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parttimejob/node_modules/node-addon-api/napi-inl.h

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4 weeks ago
#ifndef SRC_NAPI_INL_H_
#define SRC_NAPI_INL_H_
////////////////////////////////////////////////////////////////////////////////
// Node-API C++ Wrapper Classes
//
// Inline header-only implementations for "Node-API" ABI-stable C APIs for
// Node.js.
////////////////////////////////////////////////////////////////////////////////
// Note: Do not include this file directly! Include "napi.h" instead.
#include <algorithm>
#include <cstring>
#if NAPI_HAS_THREADS
#include <mutex>
#endif // NAPI_HAS_THREADS
#include <type_traits>
#include <utility>
namespace Napi {
#ifdef NAPI_CPP_CUSTOM_NAMESPACE
namespace NAPI_CPP_CUSTOM_NAMESPACE {
#endif
// Helpers to handle functions exposed from C++ and internal constants.
namespace details {
// New napi_status constants not yet available in all supported versions of
// Node.js releases. Only necessary when they are used in napi.h and napi-inl.h.
constexpr int napi_no_external_buffers_allowed = 22;
template <typename FreeType>
inline void default_finalizer(napi_env /*env*/, void* data, void* /*hint*/) {
delete static_cast<FreeType*>(data);
}
// Attach a data item to an object and delete it when the object gets
// garbage-collected.
// TODO: Replace this code with `napi_add_finalizer()` whenever it becomes
// available on all supported versions of Node.js.
template <typename FreeType,
napi_finalize finalizer = default_finalizer<FreeType>>
inline napi_status AttachData(napi_env env,
napi_value obj,
FreeType* data,
void* hint = nullptr) {
napi_status status;
#if (NAPI_VERSION < 5)
napi_value symbol, external;
status = napi_create_symbol(env, nullptr, &symbol);
if (status == napi_ok) {
status = napi_create_external(env, data, finalizer, hint, &external);
if (status == napi_ok) {
napi_property_descriptor desc = {nullptr,
symbol,
nullptr,
nullptr,
nullptr,
external,
napi_default,
nullptr};
status = napi_define_properties(env, obj, 1, &desc);
}
}
#else // NAPI_VERSION >= 5
status = napi_add_finalizer(env, obj, data, finalizer, hint, nullptr);
#endif
return status;
}
// For use in JS to C++ callback wrappers to catch any Napi::Error exceptions
// and rethrow them as JavaScript exceptions before returning from the callback.
template <typename Callable>
inline napi_value WrapCallback(Callable callback) {
#ifdef NAPI_CPP_EXCEPTIONS
try {
return callback();
} catch (const Error& e) {
e.ThrowAsJavaScriptException();
return nullptr;
}
#else // NAPI_CPP_EXCEPTIONS
// When C++ exceptions are disabled, errors are immediately thrown as JS
// exceptions, so there is no need to catch and rethrow them here.
return callback();
#endif // NAPI_CPP_EXCEPTIONS
}
// For use in JS to C++ void callback wrappers to catch any Napi::Error
// exceptions and rethrow them as JavaScript exceptions before returning from
// the callback.
template <typename Callable>
inline void WrapVoidCallback(Callable callback) {
#ifdef NAPI_CPP_EXCEPTIONS
try {
callback();
} catch (const Error& e) {
e.ThrowAsJavaScriptException();
}
#else // NAPI_CPP_EXCEPTIONS
// When C++ exceptions are disabled, errors are immediately thrown as JS
// exceptions, so there is no need to catch and rethrow them here.
callback();
#endif // NAPI_CPP_EXCEPTIONS
}
template <typename Callable, typename Return>
struct CallbackData {
static inline napi_value Wrapper(napi_env env, napi_callback_info info) {
return details::WrapCallback([&] {
CallbackInfo callbackInfo(env, info);
CallbackData* callbackData =
static_cast<CallbackData*>(callbackInfo.Data());
callbackInfo.SetData(callbackData->data);
return callbackData->callback(callbackInfo);
});
}
Callable callback;
void* data;
};
template <typename Callable>
struct CallbackData<Callable, void> {
static inline napi_value Wrapper(napi_env env, napi_callback_info info) {
return details::WrapCallback([&] {
CallbackInfo callbackInfo(env, info);
CallbackData* callbackData =
static_cast<CallbackData*>(callbackInfo.Data());
callbackInfo.SetData(callbackData->data);
callbackData->callback(callbackInfo);
return nullptr;
});
}
Callable callback;
void* data;
};
template <void (*Callback)(const CallbackInfo& info)>
napi_value TemplatedVoidCallback(napi_env env,
napi_callback_info info) NAPI_NOEXCEPT {
return details::WrapCallback([&] {
CallbackInfo cbInfo(env, info);
Callback(cbInfo);
return nullptr;
});
}
template <Napi::Value (*Callback)(const CallbackInfo& info)>
napi_value TemplatedCallback(napi_env env,
napi_callback_info info) NAPI_NOEXCEPT {
return details::WrapCallback([&] {
CallbackInfo cbInfo(env, info);
return Callback(cbInfo);
});
}
template <typename T,
Napi::Value (T::*UnwrapCallback)(const CallbackInfo& info)>
napi_value TemplatedInstanceCallback(napi_env env,
napi_callback_info info) NAPI_NOEXCEPT {
return details::WrapCallback([&] {
CallbackInfo cbInfo(env, info);
T* instance = T::Unwrap(cbInfo.This().As<Object>());
return instance ? (instance->*UnwrapCallback)(cbInfo) : Napi::Value();
});
}
template <typename T, void (T::*UnwrapCallback)(const CallbackInfo& info)>
napi_value TemplatedInstanceVoidCallback(napi_env env, napi_callback_info info)
NAPI_NOEXCEPT {
return details::WrapCallback([&] {
CallbackInfo cbInfo(env, info);
T* instance = T::Unwrap(cbInfo.This().As<Object>());
if (instance) (instance->*UnwrapCallback)(cbInfo);
return nullptr;
});
}
template <typename T, typename Finalizer, typename Hint = void>
struct FinalizeData {
static inline void Wrapper(napi_env env,
void* data,
void* finalizeHint) NAPI_NOEXCEPT {
WrapVoidCallback([&] {
FinalizeData* finalizeData = static_cast<FinalizeData*>(finalizeHint);
finalizeData->callback(Env(env), static_cast<T*>(data));
delete finalizeData;
});
}
static inline void WrapperWithHint(napi_env env,
void* data,
void* finalizeHint) NAPI_NOEXCEPT {
WrapVoidCallback([&] {
FinalizeData* finalizeData = static_cast<FinalizeData*>(finalizeHint);
finalizeData->callback(
Env(env), static_cast<T*>(data), finalizeData->hint);
delete finalizeData;
});
}
Finalizer callback;
Hint* hint;
};
#if (NAPI_VERSION > 3 && NAPI_HAS_THREADS)
template <typename ContextType = void,
typename Finalizer = std::function<void(Env, void*, ContextType*)>,
typename FinalizerDataType = void>
struct ThreadSafeFinalize {
static inline void Wrapper(napi_env env,
void* rawFinalizeData,
void* /* rawContext */) {
if (rawFinalizeData == nullptr) return;
ThreadSafeFinalize* finalizeData =
static_cast<ThreadSafeFinalize*>(rawFinalizeData);
finalizeData->callback(Env(env));
delete finalizeData;
}
static inline void FinalizeWrapperWithData(napi_env env,
void* rawFinalizeData,
void* /* rawContext */) {
if (rawFinalizeData == nullptr) return;
ThreadSafeFinalize* finalizeData =
static_cast<ThreadSafeFinalize*>(rawFinalizeData);
finalizeData->callback(Env(env), finalizeData->data);
delete finalizeData;
}
static inline void FinalizeWrapperWithContext(napi_env env,
void* rawFinalizeData,
void* rawContext) {
if (rawFinalizeData == nullptr) return;
ThreadSafeFinalize* finalizeData =
static_cast<ThreadSafeFinalize*>(rawFinalizeData);
finalizeData->callback(Env(env), static_cast<ContextType*>(rawContext));
delete finalizeData;
}
static inline void FinalizeFinalizeWrapperWithDataAndContext(
napi_env env, void* rawFinalizeData, void* rawContext) {
if (rawFinalizeData == nullptr) return;
ThreadSafeFinalize* finalizeData =
static_cast<ThreadSafeFinalize*>(rawFinalizeData);
finalizeData->callback(
Env(env), finalizeData->data, static_cast<ContextType*>(rawContext));
delete finalizeData;
}
FinalizerDataType* data;
Finalizer callback;
};
template <typename ContextType, typename DataType, typename CallJs, CallJs call>
inline typename std::enable_if<call != static_cast<CallJs>(nullptr)>::type
CallJsWrapper(napi_env env, napi_value jsCallback, void* context, void* data) {
details::WrapVoidCallback([&]() {
call(env,
Function(env, jsCallback),
static_cast<ContextType*>(context),
static_cast<DataType*>(data));
});
}
template <typename ContextType, typename DataType, typename CallJs, CallJs call>
inline typename std::enable_if<call == static_cast<CallJs>(nullptr)>::type
CallJsWrapper(napi_env env,
napi_value jsCallback,
void* /*context*/,
void* /*data*/) {
details::WrapVoidCallback([&]() {
if (jsCallback != nullptr) {
Function(env, jsCallback).Call(0, nullptr);
}
});
}
#if NAPI_VERSION > 4
template <typename CallbackType, typename TSFN>
napi_value DefaultCallbackWrapper(napi_env /*env*/, std::nullptr_t /*cb*/) {
return nullptr;
}
template <typename CallbackType, typename TSFN>
napi_value DefaultCallbackWrapper(napi_env /*env*/, Napi::Function cb) {
return cb;
}
#else
template <typename CallbackType, typename TSFN>
napi_value DefaultCallbackWrapper(napi_env env, Napi::Function cb) {
if (cb.IsEmpty()) {
return TSFN::EmptyFunctionFactory(env);
}
return cb;
}
#endif // NAPI_VERSION > 4
#endif // NAPI_VERSION > 3 && NAPI_HAS_THREADS
template <typename Getter, typename Setter>
struct AccessorCallbackData {
static inline napi_value GetterWrapper(napi_env env,
napi_callback_info info) {
return details::WrapCallback([&] {
CallbackInfo callbackInfo(env, info);
AccessorCallbackData* callbackData =
static_cast<AccessorCallbackData*>(callbackInfo.Data());
callbackInfo.SetData(callbackData->data);
return callbackData->getterCallback(callbackInfo);
});
}
static inline napi_value SetterWrapper(napi_env env,
napi_callback_info info) {
return details::WrapCallback([&] {
CallbackInfo callbackInfo(env, info);
AccessorCallbackData* callbackData =
static_cast<AccessorCallbackData*>(callbackInfo.Data());
callbackInfo.SetData(callbackData->data);
callbackData->setterCallback(callbackInfo);
return nullptr;
});
}
Getter getterCallback;
Setter setterCallback;
void* data;
};
} // namespace details
#ifndef NODE_ADDON_API_DISABLE_DEPRECATED
#include "napi-inl.deprecated.h"
#endif // !NODE_ADDON_API_DISABLE_DEPRECATED
////////////////////////////////////////////////////////////////////////////////
// Module registration
////////////////////////////////////////////////////////////////////////////////
// Register an add-on based on an initializer function.
#define NODE_API_MODULE(modname, regfunc) \
static napi_value __napi_##regfunc(napi_env env, napi_value exports) { \
return Napi::RegisterModule(env, exports, regfunc); \
} \
NAPI_MODULE(modname, __napi_##regfunc)
// Register an add-on based on a subclass of `Addon<T>` with a custom Node.js
// module name.
#define NODE_API_NAMED_ADDON(modname, classname) \
static napi_value __napi_##classname(napi_env env, napi_value exports) { \
return Napi::RegisterModule(env, exports, &classname::Init); \
} \
NAPI_MODULE(modname, __napi_##classname)
// Register an add-on based on a subclass of `Addon<T>` with the Node.js module
// name given by node-gyp from the `target_name` in binding.gyp.
#define NODE_API_ADDON(classname) \
NODE_API_NAMED_ADDON(NODE_GYP_MODULE_NAME, classname)
// Adapt the NAPI_MODULE registration function:
// - Wrap the arguments in NAPI wrappers.
// - Catch any NAPI errors and rethrow as JS exceptions.
inline napi_value RegisterModule(napi_env env,
napi_value exports,
ModuleRegisterCallback registerCallback) {
return details::WrapCallback([&] {
return napi_value(
registerCallback(Napi::Env(env), Napi::Object(env, exports)));
});
}
////////////////////////////////////////////////////////////////////////////////
// Maybe class
////////////////////////////////////////////////////////////////////////////////
template <class T>
bool Maybe<T>::IsNothing() const {
return !_has_value;
}
template <class T>
bool Maybe<T>::IsJust() const {
return _has_value;
}
template <class T>
void Maybe<T>::Check() const {
NAPI_CHECK(IsJust(), "Napi::Maybe::Check", "Maybe value is Nothing.");
}
template <class T>
T Maybe<T>::Unwrap() const {
NAPI_CHECK(IsJust(), "Napi::Maybe::Unwrap", "Maybe value is Nothing.");
return _value;
}
template <class T>
T Maybe<T>::UnwrapOr(const T& default_value) const {
return _has_value ? _value : default_value;
}
template <class T>
bool Maybe<T>::UnwrapTo(T* out) const {
if (IsJust()) {
*out = _value;
return true;
};
return false;
}
template <class T>
bool Maybe<T>::operator==(const Maybe& other) const {
return (IsJust() == other.IsJust()) &&
(!IsJust() || Unwrap() == other.Unwrap());
}
template <class T>
bool Maybe<T>::operator!=(const Maybe& other) const {
return !operator==(other);
}
template <class T>
Maybe<T>::Maybe() : _has_value(false) {}
template <class T>
Maybe<T>::Maybe(const T& t) : _has_value(true), _value(t) {}
template <class T>
inline Maybe<T> Nothing() {
return Maybe<T>();
}
template <class T>
inline Maybe<T> Just(const T& t) {
return Maybe<T>(t);
}
////////////////////////////////////////////////////////////////////////////////
// Env class
////////////////////////////////////////////////////////////////////////////////
inline Env::Env(napi_env env) : _env(env) {}
inline Env::operator napi_env() const {
return _env;
}
inline Object Env::Global() const {
napi_value value;
napi_status status = napi_get_global(*this, &value);
NAPI_THROW_IF_FAILED(*this, status, Object());
return Object(*this, value);
}
inline Value Env::Undefined() const {
napi_value value;
napi_status status = napi_get_undefined(*this, &value);
NAPI_THROW_IF_FAILED(*this, status, Value());
return Value(*this, value);
}
inline Value Env::Null() const {
napi_value value;
napi_status status = napi_get_null(*this, &value);
NAPI_THROW_IF_FAILED(*this, status, Value());
return Value(*this, value);
}
inline bool Env::IsExceptionPending() const {
bool result;
napi_status status = napi_is_exception_pending(_env, &result);
if (status != napi_ok)
result = false; // Checking for a pending exception shouldn't throw.
return result;
}
inline Error Env::GetAndClearPendingException() const {
napi_value value;
napi_status status = napi_get_and_clear_last_exception(_env, &value);
if (status != napi_ok) {
// Don't throw another exception when failing to get the exception!
return Error();
}
return Error(_env, value);
}
inline MaybeOrValue<Value> Env::RunScript(const char* utf8script) const {
String script = String::New(_env, utf8script);
return RunScript(script);
}
inline MaybeOrValue<Value> Env::RunScript(const std::string& utf8script) const {
return RunScript(utf8script.c_str());
}
inline MaybeOrValue<Value> Env::RunScript(String script) const {
napi_value result;
napi_status status = napi_run_script(_env, script, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(
_env, status, Napi::Value(_env, result), Napi::Value);
}
#if NAPI_VERSION > 2
template <typename Hook, typename Arg>
void Env::CleanupHook<Hook, Arg>::Wrapper(void* data) NAPI_NOEXCEPT {
auto* cleanupData =
static_cast<typename Napi::Env::CleanupHook<Hook, Arg>::CleanupData*>(
data);
cleanupData->hook();
delete cleanupData;
}
template <typename Hook, typename Arg>
void Env::CleanupHook<Hook, Arg>::WrapperWithArg(void* data) NAPI_NOEXCEPT {
auto* cleanupData =
static_cast<typename Napi::Env::CleanupHook<Hook, Arg>::CleanupData*>(
data);
cleanupData->hook(static_cast<Arg*>(cleanupData->arg));
delete cleanupData;
}
#endif // NAPI_VERSION > 2
#if NAPI_VERSION > 5
template <typename T, Env::Finalizer<T> fini>
inline void Env::SetInstanceData(T* data) const {
napi_status status = napi_set_instance_data(
_env,
data,
[](napi_env env, void* data, void*) { fini(env, static_cast<T*>(data)); },
nullptr);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
template <typename DataType,
typename HintType,
Napi::Env::FinalizerWithHint<DataType, HintType> fini>
inline void Env::SetInstanceData(DataType* data, HintType* hint) const {
napi_status status = napi_set_instance_data(
_env,
data,
[](napi_env env, void* data, void* hint) {
fini(env, static_cast<DataType*>(data), static_cast<HintType*>(hint));
},
hint);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
template <typename T>
inline T* Env::GetInstanceData() const {
void* data = nullptr;
napi_status status = napi_get_instance_data(_env, &data);
NAPI_THROW_IF_FAILED(_env, status, nullptr);
return static_cast<T*>(data);
}
template <typename T>
void Env::DefaultFini(Env, T* data) {
delete data;
}
template <typename DataType, typename HintType>
void Env::DefaultFiniWithHint(Env, DataType* data, HintType*) {
delete data;
}
#endif // NAPI_VERSION > 5
#if NAPI_VERSION > 8
inline const char* Env::GetModuleFileName() const {
const char* result;
napi_status status = node_api_get_module_file_name(_env, &result);
NAPI_THROW_IF_FAILED(*this, status, nullptr);
return result;
}
#endif // NAPI_VERSION > 8
////////////////////////////////////////////////////////////////////////////////
// Value class
////////////////////////////////////////////////////////////////////////////////
inline Value::Value() : _env(nullptr), _value(nullptr) {}
inline Value::Value(napi_env env, napi_value value)
: _env(env), _value(value) {}
inline Value::operator napi_value() const {
return _value;
}
inline bool Value::operator==(const Value& other) const {
return StrictEquals(other);
}
inline bool Value::operator!=(const Value& other) const {
return !this->operator==(other);
}
inline bool Value::StrictEquals(const Value& other) const {
bool result;
napi_status status = napi_strict_equals(_env, *this, other, &result);
NAPI_THROW_IF_FAILED(_env, status, false);
return result;
}
inline Napi::Env Value::Env() const {
return Napi::Env(_env);
}
inline bool Value::IsEmpty() const {
return _value == nullptr;
}
inline napi_valuetype Value::Type() const {
if (IsEmpty()) {
return napi_undefined;
}
napi_valuetype type;
napi_status status = napi_typeof(_env, _value, &type);
NAPI_THROW_IF_FAILED(_env, status, napi_undefined);
return type;
}
inline bool Value::IsUndefined() const {
return Type() == napi_undefined;
}
inline bool Value::IsNull() const {
return Type() == napi_null;
}
inline bool Value::IsBoolean() const {
return Type() == napi_boolean;
}
inline bool Value::IsNumber() const {
return Type() == napi_number;
}
#if NAPI_VERSION > 5
inline bool Value::IsBigInt() const {
return Type() == napi_bigint;
}
#endif // NAPI_VERSION > 5
#if (NAPI_VERSION > 4)
inline bool Value::IsDate() const {
if (IsEmpty()) {
return false;
}
bool result;
napi_status status = napi_is_date(_env, _value, &result);
NAPI_THROW_IF_FAILED(_env, status, false);
return result;
}
#endif
inline bool Value::IsString() const {
return Type() == napi_string;
}
inline bool Value::IsSymbol() const {
return Type() == napi_symbol;
}
inline bool Value::IsArray() const {
if (IsEmpty()) {
return false;
}
bool result;
napi_status status = napi_is_array(_env, _value, &result);
NAPI_THROW_IF_FAILED(_env, status, false);
return result;
}
inline bool Value::IsArrayBuffer() const {
if (IsEmpty()) {
return false;
}
bool result;
napi_status status = napi_is_arraybuffer(_env, _value, &result);
NAPI_THROW_IF_FAILED(_env, status, false);
return result;
}
inline bool Value::IsTypedArray() const {
if (IsEmpty()) {
return false;
}
bool result;
napi_status status = napi_is_typedarray(_env, _value, &result);
NAPI_THROW_IF_FAILED(_env, status, false);
return result;
}
inline bool Value::IsObject() const {
return Type() == napi_object || IsFunction();
}
inline bool Value::IsFunction() const {
return Type() == napi_function;
}
inline bool Value::IsPromise() const {
if (IsEmpty()) {
return false;
}
bool result;
napi_status status = napi_is_promise(_env, _value, &result);
NAPI_THROW_IF_FAILED(_env, status, false);
return result;
}
inline bool Value::IsDataView() const {
if (IsEmpty()) {
return false;
}
bool result;
napi_status status = napi_is_dataview(_env, _value, &result);
NAPI_THROW_IF_FAILED(_env, status, false);
return result;
}
inline bool Value::IsBuffer() const {
if (IsEmpty()) {
return false;
}
bool result;
napi_status status = napi_is_buffer(_env, _value, &result);
NAPI_THROW_IF_FAILED(_env, status, false);
return result;
}
inline bool Value::IsExternal() const {
return Type() == napi_external;
}
template <typename T>
inline T Value::As() const {
#ifdef NODE_ADDON_API_ENABLE_TYPE_CHECK_ON_AS
T::CheckCast(_env, _value);
#endif
return T(_env, _value);
}
inline MaybeOrValue<Boolean> Value::ToBoolean() const {
napi_value result;
napi_status status = napi_coerce_to_bool(_env, _value, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(
_env, status, Napi::Boolean(_env, result), Napi::Boolean);
}
inline MaybeOrValue<Number> Value::ToNumber() const {
napi_value result;
napi_status status = napi_coerce_to_number(_env, _value, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(
_env, status, Napi::Number(_env, result), Napi::Number);
}
inline MaybeOrValue<String> Value::ToString() const {
napi_value result;
napi_status status = napi_coerce_to_string(_env, _value, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(
_env, status, Napi::String(_env, result), Napi::String);
}
inline MaybeOrValue<Object> Value::ToObject() const {
napi_value result;
napi_status status = napi_coerce_to_object(_env, _value, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(
_env, status, Napi::Object(_env, result), Napi::Object);
}
////////////////////////////////////////////////////////////////////////////////
// Boolean class
////////////////////////////////////////////////////////////////////////////////
inline Boolean Boolean::New(napi_env env, bool val) {
napi_value value;
napi_status status = napi_get_boolean(env, val, &value);
NAPI_THROW_IF_FAILED(env, status, Boolean());
return Boolean(env, value);
}
inline void Boolean::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "Boolean::CheckCast", "empty value");
napi_valuetype type;
napi_status status = napi_typeof(env, value, &type);
NAPI_CHECK(status == napi_ok, "Boolean::CheckCast", "napi_typeof failed");
NAPI_CHECK(
type == napi_boolean, "Boolean::CheckCast", "value is not napi_boolean");
}
inline Boolean::Boolean() : Napi::Value() {}
inline Boolean::Boolean(napi_env env, napi_value value)
: Napi::Value(env, value) {}
inline Boolean::operator bool() const {
return Value();
}
inline bool Boolean::Value() const {
bool result;
napi_status status = napi_get_value_bool(_env, _value, &result);
NAPI_THROW_IF_FAILED(_env, status, false);
return result;
}
////////////////////////////////////////////////////////////////////////////////
// Number class
////////////////////////////////////////////////////////////////////////////////
inline Number Number::New(napi_env env, double val) {
napi_value value;
napi_status status = napi_create_double(env, val, &value);
NAPI_THROW_IF_FAILED(env, status, Number());
return Number(env, value);
}
inline void Number::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "Number::CheckCast", "empty value");
napi_valuetype type;
napi_status status = napi_typeof(env, value, &type);
NAPI_CHECK(status == napi_ok, "Number::CheckCast", "napi_typeof failed");
NAPI_CHECK(
type == napi_number, "Number::CheckCast", "value is not napi_number");
}
inline Number::Number() : Value() {}
inline Number::Number(napi_env env, napi_value value) : Value(env, value) {}
inline Number::operator int32_t() const {
return Int32Value();
}
inline Number::operator uint32_t() const {
return Uint32Value();
}
inline Number::operator int64_t() const {
return Int64Value();
}
inline Number::operator float() const {
return FloatValue();
}
inline Number::operator double() const {
return DoubleValue();
}
inline int32_t Number::Int32Value() const {
int32_t result;
napi_status status = napi_get_value_int32(_env, _value, &result);
NAPI_THROW_IF_FAILED(_env, status, 0);
return result;
}
inline uint32_t Number::Uint32Value() const {
uint32_t result;
napi_status status = napi_get_value_uint32(_env, _value, &result);
NAPI_THROW_IF_FAILED(_env, status, 0);
return result;
}
inline int64_t Number::Int64Value() const {
int64_t result;
napi_status status = napi_get_value_int64(_env, _value, &result);
NAPI_THROW_IF_FAILED(_env, status, 0);
return result;
}
inline float Number::FloatValue() const {
return static_cast<float>(DoubleValue());
}
inline double Number::DoubleValue() const {
double result;
napi_status status = napi_get_value_double(_env, _value, &result);
NAPI_THROW_IF_FAILED(_env, status, 0);
return result;
}
#if NAPI_VERSION > 5
////////////////////////////////////////////////////////////////////////////////
// BigInt Class
////////////////////////////////////////////////////////////////////////////////
inline BigInt BigInt::New(napi_env env, int64_t val) {
napi_value value;
napi_status status = napi_create_bigint_int64(env, val, &value);
NAPI_THROW_IF_FAILED(env, status, BigInt());
return BigInt(env, value);
}
inline BigInt BigInt::New(napi_env env, uint64_t val) {
napi_value value;
napi_status status = napi_create_bigint_uint64(env, val, &value);
NAPI_THROW_IF_FAILED(env, status, BigInt());
return BigInt(env, value);
}
inline BigInt BigInt::New(napi_env env,
int sign_bit,
size_t word_count,
const uint64_t* words) {
napi_value value;
napi_status status =
napi_create_bigint_words(env, sign_bit, word_count, words, &value);
NAPI_THROW_IF_FAILED(env, status, BigInt());
return BigInt(env, value);
}
inline void BigInt::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "BigInt::CheckCast", "empty value");
napi_valuetype type;
napi_status status = napi_typeof(env, value, &type);
NAPI_CHECK(status == napi_ok, "BigInt::CheckCast", "napi_typeof failed");
NAPI_CHECK(
type == napi_bigint, "BigInt::CheckCast", "value is not napi_bigint");
}
inline BigInt::BigInt() : Value() {}
inline BigInt::BigInt(napi_env env, napi_value value) : Value(env, value) {}
inline int64_t BigInt::Int64Value(bool* lossless) const {
int64_t result;
napi_status status =
napi_get_value_bigint_int64(_env, _value, &result, lossless);
NAPI_THROW_IF_FAILED(_env, status, 0);
return result;
}
inline uint64_t BigInt::Uint64Value(bool* lossless) const {
uint64_t result;
napi_status status =
napi_get_value_bigint_uint64(_env, _value, &result, lossless);
NAPI_THROW_IF_FAILED(_env, status, 0);
return result;
}
inline size_t BigInt::WordCount() const {
size_t word_count;
napi_status status =
napi_get_value_bigint_words(_env, _value, nullptr, &word_count, nullptr);
NAPI_THROW_IF_FAILED(_env, status, 0);
return word_count;
}
inline void BigInt::ToWords(int* sign_bit,
size_t* word_count,
uint64_t* words) {
napi_status status =
napi_get_value_bigint_words(_env, _value, sign_bit, word_count, words);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
#endif // NAPI_VERSION > 5
#if (NAPI_VERSION > 4)
////////////////////////////////////////////////////////////////////////////////
// Date Class
////////////////////////////////////////////////////////////////////////////////
inline Date Date::New(napi_env env, double val) {
napi_value value;
napi_status status = napi_create_date(env, val, &value);
NAPI_THROW_IF_FAILED(env, status, Date());
return Date(env, value);
}
inline void Date::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "Date::CheckCast", "empty value");
bool result;
napi_status status = napi_is_date(env, value, &result);
NAPI_CHECK(status == napi_ok, "Date::CheckCast", "napi_is_date failed");
NAPI_CHECK(result, "Date::CheckCast", "value is not date");
}
inline Date::Date() : Value() {}
inline Date::Date(napi_env env, napi_value value) : Value(env, value) {}
inline Date::operator double() const {
return ValueOf();
}
inline double Date::ValueOf() const {
double result;
napi_status status = napi_get_date_value(_env, _value, &result);
NAPI_THROW_IF_FAILED(_env, status, 0);
return result;
}
#endif
////////////////////////////////////////////////////////////////////////////////
// Name class
////////////////////////////////////////////////////////////////////////////////
inline void Name::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "Name::CheckCast", "empty value");
napi_valuetype type;
napi_status status = napi_typeof(env, value, &type);
NAPI_CHECK(status == napi_ok, "Name::CheckCast", "napi_typeof failed");
NAPI_CHECK(type == napi_string || type == napi_symbol,
"Name::CheckCast",
"value is not napi_string or napi_symbol");
}
inline Name::Name() : Value() {}
inline Name::Name(napi_env env, napi_value value) : Value(env, value) {}
////////////////////////////////////////////////////////////////////////////////
// String class
////////////////////////////////////////////////////////////////////////////////
inline String String::New(napi_env env, const std::string& val) {
return String::New(env, val.c_str(), val.size());
}
inline String String::New(napi_env env, const std::u16string& val) {
return String::New(env, val.c_str(), val.size());
}
inline String String::New(napi_env env, const char* val) {
// TODO(@gabrielschulhof) Remove if-statement when core's error handling is
// available in all supported versions.
if (val == nullptr) {
// Throw an error that looks like it came from core.
NAPI_THROW_IF_FAILED(env, napi_invalid_arg, String());
}
napi_value value;
napi_status status =
napi_create_string_utf8(env, val, std::strlen(val), &value);
NAPI_THROW_IF_FAILED(env, status, String());
return String(env, value);
}
inline String String::New(napi_env env, const char16_t* val) {
napi_value value;
// TODO(@gabrielschulhof) Remove if-statement when core's error handling is
// available in all supported versions.
if (val == nullptr) {
// Throw an error that looks like it came from core.
NAPI_THROW_IF_FAILED(env, napi_invalid_arg, String());
}
napi_status status =
napi_create_string_utf16(env, val, std::u16string(val).size(), &value);
NAPI_THROW_IF_FAILED(env, status, String());
return String(env, value);
}
inline String String::New(napi_env env, const char* val, size_t length) {
napi_value value;
napi_status status = napi_create_string_utf8(env, val, length, &value);
NAPI_THROW_IF_FAILED(env, status, String());
return String(env, value);
}
inline String String::New(napi_env env, const char16_t* val, size_t length) {
napi_value value;
napi_status status = napi_create_string_utf16(env, val, length, &value);
NAPI_THROW_IF_FAILED(env, status, String());
return String(env, value);
}
inline void String::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "String::CheckCast", "empty value");
napi_valuetype type;
napi_status status = napi_typeof(env, value, &type);
NAPI_CHECK(status == napi_ok, "String::CheckCast", "napi_typeof failed");
NAPI_CHECK(
type == napi_string, "String::CheckCast", "value is not napi_string");
}
inline String::String() : Name() {}
inline String::String(napi_env env, napi_value value) : Name(env, value) {}
inline String::operator std::string() const {
return Utf8Value();
}
inline String::operator std::u16string() const {
return Utf16Value();
}
inline std::string String::Utf8Value() const {
size_t length;
napi_status status =
napi_get_value_string_utf8(_env, _value, nullptr, 0, &length);
NAPI_THROW_IF_FAILED(_env, status, "");
std::string value;
value.reserve(length + 1);
value.resize(length);
status = napi_get_value_string_utf8(
_env, _value, &value[0], value.capacity(), nullptr);
NAPI_THROW_IF_FAILED(_env, status, "");
return value;
}
inline std::u16string String::Utf16Value() const {
size_t length;
napi_status status =
napi_get_value_string_utf16(_env, _value, nullptr, 0, &length);
NAPI_THROW_IF_FAILED(_env, status, NAPI_WIDE_TEXT(""));
std::u16string value;
value.reserve(length + 1);
value.resize(length);
status = napi_get_value_string_utf16(
_env, _value, &value[0], value.capacity(), nullptr);
NAPI_THROW_IF_FAILED(_env, status, NAPI_WIDE_TEXT(""));
return value;
}
////////////////////////////////////////////////////////////////////////////////
// Symbol class
////////////////////////////////////////////////////////////////////////////////
inline Symbol Symbol::New(napi_env env, const char* description) {
napi_value descriptionValue = description != nullptr
? String::New(env, description)
: static_cast<napi_value>(nullptr);
return Symbol::New(env, descriptionValue);
}
inline Symbol Symbol::New(napi_env env, const std::string& description) {
napi_value descriptionValue = String::New(env, description);
return Symbol::New(env, descriptionValue);
}
inline Symbol Symbol::New(napi_env env, String description) {
napi_value descriptionValue = description;
return Symbol::New(env, descriptionValue);
}
inline Symbol Symbol::New(napi_env env, napi_value description) {
napi_value value;
napi_status status = napi_create_symbol(env, description, &value);
NAPI_THROW_IF_FAILED(env, status, Symbol());
return Symbol(env, value);
}
inline MaybeOrValue<Symbol> Symbol::WellKnown(napi_env env,
const std::string& name) {
#if defined(NODE_ADDON_API_ENABLE_MAYBE)
Value symbol_obj;
Value symbol_value;
if (Napi::Env(env).Global().Get("Symbol").UnwrapTo(&symbol_obj) &&
symbol_obj.As<Object>().Get(name).UnwrapTo(&symbol_value)) {
return Just<Symbol>(symbol_value.As<Symbol>());
}
return Nothing<Symbol>();
#else
return Napi::Env(env)
.Global()
.Get("Symbol")
.As<Object>()
.Get(name)
.As<Symbol>();
#endif
}
inline MaybeOrValue<Symbol> Symbol::For(napi_env env,
const std::string& description) {
napi_value descriptionValue = String::New(env, description);
return Symbol::For(env, descriptionValue);
}
inline MaybeOrValue<Symbol> Symbol::For(napi_env env, const char* description) {
napi_value descriptionValue = String::New(env, description);
return Symbol::For(env, descriptionValue);
}
inline MaybeOrValue<Symbol> Symbol::For(napi_env env, String description) {
return Symbol::For(env, static_cast<napi_value>(description));
}
inline MaybeOrValue<Symbol> Symbol::For(napi_env env, napi_value description) {
#if defined(NODE_ADDON_API_ENABLE_MAYBE)
Value symbol_obj;
Value symbol_for_value;
Value symbol_value;
if (Napi::Env(env).Global().Get("Symbol").UnwrapTo(&symbol_obj) &&
symbol_obj.As<Object>().Get("for").UnwrapTo(&symbol_for_value) &&
symbol_for_value.As<Function>()
.Call(symbol_obj, {description})
.UnwrapTo(&symbol_value)) {
return Just<Symbol>(symbol_value.As<Symbol>());
}
return Nothing<Symbol>();
#else
Object symbol_obj = Napi::Env(env).Global().Get("Symbol").As<Object>();
return symbol_obj.Get("for")
.As<Function>()
.Call(symbol_obj, {description})
.As<Symbol>();
#endif
}
inline void Symbol::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "Symbol::CheckCast", "empty value");
napi_valuetype type;
napi_status status = napi_typeof(env, value, &type);
NAPI_CHECK(status == napi_ok, "Symbol::CheckCast", "napi_typeof failed");
NAPI_CHECK(
type == napi_symbol, "Symbol::CheckCast", "value is not napi_symbol");
}
inline Symbol::Symbol() : Name() {}
inline Symbol::Symbol(napi_env env, napi_value value) : Name(env, value) {}
////////////////////////////////////////////////////////////////////////////////
// Automagic value creation
////////////////////////////////////////////////////////////////////////////////
namespace details {
template <typename T>
struct vf_number {
static Number From(napi_env env, T value) {
return Number::New(env, static_cast<double>(value));
}
};
template <>
struct vf_number<bool> {
static Boolean From(napi_env env, bool value) {
return Boolean::New(env, value);
}
};
struct vf_utf8_charp {
static String From(napi_env env, const char* value) {
return String::New(env, value);
}
};
struct vf_utf16_charp {
static String From(napi_env env, const char16_t* value) {
return String::New(env, value);
}
};
struct vf_utf8_string {
static String From(napi_env env, const std::string& value) {
return String::New(env, value);
}
};
struct vf_utf16_string {
static String From(napi_env env, const std::u16string& value) {
return String::New(env, value);
}
};
template <typename T>
struct vf_fallback {
static Value From(napi_env env, const T& value) { return Value(env, value); }
};
template <typename...>
struct disjunction : std::false_type {};
template <typename B>
struct disjunction<B> : B {};
template <typename B, typename... Bs>
struct disjunction<B, Bs...>
: std::conditional<bool(B::value), B, disjunction<Bs...>>::type {};
template <typename T>
struct can_make_string
: disjunction<typename std::is_convertible<T, const char*>::type,
typename std::is_convertible<T, const char16_t*>::type,
typename std::is_convertible<T, std::string>::type,
typename std::is_convertible<T, std::u16string>::type> {};
} // namespace details
template <typename T>
Value Value::From(napi_env env, const T& value) {
using Helper = typename std::conditional<
std::is_integral<T>::value || std::is_floating_point<T>::value,
details::vf_number<T>,
typename std::conditional<details::can_make_string<T>::value,
String,
details::vf_fallback<T>>::type>::type;
return Helper::From(env, value);
}
template <typename T>
String String::From(napi_env env, const T& value) {
struct Dummy {};
using Helper = typename std::conditional<
std::is_convertible<T, const char*>::value,
details::vf_utf8_charp,
typename std::conditional<
std::is_convertible<T, const char16_t*>::value,
details::vf_utf16_charp,
typename std::conditional<
std::is_convertible<T, std::string>::value,
details::vf_utf8_string,
typename std::conditional<
std::is_convertible<T, std::u16string>::value,
details::vf_utf16_string,
Dummy>::type>::type>::type>::type;
return Helper::From(env, value);
}
////////////////////////////////////////////////////////////////////////////////
// TypeTaggable class
////////////////////////////////////////////////////////////////////////////////
inline TypeTaggable::TypeTaggable() : Value() {}
inline TypeTaggable::TypeTaggable(napi_env _env, napi_value _value)
: Value(_env, _value) {}
#if NAPI_VERSION >= 8
inline void TypeTaggable::TypeTag(const napi_type_tag* type_tag) const {
napi_status status = napi_type_tag_object(_env, _value, type_tag);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
inline bool TypeTaggable::CheckTypeTag(const napi_type_tag* type_tag) const {
bool result;
napi_status status =
napi_check_object_type_tag(_env, _value, type_tag, &result);
NAPI_THROW_IF_FAILED(_env, status, false);
return result;
}
#endif // NAPI_VERSION >= 8
////////////////////////////////////////////////////////////////////////////////
// Object class
////////////////////////////////////////////////////////////////////////////////
template <typename Key>
inline Object::PropertyLValue<Key>::operator Value() const {
MaybeOrValue<Value> val = Object(_env, _object).Get(_key);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
return val.Unwrap();
#else
return val;
#endif
}
template <typename Key>
template <typename ValueType>
inline Object::PropertyLValue<Key>& Object::PropertyLValue<Key>::operator=(
ValueType value) {
#ifdef NODE_ADDON_API_ENABLE_MAYBE
MaybeOrValue<bool> result =
#endif
Object(_env, _object).Set(_key, value);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
result.Unwrap();
#endif
return *this;
}
template <typename Key>
inline Object::PropertyLValue<Key>::PropertyLValue(Object object, Key key)
: _env(object.Env()), _object(object), _key(key) {}
inline Object Object::New(napi_env env) {
napi_value value;
napi_status status = napi_create_object(env, &value);
NAPI_THROW_IF_FAILED(env, status, Object());
return Object(env, value);
}
inline void Object::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "Object::CheckCast", "empty value");
napi_valuetype type;
napi_status status = napi_typeof(env, value, &type);
NAPI_CHECK(status == napi_ok, "Object::CheckCast", "napi_typeof failed");
NAPI_CHECK(
type == napi_object, "Object::CheckCast", "value is not napi_object");
}
inline Object::Object() : TypeTaggable() {}
inline Object::Object(napi_env env, napi_value value)
: TypeTaggable(env, value) {}
inline Object::PropertyLValue<std::string> Object::operator[](
const char* utf8name) {
return PropertyLValue<std::string>(*this, utf8name);
}
inline Object::PropertyLValue<std::string> Object::operator[](
const std::string& utf8name) {
return PropertyLValue<std::string>(*this, utf8name);
}
inline Object::PropertyLValue<uint32_t> Object::operator[](uint32_t index) {
return PropertyLValue<uint32_t>(*this, index);
}
inline Object::PropertyLValue<Value> Object::operator[](Value index) const {
return PropertyLValue<Value>(*this, index);
}
inline MaybeOrValue<Value> Object::operator[](const char* utf8name) const {
return Get(utf8name);
}
inline MaybeOrValue<Value> Object::operator[](
const std::string& utf8name) const {
return Get(utf8name);
}
inline MaybeOrValue<Value> Object::operator[](uint32_t index) const {
return Get(index);
}
inline MaybeOrValue<bool> Object::Has(napi_value key) const {
bool result;
napi_status status = napi_has_property(_env, _value, key, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, result, bool);
}
inline MaybeOrValue<bool> Object::Has(Value key) const {
bool result;
napi_status status = napi_has_property(_env, _value, key, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, result, bool);
}
inline MaybeOrValue<bool> Object::Has(const char* utf8name) const {
bool result;
napi_status status = napi_has_named_property(_env, _value, utf8name, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, result, bool);
}
inline MaybeOrValue<bool> Object::Has(const std::string& utf8name) const {
return Has(utf8name.c_str());
}
inline MaybeOrValue<bool> Object::HasOwnProperty(napi_value key) const {
bool result;
napi_status status = napi_has_own_property(_env, _value, key, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, result, bool);
}
inline MaybeOrValue<bool> Object::HasOwnProperty(Value key) const {
bool result;
napi_status status = napi_has_own_property(_env, _value, key, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, result, bool);
}
inline MaybeOrValue<bool> Object::HasOwnProperty(const char* utf8name) const {
napi_value key;
napi_status status =
napi_create_string_utf8(_env, utf8name, std::strlen(utf8name), &key);
NAPI_MAYBE_THROW_IF_FAILED(_env, status, bool);
return HasOwnProperty(key);
}
inline MaybeOrValue<bool> Object::HasOwnProperty(
const std::string& utf8name) const {
return HasOwnProperty(utf8name.c_str());
}
inline MaybeOrValue<Value> Object::Get(napi_value key) const {
napi_value result;
napi_status status = napi_get_property(_env, _value, key, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, Value(_env, result), Value);
}
inline MaybeOrValue<Value> Object::Get(Value key) const {
napi_value result;
napi_status status = napi_get_property(_env, _value, key, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, Value(_env, result), Value);
}
inline MaybeOrValue<Value> Object::Get(const char* utf8name) const {
napi_value result;
napi_status status = napi_get_named_property(_env, _value, utf8name, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, Value(_env, result), Value);
}
inline MaybeOrValue<Value> Object::Get(const std::string& utf8name) const {
return Get(utf8name.c_str());
}
template <typename ValueType>
inline MaybeOrValue<bool> Object::Set(napi_value key,
const ValueType& value) const {
napi_status status =
napi_set_property(_env, _value, key, Value::From(_env, value));
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, status == napi_ok, bool);
}
template <typename ValueType>
inline MaybeOrValue<bool> Object::Set(Value key, const ValueType& value) const {
napi_status status =
napi_set_property(_env, _value, key, Value::From(_env, value));
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, status == napi_ok, bool);
}
template <typename ValueType>
inline MaybeOrValue<bool> Object::Set(const char* utf8name,
const ValueType& value) const {
napi_status status =
napi_set_named_property(_env, _value, utf8name, Value::From(_env, value));
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, status == napi_ok, bool);
}
template <typename ValueType>
inline MaybeOrValue<bool> Object::Set(const std::string& utf8name,
const ValueType& value) const {
return Set(utf8name.c_str(), value);
}
inline MaybeOrValue<bool> Object::Delete(napi_value key) const {
bool result;
napi_status status = napi_delete_property(_env, _value, key, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, result, bool);
}
inline MaybeOrValue<bool> Object::Delete(Value key) const {
bool result;
napi_status status = napi_delete_property(_env, _value, key, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, result, bool);
}
inline MaybeOrValue<bool> Object::Delete(const char* utf8name) const {
return Delete(String::New(_env, utf8name));
}
inline MaybeOrValue<bool> Object::Delete(const std::string& utf8name) const {
return Delete(String::New(_env, utf8name));
}
inline MaybeOrValue<bool> Object::Has(uint32_t index) const {
bool result;
napi_status status = napi_has_element(_env, _value, index, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, result, bool);
}
inline MaybeOrValue<Value> Object::Get(uint32_t index) const {
napi_value value;
napi_status status = napi_get_element(_env, _value, index, &value);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, Value(_env, value), Value);
}
template <typename ValueType>
inline MaybeOrValue<bool> Object::Set(uint32_t index,
const ValueType& value) const {
napi_status status =
napi_set_element(_env, _value, index, Value::From(_env, value));
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, status == napi_ok, bool);
}
inline MaybeOrValue<bool> Object::Delete(uint32_t index) const {
bool result;
napi_status status = napi_delete_element(_env, _value, index, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, result, bool);
}
inline MaybeOrValue<Array> Object::GetPropertyNames() const {
napi_value result;
napi_status status = napi_get_property_names(_env, _value, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, Array(_env, result), Array);
}
inline MaybeOrValue<bool> Object::DefineProperty(
const PropertyDescriptor& property) const {
napi_status status = napi_define_properties(
_env,
_value,
1,
reinterpret_cast<const napi_property_descriptor*>(&property));
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, status == napi_ok, bool);
}
inline MaybeOrValue<bool> Object::DefineProperties(
const std::initializer_list<PropertyDescriptor>& properties) const {
napi_status status = napi_define_properties(
_env,
_value,
properties.size(),
reinterpret_cast<const napi_property_descriptor*>(properties.begin()));
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, status == napi_ok, bool);
}
inline MaybeOrValue<bool> Object::DefineProperties(
const std::vector<PropertyDescriptor>& properties) const {
napi_status status = napi_define_properties(
_env,
_value,
properties.size(),
reinterpret_cast<const napi_property_descriptor*>(properties.data()));
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, status == napi_ok, bool);
}
inline MaybeOrValue<bool> Object::InstanceOf(
const Function& constructor) const {
bool result;
napi_status status = napi_instanceof(_env, _value, constructor, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, result, bool);
}
template <typename Finalizer, typename T>
inline void Object::AddFinalizer(Finalizer finalizeCallback, T* data) const {
details::FinalizeData<T, Finalizer>* finalizeData =
new details::FinalizeData<T, Finalizer>(
{std::move(finalizeCallback), nullptr});
napi_status status =
details::AttachData<T, details::FinalizeData<T, Finalizer>::Wrapper>(
_env, *this, data, finalizeData);
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
}
template <typename Finalizer, typename T, typename Hint>
inline void Object::AddFinalizer(Finalizer finalizeCallback,
T* data,
Hint* finalizeHint) const {
details::FinalizeData<T, Finalizer, Hint>* finalizeData =
new details::FinalizeData<T, Finalizer, Hint>(
{std::move(finalizeCallback), finalizeHint});
napi_status status = details::
AttachData<T, details::FinalizeData<T, Finalizer, Hint>::WrapperWithHint>(
_env, *this, data, finalizeData);
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
}
#ifdef NAPI_CPP_EXCEPTIONS
inline Object::const_iterator::const_iterator(const Object* object,
const Type type) {
_object = object;
_keys = object->GetPropertyNames();
_index = type == Type::BEGIN ? 0 : _keys.Length();
}
inline Object::const_iterator Napi::Object::begin() const {
const_iterator it(this, Object::const_iterator::Type::BEGIN);
return it;
}
inline Object::const_iterator Napi::Object::end() const {
const_iterator it(this, Object::const_iterator::Type::END);
return it;
}
inline Object::const_iterator& Object::const_iterator::operator++() {
++_index;
return *this;
}
inline bool Object::const_iterator::operator==(
const const_iterator& other) const {
return _index == other._index;
}
inline bool Object::const_iterator::operator!=(
const const_iterator& other) const {
return _index != other._index;
}
inline const std::pair<Value, Object::PropertyLValue<Value>>
Object::const_iterator::operator*() const {
const Value key = _keys[_index];
const PropertyLValue<Value> value = (*_object)[key];
return {key, value};
}
inline Object::iterator::iterator(Object* object, const Type type) {
_object = object;
_keys = object->GetPropertyNames();
_index = type == Type::BEGIN ? 0 : _keys.Length();
}
inline Object::iterator Napi::Object::begin() {
iterator it(this, Object::iterator::Type::BEGIN);
return it;
}
inline Object::iterator Napi::Object::end() {
iterator it(this, Object::iterator::Type::END);
return it;
}
inline Object::iterator& Object::iterator::operator++() {
++_index;
return *this;
}
inline bool Object::iterator::operator==(const iterator& other) const {
return _index == other._index;
}
inline bool Object::iterator::operator!=(const iterator& other) const {
return _index != other._index;
}
inline std::pair<Value, Object::PropertyLValue<Value>>
Object::iterator::operator*() {
Value key = _keys[_index];
PropertyLValue<Value> value = (*_object)[key];
return {key, value};
}
#endif // NAPI_CPP_EXCEPTIONS
#if NAPI_VERSION >= 8
inline MaybeOrValue<bool> Object::Freeze() const {
napi_status status = napi_object_freeze(_env, _value);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, status == napi_ok, bool);
}
inline MaybeOrValue<bool> Object::Seal() const {
napi_status status = napi_object_seal(_env, _value);
NAPI_RETURN_OR_THROW_IF_FAILED(_env, status, status == napi_ok, bool);
}
#endif // NAPI_VERSION >= 8
////////////////////////////////////////////////////////////////////////////////
// External class
////////////////////////////////////////////////////////////////////////////////
template <typename T>
inline External<T> External<T>::New(napi_env env, T* data) {
napi_value value;
napi_status status =
napi_create_external(env, data, nullptr, nullptr, &value);
NAPI_THROW_IF_FAILED(env, status, External());
return External(env, value);
}
template <typename T>
template <typename Finalizer>
inline External<T> External<T>::New(napi_env env,
T* data,
Finalizer finalizeCallback) {
napi_value value;
details::FinalizeData<T, Finalizer>* finalizeData =
new details::FinalizeData<T, Finalizer>(
{std::move(finalizeCallback), nullptr});
napi_status status =
napi_create_external(env,
data,
details::FinalizeData<T, Finalizer>::Wrapper,
finalizeData,
&value);
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED(env, status, External());
}
return External(env, value);
}
template <typename T>
template <typename Finalizer, typename Hint>
inline External<T> External<T>::New(napi_env env,
T* data,
Finalizer finalizeCallback,
Hint* finalizeHint) {
napi_value value;
details::FinalizeData<T, Finalizer, Hint>* finalizeData =
new details::FinalizeData<T, Finalizer, Hint>(
{std::move(finalizeCallback), finalizeHint});
napi_status status = napi_create_external(
env,
data,
details::FinalizeData<T, Finalizer, Hint>::WrapperWithHint,
finalizeData,
&value);
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED(env, status, External());
}
return External(env, value);
}
template <typename T>
inline void External<T>::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "External::CheckCast", "empty value");
napi_valuetype type;
napi_status status = napi_typeof(env, value, &type);
NAPI_CHECK(status == napi_ok, "External::CheckCast", "napi_typeof failed");
NAPI_CHECK(type == napi_external,
"External::CheckCast",
"value is not napi_external");
}
template <typename T>
inline External<T>::External() : TypeTaggable() {}
template <typename T>
inline External<T>::External(napi_env env, napi_value value)
: TypeTaggable(env, value) {}
template <typename T>
inline T* External<T>::Data() const {
void* data;
napi_status status = napi_get_value_external(_env, _value, &data);
NAPI_THROW_IF_FAILED(_env, status, nullptr);
return reinterpret_cast<T*>(data);
}
////////////////////////////////////////////////////////////////////////////////
// Array class
////////////////////////////////////////////////////////////////////////////////
inline Array Array::New(napi_env env) {
napi_value value;
napi_status status = napi_create_array(env, &value);
NAPI_THROW_IF_FAILED(env, status, Array());
return Array(env, value);
}
inline Array Array::New(napi_env env, size_t length) {
napi_value value;
napi_status status = napi_create_array_with_length(env, length, &value);
NAPI_THROW_IF_FAILED(env, status, Array());
return Array(env, value);
}
inline void Array::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "Array::CheckCast", "empty value");
bool result;
napi_status status = napi_is_array(env, value, &result);
NAPI_CHECK(status == napi_ok, "Array::CheckCast", "napi_is_array failed");
NAPI_CHECK(result, "Array::CheckCast", "value is not array");
}
inline Array::Array() : Object() {}
inline Array::Array(napi_env env, napi_value value) : Object(env, value) {}
inline uint32_t Array::Length() const {
uint32_t result;
napi_status status = napi_get_array_length(_env, _value, &result);
NAPI_THROW_IF_FAILED(_env, status, 0);
return result;
}
////////////////////////////////////////////////////////////////////////////////
// ArrayBuffer class
////////////////////////////////////////////////////////////////////////////////
inline ArrayBuffer ArrayBuffer::New(napi_env env, size_t byteLength) {
napi_value value;
void* data;
napi_status status = napi_create_arraybuffer(env, byteLength, &data, &value);
NAPI_THROW_IF_FAILED(env, status, ArrayBuffer());
return ArrayBuffer(env, value);
}
#ifndef NODE_API_NO_EXTERNAL_BUFFERS_ALLOWED
inline ArrayBuffer ArrayBuffer::New(napi_env env,
void* externalData,
size_t byteLength) {
napi_value value;
napi_status status = napi_create_external_arraybuffer(
env, externalData, byteLength, nullptr, nullptr, &value);
NAPI_THROW_IF_FAILED(env, status, ArrayBuffer());
return ArrayBuffer(env, value);
}
template <typename Finalizer>
inline ArrayBuffer ArrayBuffer::New(napi_env env,
void* externalData,
size_t byteLength,
Finalizer finalizeCallback) {
napi_value value;
details::FinalizeData<void, Finalizer>* finalizeData =
new details::FinalizeData<void, Finalizer>(
{std::move(finalizeCallback), nullptr});
napi_status status = napi_create_external_arraybuffer(
env,
externalData,
byteLength,
details::FinalizeData<void, Finalizer>::Wrapper,
finalizeData,
&value);
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED(env, status, ArrayBuffer());
}
return ArrayBuffer(env, value);
}
template <typename Finalizer, typename Hint>
inline ArrayBuffer ArrayBuffer::New(napi_env env,
void* externalData,
size_t byteLength,
Finalizer finalizeCallback,
Hint* finalizeHint) {
napi_value value;
details::FinalizeData<void, Finalizer, Hint>* finalizeData =
new details::FinalizeData<void, Finalizer, Hint>(
{std::move(finalizeCallback), finalizeHint});
napi_status status = napi_create_external_arraybuffer(
env,
externalData,
byteLength,
details::FinalizeData<void, Finalizer, Hint>::WrapperWithHint,
finalizeData,
&value);
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED(env, status, ArrayBuffer());
}
return ArrayBuffer(env, value);
}
#endif // NODE_API_NO_EXTERNAL_BUFFERS_ALLOWED
inline void ArrayBuffer::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "ArrayBuffer::CheckCast", "empty value");
bool result;
napi_status status = napi_is_arraybuffer(env, value, &result);
NAPI_CHECK(status == napi_ok,
"ArrayBuffer::CheckCast",
"napi_is_arraybuffer failed");
NAPI_CHECK(result, "ArrayBuffer::CheckCast", "value is not arraybuffer");
}
inline ArrayBuffer::ArrayBuffer() : Object() {}
inline ArrayBuffer::ArrayBuffer(napi_env env, napi_value value)
: Object(env, value) {}
inline void* ArrayBuffer::Data() {
void* data;
napi_status status = napi_get_arraybuffer_info(_env, _value, &data, nullptr);
NAPI_THROW_IF_FAILED(_env, status, nullptr);
return data;
}
inline size_t ArrayBuffer::ByteLength() {
size_t length;
napi_status status =
napi_get_arraybuffer_info(_env, _value, nullptr, &length);
NAPI_THROW_IF_FAILED(_env, status, 0);
return length;
}
#if NAPI_VERSION >= 7
inline bool ArrayBuffer::IsDetached() const {
bool detached;
napi_status status = napi_is_detached_arraybuffer(_env, _value, &detached);
NAPI_THROW_IF_FAILED(_env, status, false);
return detached;
}
inline void ArrayBuffer::Detach() {
napi_status status = napi_detach_arraybuffer(_env, _value);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
#endif // NAPI_VERSION >= 7
////////////////////////////////////////////////////////////////////////////////
// DataView class
////////////////////////////////////////////////////////////////////////////////
inline DataView DataView::New(napi_env env, Napi::ArrayBuffer arrayBuffer) {
return New(env, arrayBuffer, 0, arrayBuffer.ByteLength());
}
inline DataView DataView::New(napi_env env,
Napi::ArrayBuffer arrayBuffer,
size_t byteOffset) {
if (byteOffset > arrayBuffer.ByteLength()) {
NAPI_THROW(RangeError::New(
env, "Start offset is outside the bounds of the buffer"),
DataView());
}
return New(
env, arrayBuffer, byteOffset, arrayBuffer.ByteLength() - byteOffset);
}
inline DataView DataView::New(napi_env env,
Napi::ArrayBuffer arrayBuffer,
size_t byteOffset,
size_t byteLength) {
if (byteOffset + byteLength > arrayBuffer.ByteLength()) {
NAPI_THROW(RangeError::New(env, "Invalid DataView length"), DataView());
}
napi_value value;
napi_status status =
napi_create_dataview(env, byteLength, arrayBuffer, byteOffset, &value);
NAPI_THROW_IF_FAILED(env, status, DataView());
return DataView(env, value);
}
inline void DataView::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "DataView::CheckCast", "empty value");
bool result;
napi_status status = napi_is_dataview(env, value, &result);
NAPI_CHECK(
status == napi_ok, "DataView::CheckCast", "napi_is_dataview failed");
NAPI_CHECK(result, "DataView::CheckCast", "value is not dataview");
}
inline DataView::DataView() : Object() {}
inline DataView::DataView(napi_env env, napi_value value) : Object(env, value) {
napi_status status = napi_get_dataview_info(_env,
_value /* dataView */,
&_length /* byteLength */,
&_data /* data */,
nullptr /* arrayBuffer */,
nullptr /* byteOffset */);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
inline Napi::ArrayBuffer DataView::ArrayBuffer() const {
napi_value arrayBuffer;
napi_status status = napi_get_dataview_info(_env,
_value /* dataView */,
nullptr /* byteLength */,
nullptr /* data */,
&arrayBuffer /* arrayBuffer */,
nullptr /* byteOffset */);
NAPI_THROW_IF_FAILED(_env, status, Napi::ArrayBuffer());
return Napi::ArrayBuffer(_env, arrayBuffer);
}
inline size_t DataView::ByteOffset() const {
size_t byteOffset;
napi_status status = napi_get_dataview_info(_env,
_value /* dataView */,
nullptr /* byteLength */,
nullptr /* data */,
nullptr /* arrayBuffer */,
&byteOffset /* byteOffset */);
NAPI_THROW_IF_FAILED(_env, status, 0);
return byteOffset;
}
inline size_t DataView::ByteLength() const {
return _length;
}
inline void* DataView::Data() const {
return _data;
}
inline float DataView::GetFloat32(size_t byteOffset) const {
return ReadData<float>(byteOffset);
}
inline double DataView::GetFloat64(size_t byteOffset) const {
return ReadData<double>(byteOffset);
}
inline int8_t DataView::GetInt8(size_t byteOffset) const {
return ReadData<int8_t>(byteOffset);
}
inline int16_t DataView::GetInt16(size_t byteOffset) const {
return ReadData<int16_t>(byteOffset);
}
inline int32_t DataView::GetInt32(size_t byteOffset) const {
return ReadData<int32_t>(byteOffset);
}
inline uint8_t DataView::GetUint8(size_t byteOffset) const {
return ReadData<uint8_t>(byteOffset);
}
inline uint16_t DataView::GetUint16(size_t byteOffset) const {
return ReadData<uint16_t>(byteOffset);
}
inline uint32_t DataView::GetUint32(size_t byteOffset) const {
return ReadData<uint32_t>(byteOffset);
}
inline void DataView::SetFloat32(size_t byteOffset, float value) const {
WriteData<float>(byteOffset, value);
}
inline void DataView::SetFloat64(size_t byteOffset, double value) const {
WriteData<double>(byteOffset, value);
}
inline void DataView::SetInt8(size_t byteOffset, int8_t value) const {
WriteData<int8_t>(byteOffset, value);
}
inline void DataView::SetInt16(size_t byteOffset, int16_t value) const {
WriteData<int16_t>(byteOffset, value);
}
inline void DataView::SetInt32(size_t byteOffset, int32_t value) const {
WriteData<int32_t>(byteOffset, value);
}
inline void DataView::SetUint8(size_t byteOffset, uint8_t value) const {
WriteData<uint8_t>(byteOffset, value);
}
inline void DataView::SetUint16(size_t byteOffset, uint16_t value) const {
WriteData<uint16_t>(byteOffset, value);
}
inline void DataView::SetUint32(size_t byteOffset, uint32_t value) const {
WriteData<uint32_t>(byteOffset, value);
}
template <typename T>
inline T DataView::ReadData(size_t byteOffset) const {
if (byteOffset + sizeof(T) > _length ||
byteOffset + sizeof(T) < byteOffset) { // overflow
NAPI_THROW(
RangeError::New(_env, "Offset is outside the bounds of the DataView"),
0);
}
return *reinterpret_cast<T*>(static_cast<uint8_t*>(_data) + byteOffset);
}
template <typename T>
inline void DataView::WriteData(size_t byteOffset, T value) const {
if (byteOffset + sizeof(T) > _length ||
byteOffset + sizeof(T) < byteOffset) { // overflow
NAPI_THROW_VOID(
RangeError::New(_env, "Offset is outside the bounds of the DataView"));
}
*reinterpret_cast<T*>(static_cast<uint8_t*>(_data) + byteOffset) = value;
}
////////////////////////////////////////////////////////////////////////////////
// TypedArray class
////////////////////////////////////////////////////////////////////////////////
inline void TypedArray::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "TypedArray::CheckCast", "empty value");
bool result;
napi_status status = napi_is_typedarray(env, value, &result);
NAPI_CHECK(
status == napi_ok, "TypedArray::CheckCast", "napi_is_typedarray failed");
NAPI_CHECK(result, "TypedArray::CheckCast", "value is not typedarray");
}
inline TypedArray::TypedArray()
: Object(), _type(napi_typedarray_type::napi_int8_array), _length(0) {}
inline TypedArray::TypedArray(napi_env env, napi_value value)
: Object(env, value),
_type(napi_typedarray_type::napi_int8_array),
_length(0) {
if (value != nullptr) {
napi_status status =
napi_get_typedarray_info(_env,
_value,
&const_cast<TypedArray*>(this)->_type,
&const_cast<TypedArray*>(this)->_length,
nullptr,
nullptr,
nullptr);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
}
inline TypedArray::TypedArray(napi_env env,
napi_value value,
napi_typedarray_type type,
size_t length)
: Object(env, value), _type(type), _length(length) {}
inline napi_typedarray_type TypedArray::TypedArrayType() const {
return _type;
}
inline uint8_t TypedArray::ElementSize() const {
switch (_type) {
case napi_int8_array:
case napi_uint8_array:
case napi_uint8_clamped_array:
return 1;
case napi_int16_array:
case napi_uint16_array:
return 2;
case napi_int32_array:
case napi_uint32_array:
case napi_float32_array:
return 4;
case napi_float64_array:
#if (NAPI_VERSION > 5)
case napi_bigint64_array:
case napi_biguint64_array:
#endif // (NAPI_VERSION > 5)
return 8;
default:
return 0;
}
}
inline size_t TypedArray::ElementLength() const {
return _length;
}
inline size_t TypedArray::ByteOffset() const {
size_t byteOffset;
napi_status status = napi_get_typedarray_info(
_env, _value, nullptr, nullptr, nullptr, nullptr, &byteOffset);
NAPI_THROW_IF_FAILED(_env, status, 0);
return byteOffset;
}
inline size_t TypedArray::ByteLength() const {
return ElementSize() * ElementLength();
}
inline Napi::ArrayBuffer TypedArray::ArrayBuffer() const {
napi_value arrayBuffer;
napi_status status = napi_get_typedarray_info(
_env, _value, nullptr, nullptr, nullptr, &arrayBuffer, nullptr);
NAPI_THROW_IF_FAILED(_env, status, Napi::ArrayBuffer());
return Napi::ArrayBuffer(_env, arrayBuffer);
}
////////////////////////////////////////////////////////////////////////////////
// TypedArrayOf<T> class
////////////////////////////////////////////////////////////////////////////////
template <typename T>
inline void TypedArrayOf<T>::CheckCast(napi_env env, napi_value value) {
TypedArray::CheckCast(env, value);
napi_typedarray_type type;
napi_status status = napi_get_typedarray_info(
env, value, &type, nullptr, nullptr, nullptr, nullptr);
NAPI_CHECK(status == napi_ok,
"TypedArrayOf::CheckCast",
"napi_is_typedarray failed");
NAPI_CHECK(
(type == TypedArrayTypeForPrimitiveType<T>() ||
(type == napi_uint8_clamped_array && std::is_same<T, uint8_t>::value)),
"TypedArrayOf::CheckCast",
"Array type must match the template parameter. (Uint8 arrays may "
"optionally have the \"clamped\" array type.)");
}
template <typename T>
inline TypedArrayOf<T> TypedArrayOf<T>::New(napi_env env,
size_t elementLength,
napi_typedarray_type type) {
Napi::ArrayBuffer arrayBuffer =
Napi::ArrayBuffer::New(env, elementLength * sizeof(T));
return New(env, elementLength, arrayBuffer, 0, type);
}
template <typename T>
inline TypedArrayOf<T> TypedArrayOf<T>::New(napi_env env,
size_t elementLength,
Napi::ArrayBuffer arrayBuffer,
size_t bufferOffset,
napi_typedarray_type type) {
napi_value value;
napi_status status = napi_create_typedarray(
env, type, elementLength, arrayBuffer, bufferOffset, &value);
NAPI_THROW_IF_FAILED(env, status, TypedArrayOf<T>());
return TypedArrayOf<T>(
env,
value,
type,
elementLength,
reinterpret_cast<T*>(reinterpret_cast<uint8_t*>(arrayBuffer.Data()) +
bufferOffset));
}
template <typename T>
inline TypedArrayOf<T>::TypedArrayOf() : TypedArray(), _data(nullptr) {}
template <typename T>
inline TypedArrayOf<T>::TypedArrayOf(napi_env env, napi_value value)
: TypedArray(env, value), _data(nullptr) {
napi_status status = napi_ok;
if (value != nullptr) {
void* data = nullptr;
status = napi_get_typedarray_info(
_env, _value, &_type, &_length, &data, nullptr, nullptr);
_data = static_cast<T*>(data);
} else {
_type = TypedArrayTypeForPrimitiveType<T>();
_length = 0;
}
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
template <typename T>
inline TypedArrayOf<T>::TypedArrayOf(napi_env env,
napi_value value,
napi_typedarray_type type,
size_t length,
T* data)
: TypedArray(env, value, type, length), _data(data) {
if (!(type == TypedArrayTypeForPrimitiveType<T>() ||
(type == napi_uint8_clamped_array &&
std::is_same<T, uint8_t>::value))) {
NAPI_THROW_VOID(TypeError::New(
env,
"Array type must match the template parameter. "
"(Uint8 arrays may optionally have the \"clamped\" array type.)"));
}
}
template <typename T>
inline T& TypedArrayOf<T>::operator[](size_t index) {
return _data[index];
}
template <typename T>
inline const T& TypedArrayOf<T>::operator[](size_t index) const {
return _data[index];
}
template <typename T>
inline T* TypedArrayOf<T>::Data() {
return _data;
}
template <typename T>
inline const T* TypedArrayOf<T>::Data() const {
return _data;
}
////////////////////////////////////////////////////////////////////////////////
// Function class
////////////////////////////////////////////////////////////////////////////////
template <typename CbData>
inline napi_status CreateFunction(napi_env env,
const char* utf8name,
napi_callback cb,
CbData* data,
napi_value* result) {
napi_status status =
napi_create_function(env, utf8name, NAPI_AUTO_LENGTH, cb, data, result);
if (status == napi_ok) {
status = Napi::details::AttachData(env, *result, data);
}
return status;
}
template <Function::VoidCallback cb>
inline Function Function::New(napi_env env, const char* utf8name, void* data) {
napi_value result = nullptr;
napi_status status = napi_create_function(env,
utf8name,
NAPI_AUTO_LENGTH,
details::TemplatedVoidCallback<cb>,
data,
&result);
NAPI_THROW_IF_FAILED(env, status, Function());
return Function(env, result);
}
template <Function::Callback cb>
inline Function Function::New(napi_env env, const char* utf8name, void* data) {
napi_value result = nullptr;
napi_status status = napi_create_function(env,
utf8name,
NAPI_AUTO_LENGTH,
details::TemplatedCallback<cb>,
data,
&result);
NAPI_THROW_IF_FAILED(env, status, Function());
return Function(env, result);
}
template <Function::VoidCallback cb>
inline Function Function::New(napi_env env,
const std::string& utf8name,
void* data) {
return Function::New<cb>(env, utf8name.c_str(), data);
}
template <Function::Callback cb>
inline Function Function::New(napi_env env,
const std::string& utf8name,
void* data) {
return Function::New<cb>(env, utf8name.c_str(), data);
}
template <typename Callable>
inline Function Function::New(napi_env env,
Callable cb,
const char* utf8name,
void* data) {
using ReturnType = decltype(cb(CallbackInfo(nullptr, nullptr)));
using CbData = details::CallbackData<Callable, ReturnType>;
auto callbackData = new CbData{std::move(cb), data};
napi_value value;
napi_status status =
CreateFunction(env, utf8name, CbData::Wrapper, callbackData, &value);
if (status != napi_ok) {
delete callbackData;
NAPI_THROW_IF_FAILED(env, status, Function());
}
return Function(env, value);
}
template <typename Callable>
inline Function Function::New(napi_env env,
Callable cb,
const std::string& utf8name,
void* data) {
return New(env, cb, utf8name.c_str(), data);
}
inline void Function::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "Function::CheckCast", "empty value");
napi_valuetype type;
napi_status status = napi_typeof(env, value, &type);
NAPI_CHECK(status == napi_ok, "Function::CheckCast", "napi_typeof failed");
NAPI_CHECK(type == napi_function,
"Function::CheckCast",
"value is not napi_function");
}
inline Function::Function() : Object() {}
inline Function::Function(napi_env env, napi_value value)
: Object(env, value) {}
inline MaybeOrValue<Value> Function::operator()(
const std::initializer_list<napi_value>& args) const {
return Call(Env().Undefined(), args);
}
inline MaybeOrValue<Value> Function::Call(
const std::initializer_list<napi_value>& args) const {
return Call(Env().Undefined(), args);
}
inline MaybeOrValue<Value> Function::Call(
const std::vector<napi_value>& args) const {
return Call(Env().Undefined(), args);
}
inline MaybeOrValue<Value> Function::Call(
const std::vector<Value>& args) const {
return Call(Env().Undefined(), args);
}
inline MaybeOrValue<Value> Function::Call(size_t argc,
const napi_value* args) const {
return Call(Env().Undefined(), argc, args);
}
inline MaybeOrValue<Value> Function::Call(
napi_value recv, const std::initializer_list<napi_value>& args) const {
return Call(recv, args.size(), args.begin());
}
inline MaybeOrValue<Value> Function::Call(
napi_value recv, const std::vector<napi_value>& args) const {
return Call(recv, args.size(), args.data());
}
inline MaybeOrValue<Value> Function::Call(
napi_value recv, const std::vector<Value>& args) const {
const size_t argc = args.size();
const size_t stackArgsCount = 6;
napi_value stackArgs[stackArgsCount];
std::vector<napi_value> heapArgs;
napi_value* argv;
if (argc <= stackArgsCount) {
argv = stackArgs;
} else {
heapArgs.resize(argc);
argv = heapArgs.data();
}
for (size_t index = 0; index < argc; index++) {
argv[index] = static_cast<napi_value>(args[index]);
}
return Call(recv, argc, argv);
}
inline MaybeOrValue<Value> Function::Call(napi_value recv,
size_t argc,
const napi_value* args) const {
napi_value result;
napi_status status =
napi_call_function(_env, recv, _value, argc, args, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(
_env, status, Napi::Value(_env, result), Napi::Value);
}
inline MaybeOrValue<Value> Function::MakeCallback(
napi_value recv,
const std::initializer_list<napi_value>& args,
napi_async_context context) const {
return MakeCallback(recv, args.size(), args.begin(), context);
}
inline MaybeOrValue<Value> Function::MakeCallback(
napi_value recv,
const std::vector<napi_value>& args,
napi_async_context context) const {
return MakeCallback(recv, args.size(), args.data(), context);
}
inline MaybeOrValue<Value> Function::MakeCallback(
napi_value recv,
size_t argc,
const napi_value* args,
napi_async_context context) const {
napi_value result;
napi_status status =
napi_make_callback(_env, context, recv, _value, argc, args, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(
_env, status, Napi::Value(_env, result), Napi::Value);
}
inline MaybeOrValue<Object> Function::New(
const std::initializer_list<napi_value>& args) const {
return New(args.size(), args.begin());
}
inline MaybeOrValue<Object> Function::New(
const std::vector<napi_value>& args) const {
return New(args.size(), args.data());
}
inline MaybeOrValue<Object> Function::New(size_t argc,
const napi_value* args) const {
napi_value result;
napi_status status = napi_new_instance(_env, _value, argc, args, &result);
NAPI_RETURN_OR_THROW_IF_FAILED(
_env, status, Napi::Object(_env, result), Napi::Object);
}
////////////////////////////////////////////////////////////////////////////////
// Promise class
////////////////////////////////////////////////////////////////////////////////
inline Promise::Deferred Promise::Deferred::New(napi_env env) {
return Promise::Deferred(env);
}
inline Promise::Deferred::Deferred(napi_env env) : _env(env) {
napi_status status = napi_create_promise(_env, &_deferred, &_promise);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
inline Promise Promise::Deferred::Promise() const {
return Napi::Promise(_env, _promise);
}
inline Napi::Env Promise::Deferred::Env() const {
return Napi::Env(_env);
}
inline void Promise::Deferred::Resolve(napi_value value) const {
napi_status status = napi_resolve_deferred(_env, _deferred, value);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
inline void Promise::Deferred::Reject(napi_value value) const {
napi_status status = napi_reject_deferred(_env, _deferred, value);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
inline void Promise::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "Promise::CheckCast", "empty value");
bool result;
napi_status status = napi_is_promise(env, value, &result);
NAPI_CHECK(status == napi_ok, "Promise::CheckCast", "napi_is_promise failed");
NAPI_CHECK(result, "Promise::CheckCast", "value is not promise");
}
inline Promise::Promise(napi_env env, napi_value value) : Object(env, value) {}
////////////////////////////////////////////////////////////////////////////////
// Buffer<T> class
////////////////////////////////////////////////////////////////////////////////
template <typename T>
inline Buffer<T> Buffer<T>::New(napi_env env, size_t length) {
napi_value value;
void* data;
napi_status status =
napi_create_buffer(env, length * sizeof(T), &data, &value);
NAPI_THROW_IF_FAILED(env, status, Buffer<T>());
return Buffer(env, value);
}
#ifndef NODE_API_NO_EXTERNAL_BUFFERS_ALLOWED
template <typename T>
inline Buffer<T> Buffer<T>::New(napi_env env, T* data, size_t length) {
napi_value value;
napi_status status = napi_create_external_buffer(
env, length * sizeof(T), data, nullptr, nullptr, &value);
NAPI_THROW_IF_FAILED(env, status, Buffer<T>());
return Buffer(env, value);
}
template <typename T>
template <typename Finalizer>
inline Buffer<T> Buffer<T>::New(napi_env env,
T* data,
size_t length,
Finalizer finalizeCallback) {
napi_value value;
details::FinalizeData<T, Finalizer>* finalizeData =
new details::FinalizeData<T, Finalizer>(
{std::move(finalizeCallback), nullptr});
napi_status status =
napi_create_external_buffer(env,
length * sizeof(T),
data,
details::FinalizeData<T, Finalizer>::Wrapper,
finalizeData,
&value);
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED(env, status, Buffer());
}
return Buffer(env, value);
}
template <typename T>
template <typename Finalizer, typename Hint>
inline Buffer<T> Buffer<T>::New(napi_env env,
T* data,
size_t length,
Finalizer finalizeCallback,
Hint* finalizeHint) {
napi_value value;
details::FinalizeData<T, Finalizer, Hint>* finalizeData =
new details::FinalizeData<T, Finalizer, Hint>(
{std::move(finalizeCallback), finalizeHint});
napi_status status = napi_create_external_buffer(
env,
length * sizeof(T),
data,
details::FinalizeData<T, Finalizer, Hint>::WrapperWithHint,
finalizeData,
&value);
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED(env, status, Buffer());
}
return Buffer(env, value);
}
#endif // NODE_API_NO_EXTERNAL_BUFFERS_ALLOWED
template <typename T>
inline Buffer<T> Buffer<T>::NewOrCopy(napi_env env, T* data, size_t length) {
#ifndef NODE_API_NO_EXTERNAL_BUFFERS_ALLOWED
napi_value value;
napi_status status = napi_create_external_buffer(
env, length * sizeof(T), data, nullptr, nullptr, &value);
if (status == details::napi_no_external_buffers_allowed) {
#endif // NODE_API_NO_EXTERNAL_BUFFERS_ALLOWED
// If we can't create an external buffer, we'll just copy the data.
return Buffer<T>::Copy(env, data, length);
#ifndef NODE_API_NO_EXTERNAL_BUFFERS_ALLOWED
}
NAPI_THROW_IF_FAILED(env, status, Buffer<T>());
return Buffer(env, value);
#endif // NODE_API_NO_EXTERNAL_BUFFERS_ALLOWED
}
template <typename T>
template <typename Finalizer>
inline Buffer<T> Buffer<T>::NewOrCopy(napi_env env,
T* data,
size_t length,
Finalizer finalizeCallback) {
details::FinalizeData<T, Finalizer>* finalizeData =
new details::FinalizeData<T, Finalizer>(
{std::move(finalizeCallback), nullptr});
#ifndef NODE_API_NO_EXTERNAL_BUFFERS_ALLOWED
napi_value value;
napi_status status =
napi_create_external_buffer(env,
length * sizeof(T),
data,
details::FinalizeData<T, Finalizer>::Wrapper,
finalizeData,
&value);
if (status == details::napi_no_external_buffers_allowed) {
#endif // NODE_API_NO_EXTERNAL_BUFFERS_ALLOWED
// If we can't create an external buffer, we'll just copy the data.
Buffer<T> ret = Buffer<T>::Copy(env, data, length);
details::FinalizeData<T, Finalizer>::Wrapper(env, data, finalizeData);
return ret;
#ifndef NODE_API_NO_EXTERNAL_BUFFERS_ALLOWED
}
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED(env, status, Buffer());
}
return Buffer(env, value);
#endif // NODE_API_NO_EXTERNAL_BUFFERS_ALLOWED
}
template <typename T>
template <typename Finalizer, typename Hint>
inline Buffer<T> Buffer<T>::NewOrCopy(napi_env env,
T* data,
size_t length,
Finalizer finalizeCallback,
Hint* finalizeHint) {
details::FinalizeData<T, Finalizer, Hint>* finalizeData =
new details::FinalizeData<T, Finalizer, Hint>(
{std::move(finalizeCallback), finalizeHint});
#ifndef NODE_API_NO_EXTERNAL_BUFFERS_ALLOWED
napi_value value;
napi_status status = napi_create_external_buffer(
env,
length * sizeof(T),
data,
details::FinalizeData<T, Finalizer, Hint>::WrapperWithHint,
finalizeData,
&value);
if (status == details::napi_no_external_buffers_allowed) {
#endif
// If we can't create an external buffer, we'll just copy the data.
Buffer<T> ret = Buffer<T>::Copy(env, data, length);
details::FinalizeData<T, Finalizer, Hint>::WrapperWithHint(
env, data, finalizeData);
return ret;
#ifndef NODE_API_NO_EXTERNAL_BUFFERS_ALLOWED
}
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED(env, status, Buffer());
}
return Buffer(env, value);
#endif
}
template <typename T>
inline Buffer<T> Buffer<T>::Copy(napi_env env, const T* data, size_t length) {
napi_value value;
napi_status status =
napi_create_buffer_copy(env, length * sizeof(T), data, nullptr, &value);
NAPI_THROW_IF_FAILED(env, status, Buffer<T>());
return Buffer<T>(env, value);
}
template <typename T>
inline void Buffer<T>::CheckCast(napi_env env, napi_value value) {
NAPI_CHECK(value != nullptr, "Buffer::CheckCast", "empty value");
bool result;
napi_status status = napi_is_buffer(env, value, &result);
NAPI_CHECK(status == napi_ok, "Buffer::CheckCast", "napi_is_buffer failed");
NAPI_CHECK(result, "Buffer::CheckCast", "value is not buffer");
}
template <typename T>
inline Buffer<T>::Buffer() : Uint8Array() {}
template <typename T>
inline Buffer<T>::Buffer(napi_env env, napi_value value)
: Uint8Array(env, value) {}
template <typename T>
inline size_t Buffer<T>::Length() const {
return ByteLength() / sizeof(T);
}
template <typename T>
inline T* Buffer<T>::Data() const {
return reinterpret_cast<T*>(const_cast<uint8_t*>(Uint8Array::Data()));
}
////////////////////////////////////////////////////////////////////////////////
// Error class
////////////////////////////////////////////////////////////////////////////////
inline Error Error::New(napi_env env) {
napi_status status;
napi_value error = nullptr;
bool is_exception_pending;
napi_extended_error_info last_error_info_copy;
{
// We must retrieve the last error info before doing anything else because
// doing anything else will replace the last error info.
const napi_extended_error_info* last_error_info;
status = napi_get_last_error_info(env, &last_error_info);
NAPI_FATAL_IF_FAILED(status, "Error::New", "napi_get_last_error_info");
// All fields of the `napi_extended_error_info` structure gets reset in
// subsequent Node-API function calls on the same `env`. This includes a
// call to `napi_is_exception_pending()`. So here it is necessary to make a
// copy of the information as the `error_code` field is used later on.
memcpy(&last_error_info_copy,
last_error_info,
sizeof(napi_extended_error_info));
}
status = napi_is_exception_pending(env, &is_exception_pending);
NAPI_FATAL_IF_FAILED(status, "Error::New", "napi_is_exception_pending");
// A pending exception takes precedence over any internal error status.
if (is_exception_pending) {
status = napi_get_and_clear_last_exception(env, &error);
NAPI_FATAL_IF_FAILED(
status, "Error::New", "napi_get_and_clear_last_exception");
} else {
const char* error_message = last_error_info_copy.error_message != nullptr
? last_error_info_copy.error_message
: "Error in native callback";
napi_value message;
status = napi_create_string_utf8(
env, error_message, std::strlen(error_message), &message);
NAPI_FATAL_IF_FAILED(status, "Error::New", "napi_create_string_utf8");
switch (last_error_info_copy.error_code) {
case napi_object_expected:
case napi_string_expected:
case napi_boolean_expected:
case napi_number_expected:
status = napi_create_type_error(env, nullptr, message, &error);
break;
default:
status = napi_create_error(env, nullptr, message, &error);
break;
}
NAPI_FATAL_IF_FAILED(status, "Error::New", "napi_create_error");
}
return Error(env, error);
}
inline Error Error::New(napi_env env, const char* message) {
return Error::New<Error>(
env, message, std::strlen(message), napi_create_error);
}
inline Error Error::New(napi_env env, const std::string& message) {
return Error::New<Error>(
env, message.c_str(), message.size(), napi_create_error);
}
inline NAPI_NO_RETURN void Error::Fatal(const char* location,
const char* message) {
napi_fatal_error(location, NAPI_AUTO_LENGTH, message, NAPI_AUTO_LENGTH);
}
inline Error::Error() : ObjectReference() {}
inline Error::Error(napi_env env, napi_value value)
: ObjectReference(env, nullptr) {
if (value != nullptr) {
// Attempting to create a reference on the error object.
// If it's not a Object/Function/Symbol, this call will return an error
// status.
napi_status status = napi_create_reference(env, value, 1, &_ref);
if (status != napi_ok) {
napi_value wrappedErrorObj;
// Create an error object
status = napi_create_object(env, &wrappedErrorObj);
NAPI_FATAL_IF_FAILED(status, "Error::Error", "napi_create_object");
// property flag that we attach to show the error object is wrapped
napi_property_descriptor wrapObjFlag = {
ERROR_WRAP_VALUE(), // Unique GUID identifier since Symbol isn't a
// viable option
nullptr,
nullptr,
nullptr,
nullptr,
Value::From(env, value),
napi_enumerable,
nullptr};
status = napi_define_properties(env, wrappedErrorObj, 1, &wrapObjFlag);
#ifdef NODE_API_SWALLOW_UNTHROWABLE_EXCEPTIONS
if (status == napi_pending_exception) {
// Test if the pending exception was reported because the environment is
// shutting down. We assume that a status of napi_pending_exception
// coupled with the absence of an actual pending exception means that
// the environment is shutting down. If so, we replace the
// napi_pending_exception status with napi_ok.
bool is_exception_pending = false;
status = napi_is_exception_pending(env, &is_exception_pending);
if (status == napi_ok && !is_exception_pending) {
status = napi_ok;
} else {
status = napi_pending_exception;
}
}
#endif // NODE_API_SWALLOW_UNTHROWABLE_EXCEPTIONS
NAPI_FATAL_IF_FAILED(status, "Error::Error", "napi_define_properties");
// Create a reference on the newly wrapped object
status = napi_create_reference(env, wrappedErrorObj, 1, &_ref);
}
// Avoid infinite recursion in the failure case.
NAPI_FATAL_IF_FAILED(status, "Error::Error", "napi_create_reference");
}
}
inline Object Error::Value() const {
if (_ref == nullptr) {
return Object(_env, nullptr);
}
napi_value refValue;
napi_status status = napi_get_reference_value(_env, _ref, &refValue);
NAPI_THROW_IF_FAILED(_env, status, Object());
napi_valuetype type;
status = napi_typeof(_env, refValue, &type);
NAPI_THROW_IF_FAILED(_env, status, Object());
// If refValue isn't a symbol, then we proceed to whether the refValue has the
// wrapped error flag
if (type != napi_symbol) {
// We are checking if the object is wrapped
bool isWrappedObject = false;
status = napi_has_property(_env,
refValue,
String::From(_env, ERROR_WRAP_VALUE()),
&isWrappedObject);
// Don't care about status
if (isWrappedObject) {
napi_value unwrappedValue;
status = napi_get_property(_env,
refValue,
String::From(_env, ERROR_WRAP_VALUE()),
&unwrappedValue);
NAPI_THROW_IF_FAILED(_env, status, Object());
return Object(_env, unwrappedValue);
}
}
return Object(_env, refValue);
}
inline Error::Error(Error&& other) : ObjectReference(std::move(other)) {}
inline Error& Error::operator=(Error&& other) {
static_cast<Reference<Object>*>(this)->operator=(std::move(other));
return *this;
}
inline Error::Error(const Error& other) : ObjectReference(other) {}
inline Error& Error::operator=(const Error& other) {
Reset();
_env = other.Env();
HandleScope scope(_env);
napi_value value = other.Value();
if (value != nullptr) {
napi_status status = napi_create_reference(_env, value, 1, &_ref);
NAPI_THROW_IF_FAILED(_env, status, *this);
}
return *this;
}
inline const std::string& Error::Message() const NAPI_NOEXCEPT {
if (_message.size() == 0 && _env != nullptr) {
#ifdef NAPI_CPP_EXCEPTIONS
try {
_message = Get("message").As<String>();
} catch (...) {
// Catch all errors here, to include e.g. a std::bad_alloc from
// the std::string::operator=, because this method may not throw.
}
#else // NAPI_CPP_EXCEPTIONS
#if defined(NODE_ADDON_API_ENABLE_MAYBE)
Napi::Value message_val;
if (Get("message").UnwrapTo(&message_val)) {
_message = message_val.As<String>();
}
#else
_message = Get("message").As<String>();
#endif
#endif // NAPI_CPP_EXCEPTIONS
}
return _message;
}
// we created an object on the &_ref
inline void Error::ThrowAsJavaScriptException() const {
HandleScope scope(_env);
if (!IsEmpty()) {
#ifdef NODE_API_SWALLOW_UNTHROWABLE_EXCEPTIONS
bool pendingException = false;
// check if there is already a pending exception. If so don't try to throw a
// new one as that is not allowed/possible
napi_status status = napi_is_exception_pending(_env, &pendingException);
if ((status != napi_ok) ||
((status == napi_ok) && (pendingException == false))) {
// We intentionally don't use `NAPI_THROW_*` macros here to ensure
// that there is no possible recursion as `ThrowAsJavaScriptException`
// is part of `NAPI_THROW_*` macro definition for noexcept.
status = napi_throw(_env, Value());
if (status == napi_pending_exception) {
// The environment must be terminating as we checked earlier and there
// was no pending exception. In this case continuing will result
// in a fatal error and there is nothing the author has done incorrectly
// in their code that is worth flagging through a fatal error
return;
}
} else {
status = napi_pending_exception;
}
#else
// We intentionally don't use `NAPI_THROW_*` macros here to ensure
// that there is no possible recursion as `ThrowAsJavaScriptException`
// is part of `NAPI_THROW_*` macro definition for noexcept.
napi_status status = napi_throw(_env, Value());
#endif
#ifdef NAPI_CPP_EXCEPTIONS
if (status != napi_ok) {
throw Error::New(_env);
}
#else // NAPI_CPP_EXCEPTIONS
NAPI_FATAL_IF_FAILED(
status, "Error::ThrowAsJavaScriptException", "napi_throw");
#endif // NAPI_CPP_EXCEPTIONS
}
}
#ifdef NAPI_CPP_EXCEPTIONS
inline const char* Error::what() const NAPI_NOEXCEPT {
return Message().c_str();
}
#endif // NAPI_CPP_EXCEPTIONS
inline const char* Error::ERROR_WRAP_VALUE() NAPI_NOEXCEPT {
return "4bda9e7e-4913-4dbc-95de-891cbf66598e-errorVal";
}
template <typename TError>
inline TError Error::New(napi_env env,
const char* message,
size_t length,
create_error_fn create_error) {
napi_value str;
napi_status status = napi_create_string_utf8(env, message, length, &str);
NAPI_THROW_IF_FAILED(env, status, TError());
napi_value error;
status = create_error(env, nullptr, str, &error);
NAPI_THROW_IF_FAILED(env, status, TError());
return TError(env, error);
}
inline TypeError TypeError::New(napi_env env, const char* message) {
return Error::New<TypeError>(
env, message, std::strlen(message), napi_create_type_error);
}
inline TypeError TypeError::New(napi_env env, const std::string& message) {
return Error::New<TypeError>(
env, message.c_str(), message.size(), napi_create_type_error);
}
inline TypeError::TypeError() : Error() {}
inline TypeError::TypeError(napi_env env, napi_value value)
: Error(env, value) {}
inline RangeError RangeError::New(napi_env env, const char* message) {
return Error::New<RangeError>(
env, message, std::strlen(message), napi_create_range_error);
}
inline RangeError RangeError::New(napi_env env, const std::string& message) {
return Error::New<RangeError>(
env, message.c_str(), message.size(), napi_create_range_error);
}
inline RangeError::RangeError() : Error() {}
inline RangeError::RangeError(napi_env env, napi_value value)
: Error(env, value) {}
#if NAPI_VERSION > 8
inline SyntaxError SyntaxError::New(napi_env env, const char* message) {
return Error::New<SyntaxError>(
env, message, std::strlen(message), node_api_create_syntax_error);
}
inline SyntaxError SyntaxError::New(napi_env env, const std::string& message) {
return Error::New<SyntaxError>(
env, message.c_str(), message.size(), node_api_create_syntax_error);
}
inline SyntaxError::SyntaxError() : Error() {}
inline SyntaxError::SyntaxError(napi_env env, napi_value value)
: Error(env, value) {}
#endif // NAPI_VERSION > 8
////////////////////////////////////////////////////////////////////////////////
// Reference<T> class
////////////////////////////////////////////////////////////////////////////////
template <typename T>
inline Reference<T> Reference<T>::New(const T& value,
uint32_t initialRefcount) {
napi_env env = value.Env();
napi_value val = value;
if (val == nullptr) {
return Reference<T>(env, nullptr);
}
napi_ref ref;
napi_status status = napi_create_reference(env, value, initialRefcount, &ref);
NAPI_THROW_IF_FAILED(env, status, Reference<T>());
return Reference<T>(env, ref);
}
template <typename T>
inline Reference<T>::Reference()
: _env(nullptr), _ref(nullptr), _suppressDestruct(false) {}
template <typename T>
inline Reference<T>::Reference(napi_env env, napi_ref ref)
: _env(env), _ref(ref), _suppressDestruct(false) {}
template <typename T>
inline Reference<T>::~Reference() {
if (_ref != nullptr) {
if (!_suppressDestruct) {
napi_delete_reference(_env, _ref);
}
_ref = nullptr;
}
}
template <typename T>
inline Reference<T>::Reference(Reference<T>&& other)
: _env(other._env),
_ref(other._ref),
_suppressDestruct(other._suppressDestruct) {
other._env = nullptr;
other._ref = nullptr;
other._suppressDestruct = false;
}
template <typename T>
inline Reference<T>& Reference<T>::operator=(Reference<T>&& other) {
Reset();
_env = other._env;
_ref = other._ref;
_suppressDestruct = other._suppressDestruct;
other._env = nullptr;
other._ref = nullptr;
other._suppressDestruct = false;
return *this;
}
template <typename T>
inline Reference<T>::Reference(const Reference<T>& other)
: _env(other._env), _ref(nullptr), _suppressDestruct(false) {
HandleScope scope(_env);
napi_value value = other.Value();
if (value != nullptr) {
// Copying is a limited scenario (currently only used for Error object) and
// always creates a strong reference to the given value even if the incoming
// reference is weak.
napi_status status = napi_create_reference(_env, value, 1, &_ref);
NAPI_FATAL_IF_FAILED(
status, "Reference<T>::Reference", "napi_create_reference");
}
}
template <typename T>
inline Reference<T>::operator napi_ref() const {
return _ref;
}
template <typename T>
inline bool Reference<T>::operator==(const Reference<T>& other) const {
HandleScope scope(_env);
return this->Value().StrictEquals(other.Value());
}
template <typename T>
inline bool Reference<T>::operator!=(const Reference<T>& other) const {
return !this->operator==(other);
}
template <typename T>
inline Napi::Env Reference<T>::Env() const {
return Napi::Env(_env);
}
template <typename T>
inline bool Reference<T>::IsEmpty() const {
return _ref == nullptr;
}
template <typename T>
inline T Reference<T>::Value() const {
if (_ref == nullptr) {
return T(_env, nullptr);
}
napi_value value;
napi_status status = napi_get_reference_value(_env, _ref, &value);
NAPI_THROW_IF_FAILED(_env, status, T());
return T(_env, value);
}
template <typename T>
inline uint32_t Reference<T>::Ref() const {
uint32_t result;
napi_status status = napi_reference_ref(_env, _ref, &result);
NAPI_THROW_IF_FAILED(_env, status, 0);
return result;
}
template <typename T>
inline uint32_t Reference<T>::Unref() const {
uint32_t result;
napi_status status = napi_reference_unref(_env, _ref, &result);
NAPI_THROW_IF_FAILED(_env, status, 0);
return result;
}
template <typename T>
inline void Reference<T>::Reset() {
if (_ref != nullptr) {
napi_status status = napi_delete_reference(_env, _ref);
NAPI_THROW_IF_FAILED_VOID(_env, status);
_ref = nullptr;
}
}
template <typename T>
inline void Reference<T>::Reset(const T& value, uint32_t refcount) {
Reset();
_env = value.Env();
napi_value val = value;
if (val != nullptr) {
napi_status status = napi_create_reference(_env, value, refcount, &_ref);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
}
template <typename T>
inline void Reference<T>::SuppressDestruct() {
_suppressDestruct = true;
}
template <typename T>
inline Reference<T> Weak(T value) {
return Reference<T>::New(value, 0);
}
inline ObjectReference Weak(Object value) {
return Reference<Object>::New(value, 0);
}
inline FunctionReference Weak(Function value) {
return Reference<Function>::New(value, 0);
}
template <typename T>
inline Reference<T> Persistent(T value) {
return Reference<T>::New(value, 1);
}
inline ObjectReference Persistent(Object value) {
return Reference<Object>::New(value, 1);
}
inline FunctionReference Persistent(Function value) {
return Reference<Function>::New(value, 1);
}
////////////////////////////////////////////////////////////////////////////////
// ObjectReference class
////////////////////////////////////////////////////////////////////////////////
inline ObjectReference::ObjectReference() : Reference<Object>() {}
inline ObjectReference::ObjectReference(napi_env env, napi_ref ref)
: Reference<Object>(env, ref) {}
inline ObjectReference::ObjectReference(Reference<Object>&& other)
: Reference<Object>(std::move(other)) {}
inline ObjectReference& ObjectReference::operator=(Reference<Object>&& other) {
static_cast<Reference<Object>*>(this)->operator=(std::move(other));
return *this;
}
inline ObjectReference::ObjectReference(ObjectReference&& other)
: Reference<Object>(std::move(other)) {}
inline ObjectReference& ObjectReference::operator=(ObjectReference&& other) {
static_cast<Reference<Object>*>(this)->operator=(std::move(other));
return *this;
}
inline ObjectReference::ObjectReference(const ObjectReference& other)
: Reference<Object>(other) {}
inline MaybeOrValue<Napi::Value> ObjectReference::Get(
const char* utf8name) const {
EscapableHandleScope scope(_env);
MaybeOrValue<Napi::Value> result = Value().Get(utf8name);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
if (result.IsJust()) {
return Just(scope.Escape(result.Unwrap()));
}
return result;
#else
if (scope.Env().IsExceptionPending()) {
return Value();
}
return scope.Escape(result);
#endif
}
inline MaybeOrValue<Napi::Value> ObjectReference::Get(
const std::string& utf8name) const {
EscapableHandleScope scope(_env);
MaybeOrValue<Napi::Value> result = Value().Get(utf8name);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
if (result.IsJust()) {
return Just(scope.Escape(result.Unwrap()));
}
return result;
#else
if (scope.Env().IsExceptionPending()) {
return Value();
}
return scope.Escape(result);
#endif
}
inline MaybeOrValue<bool> ObjectReference::Set(const char* utf8name,
napi_value value) const {
HandleScope scope(_env);
return Value().Set(utf8name, value);
}
inline MaybeOrValue<bool> ObjectReference::Set(const char* utf8name,
Napi::Value value) const {
HandleScope scope(_env);
return Value().Set(utf8name, value);
}
inline MaybeOrValue<bool> ObjectReference::Set(const char* utf8name,
const char* utf8value) const {
HandleScope scope(_env);
return Value().Set(utf8name, utf8value);
}
inline MaybeOrValue<bool> ObjectReference::Set(const char* utf8name,
bool boolValue) const {
HandleScope scope(_env);
return Value().Set(utf8name, boolValue);
}
inline MaybeOrValue<bool> ObjectReference::Set(const char* utf8name,
double numberValue) const {
HandleScope scope(_env);
return Value().Set(utf8name, numberValue);
}
inline MaybeOrValue<bool> ObjectReference::Set(const std::string& utf8name,
napi_value value) const {
HandleScope scope(_env);
return Value().Set(utf8name, value);
}
inline MaybeOrValue<bool> ObjectReference::Set(const std::string& utf8name,
Napi::Value value) const {
HandleScope scope(_env);
return Value().Set(utf8name, value);
}
inline MaybeOrValue<bool> ObjectReference::Set(const std::string& utf8name,
std::string& utf8value) const {
HandleScope scope(_env);
return Value().Set(utf8name, utf8value);
}
inline MaybeOrValue<bool> ObjectReference::Set(const std::string& utf8name,
bool boolValue) const {
HandleScope scope(_env);
return Value().Set(utf8name, boolValue);
}
inline MaybeOrValue<bool> ObjectReference::Set(const std::string& utf8name,
double numberValue) const {
HandleScope scope(_env);
return Value().Set(utf8name, numberValue);
}
inline MaybeOrValue<Napi::Value> ObjectReference::Get(uint32_t index) const {
EscapableHandleScope scope(_env);
MaybeOrValue<Napi::Value> result = Value().Get(index);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
if (result.IsJust()) {
return Just(scope.Escape(result.Unwrap()));
}
return result;
#else
if (scope.Env().IsExceptionPending()) {
return Value();
}
return scope.Escape(result);
#endif
}
inline MaybeOrValue<bool> ObjectReference::Set(uint32_t index,
napi_value value) const {
HandleScope scope(_env);
return Value().Set(index, value);
}
inline MaybeOrValue<bool> ObjectReference::Set(uint32_t index,
Napi::Value value) const {
HandleScope scope(_env);
return Value().Set(index, value);
}
inline MaybeOrValue<bool> ObjectReference::Set(uint32_t index,
const char* utf8value) const {
HandleScope scope(_env);
return Value().Set(index, utf8value);
}
inline MaybeOrValue<bool> ObjectReference::Set(
uint32_t index, const std::string& utf8value) const {
HandleScope scope(_env);
return Value().Set(index, utf8value);
}
inline MaybeOrValue<bool> ObjectReference::Set(uint32_t index,
bool boolValue) const {
HandleScope scope(_env);
return Value().Set(index, boolValue);
}
inline MaybeOrValue<bool> ObjectReference::Set(uint32_t index,
double numberValue) const {
HandleScope scope(_env);
return Value().Set(index, numberValue);
}
////////////////////////////////////////////////////////////////////////////////
// FunctionReference class
////////////////////////////////////////////////////////////////////////////////
inline FunctionReference::FunctionReference() : Reference<Function>() {}
inline FunctionReference::FunctionReference(napi_env env, napi_ref ref)
: Reference<Function>(env, ref) {}
inline FunctionReference::FunctionReference(Reference<Function>&& other)
: Reference<Function>(std::move(other)) {}
inline FunctionReference& FunctionReference::operator=(
Reference<Function>&& other) {
static_cast<Reference<Function>*>(this)->operator=(std::move(other));
return *this;
}
inline FunctionReference::FunctionReference(FunctionReference&& other)
: Reference<Function>(std::move(other)) {}
inline FunctionReference& FunctionReference::operator=(
FunctionReference&& other) {
static_cast<Reference<Function>*>(this)->operator=(std::move(other));
return *this;
}
inline MaybeOrValue<Napi::Value> FunctionReference::operator()(
const std::initializer_list<napi_value>& args) const {
EscapableHandleScope scope(_env);
MaybeOrValue<Napi::Value> result = Value()(args);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
if (result.IsJust()) {
return Just(scope.Escape(result.Unwrap()));
}
return result;
#else
if (scope.Env().IsExceptionPending()) {
return Value();
}
return scope.Escape(result);
#endif
}
inline MaybeOrValue<Napi::Value> FunctionReference::Call(
const std::initializer_list<napi_value>& args) const {
EscapableHandleScope scope(_env);
MaybeOrValue<Napi::Value> result = Value().Call(args);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
if (result.IsJust()) {
return Just(scope.Escape(result.Unwrap()));
}
return result;
#else
if (scope.Env().IsExceptionPending()) {
return Value();
}
return scope.Escape(result);
#endif
}
inline MaybeOrValue<Napi::Value> FunctionReference::Call(
const std::vector<napi_value>& args) const {
EscapableHandleScope scope(_env);
MaybeOrValue<Napi::Value> result = Value().Call(args);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
if (result.IsJust()) {
return Just(scope.Escape(result.Unwrap()));
}
return result;
#else
if (scope.Env().IsExceptionPending()) {
return Value();
}
return scope.Escape(result);
#endif
}
inline MaybeOrValue<Napi::Value> FunctionReference::Call(
napi_value recv, const std::initializer_list<napi_value>& args) const {
EscapableHandleScope scope(_env);
MaybeOrValue<Napi::Value> result = Value().Call(recv, args);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
if (result.IsJust()) {
return Just(scope.Escape(result.Unwrap()));
}
return result;
#else
if (scope.Env().IsExceptionPending()) {
return Value();
}
return scope.Escape(result);
#endif
}
inline MaybeOrValue<Napi::Value> FunctionReference::Call(
napi_value recv, const std::vector<napi_value>& args) const {
EscapableHandleScope scope(_env);
MaybeOrValue<Napi::Value> result = Value().Call(recv, args);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
if (result.IsJust()) {
return Just(scope.Escape(result.Unwrap()));
}
return result;
#else
if (scope.Env().IsExceptionPending()) {
return Value();
}
return scope.Escape(result);
#endif
}
inline MaybeOrValue<Napi::Value> FunctionReference::Call(
napi_value recv, size_t argc, const napi_value* args) const {
EscapableHandleScope scope(_env);
MaybeOrValue<Napi::Value> result = Value().Call(recv, argc, args);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
if (result.IsJust()) {
return Just(scope.Escape(result.Unwrap()));
}
return result;
#else
if (scope.Env().IsExceptionPending()) {
return Value();
}
return scope.Escape(result);
#endif
}
inline MaybeOrValue<Napi::Value> FunctionReference::MakeCallback(
napi_value recv,
const std::initializer_list<napi_value>& args,
napi_async_context context) const {
EscapableHandleScope scope(_env);
MaybeOrValue<Napi::Value> result = Value().MakeCallback(recv, args, context);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
if (result.IsJust()) {
return Just(scope.Escape(result.Unwrap()));
}
return result;
#else
if (scope.Env().IsExceptionPending()) {
return Value();
}
return scope.Escape(result);
#endif
}
inline MaybeOrValue<Napi::Value> FunctionReference::MakeCallback(
napi_value recv,
const std::vector<napi_value>& args,
napi_async_context context) const {
EscapableHandleScope scope(_env);
MaybeOrValue<Napi::Value> result = Value().MakeCallback(recv, args, context);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
if (result.IsJust()) {
return Just(scope.Escape(result.Unwrap()));
}
return result;
#else
if (scope.Env().IsExceptionPending()) {
return Value();
}
return scope.Escape(result);
#endif
}
inline MaybeOrValue<Napi::Value> FunctionReference::MakeCallback(
napi_value recv,
size_t argc,
const napi_value* args,
napi_async_context context) const {
EscapableHandleScope scope(_env);
MaybeOrValue<Napi::Value> result =
Value().MakeCallback(recv, argc, args, context);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
if (result.IsJust()) {
return Just(scope.Escape(result.Unwrap()));
}
return result;
#else
if (scope.Env().IsExceptionPending()) {
return Value();
}
return scope.Escape(result);
#endif
}
inline MaybeOrValue<Object> FunctionReference::New(
const std::initializer_list<napi_value>& args) const {
EscapableHandleScope scope(_env);
MaybeOrValue<Object> result = Value().New(args);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
if (result.IsJust()) {
return Just(scope.Escape(result.Unwrap()).As<Object>());
}
return result;
#else
if (scope.Env().IsExceptionPending()) {
return Object();
}
return scope.Escape(result).As<Object>();
#endif
}
inline MaybeOrValue<Object> FunctionReference::New(
const std::vector<napi_value>& args) const {
EscapableHandleScope scope(_env);
MaybeOrValue<Object> result = Value().New(args);
#ifdef NODE_ADDON_API_ENABLE_MAYBE
if (result.IsJust()) {
return Just(scope.Escape(result.Unwrap()).As<Object>());
}
return result;
#else
if (scope.Env().IsExceptionPending()) {
return Object();
}
return scope.Escape(result).As<Object>();
#endif
}
////////////////////////////////////////////////////////////////////////////////
// CallbackInfo class
////////////////////////////////////////////////////////////////////////////////
inline CallbackInfo::CallbackInfo(napi_env env, napi_callback_info info)
: _env(env),
_info(info),
_this(nullptr),
_dynamicArgs(nullptr),
_data(nullptr) {
_argc = _staticArgCount;
_argv = _staticArgs;
napi_status status =
napi_get_cb_info(env, info, &_argc, _argv, &_this, &_data);
NAPI_THROW_IF_FAILED_VOID(_env, status);
if (_argc > _staticArgCount) {
// Use either a fixed-size array (on the stack) or a dynamically-allocated
// array (on the heap) depending on the number of args.
_dynamicArgs = new napi_value[_argc];
_argv = _dynamicArgs;
status = napi_get_cb_info(env, info, &_argc, _argv, nullptr, nullptr);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
}
inline CallbackInfo::~CallbackInfo() {
if (_dynamicArgs != nullptr) {
delete[] _dynamicArgs;
}
}
inline CallbackInfo::operator napi_callback_info() const {
return _info;
}
inline Value CallbackInfo::NewTarget() const {
napi_value newTarget;
napi_status status = napi_get_new_target(_env, _info, &newTarget);
NAPI_THROW_IF_FAILED(_env, status, Value());
return Value(_env, newTarget);
}
inline bool CallbackInfo::IsConstructCall() const {
return !NewTarget().IsEmpty();
}
inline Napi::Env CallbackInfo::Env() const {
return Napi::Env(_env);
}
inline size_t CallbackInfo::Length() const {
return _argc;
}
inline const Value CallbackInfo::operator[](size_t index) const {
return index < _argc ? Value(_env, _argv[index]) : Env().Undefined();
}
inline Value CallbackInfo::This() const {
if (_this == nullptr) {
return Env().Undefined();
}
return Object(_env, _this);
}
inline void* CallbackInfo::Data() const {
return _data;
}
inline void CallbackInfo::SetData(void* data) {
_data = data;
}
////////////////////////////////////////////////////////////////////////////////
// PropertyDescriptor class
////////////////////////////////////////////////////////////////////////////////
template <typename PropertyDescriptor::GetterCallback Getter>
PropertyDescriptor PropertyDescriptor::Accessor(
const char* utf8name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.getter = details::TemplatedCallback<Getter>;
desc.attributes = attributes;
desc.data = data;
return desc;
}
template <typename PropertyDescriptor::GetterCallback Getter>
PropertyDescriptor PropertyDescriptor::Accessor(
const std::string& utf8name,
napi_property_attributes attributes,
void* data) {
return Accessor<Getter>(utf8name.c_str(), attributes, data);
}
template <typename PropertyDescriptor::GetterCallback Getter>
PropertyDescriptor PropertyDescriptor::Accessor(
Name name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.getter = details::TemplatedCallback<Getter>;
desc.attributes = attributes;
desc.data = data;
return desc;
}
template <typename PropertyDescriptor::GetterCallback Getter,
typename PropertyDescriptor::SetterCallback Setter>
PropertyDescriptor PropertyDescriptor::Accessor(
const char* utf8name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.getter = details::TemplatedCallback<Getter>;
desc.setter = details::TemplatedVoidCallback<Setter>;
desc.attributes = attributes;
desc.data = data;
return desc;
}
template <typename PropertyDescriptor::GetterCallback Getter,
typename PropertyDescriptor::SetterCallback Setter>
PropertyDescriptor PropertyDescriptor::Accessor(
const std::string& utf8name,
napi_property_attributes attributes,
void* data) {
return Accessor<Getter, Setter>(utf8name.c_str(), attributes, data);
}
template <typename PropertyDescriptor::GetterCallback Getter,
typename PropertyDescriptor::SetterCallback Setter>
PropertyDescriptor PropertyDescriptor::Accessor(
Name name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.getter = details::TemplatedCallback<Getter>;
desc.setter = details::TemplatedVoidCallback<Setter>;
desc.attributes = attributes;
desc.data = data;
return desc;
}
template <typename Getter>
inline PropertyDescriptor PropertyDescriptor::Accessor(
Napi::Env env,
Napi::Object object,
const char* utf8name,
Getter getter,
napi_property_attributes attributes,
void* data) {
using CbData = details::CallbackData<Getter, Napi::Value>;
auto callbackData = new CbData({getter, data});
napi_status status = AttachData(env, object, callbackData);
if (status != napi_ok) {
delete callbackData;
NAPI_THROW_IF_FAILED(env, status, napi_property_descriptor());
}
return PropertyDescriptor({utf8name,
nullptr,
nullptr,
CbData::Wrapper,
nullptr,
nullptr,
attributes,
callbackData});
}
template <typename Getter>
inline PropertyDescriptor PropertyDescriptor::Accessor(
Napi::Env env,
Napi::Object object,
const std::string& utf8name,
Getter getter,
napi_property_attributes attributes,
void* data) {
return Accessor(env, object, utf8name.c_str(), getter, attributes, data);
}
template <typename Getter>
inline PropertyDescriptor PropertyDescriptor::Accessor(
Napi::Env env,
Napi::Object object,
Name name,
Getter getter,
napi_property_attributes attributes,
void* data) {
using CbData = details::CallbackData<Getter, Napi::Value>;
auto callbackData = new CbData({getter, data});
napi_status status = AttachData(env, object, callbackData);
if (status != napi_ok) {
delete callbackData;
NAPI_THROW_IF_FAILED(env, status, napi_property_descriptor());
}
return PropertyDescriptor({nullptr,
name,
nullptr,
CbData::Wrapper,
nullptr,
nullptr,
attributes,
callbackData});
}
template <typename Getter, typename Setter>
inline PropertyDescriptor PropertyDescriptor::Accessor(
Napi::Env env,
Napi::Object object,
const char* utf8name,
Getter getter,
Setter setter,
napi_property_attributes attributes,
void* data) {
using CbData = details::AccessorCallbackData<Getter, Setter>;
auto callbackData = new CbData({getter, setter, data});
napi_status status = AttachData(env, object, callbackData);
if (status != napi_ok) {
delete callbackData;
NAPI_THROW_IF_FAILED(env, status, napi_property_descriptor());
}
return PropertyDescriptor({utf8name,
nullptr,
nullptr,
CbData::GetterWrapper,
CbData::SetterWrapper,
nullptr,
attributes,
callbackData});
}
template <typename Getter, typename Setter>
inline PropertyDescriptor PropertyDescriptor::Accessor(
Napi::Env env,
Napi::Object object,
const std::string& utf8name,
Getter getter,
Setter setter,
napi_property_attributes attributes,
void* data) {
return Accessor(
env, object, utf8name.c_str(), getter, setter, attributes, data);
}
template <typename Getter, typename Setter>
inline PropertyDescriptor PropertyDescriptor::Accessor(
Napi::Env env,
Napi::Object object,
Name name,
Getter getter,
Setter setter,
napi_property_attributes attributes,
void* data) {
using CbData = details::AccessorCallbackData<Getter, Setter>;
auto callbackData = new CbData({getter, setter, data});
napi_status status = AttachData(env, object, callbackData);
if (status != napi_ok) {
delete callbackData;
NAPI_THROW_IF_FAILED(env, status, napi_property_descriptor());
}
return PropertyDescriptor({nullptr,
name,
nullptr,
CbData::GetterWrapper,
CbData::SetterWrapper,
nullptr,
attributes,
callbackData});
}
template <typename Callable>
inline PropertyDescriptor PropertyDescriptor::Function(
Napi::Env env,
Napi::Object /*object*/,
const char* utf8name,
Callable cb,
napi_property_attributes attributes,
void* data) {
return PropertyDescriptor({utf8name,
nullptr,
nullptr,
nullptr,
nullptr,
Napi::Function::New(env, cb, utf8name, data),
attributes,
nullptr});
}
template <typename Callable>
inline PropertyDescriptor PropertyDescriptor::Function(
Napi::Env env,
Napi::Object object,
const std::string& utf8name,
Callable cb,
napi_property_attributes attributes,
void* data) {
return Function(env, object, utf8name.c_str(), cb, attributes, data);
}
template <typename Callable>
inline PropertyDescriptor PropertyDescriptor::Function(
Napi::Env env,
Napi::Object /*object*/,
Name name,
Callable cb,
napi_property_attributes attributes,
void* data) {
return PropertyDescriptor({nullptr,
name,
nullptr,
nullptr,
nullptr,
Napi::Function::New(env, cb, nullptr, data),
attributes,
nullptr});
}
inline PropertyDescriptor PropertyDescriptor::Value(
const char* utf8name,
napi_value value,
napi_property_attributes attributes) {
return PropertyDescriptor({utf8name,
nullptr,
nullptr,
nullptr,
nullptr,
value,
attributes,
nullptr});
}
inline PropertyDescriptor PropertyDescriptor::Value(
const std::string& utf8name,
napi_value value,
napi_property_attributes attributes) {
return Value(utf8name.c_str(), value, attributes);
}
inline PropertyDescriptor PropertyDescriptor::Value(
napi_value name, napi_value value, napi_property_attributes attributes) {
return PropertyDescriptor(
{nullptr, name, nullptr, nullptr, nullptr, value, attributes, nullptr});
}
inline PropertyDescriptor PropertyDescriptor::Value(
Name name, Napi::Value value, napi_property_attributes attributes) {
napi_value nameValue = name;
napi_value valueValue = value;
return PropertyDescriptor::Value(nameValue, valueValue, attributes);
}
inline PropertyDescriptor::PropertyDescriptor(napi_property_descriptor desc)
: _desc(desc) {}
inline PropertyDescriptor::operator napi_property_descriptor&() {
return _desc;
}
inline PropertyDescriptor::operator const napi_property_descriptor&() const {
return _desc;
}
////////////////////////////////////////////////////////////////////////////////
// InstanceWrap<T> class
////////////////////////////////////////////////////////////////////////////////
template <typename T>
inline void InstanceWrap<T>::AttachPropData(
napi_env env, napi_value value, const napi_property_descriptor* prop) {
napi_status status;
if (!(prop->attributes & napi_static)) {
if (prop->method == T::InstanceVoidMethodCallbackWrapper) {
status = Napi::details::AttachData(
env, value, static_cast<InstanceVoidMethodCallbackData*>(prop->data));
NAPI_THROW_IF_FAILED_VOID(env, status);
} else if (prop->method == T::InstanceMethodCallbackWrapper) {
status = Napi::details::AttachData(
env, value, static_cast<InstanceMethodCallbackData*>(prop->data));
NAPI_THROW_IF_FAILED_VOID(env, status);
} else if (prop->getter == T::InstanceGetterCallbackWrapper ||
prop->setter == T::InstanceSetterCallbackWrapper) {
status = Napi::details::AttachData(
env, value, static_cast<InstanceAccessorCallbackData*>(prop->data));
NAPI_THROW_IF_FAILED_VOID(env, status);
}
}
}
template <typename T>
inline ClassPropertyDescriptor<T> InstanceWrap<T>::InstanceMethod(
const char* utf8name,
InstanceVoidMethodCallback method,
napi_property_attributes attributes,
void* data) {
InstanceVoidMethodCallbackData* callbackData =
new InstanceVoidMethodCallbackData({method, data});
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.method = T::InstanceVoidMethodCallbackWrapper;
desc.data = callbackData;
desc.attributes = attributes;
return desc;
}
template <typename T>
inline ClassPropertyDescriptor<T> InstanceWrap<T>::InstanceMethod(
const char* utf8name,
InstanceMethodCallback method,
napi_property_attributes attributes,
void* data) {
InstanceMethodCallbackData* callbackData =
new InstanceMethodCallbackData({method, data});
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.method = T::InstanceMethodCallbackWrapper;
desc.data = callbackData;
desc.attributes = attributes;
return desc;
}
template <typename T>
inline ClassPropertyDescriptor<T> InstanceWrap<T>::InstanceMethod(
Symbol name,
InstanceVoidMethodCallback method,
napi_property_attributes attributes,
void* data) {
InstanceVoidMethodCallbackData* callbackData =
new InstanceVoidMethodCallbackData({method, data});
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.method = T::InstanceVoidMethodCallbackWrapper;
desc.data = callbackData;
desc.attributes = attributes;
return desc;
}
template <typename T>
inline ClassPropertyDescriptor<T> InstanceWrap<T>::InstanceMethod(
Symbol name,
InstanceMethodCallback method,
napi_property_attributes attributes,
void* data) {
InstanceMethodCallbackData* callbackData =
new InstanceMethodCallbackData({method, data});
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.method = T::InstanceMethodCallbackWrapper;
desc.data = callbackData;
desc.attributes = attributes;
return desc;
}
template <typename T>
template <typename InstanceWrap<T>::InstanceVoidMethodCallback method>
inline ClassPropertyDescriptor<T> InstanceWrap<T>::InstanceMethod(
const char* utf8name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.method = details::TemplatedInstanceVoidCallback<T, method>;
desc.data = data;
desc.attributes = attributes;
return desc;
}
template <typename T>
template <typename InstanceWrap<T>::InstanceMethodCallback method>
inline ClassPropertyDescriptor<T> InstanceWrap<T>::InstanceMethod(
const char* utf8name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.method = details::TemplatedInstanceCallback<T, method>;
desc.data = data;
desc.attributes = attributes;
return desc;
}
template <typename T>
template <typename InstanceWrap<T>::InstanceVoidMethodCallback method>
inline ClassPropertyDescriptor<T> InstanceWrap<T>::InstanceMethod(
Symbol name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.method = details::TemplatedInstanceVoidCallback<T, method>;
desc.data = data;
desc.attributes = attributes;
return desc;
}
template <typename T>
template <typename InstanceWrap<T>::InstanceMethodCallback method>
inline ClassPropertyDescriptor<T> InstanceWrap<T>::InstanceMethod(
Symbol name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.method = details::TemplatedInstanceCallback<T, method>;
desc.data = data;
desc.attributes = attributes;
return desc;
}
template <typename T>
inline ClassPropertyDescriptor<T> InstanceWrap<T>::InstanceAccessor(
const char* utf8name,
InstanceGetterCallback getter,
InstanceSetterCallback setter,
napi_property_attributes attributes,
void* data) {
InstanceAccessorCallbackData* callbackData =
new InstanceAccessorCallbackData({getter, setter, data});
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.getter = getter != nullptr ? T::InstanceGetterCallbackWrapper : nullptr;
desc.setter = setter != nullptr ? T::InstanceSetterCallbackWrapper : nullptr;
desc.data = callbackData;
desc.attributes = attributes;
return desc;
}
template <typename T>
inline ClassPropertyDescriptor<T> InstanceWrap<T>::InstanceAccessor(
Symbol name,
InstanceGetterCallback getter,
InstanceSetterCallback setter,
napi_property_attributes attributes,
void* data) {
InstanceAccessorCallbackData* callbackData =
new InstanceAccessorCallbackData({getter, setter, data});
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.getter = getter != nullptr ? T::InstanceGetterCallbackWrapper : nullptr;
desc.setter = setter != nullptr ? T::InstanceSetterCallbackWrapper : nullptr;
desc.data = callbackData;
desc.attributes = attributes;
return desc;
}
template <typename T>
template <typename InstanceWrap<T>::InstanceGetterCallback getter,
typename InstanceWrap<T>::InstanceSetterCallback setter>
inline ClassPropertyDescriptor<T> InstanceWrap<T>::InstanceAccessor(
const char* utf8name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.getter = details::TemplatedInstanceCallback<T, getter>;
desc.setter = This::WrapSetter(This::SetterTag<setter>());
desc.data = data;
desc.attributes = attributes;
return desc;
}
template <typename T>
template <typename InstanceWrap<T>::InstanceGetterCallback getter,
typename InstanceWrap<T>::InstanceSetterCallback setter>
inline ClassPropertyDescriptor<T> InstanceWrap<T>::InstanceAccessor(
Symbol name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.getter = details::TemplatedInstanceCallback<T, getter>;
desc.setter = This::WrapSetter(This::SetterTag<setter>());
desc.data = data;
desc.attributes = attributes;
return desc;
}
template <typename T>
inline ClassPropertyDescriptor<T> InstanceWrap<T>::InstanceValue(
const char* utf8name,
Napi::Value value,
napi_property_attributes attributes) {
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.value = value;
desc.attributes = attributes;
return desc;
}
template <typename T>
inline ClassPropertyDescriptor<T> InstanceWrap<T>::InstanceValue(
Symbol name, Napi::Value value, napi_property_attributes attributes) {
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.value = value;
desc.attributes = attributes;
return desc;
}
template <typename T>
inline napi_value InstanceWrap<T>::InstanceVoidMethodCallbackWrapper(
napi_env env, napi_callback_info info) {
return details::WrapCallback([&] {
CallbackInfo callbackInfo(env, info);
InstanceVoidMethodCallbackData* callbackData =
reinterpret_cast<InstanceVoidMethodCallbackData*>(callbackInfo.Data());
callbackInfo.SetData(callbackData->data);
T* instance = T::Unwrap(callbackInfo.This().As<Object>());
auto cb = callbackData->callback;
if (instance) (instance->*cb)(callbackInfo);
return nullptr;
});
}
template <typename T>
inline napi_value InstanceWrap<T>::InstanceMethodCallbackWrapper(
napi_env env, napi_callback_info info) {
return details::WrapCallback([&] {
CallbackInfo callbackInfo(env, info);
InstanceMethodCallbackData* callbackData =
reinterpret_cast<InstanceMethodCallbackData*>(callbackInfo.Data());
callbackInfo.SetData(callbackData->data);
T* instance = T::Unwrap(callbackInfo.This().As<Object>());
auto cb = callbackData->callback;
return instance ? (instance->*cb)(callbackInfo) : Napi::Value();
});
}
template <typename T>
inline napi_value InstanceWrap<T>::InstanceGetterCallbackWrapper(
napi_env env, napi_callback_info info) {
return details::WrapCallback([&] {
CallbackInfo callbackInfo(env, info);
InstanceAccessorCallbackData* callbackData =
reinterpret_cast<InstanceAccessorCallbackData*>(callbackInfo.Data());
callbackInfo.SetData(callbackData->data);
T* instance = T::Unwrap(callbackInfo.This().As<Object>());
auto cb = callbackData->getterCallback;
return instance ? (instance->*cb)(callbackInfo) : Napi::Value();
});
}
template <typename T>
inline napi_value InstanceWrap<T>::InstanceSetterCallbackWrapper(
napi_env env, napi_callback_info info) {
return details::WrapCallback([&] {
CallbackInfo callbackInfo(env, info);
InstanceAccessorCallbackData* callbackData =
reinterpret_cast<InstanceAccessorCallbackData*>(callbackInfo.Data());
callbackInfo.SetData(callbackData->data);
T* instance = T::Unwrap(callbackInfo.This().As<Object>());
auto cb = callbackData->setterCallback;
if (instance) (instance->*cb)(callbackInfo, callbackInfo[0]);
return nullptr;
});
}
template <typename T>
template <typename InstanceWrap<T>::InstanceSetterCallback method>
inline napi_value InstanceWrap<T>::WrappedMethod(
napi_env env, napi_callback_info info) NAPI_NOEXCEPT {
return details::WrapCallback([&] {
const CallbackInfo cbInfo(env, info);
T* instance = T::Unwrap(cbInfo.This().As<Object>());
if (instance) (instance->*method)(cbInfo, cbInfo[0]);
return nullptr;
});
}
////////////////////////////////////////////////////////////////////////////////
// ObjectWrap<T> class
////////////////////////////////////////////////////////////////////////////////
template <typename T>
inline ObjectWrap<T>::ObjectWrap(const Napi::CallbackInfo& callbackInfo) {
napi_env env = callbackInfo.Env();
napi_value wrapper = callbackInfo.This();
napi_status status;
napi_ref ref;
T* instance = static_cast<T*>(this);
status = napi_wrap(env, wrapper, instance, FinalizeCallback, nullptr, &ref);
NAPI_THROW_IF_FAILED_VOID(env, status);
Reference<Object>* instanceRef = instance;
*instanceRef = Reference<Object>(env, ref);
}
template <typename T>
inline ObjectWrap<T>::~ObjectWrap() {
// If the JS object still exists at this point, remove the finalizer added
// through `napi_wrap()`.
if (!IsEmpty()) {
Object object = Value();
// It is not valid to call `napi_remove_wrap()` with an empty `object`.
// This happens e.g. during garbage collection.
if (!object.IsEmpty() && _construction_failed) {
napi_remove_wrap(Env(), object, nullptr);
}
}
}
template <typename T>
inline T* ObjectWrap<T>::Unwrap(Object wrapper) {
void* unwrapped;
napi_status status = napi_unwrap(wrapper.Env(), wrapper, &unwrapped);
NAPI_THROW_IF_FAILED(wrapper.Env(), status, nullptr);
return static_cast<T*>(unwrapped);
}
template <typename T>
inline Function ObjectWrap<T>::DefineClass(
Napi::Env env,
const char* utf8name,
const size_t props_count,
const napi_property_descriptor* descriptors,
void* data) {
napi_status status;
std::vector<napi_property_descriptor> props(props_count);
// We copy the descriptors to a local array because before defining the class
// we must replace static method property descriptors with value property
// descriptors such that the value is a function-valued `napi_value` created
// with `CreateFunction()`.
//
// This replacement could be made for instance methods as well, but V8 aborts
// if we do that, because it expects methods defined on the prototype template
// to have `FunctionTemplate`s.
for (size_t index = 0; index < props_count; index++) {
props[index] = descriptors[index];
napi_property_descriptor* prop = &props[index];
if (prop->method == T::StaticMethodCallbackWrapper) {
status =
CreateFunction(env,
utf8name,
prop->method,
static_cast<StaticMethodCallbackData*>(prop->data),
&(prop->value));
NAPI_THROW_IF_FAILED(env, status, Function());
prop->method = nullptr;
prop->data = nullptr;
} else if (prop->method == T::StaticVoidMethodCallbackWrapper) {
status =
CreateFunction(env,
utf8name,
prop->method,
static_cast<StaticVoidMethodCallbackData*>(prop->data),
&(prop->value));
NAPI_THROW_IF_FAILED(env, status, Function());
prop->method = nullptr;
prop->data = nullptr;
}
}
napi_value value;
status = napi_define_class(env,
utf8name,
NAPI_AUTO_LENGTH,
T::ConstructorCallbackWrapper,
data,
props_count,
props.data(),
&value);
NAPI_THROW_IF_FAILED(env, status, Function());
// After defining the class we iterate once more over the property descriptors
// and attach the data associated with accessors and instance methods to the
// newly created JavaScript class.
for (size_t idx = 0; idx < props_count; idx++) {
const napi_property_descriptor* prop = &props[idx];
if (prop->getter == T::StaticGetterCallbackWrapper ||
prop->setter == T::StaticSetterCallbackWrapper) {
status = Napi::details::AttachData(
env, value, static_cast<StaticAccessorCallbackData*>(prop->data));
NAPI_THROW_IF_FAILED(env, status, Function());
} else {
// InstanceWrap<T>::AttachPropData is responsible for attaching the data
// of instance methods and accessors.
T::AttachPropData(env, value, prop);
}
}
return Function(env, value);
}
template <typename T>
inline Function ObjectWrap<T>::DefineClass(
Napi::Env env,
const char* utf8name,
const std::initializer_list<ClassPropertyDescriptor<T>>& properties,
void* data) {
return DefineClass(
env,
utf8name,
properties.size(),
reinterpret_cast<const napi_property_descriptor*>(properties.begin()),
data);
}
template <typename T>
inline Function ObjectWrap<T>::DefineClass(
Napi::Env env,
const char* utf8name,
const std::vector<ClassPropertyDescriptor<T>>& properties,
void* data) {
return DefineClass(
env,
utf8name,
properties.size(),
reinterpret_cast<const napi_property_descriptor*>(properties.data()),
data);
}
template <typename T>
inline ClassPropertyDescriptor<T> ObjectWrap<T>::StaticMethod(
const char* utf8name,
StaticVoidMethodCallback method,
napi_property_attributes attributes,
void* data) {
StaticVoidMethodCallbackData* callbackData =
new StaticVoidMethodCallbackData({method, data});
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.method = T::StaticVoidMethodCallbackWrapper;
desc.data = callbackData;
desc.attributes =
static_cast<napi_property_attributes>(attributes | napi_static);
return desc;
}
template <typename T>
inline ClassPropertyDescriptor<T> ObjectWrap<T>::StaticMethod(
const char* utf8name,
StaticMethodCallback method,
napi_property_attributes attributes,
void* data) {
StaticMethodCallbackData* callbackData =
new StaticMethodCallbackData({method, data});
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.method = T::StaticMethodCallbackWrapper;
desc.data = callbackData;
desc.attributes =
static_cast<napi_property_attributes>(attributes | napi_static);
return desc;
}
template <typename T>
inline ClassPropertyDescriptor<T> ObjectWrap<T>::StaticMethod(
Symbol name,
StaticVoidMethodCallback method,
napi_property_attributes attributes,
void* data) {
StaticVoidMethodCallbackData* callbackData =
new StaticVoidMethodCallbackData({method, data});
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.method = T::StaticVoidMethodCallbackWrapper;
desc.data = callbackData;
desc.attributes =
static_cast<napi_property_attributes>(attributes | napi_static);
return desc;
}
template <typename T>
inline ClassPropertyDescriptor<T> ObjectWrap<T>::StaticMethod(
Symbol name,
StaticMethodCallback method,
napi_property_attributes attributes,
void* data) {
StaticMethodCallbackData* callbackData =
new StaticMethodCallbackData({method, data});
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.method = T::StaticMethodCallbackWrapper;
desc.data = callbackData;
desc.attributes =
static_cast<napi_property_attributes>(attributes | napi_static);
return desc;
}
template <typename T>
template <typename ObjectWrap<T>::StaticVoidMethodCallback method>
inline ClassPropertyDescriptor<T> ObjectWrap<T>::StaticMethod(
const char* utf8name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.method = details::TemplatedVoidCallback<method>;
desc.data = data;
desc.attributes =
static_cast<napi_property_attributes>(attributes | napi_static);
return desc;
}
template <typename T>
template <typename ObjectWrap<T>::StaticVoidMethodCallback method>
inline ClassPropertyDescriptor<T> ObjectWrap<T>::StaticMethod(
Symbol name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.method = details::TemplatedVoidCallback<method>;
desc.data = data;
desc.attributes =
static_cast<napi_property_attributes>(attributes | napi_static);
return desc;
}
template <typename T>
template <typename ObjectWrap<T>::StaticMethodCallback method>
inline ClassPropertyDescriptor<T> ObjectWrap<T>::StaticMethod(
const char* utf8name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.method = details::TemplatedCallback<method>;
desc.data = data;
desc.attributes =
static_cast<napi_property_attributes>(attributes | napi_static);
return desc;
}
template <typename T>
template <typename ObjectWrap<T>::StaticMethodCallback method>
inline ClassPropertyDescriptor<T> ObjectWrap<T>::StaticMethod(
Symbol name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.method = details::TemplatedCallback<method>;
desc.data = data;
desc.attributes =
static_cast<napi_property_attributes>(attributes | napi_static);
return desc;
}
template <typename T>
inline ClassPropertyDescriptor<T> ObjectWrap<T>::StaticAccessor(
const char* utf8name,
StaticGetterCallback getter,
StaticSetterCallback setter,
napi_property_attributes attributes,
void* data) {
StaticAccessorCallbackData* callbackData =
new StaticAccessorCallbackData({getter, setter, data});
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.getter = getter != nullptr ? T::StaticGetterCallbackWrapper : nullptr;
desc.setter = setter != nullptr ? T::StaticSetterCallbackWrapper : nullptr;
desc.data = callbackData;
desc.attributes =
static_cast<napi_property_attributes>(attributes | napi_static);
return desc;
}
template <typename T>
inline ClassPropertyDescriptor<T> ObjectWrap<T>::StaticAccessor(
Symbol name,
StaticGetterCallback getter,
StaticSetterCallback setter,
napi_property_attributes attributes,
void* data) {
StaticAccessorCallbackData* callbackData =
new StaticAccessorCallbackData({getter, setter, data});
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.getter = getter != nullptr ? T::StaticGetterCallbackWrapper : nullptr;
desc.setter = setter != nullptr ? T::StaticSetterCallbackWrapper : nullptr;
desc.data = callbackData;
desc.attributes =
static_cast<napi_property_attributes>(attributes | napi_static);
return desc;
}
template <typename T>
template <typename ObjectWrap<T>::StaticGetterCallback getter,
typename ObjectWrap<T>::StaticSetterCallback setter>
inline ClassPropertyDescriptor<T> ObjectWrap<T>::StaticAccessor(
const char* utf8name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.getter = details::TemplatedCallback<getter>;
desc.setter = This::WrapStaticSetter(This::StaticSetterTag<setter>());
desc.data = data;
desc.attributes =
static_cast<napi_property_attributes>(attributes | napi_static);
return desc;
}
template <typename T>
template <typename ObjectWrap<T>::StaticGetterCallback getter,
typename ObjectWrap<T>::StaticSetterCallback setter>
inline ClassPropertyDescriptor<T> ObjectWrap<T>::StaticAccessor(
Symbol name, napi_property_attributes attributes, void* data) {
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.getter = details::TemplatedCallback<getter>;
desc.setter = This::WrapStaticSetter(This::StaticSetterTag<setter>());
desc.data = data;
desc.attributes =
static_cast<napi_property_attributes>(attributes | napi_static);
return desc;
}
template <typename T>
inline ClassPropertyDescriptor<T> ObjectWrap<T>::StaticValue(
const char* utf8name,
Napi::Value value,
napi_property_attributes attributes) {
napi_property_descriptor desc = napi_property_descriptor();
desc.utf8name = utf8name;
desc.value = value;
desc.attributes =
static_cast<napi_property_attributes>(attributes | napi_static);
return desc;
}
template <typename T>
inline ClassPropertyDescriptor<T> ObjectWrap<T>::StaticValue(
Symbol name, Napi::Value value, napi_property_attributes attributes) {
napi_property_descriptor desc = napi_property_descriptor();
desc.name = name;
desc.value = value;
desc.attributes =
static_cast<napi_property_attributes>(attributes | napi_static);
return desc;
}
template <typename T>
inline Value ObjectWrap<T>::OnCalledAsFunction(
const Napi::CallbackInfo& callbackInfo) {
NAPI_THROW(
TypeError::New(callbackInfo.Env(),
"Class constructors cannot be invoked without 'new'"),
Napi::Value());
}
template <typename T>
inline void ObjectWrap<T>::Finalize(Napi::Env /*env*/) {}
template <typename T>
inline napi_value ObjectWrap<T>::ConstructorCallbackWrapper(
napi_env env, napi_callback_info info) {
napi_value new_target;
napi_status status = napi_get_new_target(env, info, &new_target);
if (status != napi_ok) return nullptr;
bool isConstructCall = (new_target != nullptr);
if (!isConstructCall) {
return details::WrapCallback(
[&] { return T::OnCalledAsFunction(CallbackInfo(env, info)); });
}
napi_value wrapper = details::WrapCallback([&] {
CallbackInfo callbackInfo(env, info);
T* instance = new T(callbackInfo);
#ifdef NAPI_CPP_EXCEPTIONS
instance->_construction_failed = false;
#else
if (callbackInfo.Env().IsExceptionPending()) {
// We need to clear the exception so that removing the wrap might work.
