#ifndef _EVENT_EMITTER_
#define _EVENT_EMITTER_
#include <addon-tools.hpp>
#include <string>
#include <map>
#include <deque>
#define THIS_EVENT_EMITTER \
EventEmitter *eventEmitter = ObjectWrap::Unwrap<EventEmitter>(info.This());
#define EVENT_EMITTER_THIS_CHECK \
if (eventEmitter->_isDestroyed) return;
// This template class provides static-member initialization in-header
template <typename T>
class StaticHolder {
protected:
static V8_STORE_FT _protoEventEmitter;
static V8_STORE_FUNC _ctorEventEmitter;
};
template <typename T> V8_STORE_FT StaticHolder<T>::_protoEventEmitter;
template <typename T> V8_STORE_FUNC StaticHolder<T>::_ctorEventEmitter;
class EventEmitter : public StaticHolder<int>, public Nan::ObjectWrap {
typedef Nan::CopyablePersistentTraits<v8::Function>::CopyablePersistent FN_TYPE;
typedef std::deque<FN_TYPE> VEC_TYPE;
typedef std::map<std::string, VEC_TYPE> MAP_TYPE;
typedef std::map<int, FN_TYPE> FNMAP_TYPE;
typedef VEC_TYPE::iterator IT_TYPE;
typedef MAP_TYPE::iterator MAP_IT_TYPE;
typedef FNMAP_TYPE::iterator FNMAP_IT_TYPE;
public:
// Public V8 init
static void init(V8_VAR_OBJ target) {
V8_VAR_FT proto = Nan::New<v8::FunctionTemplate>(newCtor);
proto->InstanceTemplate()->SetInternalFieldCount(1);
proto->SetClassName(JS_STR("EventEmitter"));
// Accessors
V8_VAR_OT obj = proto->PrototypeTemplate();
ACCESSOR_R(obj, isDestroyed);
// -------- dynamic
Nan::SetPrototypeMethod(proto, "listenerCount", jsListenerCount);
Nan::SetPrototypeMethod(proto, "addEventListener", jsAddListener);
Nan::SetPrototypeMethod(proto, "addListener", jsAddListener);
Nan::SetPrototypeMethod(proto, "dispatchEvent", jsDispatchEvent);
Nan::SetPrototypeMethod(proto, "emit", jsEmit);
Nan::SetPrototypeMethod(proto, "eventNames", jsEventNames);
Nan::SetPrototypeMethod(proto, "getMaxListeners", jsGetMaxListeners);
Nan::SetPrototypeMethod(proto, "listeners", jsListeners);
Nan::SetPrototypeMethod(proto, "off", jsRemoveListener);
Nan::SetPrototypeMethod(proto, "on", jsAddListener);
Nan::SetPrototypeMethod(proto, "once", jsAddListener);
Nan::SetPrototypeMethod(proto, "prependListener", jsPrependListener);
Nan::SetPrototypeMethod(proto, "prependOnceListener", jsPrependOnceListener);
Nan::SetPrototypeMethod(proto, "removeAllListeners", jsRemoveAllListeners);
Nan::SetPrototypeMethod(proto, "removeEventListener", jsRemoveListener);
Nan::SetPrototypeMethod(proto, "removeListener", jsRemoveListener);
Nan::SetPrototypeMethod(proto, "setMaxListeners", jsSetMaxListeners);
Nan::SetPrototypeMethod(proto, "rawListeners", jsRawListeners);
Nan::SetPrototypeMethod(proto, "destroy", jsDestroy);
// -------- static
V8_VAR_FUNC ctor = