(_super(), [spreadElement(identifier(argsBinding.name))]));
});
}
function getSuperPropBinding(thisEnvFn, isAssignment, propName) {
const op = isAssignment ? "set" : "get";
return getBinding(thisEnvFn, `superprop_${op}:${propName || ""}`, () => {
const argsList = [];
let fnBody;
if (propName) {
fnBody = memberExpression(_super(), identifier(propName));
} else {
const method = thisEnvFn.scope.generateUidIdentifier("prop");
argsList.unshift(method);
fnBody = memberExpression(_super(), identifier(method.name), true);
}
if (isAssignment) {
const valueIdent = thisEnvFn.scope.generateUidIdentifier("value");
argsList.push(valueIdent);
fnBody = assignmentExpression("=", fnBody, identifier(valueIdent.name));
}
return arrowFunctionExpression(argsList, fnBody);
});
}
function getBinding(thisEnvFn, key, init) {
const cacheKey = "binding:" + key;
let data = thisEnvFn.getData(cacheKey);
if (!data) {
const id = thisEnvFn.scope.generateUidIdentifier(key);
data = id.name;
thisEnvFn.setData(cacheKey, data);
thisEnvFn.scope.push({
id: id,
init: init(data)
});
}
return data;
}
const getScopeInformationVisitor = (0, _visitors.environmentVisitor)({
ThisExpression(child, {
thisPaths
}) {
thisPaths.push(child);
},
JSXIdentifier(child, {
thisPaths
}) {
if (child.node.name !== "this") return;
if (!child.parentPath.isJSXMemberExpression({
object: child.node
}) && !child.parentPath.isJSXOpeningElement({
name: child.node
})) {
return;
}
thisPaths.push(child);
},
CallExpression(child, {
superCalls
}) {
if (child.get("callee").isSuper()) superCalls.push(child);
},
MemberExpression(child, {
superProps
}) {
if (child.get("object").isSuper()) superProps.push(child);
},
Identifier(child, {
argumentsPaths
}) {
if (!child.isReferencedIdentifier({
name: "arguments"
})) return;
let curr = child.scope;
do {
if (curr.hasOwnBinding("arguments")) {
curr.rename("arguments");
return;
}
if (curr.path.isFunction() && !curr.path.isArrowFunctionExpression()) {
break;
}
} while (curr = curr.parent);
argumentsPaths.push(child);
},
MetaProperty(child, {
newTargetPaths
}) {
if (!child.get("meta").isIdentifier({
name: "new"
})) return;
if (!child.get("property").isIdentifier({
name: "target"
})) return;
newTargetPaths.push(child);
}
});
function getScopeInformation(fnPath) {
const thisPaths = [];
const argumentsPaths = [];
const newTargetPaths = [];
const superProps = [];
const superCalls = [];
fnPath.traverse(getScopeInformationVisitor, {
thisPaths,
argumentsPaths,
newTargetPaths,
superProps,
superCalls
});
return {
thisPaths,
argumentsPaths,
newTargetPaths,
superProps,
superCalls
};
}
function splitExportDeclaration() {
if (!this.isExportDeclaration() || this.isExportAllDeclaration()) {
throw new Error("Only default and named export declarations can be split.");
}
if (this.isExportNamedDeclaration() && this.get("specifiers").length > 0) {
throw new Error("It doesn't make sense to split exported specifiers.");
}
const declaration = this.get("declaration");
if (this.isExportDefaultDeclaration()) {
const standaloneDeclaration = declaration.isFunctionDeclaration() || declaration.isClassDeclaration();
const exportExpr = declaration.isFunctionExpression() || declaration.isClassExpression();
const scope = declaration.isScope() ? declaration.scope.parent : declaration.scope;
let id = declaration.node.id;
let needBindingRegistration = false;
if (!id) {
needBindingRegistration = true;
id = scope.generateUidIdentifier("default");
if (standaloneDeclaration || exportExpr) {
declaration.node.id = cloneNode(id);
}
} else if (exportExpr && scope.hasBinding(id.name)) {
needBindingRegistration = true;
id = scope.generateUidIdentifier(id.name);
}
const updatedDeclaration = standaloneDeclaration ? declaration.node : variableDeclaration("var", [variableDeclarator(cloneNode(id), declaration.node)]);
const updatedExportDeclaration = exportNamedDeclaration(null, [exportSpecifier(cloneNode(id), identifier("default"))]);
this.insertAfter(updatedExportDeclaration);
this.replaceWith(updatedDeclaration);
if (needBindingRegistration) {
scope.registerDeclaration(this);
}
return this;
} else if (this.get("specifiers").length > 0) {
throw new Error("It doesn't make sense to split exported specifiers.");
}
const bindingIdentifiers = declaration.getOuterBindingIdentifiers();
const specifiers = Object.keys(bindingIdentifiers).map(name => {
return exportSpecifier(identifier(name), identifier(name));
});
const aliasDeclar = exportNamedDeclaration(null, specifiers);
this.insertAfter(aliasDeclar);
this.replaceWith(declaration.node);
return this;
}
const refersOuterBindingVisitor = {
"ReferencedIdentifier|BindingIdentifier"(path, state) {
if (path.node.name !== state.name) return;
state.needsRename = true;
path.stop();
},
Scope(path, state) {
if (path.scope.hasOwnBinding(state.name)) {
path.skip();
}
}
};
function ensureFunctionName(supportUnicodeId) {
if (this.node.id) return this;
const res = getFunctionName(this.node, this.parent);
if (res == null) return this;
let {
name
} = res;
if (!supportUnicodeId && /[\uD800-\uDFFF]/.test(name)) {
return null;
}
if (name.startsWith("get ") || name.startsWith("set ")) {
return null;
}
name = toBindingIdentifierName(name.replace(/[/ ]/g, "_"));
const id = identifier(name);
inherits(id, res.originalNode);
const state = {
needsRename: false,
name
};
const {
scope
} = this;
const binding = scope.getOwnBinding(name);
if (binding) {
if (binding.kind === "param") {
state.needsRename = true;
} else {}
} else if (scope.parent.hasBinding(name) || scope.hasGlobal(name)) {
this.traverse(refersOuterBindingVisitor, state);
}
if (!state.needsRename) {
this.node.id = id;
scope.getProgramParent().references[id.name] = true;
return this;
}
if (scope.hasBinding(id.name) && !scope.hasGlobal(id.name)) {
scope.rename(id.name);
this.node.id = id;
scope.getProgramParent().references[id.name] = true;
return this;
}
if (!isFunction(this.node)) return null;
const key = scope.generateUidIdentifier(id.name);
const params = [];
for (let i = 0, len = getFunctionArity(this.node); i < len; i++) {
params.push(scope.generateUidIdentifier("x"));
}
const call = _template.default.expression.ast`
(function (${key}) {
function ${id}(${params}) {
return ${cloneNode(key)}.apply(this, arguments);
}
${cloneNode(id)}.toString = function () {
return ${cloneNode(key)}.toString();
}
return ${cloneNode(id)};
})(${toExpression(this.node)})
`;
return this.replaceWith(call)[0].get("arguments.0");
}
function getFunctionArity(node) {
const count = node.params.findIndex(param => isAssignmentPattern(param) || isRestElement(param));
return count === -1 ? node.params.length : count;
}
//# sourceMappingURL=conversion.js.map