Error e = callbackInfo.Env().GetAndClearPendingException();
delete instance;
e.ThrowAsJavaScriptException();
} else {
instance->_construction_failed = false;
}
#endif // NAPI_CPP_EXCEPTIONS
return callbackInfo.This();
});
return wrapper;
}
template <typename T>
inline napi_value ObjectWrap<T>::StaticVoidMethodCallbackWrapper(
napi_env env, napi_callback_info info) {
return details::WrapCallback([&] {
CallbackInfo callbackInfo(env, info);
StaticVoidMethodCallbackData* callbackData =
reinterpret_cast<StaticVoidMethodCallbackData*>(callbackInfo.Data());
callbackInfo.SetData(callbackData->data);
callbackData->callback(callbackInfo);
return nullptr;
});
}
template <typename T>
inline napi_value ObjectWrap<T>::StaticMethodCallbackWrapper(
napi_env env, napi_callback_info info) {
return details::WrapCallback([&] {
CallbackInfo callbackInfo(env, info);
StaticMethodCallbackData* callbackData =
reinterpret_cast<StaticMethodCallbackData*>(callbackInfo.Data());
callbackInfo.SetData(callbackData->data);
return callbackData->callback(callbackInfo);
});
}
template <typename T>
inline napi_value ObjectWrap<T>::StaticGetterCallbackWrapper(
napi_env env, napi_callback_info info) {
return details::WrapCallback([&] {
CallbackInfo callbackInfo(env, info);
StaticAccessorCallbackData* callbackData =
reinterpret_cast<StaticAccessorCallbackData*>(callbackInfo.Data());
callbackInfo.SetData(callbackData->data);
return callbackData->getterCallback(callbackInfo);
});
}
template <typename T>
inline napi_value ObjectWrap<T>::StaticSetterCallbackWrapper(
napi_env env, napi_callback_info info) {
return details::WrapCallback([&] {
CallbackInfo callbackInfo(env, info);
StaticAccessorCallbackData* callbackData =
reinterpret_cast<StaticAccessorCallbackData*>(callbackInfo.Data());
callbackInfo.SetData(callbackData->data);
callbackData->setterCallback(callbackInfo, callbackInfo[0]);
return nullptr;
});
}
template <typename T>
inline void ObjectWrap<T>::FinalizeCallback(napi_env env,
void* data,
void* /*hint*/) {
HandleScope scope(env);
T* instance = static_cast<T*>(data);
instance->Finalize(Napi::Env(env));
delete instance;
}
template <typename T>
template <typename ObjectWrap<T>::StaticSetterCallback method>
inline napi_value ObjectWrap<T>::WrappedMethod(
napi_env env, napi_callback_info info) NAPI_NOEXCEPT {
return details::WrapCallback([&] {
const CallbackInfo cbInfo(env, info);
method(cbInfo, cbInfo[0]);
return nullptr;
});
}
////////////////////////////////////////////////////////////////////////////////
// HandleScope class
////////////////////////////////////////////////////////////////////////////////
inline HandleScope::HandleScope(napi_env env, napi_handle_scope scope)
: _env(env), _scope(scope) {}
inline HandleScope::HandleScope(Napi::Env env) : _env(env) {
napi_status status = napi_open_handle_scope(_env, &_scope);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
inline HandleScope::~HandleScope() {
napi_status status = napi_close_handle_scope(_env, _scope);
NAPI_FATAL_IF_FAILED(
status, "HandleScope::~HandleScope", "napi_close_handle_scope");
}
inline HandleScope::operator napi_handle_scope() const {
return _scope;
}
inline Napi::Env HandleScope::Env() const {
return Napi::Env(_env);
}
////////////////////////////////////////////////////////////////////////////////
// EscapableHandleScope class
////////////////////////////////////////////////////////////////////////////////
inline EscapableHandleScope::EscapableHandleScope(
napi_env env, napi_escapable_handle_scope scope)
: _env(env), _scope(scope) {}
inline EscapableHandleScope::EscapableHandleScope(Napi::Env env) : _env(env) {
napi_status status = napi_open_escapable_handle_scope(_env, &_scope);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
inline EscapableHandleScope::~EscapableHandleScope() {
napi_status status = napi_close_escapable_handle_scope(_env, _scope);
NAPI_FATAL_IF_FAILED(status,
"EscapableHandleScope::~EscapableHandleScope",
"napi_close_escapable_handle_scope");
}
inline EscapableHandleScope::operator napi_escapable_handle_scope() const {
return _scope;
}
inline Napi::Env EscapableHandleScope::Env() const {
return Napi::Env(_env);
}
inline Value EscapableHandleScope::Escape(napi_value escapee) {
napi_value result;
napi_status status = napi_escape_handle(_env, _scope, escapee, &result);
NAPI_THROW_IF_FAILED(_env, status, Value());
return Value(_env, result);
}
#if (NAPI_VERSION > 2)
////////////////////////////////////////////////////////////////////////////////
// CallbackScope class
////////////////////////////////////////////////////////////////////////////////
inline CallbackScope::CallbackScope(napi_env env, napi_callback_scope scope)
: _env(env), _scope(scope) {}
inline CallbackScope::CallbackScope(napi_env env, napi_async_context context)
: _env(env) {
napi_status status =
napi_open_callback_scope(_env, Object::New(env), context, &_scope);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
inline CallbackScope::~CallbackScope() {
napi_status status = napi_close_callback_scope(_env, _scope);
NAPI_FATAL_IF_FAILED(
status, "CallbackScope::~CallbackScope", "napi_close_callback_scope");
}
inline CallbackScope::operator napi_callback_scope() const {
return _scope;
}
inline Napi::Env CallbackScope::Env() const {
return Napi::Env(_env);
}
#endif
////////////////////////////////////////////////////////////////////////////////
// AsyncContext class
////////////////////////////////////////////////////////////////////////////////
inline AsyncContext::AsyncContext(napi_env env, const char* resource_name)
: AsyncContext(env, resource_name, Object::New(env)) {}
inline AsyncContext::AsyncContext(napi_env env,
const char* resource_name,
const Object& resource)
: _env(env), _context(nullptr) {
napi_value resource_id;
napi_status status = napi_create_string_utf8(
_env, resource_name, NAPI_AUTO_LENGTH, &resource_id);
NAPI_THROW_IF_FAILED_VOID(_env, status);
status = napi_async_init(_env, resource, resource_id, &_context);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
inline AsyncContext::~AsyncContext() {
if (_context != nullptr) {
napi_async_destroy(_env, _context);
_context = nullptr;
}
}
inline AsyncContext::AsyncContext(AsyncContext&& other) {
_env = other._env;
other._env = nullptr;
_context = other._context;
other._context = nullptr;
}
inline AsyncContext& AsyncContext::operator=(AsyncContext&& other) {
_env = other._env;
other._env = nullptr;
_context = other._context;
other._context = nullptr;
return *this;
}
inline AsyncContext::operator napi_async_context() const {
return _context;
}
inline Napi::Env AsyncContext::Env() const {
return Napi::Env(_env);
}
////////////////////////////////////////////////////////////////////////////////
// AsyncWorker class
////////////////////////////////////////////////////////////////////////////////
#if NAPI_HAS_THREADS
inline AsyncWorker::AsyncWorker(const Function& callback)
: AsyncWorker(callback, "generic") {}
inline AsyncWorker::AsyncWorker(const Function& callback,
const char* resource_name)
: AsyncWorker(callback, resource_name, Object::New(callback.Env())) {}
inline AsyncWorker::AsyncWorker(const Function& callback,
const char* resource_name,
const Object& resource)
: AsyncWorker(
Object::New(callback.Env()), callback, resource_name, resource) {}
inline AsyncWorker::AsyncWorker(const Object& receiver,
const Function& callback)
: AsyncWorker(receiver, callback, "generic") {}
inline AsyncWorker::AsyncWorker(const Object& receiver,
const Function& callback,
const char* resource_name)
: AsyncWorker(
receiver, callback, resource_name, Object::New(callback.Env())) {}
inline AsyncWorker::AsyncWorker(const Object& receiver,
const Function& callback,
const char* resource_name,
const Object& resource)
: _env(callback.Env()),
_receiver(Napi::Persistent(receiver)),
_callback(Napi::Persistent(callback)),
_suppress_destruct(false) {
napi_value resource_id;
napi_status status = napi_create_string_latin1(
_env, resource_name, NAPI_AUTO_LENGTH, &resource_id);
NAPI_THROW_IF_FAILED_VOID(_env, status);
status = napi_create_async_work(_env,
resource,
resource_id,
OnAsyncWorkExecute,
OnAsyncWorkComplete,
this,
&_work);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
inline AsyncWorker::AsyncWorker(Napi::Env env) : AsyncWorker(env, "generic") {}
inline AsyncWorker::AsyncWorker(Napi::Env env, const char* resource_name)
: AsyncWorker(env, resource_name, Object::New(env)) {}
inline AsyncWorker::AsyncWorker(Napi::Env env,
const char* resource_name,
const Object& resource)
: _env(env), _receiver(), _callback(), _suppress_destruct(false) {
napi_value resource_id;
napi_status status = napi_create_string_latin1(
_env, resource_name, NAPI_AUTO_LENGTH, &resource_id);
NAPI_THROW_IF_FAILED_VOID(_env, status);
status = napi_create_async_work(_env,
resource,
resource_id,
OnAsyncWorkExecute,
OnAsyncWorkComplete,
this,
&_work);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
inline AsyncWorker::~AsyncWorker() {
if (_work != nullptr) {
napi_delete_async_work(_env, _work);
_work = nullptr;
}
}
inline void AsyncWorker::Destroy() {
delete this;
}
inline AsyncWorker::operator napi_async_work() const {
return _work;
}
inline Napi::Env AsyncWorker::Env() const {
return Napi::Env(_env);
}
inline void AsyncWorker::Queue() {
napi_status status = napi_queue_async_work(_env, _work);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
inline void AsyncWorker::Cancel() {
napi_status status = napi_cancel_async_work(_env, _work);
NAPI_THROW_IF_FAILED_VOID(_env, status);
}
inline ObjectReference& AsyncWorker::Receiver() {
return _receiver;
}
inline FunctionReference& AsyncWorker::Callback() {
return _callback;
}
inline void AsyncWorker::SuppressDestruct() {
_suppress_destruct = true;
}
inline void AsyncWorker::OnOK() {
if (!_callback.IsEmpty()) {
_callback.Call(_receiver.Value(), GetResult(_callback.Env()));
}
}
inline void AsyncWorker::OnError(const Error& e) {
if (!_callback.IsEmpty()) {
_callback.Call(_receiver.Value(),
std::initializer_list<napi_value>{e.Value()});
}
}
inline void AsyncWorker::SetError(const std::string& error) {
_error = error;
}
inline std::vector<napi_value> AsyncWorker::GetResult(Napi::Env /*env*/) {
return {};
}
// The OnAsyncWorkExecute method receives an napi_env argument. However, do NOT
// use it within this method, as it does not run on the JavaScript thread and
// must not run any method that would cause JavaScript to run. In practice,
// this means that almost any use of napi_env will be incorrect.
inline void AsyncWorker::OnAsyncWorkExecute(napi_env env, void* asyncworker) {
AsyncWorker* self = static_cast<AsyncWorker*>(asyncworker);
self->OnExecute(env);
}
// The OnExecute method receives an napi_env argument. However, do NOT
// use it within this method, as it does not run on the JavaScript thread and
// must not run any method that would cause JavaScript to run. In practice,
// this means that almost any use of napi_env will be incorrect.
inline void AsyncWorker::OnExecute(Napi::Env /*DO_NOT_USE*/) {
#ifdef NAPI_CPP_EXCEPTIONS
try {
Execute();
} catch (const std::exception& e) {
SetError(e.what());
}
#else // NAPI_CPP_EXCEPTIONS
Execute();
#endif // NAPI_CPP_EXCEPTIONS
}
inline void AsyncWorker::OnAsyncWorkComplete(napi_env env,
napi_status status,
void* asyncworker) {
AsyncWorker* self = static_cast<AsyncWorker*>(asyncworker);
self->OnWorkComplete(env, status);
}
inline void AsyncWorker::OnWorkComplete(Napi::Env /*env*/, napi_status status) {
if (status != napi_cancelled) {
HandleScope scope(_env);
details::WrapCallback([&] {
if (_error.size() == 0) {
OnOK();
} else {
OnError(Error::New(_env, _error));
}
return nullptr;
});
}
if (!_suppress_destruct) {
Destroy();
}
}
#endif // NAPI_HAS_THREADS
#if (NAPI_VERSION > 3 && NAPI_HAS_THREADS)
////////////////////////////////////////////////////////////////////////////////
// TypedThreadSafeFunction<ContextType,DataType,CallJs> class
////////////////////////////////////////////////////////////////////////////////
// Starting with NAPI 5, the JavaScript function `func` parameter of
// `napi_create_threadsafe_function` is optional.
#if NAPI_VERSION > 4
// static, with Callback [missing] Resource [missing] Finalizer [missing]
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
template <typename ResourceString>
inline TypedThreadSafeFunction<ContextType, DataType, CallJs>
TypedThreadSafeFunction<ContextType, DataType, CallJs>::New(
napi_env env,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context) {
TypedThreadSafeFunction<ContextType, DataType, CallJs> tsfn;
napi_status status =
napi_create_threadsafe_function(env,
nullptr,
nullptr,
String::From(env, resourceName),
maxQueueSize,
initialThreadCount,
nullptr,
nullptr,
context,
CallJsInternal,
&tsfn._tsfn);
if (status != napi_ok) {
NAPI_THROW_IF_FAILED(
env, status, TypedThreadSafeFunction<ContextType, DataType, CallJs>());
}
return tsfn;
}
// static, with Callback [missing] Resource [passed] Finalizer [missing]
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
template <typename ResourceString>
inline TypedThreadSafeFunction<ContextType, DataType, CallJs>
TypedThreadSafeFunction<ContextType, DataType, CallJs>::New(
napi_env env,
const Object& resource,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context) {
TypedThreadSafeFunction<ContextType, DataType, CallJs> tsfn;
napi_status status =
napi_create_threadsafe_function(env,
nullptr,
resource,
String::From(env, resourceName),
maxQueueSize,
initialThreadCount,
nullptr,
nullptr,
context,
CallJsInternal,
&tsfn._tsfn);
if (status != napi_ok) {
NAPI_THROW_IF_FAILED(
env, status, TypedThreadSafeFunction<ContextType, DataType, CallJs>());
}
return tsfn;
}
// static, with Callback [missing] Resource [missing] Finalizer [passed]
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
template <typename ResourceString,
typename Finalizer,
typename FinalizerDataType>
inline TypedThreadSafeFunction<ContextType, DataType, CallJs>
TypedThreadSafeFunction<ContextType, DataType, CallJs>::New(
napi_env env,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context,
Finalizer finalizeCallback,
FinalizerDataType* data) {
TypedThreadSafeFunction<ContextType, DataType, CallJs> tsfn;
auto* finalizeData = new details::
ThreadSafeFinalize<ContextType, Finalizer, FinalizerDataType>(
{data, finalizeCallback});
napi_status status = napi_create_threadsafe_function(
env,
nullptr,
nullptr,
String::From(env, resourceName),
maxQueueSize,
initialThreadCount,
finalizeData,
details::ThreadSafeFinalize<ContextType, Finalizer, FinalizerDataType>::
FinalizeFinalizeWrapperWithDataAndContext,
context,
CallJsInternal,
&tsfn._tsfn);
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED(
env, status, TypedThreadSafeFunction<ContextType, DataType, CallJs>());
}
return tsfn;
}
// static, with Callback [missing] Resource [passed] Finalizer [passed]
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
template <typename ResourceString,
typename Finalizer,
typename FinalizerDataType>
inline TypedThreadSafeFunction<ContextType, DataType, CallJs>
TypedThreadSafeFunction<ContextType, DataType, CallJs>::New(
napi_env env,
const Object& resource,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context,
Finalizer finalizeCallback,
FinalizerDataType* data) {
TypedThreadSafeFunction<ContextType, DataType, CallJs> tsfn;
auto* finalizeData = new details::
ThreadSafeFinalize<ContextType, Finalizer, FinalizerDataType>(
{data, finalizeCallback});
napi_status status = napi_create_threadsafe_function(
env,
nullptr,
resource,
String::From(env, resourceName),
maxQueueSize,
initialThreadCount,
finalizeData,
details::ThreadSafeFinalize<ContextType, Finalizer, FinalizerDataType>::
FinalizeFinalizeWrapperWithDataAndContext,
context,
CallJsInternal,
&tsfn._tsfn);
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED(
env, status, TypedThreadSafeFunction<ContextType, DataType, CallJs>());
}
return tsfn;
}
#endif
// static, with Callback [passed] Resource [missing] Finalizer [missing]
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
template <typename ResourceString>
inline TypedThreadSafeFunction<ContextType, DataType, CallJs>
TypedThreadSafeFunction<ContextType, DataType, CallJs>::New(
napi_env env,
const Function& callback,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context) {
TypedThreadSafeFunction<ContextType, DataType, CallJs> tsfn;
napi_status status =
napi_create_threadsafe_function(env,
callback,
nullptr,
String::From(env, resourceName),
maxQueueSize,
initialThreadCount,
nullptr,
nullptr,
context,
CallJsInternal,
&tsfn._tsfn);
if (status != napi_ok) {
NAPI_THROW_IF_FAILED(
env, status, TypedThreadSafeFunction<ContextType, DataType, CallJs>());
}
return tsfn;
}
// static, with Callback [passed] Resource [passed] Finalizer [missing]
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
template <typename ResourceString>
inline TypedThreadSafeFunction<ContextType, DataType, CallJs>
TypedThreadSafeFunction<ContextType, DataType, CallJs>::New(
napi_env env,
const Function& callback,
const Object& resource,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context) {
TypedThreadSafeFunction<ContextType, DataType, CallJs> tsfn;
napi_status status =
napi_create_threadsafe_function(env,
callback,
resource,
String::From(env, resourceName),
maxQueueSize,
initialThreadCount,
nullptr,
nullptr,
context,
CallJsInternal,
&tsfn._tsfn);
if (status != napi_ok) {
NAPI_THROW_IF_FAILED(
env, status, TypedThreadSafeFunction<ContextType, DataType, CallJs>());
}
return tsfn;
}
// static, with Callback [passed] Resource [missing] Finalizer [passed]
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
template <typename ResourceString,
typename Finalizer,
typename FinalizerDataType>
inline TypedThreadSafeFunction<ContextType, DataType, CallJs>
TypedThreadSafeFunction<ContextType, DataType, CallJs>::New(
napi_env env,
const Function& callback,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context,
Finalizer finalizeCallback,
FinalizerDataType* data) {
TypedThreadSafeFunction<ContextType, DataType, CallJs> tsfn;
auto* finalizeData = new details::
ThreadSafeFinalize<ContextType, Finalizer, FinalizerDataType>(
{data, finalizeCallback});
napi_status status = napi_create_threadsafe_function(
env,
callback,
nullptr,
String::From(env, resourceName),
maxQueueSize,
initialThreadCount,
finalizeData,
details::ThreadSafeFinalize<ContextType, Finalizer, FinalizerDataType>::
FinalizeFinalizeWrapperWithDataAndContext,
context,
CallJsInternal,
&tsfn._tsfn);
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED(
env, status, TypedThreadSafeFunction<ContextType, DataType, CallJs>());
}
return tsfn;
}
// static, with: Callback [passed] Resource [passed] Finalizer [passed]
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
template <typename CallbackType,
typename ResourceString,
typename Finalizer,
typename FinalizerDataType>
inline TypedThreadSafeFunction<ContextType, DataType, CallJs>
TypedThreadSafeFunction<ContextType, DataType, CallJs>::New(
napi_env env,
CallbackType callback,
const Object& resource,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context,
Finalizer finalizeCallback,
FinalizerDataType* data) {
TypedThreadSafeFunction<ContextType, DataType, CallJs> tsfn;
auto* finalizeData = new details::
ThreadSafeFinalize<ContextType, Finalizer, FinalizerDataType>(
{data, finalizeCallback});
napi_status status = napi_create_threadsafe_function(
env,
details::DefaultCallbackWrapper<
CallbackType,
TypedThreadSafeFunction<ContextType, DataType, CallJs>>(env,
callback),
resource,
String::From(env, resourceName),
maxQueueSize,
initialThreadCount,
finalizeData,
details::ThreadSafeFinalize<ContextType, Finalizer, FinalizerDataType>::
FinalizeFinalizeWrapperWithDataAndContext,
context,
CallJsInternal,
&tsfn._tsfn);
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED(
env, status, TypedThreadSafeFunction<ContextType, DataType, CallJs>());
}
return tsfn;
}
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
inline TypedThreadSafeFunction<ContextType, DataType, CallJs>::
TypedThreadSafeFunction()
: _tsfn() {}
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
inline TypedThreadSafeFunction<ContextType, DataType, CallJs>::
TypedThreadSafeFunction(napi_threadsafe_function tsfn)
: _tsfn(tsfn) {}
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
inline TypedThreadSafeFunction<ContextType, DataType, CallJs>::
operator napi_threadsafe_function() const {
return _tsfn;
}
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
inline napi_status
TypedThreadSafeFunction<ContextType, DataType, CallJs>::BlockingCall(
DataType* data) const {
return napi_call_threadsafe_function(_tsfn, data, napi_tsfn_blocking);
}
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
inline napi_status
TypedThreadSafeFunction<ContextType, DataType, CallJs>::NonBlockingCall(
DataType* data) const {
return napi_call_threadsafe_function(_tsfn, data, napi_tsfn_nonblocking);
}
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
inline void TypedThreadSafeFunction<ContextType, DataType, CallJs>::Ref(
napi_env env) const {
if (_tsfn != nullptr) {
napi_status status = napi_ref_threadsafe_function(env, _tsfn);
NAPI_THROW_IF_FAILED_VOID(env, status);
}
}
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
inline void TypedThreadSafeFunction<ContextType, DataType, CallJs>::Unref(
napi_env env) const {
if (_tsfn != nullptr) {
napi_status status = napi_unref_threadsafe_function(env, _tsfn);
NAPI_THROW_IF_FAILED_VOID(env, status);
}
}
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
inline napi_status
TypedThreadSafeFunction<ContextType, DataType, CallJs>::Acquire() const {
return napi_acquire_threadsafe_function(_tsfn);
}
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
inline napi_status
TypedThreadSafeFunction<ContextType, DataType, CallJs>::Release() const {
return napi_release_threadsafe_function(_tsfn, napi_tsfn_release);
}
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
inline napi_status
TypedThreadSafeFunction<ContextType, DataType, CallJs>::Abort() const {
return napi_release_threadsafe_function(_tsfn, napi_tsfn_abort);
}
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
inline ContextType*
TypedThreadSafeFunction<ContextType, DataType, CallJs>::GetContext() const {
void* context;
napi_status status = napi_get_threadsafe_function_context(_tsfn, &context);
NAPI_FATAL_IF_FAILED(status,
"TypedThreadSafeFunction::GetContext",
"napi_get_threadsafe_function_context");
return static_cast<ContextType*>(context);
}
// static
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
void TypedThreadSafeFunction<ContextType, DataType, CallJs>::CallJsInternal(
napi_env env, napi_value jsCallback, void* context, void* data) {
details::CallJsWrapper<ContextType, DataType, decltype(CallJs), CallJs>(
env, jsCallback, context, data);
}
#if NAPI_VERSION == 4
// static
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
Napi::Function
TypedThreadSafeFunction<ContextType, DataType, CallJs>::EmptyFunctionFactory(
Napi::Env env) {
return Napi::Function::New(env, [](const CallbackInfo& cb) {});
}
// static
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
Napi::Function
TypedThreadSafeFunction<ContextType, DataType, CallJs>::FunctionOrEmpty(
Napi::Env env, Napi::Function& callback) {
if (callback.IsEmpty()) {
return EmptyFunctionFactory(env);
}
return callback;
}
#else
// static
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
std::nullptr_t
TypedThreadSafeFunction<ContextType, DataType, CallJs>::EmptyFunctionFactory(
Napi::Env /*env*/) {
return nullptr;
}
// static
template <typename ContextType,
typename DataType,
void (*CallJs)(Napi::Env, Napi::Function, ContextType*, DataType*)>
Napi::Function
TypedThreadSafeFunction<ContextType, DataType, CallJs>::FunctionOrEmpty(
Napi::Env /*env*/, Napi::Function& callback) {
return callback;
}
#endif
////////////////////////////////////////////////////////////////////////////////
// ThreadSafeFunction class
////////////////////////////////////////////////////////////////////////////////
// static
template <typename ResourceString>
inline ThreadSafeFunction ThreadSafeFunction::New(napi_env env,
const Function& callback,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount) {
return New(
env, callback, Object(), resourceName, maxQueueSize, initialThreadCount);
}
// static
template <typename ResourceString, typename ContextType>
inline ThreadSafeFunction ThreadSafeFunction::New(napi_env env,
const Function& callback,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context) {
return New(env,
callback,
Object(),
resourceName,
maxQueueSize,
initialThreadCount,
context);
}
// static
template <typename ResourceString, typename Finalizer>
inline ThreadSafeFunction ThreadSafeFunction::New(napi_env env,
const Function& callback,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
Finalizer finalizeCallback) {
return New(env,
callback,
Object(),
resourceName,
maxQueueSize,
initialThreadCount,
finalizeCallback);
}
// static
template <typename ResourceString,
typename Finalizer,
typename FinalizerDataType>
inline ThreadSafeFunction ThreadSafeFunction::New(napi_env env,
const Function& callback,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
Finalizer finalizeCallback,
FinalizerDataType* data) {
return New(env,
callback,
Object(),
resourceName,
maxQueueSize,
initialThreadCount,
finalizeCallback,
data);
}
// static
template <typename ResourceString, typename ContextType, typename Finalizer>
inline ThreadSafeFunction ThreadSafeFunction::New(napi_env env,
const Function& callback,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context,
Finalizer finalizeCallback) {
return New(env,
callback,
Object(),
resourceName,
maxQueueSize,
initialThreadCount,
context,
finalizeCallback);
}
// static
template <typename ResourceString,
typename ContextType,
typename Finalizer,
typename FinalizerDataType>
inline ThreadSafeFunction ThreadSafeFunction::New(napi_env env,
const Function& callback,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context,
Finalizer finalizeCallback,
FinalizerDataType* data) {
return New(env,
callback,
Object(),
resourceName,
maxQueueSize,
initialThreadCount,
context,
finalizeCallback,
data);
}
// static
template <typename ResourceString>
inline ThreadSafeFunction ThreadSafeFunction::New(napi_env env,
const Function& callback,
const Object& resource,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount) {
return New(env,
callback,
resource,
resourceName,
maxQueueSize,
initialThreadCount,
static_cast<void*>(nullptr) /* context */);
}
// static
template <typename ResourceString, typename ContextType>
inline ThreadSafeFunction ThreadSafeFunction::New(napi_env env,
const Function& callback,
const Object& resource,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context) {
return New(env,
callback,
resource,
resourceName,
maxQueueSize,
initialThreadCount,
context,
[](Env, ContextType*) {} /* empty finalizer */);
}
// static
template <typename ResourceString, typename Finalizer>
inline ThreadSafeFunction ThreadSafeFunction::New(napi_env env,
const Function& callback,
const Object& resource,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
Finalizer finalizeCallback) {
return New(env,
callback,
resource,
resourceName,
maxQueueSize,
initialThreadCount,
static_cast<void*>(nullptr) /* context */,
finalizeCallback,
static_cast<void*>(nullptr) /* data */,
details::ThreadSafeFinalize<void, Finalizer>::Wrapper);
}
// static
template <typename ResourceString,
typename Finalizer,
typename FinalizerDataType>
inline ThreadSafeFunction ThreadSafeFunction::New(napi_env env,
const Function& callback,
const Object& resource,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
Finalizer finalizeCallback,
FinalizerDataType* data) {
return New(env,
callback,
resource,
resourceName,
maxQueueSize,
initialThreadCount,
static_cast<void*>(nullptr) /* context */,
finalizeCallback,
data,
details::ThreadSafeFinalize<void, Finalizer, FinalizerDataType>::
FinalizeWrapperWithData);
}
// static
template <typename ResourceString, typename ContextType, typename Finalizer>
inline ThreadSafeFunction ThreadSafeFunction::New(napi_env env,
const Function& callback,
const Object& resource,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context,
Finalizer finalizeCallback) {
return New(
env,
callback,
resource,
resourceName,
maxQueueSize,
initialThreadCount,
context,
finalizeCallback,
static_cast<void*>(nullptr) /* data */,
details::ThreadSafeFinalize<ContextType,
Finalizer>::FinalizeWrapperWithContext);
}
// static
template <typename ResourceString,
typename ContextType,
typename Finalizer,
typename FinalizerDataType>
inline ThreadSafeFunction ThreadSafeFunction::New(napi_env env,
const Function& callback,
const Object& resource,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context,
Finalizer finalizeCallback,
FinalizerDataType* data) {
return New(
env,
callback,
resource,
resourceName,
maxQueueSize,
initialThreadCount,
context,
finalizeCallback,
data,
details::ThreadSafeFinalize<ContextType, Finalizer, FinalizerDataType>::
FinalizeFinalizeWrapperWithDataAndContext);
}
inline ThreadSafeFunction::ThreadSafeFunction() : _tsfn() {}
inline ThreadSafeFunction::ThreadSafeFunction(napi_threadsafe_function tsfn)
: _tsfn(tsfn) {}
inline ThreadSafeFunction::operator napi_threadsafe_function() const {
return _tsfn;
}
inline napi_status ThreadSafeFunction::BlockingCall() const {
return CallInternal(nullptr, napi_tsfn_blocking);
}
template <>
inline napi_status ThreadSafeFunction::BlockingCall(void* data) const {
return napi_call_threadsafe_function(_tsfn, data, napi_tsfn_blocking);
}
template <typename Callback>
inline napi_status ThreadSafeFunction::BlockingCall(Callback callback) const {
return CallInternal(new CallbackWrapper(callback), napi_tsfn_blocking);
}
template <typename DataType, typename Callback>
inline napi_status ThreadSafeFunction::BlockingCall(DataType* data,
Callback callback) const {
auto wrapper = [data, callback](Env env, Function jsCallback) {
callback(env, jsCallback, data);
};
return CallInternal(new CallbackWrapper(wrapper), napi_tsfn_blocking);
}
inline napi_status ThreadSafeFunction::NonBlockingCall() const {
return CallInternal(nullptr, napi_tsfn_nonblocking);
}
template <>
inline napi_status ThreadSafeFunction::NonBlockingCall(void* data) const {
return napi_call_threadsafe_function(_tsfn, data, napi_tsfn_nonblocking);
}
template <typename Callback>
inline napi_status ThreadSafeFunction::NonBlockingCall(
Callback callback) const {
return CallInternal(new CallbackWrapper(callback), napi_tsfn_nonblocking);
}
template <typename DataType, typename Callback>
inline napi_status ThreadSafeFunction::NonBlockingCall(
DataType* data, Callback callback) const {
auto wrapper = [data, callback](Env env, Function jsCallback) {
callback(env, jsCallback, data);
};
return CallInternal(new CallbackWrapper(wrapper), napi_tsfn_nonblocking);
}
inline void ThreadSafeFunction::Ref(napi_env env) const {
if (_tsfn != nullptr) {
napi_status status = napi_ref_threadsafe_function(env, _tsfn);
NAPI_THROW_IF_FAILED_VOID(env, status);
}
}
inline void ThreadSafeFunction::Unref(napi_env env) const {
if (_tsfn != nullptr) {
napi_status status = napi_unref_threadsafe_function(env, _tsfn);
NAPI_THROW_IF_FAILED_VOID(env, status);
}
}
inline napi_status ThreadSafeFunction::Acquire() const {
return napi_acquire_threadsafe_function(_tsfn);
}
inline napi_status ThreadSafeFunction::Release() const {
return napi_release_threadsafe_function(_tsfn, napi_tsfn_release);
}
inline napi_status ThreadSafeFunction::Abort() const {
return napi_release_threadsafe_function(_tsfn, napi_tsfn_abort);
}
inline ThreadSafeFunction::ConvertibleContext ThreadSafeFunction::GetContext()
const {
void* context;
napi_status status = napi_get_threadsafe_function_context(_tsfn, &context);
NAPI_FATAL_IF_FAILED(status,
"ThreadSafeFunction::GetContext",
"napi_get_threadsafe_function_context");
return ConvertibleContext({context});
}
// static
template <typename ResourceString,
typename ContextType,
typename Finalizer,
typename FinalizerDataType>
inline ThreadSafeFunction ThreadSafeFunction::New(napi_env env,
const Function& callback,
const Object& resource,
ResourceString resourceName,
size_t maxQueueSize,
size_t initialThreadCount,
ContextType* context,
Finalizer finalizeCallback,
FinalizerDataType* data,
napi_finalize wrapper) {
static_assert(details::can_make_string<ResourceString>::value ||
std::is_convertible<ResourceString, napi_value>::value,
"Resource name should be convertible to the string type");
ThreadSafeFunction tsfn;
auto* finalizeData = new details::
ThreadSafeFinalize<ContextType, Finalizer, FinalizerDataType>(
{data, finalizeCallback});
napi_status status =
napi_create_threadsafe_function(env,
callback,
resource,
Value::From(env, resourceName),
maxQueueSize,
initialThreadCount,
finalizeData,
wrapper,
context,
CallJS,
&tsfn._tsfn);
if (status != napi_ok) {
delete finalizeData;
NAPI_THROW_IF_FAILED(env, status, ThreadSafeFunction());
}
return tsfn;
}
inline napi_status ThreadSafeFunction::CallInternal(
CallbackWrapper* callbackWrapper,
napi_threadsafe_function_call_mode mode) const {
napi_status status =
napi_call_threadsafe_function(_tsfn, callbackWrapper, mode);
if (status != napi_ok && callbackWrapper != nullptr) {
delete callbackWrapper;
}
return status;
}
// static
inline void ThreadSafeFunction::CallJS(napi_env env,
napi_value jsCallback,
void* /* context */,
void* data) {
if (env == nullptr && jsCallback == nullptr) {
return;
}
details::WrapVoidCallback([&]() {
if (data != nullptr) {
auto* callbackWrapper = static_cast<CallbackWrapper*>(data);
(*callbackWrapper)(env, Function(env, jsCallback));
delete callbackWrapper;
} else if (jsCallback != nullptr) {
Function(env, jsCallback).Call({});
}
});
}
////////////////////////////////////////////////////////////////////////////////
// Async Progress Worker Base class
////////////////////////////////////////////////////////////////////////////////
template <typename DataType>
inline AsyncProgressWorkerBase<DataType>::AsyncProgressWorkerBase(
const Object& receiver,
const Function& callback,
const char* resource_name,
const Object& resource,
size_t queue_size)
: AsyncWorker(receiver, callback, resource_name, resource) {
// Fill all possible arguments to work around ambiguous
// ThreadSafeFunction::New signatures.
_tsfn = ThreadSafeFunction::New(callback.Env(),
callback,
resource,
resource_name,
queue_size,
/** initialThreadCount */ 1,
/** context */ this,
OnThreadSafeFunctionFinalize,
/** finalizeData */ this);
}
#if NAPI_VERSION > 4
template <typename DataType>
inline AsyncProgressWorkerBase<DataType>::AsyncProgressWorkerBase(
Napi::Env env,
const char* resource_name,
const Object& resource,
size_t queue_size)
: AsyncWorker(env, resource_name, resource) {
// TODO: Once the changes to make the callback optional for threadsafe
// functions are available on all versions we can remove the dummy Function
// here.
Function callback;
// Fill all possible arguments to work around ambiguous
// ThreadSafeFunction::New signatures.
_tsfn = ThreadSafeFunction::New(env,
callback,
resource,
resource_name,
queue_size,
/** initialThreadCount */ 1,
/** context */ this,
OnThreadSafeFunctionFinalize,
/** finalizeData */ this);
}
#endif
template <typename DataType>
inline AsyncProgressWorkerBase<DataType>::~AsyncProgressWorkerBase() {
// Abort pending tsfn call.
// Don't send progress events after we've already completed.
// It's ok to call ThreadSafeFunction::Abort and ThreadSafeFunction::Release
// duplicated.
_tsfn.Abort();
}
template <typename DataType>
inline void AsyncProgressWorkerBase<DataType>::OnAsyncWorkProgress(
Napi::Env /* env */, Napi::Function /* jsCallback */, void* data) {
ThreadSafeData* tsd = static_cast<ThreadSafeData*>(data);
tsd->asyncprogressworker()->OnWorkProgress(tsd->data());
delete tsd;
}
template <typename DataType>
inline napi_status AsyncProgressWorkerBase<DataType>::NonBlockingCall(
DataType* data) {
auto tsd = new AsyncProgressWorkerBase::ThreadSafeData(this, data);
auto ret = _tsfn.NonBlockingCall(tsd, OnAsyncWorkProgress);
if (ret != napi_ok) {
delete tsd;
}
return ret;
}
template <typename DataType>
inline void AsyncProgressWorkerBase<DataType>::OnWorkComplete(
Napi::Env /* env */, napi_status status) {
_work_completed = true;
_complete_status = status;
_tsfn.Release();
}
template <typename DataType>
inline void AsyncProgressWorkerBase<DataType>::OnThreadSafeFunctionFinalize(
Napi::Env env, void* /* data */, AsyncProgressWorkerBase* context) {
if (context->_work_completed) {
context->AsyncWorker::OnWorkComplete(env, context->_complete_status);
}
}
////////////////////////////////////////////////////////////////////////////////
// Async Progress Worker class
////////////////////////////////////////////////////////////////////////////////
template <class T>
inline AsyncProgressWorker<T>::AsyncProgressWorker(const Function& callback)
: AsyncProgressWorker(callback, "generic") {}
template <class T>
inline AsyncProgressWorker<T>::AsyncProgressWorker(const Function& callback,
const char* resource_name)
: AsyncProgressWorker(
callback, resource_name, Object::New(callback.Env())) {}
template <class T>
inline AsyncProgressWorker<T>::AsyncProgressWorker(const Function& callback,
const char* resource_name,
const Object& resource)
: AsyncProgressWorker(
Object::New(callback.Env()), callback, resource_name, resource) {}
template <class T>
inline AsyncProgressWorker<T>::AsyncProgressWorker(const Object& receiver,
const Function& callback)
: AsyncProgressWorker(receiver, callback, "generic") {}
template <class T>
inline AsyncProgressWorker<T>::AsyncProgressWorker(const Object& receiver,
const Function& callback,
const char* resource_name)
: AsyncProgressWorker(
receiver, callback, resource_name, Object::New(callback.Env())) {}
template <class T>
inline AsyncProgressWorker<T>::AsyncProgressWorker(const Object& receiver,
const Function& callback,
const char* resource_name,
const Object& resource)
: AsyncProgressWorkerBase(receiver, callback, resource_name, resource),
_asyncdata(nullptr),
_asyncsize(0),
_signaled(false) {}
#if NAPI_VERSION > 4
template <class T>
inline AsyncProgressWorker<T>::AsyncProgressWorker(Napi::Env env)
: AsyncProgressWorker(env, "generic") {}
template <class T>
inline AsyncProgressWorker<T>::AsyncProgressWorker(Napi::Env env,
const char* resource_name)
: AsyncProgressWorker(env, resource_name, Object::New(env)) {}
template <class T>
inline AsyncProgressWorker<T>::AsyncProgressWorker(Napi::Env env,
const char* resource_name,
const Object& resource)
: AsyncProgressWorkerBase(env, resource_name, resource),
_asyncdata(nullptr),
_asyncsize(0) {}
#endif
template <class T>
inline AsyncProgressWorker<T>::~AsyncProgressWorker() {
{
std::lock_guard<std::mutex> lock(this->_mutex);
_asyncdata = nullptr;
_asyncsize = 0;
}
}
template <class T>
inline void AsyncProgressWorker<T>::Execute() {
ExecutionProgress progress(this);
Execute(progress);
}
template <class T>
inline void AsyncProgressWorker<T>::OnWorkProgress(void*) {
T* data;
size_t size;
bool signaled;
{
std::lock_guard<std::mutex> lock(this->_mutex);
data = this->_asyncdata;
size = this->_asyncsize;
signaled = this->_signaled;
this->_asyncdata = nullptr;
this->_asyncsize = 0;
this->_signaled = false;
}
/**
* The callback of ThreadSafeFunction is not been invoked immediately on the
* callback of uv_async_t (uv io poll), rather the callback of TSFN is
* invoked on the right next uv idle callback. There are chances that during
* the deferring the signal of uv_async_t is been sent again, i.e. potential
* not coalesced two calls of the TSFN callback.
*/
if (data == nullptr && !signaled) {
return;
}
this->OnProgress(data, size);
delete[] data;
}
template <class T>
inline void AsyncProgressWorker<T>::SendProgress_(const T* data, size_t count) {
T* new_data = new T[count];
std::copy(data, data + count, new_data);
T* old_data;
{
std::lock_guard<std::mutex> lock(this->_mutex);
old_data = _asyncdata;
_asyncdata = new_data;
_asyncsize = count;
_signaled = false;
}
this->NonBlockingCall(nullptr);
delete[] old_data;
}
template <class T>
inline void AsyncProgressWorker<T>::Signal() {
{
std::lock_guard<std::mutex> lock(this->_mutex);
_signaled = true;
}
this->NonBlockingCall(static_cast<T*>(nullptr));
}
template <class T>
inline void AsyncProgressWorker<T>::ExecutionProgress::Signal() const {
this->_worker->Signal();
}
template <class T>
inline void AsyncProgressWorker<T>::ExecutionProgress::Send(
const T* data, size_t count) const {
_worker->SendProgress_(data, count);
}
////////////////////////////////////////////////////////////////////////////////
// Async Progress Queue Worker class
////////////////////////////////////////////////////////////////////////////////
template <class T>
inline AsyncProgressQueueWorker<T>::AsyncProgressQueueWorker(
const Function& callback)
: AsyncProgressQueueWorker(callback, "generic") {}
template <class T>
inline AsyncProgressQueueWorker<T>::AsyncProgressQueueWorker(
const Function& callback, const char* resource_name)
: AsyncProgressQueueWorker(
callback, resource_name, Object::New(callback.Env())) {}
template <class T>
inline AsyncProgressQueueWorker<T>::AsyncProgressQueueWorker(
const Function& callback, const char* resource_name, const Object& resource)
: AsyncProgressQueueWorker(
Object::New(callback.Env()), callback, resource_name, resource) {}
template <class T>
inline AsyncProgressQueueWorker<T>::AsyncProgressQueueWorker(
const Object& receiver, const Function& callback)
: AsyncProgressQueueWorker(receiver, callback, "generic") {}
template <class T>
inline AsyncProgressQueueWorker<T>::AsyncProgressQueueWorker(
const Object& receiver, const Function& callback, const char* resource_name)
: AsyncProgressQueueWorker(
receiver, callback, resource_name, Object::New(callback.Env())) {}
template <class T>
inline AsyncProgressQueueWorker<T>::AsyncProgressQueueWorker(
const Object& receiver,
const Function& callback,
const char* resource_name,
const Object& resource)
: AsyncProgressWorkerBase<std::pair<T*, size_t>>(
receiver,
callback,
resource_name,
resource,
/** unlimited queue size */ 0) {}
#if NAPI_VERSION > 4
template <class T>
inline AsyncProgressQueueWorker<T>::AsyncProgressQueueWorker(Napi::Env env)
: AsyncProgressQueueWorker(env, "generic") {}
template <class T>
inline AsyncProgressQueueWorker<T>::AsyncProgressQueueWorker(
Napi::Env env, const char* resource_name)
: AsyncProgressQueueWorker(env, resource_name, Object::New(env)) {}
template <class T>
inline AsyncProgressQueueWorker<T>::AsyncProgressQueueWorker(
Napi::Env env, const char* resource_name, const Object& resource)
: AsyncProgressWorkerBase<std::pair<T*, size_t>>(
env, resource_name, resource, /** unlimited queue size */ 0) {}
#endif
template <class T>
inline void AsyncProgressQueueWorker<T>::Execute() {
ExecutionProgress progress(this);
Execute(progress);
}
template <class T>
inline void AsyncProgressQueueWorker<T>::OnWorkProgress(
std::pair<T*, size_t>* datapair) {
if (datapair == nullptr) {
return;
}
T* data = datapair->first;
size_t size = datapair->second;
this->OnProgress(data, size);
delete datapair;
delete[] data;
}
template <class T>
inline void AsyncProgressQueueWorker<T>::SendProgress_(const T* data,
size_t count) {
T* new_data = new T[count];
std::copy(data, data + count, new_data);
auto pair = new std::pair<T*, size_t>(new_data, count);
this->NonBlockingCall(pair);
}
template <class T>
inline void AsyncProgressQueueWorker<T>::Signal() const {
this->SendProgress_(static_cast<T*>(nullptr), 0);
}
template <class T>
inline void AsyncProgressQueueWorker<T>::OnWorkComplete(Napi::Env env,
napi_status status) {
// Draining queued items in TSFN.
AsyncProgressWorkerBase<std::pair<T*, size_t>>::OnWorkComplete(env, status);
}
template <class T>
inline void AsyncProgressQueueWorker<T>::ExecutionProgress::Signal() const {
_worker->SendProgress_(static_cast<T*>(nullptr), 0);
}
template <class T>
inline void AsyncProgressQueueWorker<T>::ExecutionProgress::Send(
const T* data, size_t count) const {
_worker->SendProgress_(data, count);
}
#endif // NAPI_VERSION > 3 && NAPI_HAS_THREADS
////////////////////////////////////////////////////////////////////////////////
// Memory Management class
////////////////////////////////////////////////////////////////////////////////
inline int64_t MemoryManagement::AdjustExternalMemory(Env env,
int64_t change_in_bytes) {
int64_t result;
napi_status status =
napi_adjust_external_memory(env, change_in_bytes, &result);
NAPI_THROW_IF_FAILED(env, status, 0);
return result;
}
////////////////////////////////////////////////////////////////////////////////
// Version Management class
////////////////////////////////////////////////////////////////////////////////
inline uint32_t VersionManagement::GetNapiVersion(Env env) {
uint32_t result;
napi_status status = napi_get_version(env, &result);
NAPI_THROW_IF_FAILED(env, status, 0);
return result;
}
inline const napi_node_version* VersionManagement::GetNodeVersion(Env env) {
const napi_node_version* result;
napi_status status = napi_get_node_version(env, &result);
NAPI_THROW_IF_FAILED(env, status, 0);
return result;
}
#if NAPI_VERSION > 5
////////////////////////////////////////////////////////////////////////////////
// Addon<T> class
////////////////////////////////////////////////////////////////////////////////
template <typename T>
inline Object Addon<T>::Init(Env env, Object exports) {
T* addon = new T(env, exports);
env.SetInstanceData(addon);
return addon->entry_point_;
}
template <typename T>
inline T* Addon<T>::Unwrap(Object wrapper) {
return wrapper.Env().GetInstanceData<T>();
}
template <typename T>
inline void Addon<T>::DefineAddon(
Object exports, const std::initializer_list<AddonProp>& props) {
DefineProperties(exports, props);
entry_point_ = exports;
}
template <typename T>
inline Napi::Object Addon<T>::DefineProperties(
Object object, const std::initializer_list<AddonProp>& props) {
const napi_property_descriptor* properties =
reinterpret_cast<const napi_property_descriptor*>(props.begin());
size_t size = props.size();
napi_status status =
napi_define_properties(object.Env(), object, size, properties);
NAPI_THROW_IF_FAILED(object.Env(), status, object);
for (size_t idx = 0; idx < size; idx++)
T::AttachPropData(object.Env(), object, &properties[idx]);
return object;
}
#endif // NAPI_VERSION > 5
#if NAPI_VERSION > 2
template <typename Hook, typename Arg>
Env::CleanupHook<Hook, Arg> Env::AddCleanupHook(Hook hook, Arg* arg) {
return CleanupHook<Hook, Arg>(*this, hook, arg);
}
template <typename Hook>
Env::CleanupHook<Hook> Env::AddCleanupHook(Hook hook) {
return CleanupHook<Hook>(*this, hook);
}
template <typename Hook, typename Arg>
Env::CleanupHook<Hook, Arg>::CleanupHook() {
data = nullptr;
}
template <typename Hook, typename Arg>
Env::CleanupHook<Hook, Arg>::CleanupHook(Napi::Env env, Hook hook)
: wrapper(Env::CleanupHook<Hook, Arg>::Wrapper) {
data = new CleanupData{std::move(hook), nullptr};
napi_status status = napi_add_env_cleanup_hook(env, wrapper, data);
if (status != napi_ok) {
delete data;
data = nullptr;
}
}
template <typename Hook, typename Arg>
Env::CleanupHook<Hook, Arg>::CleanupHook(Napi::Env env, Hook hook, Arg* arg)
: wrapper(Env::CleanupHook<Hook, Arg>::WrapperWithArg) {
data = new CleanupData{std::move(hook), arg};
napi_status status = napi_add_env_cleanup_hook(env, wrapper, data);
if (status != napi_ok) {
delete data;
data = nullptr;
}
}
template <class Hook, class Arg>
bool Env::CleanupHook<Hook, Arg>::Remove(Env env) {
napi_status status = napi_remove_env_cleanup_hook(env, wrapper, data);
delete data;
data = nullptr;
return status == napi_ok;
}
template <class Hook, class Arg>
bool Env::CleanupHook<Hook, Arg>::IsEmpty() const {
return data == nullptr;
}
#endif // NAPI_VERSION > 2
#ifdef NAPI_CPP_CUSTOM_NAMESPACE
} // namespace NAPI_CPP_CUSTOM_NAMESPACE
#endif
} // namespace Napi
#endif // SRC_NAPI_INL_H_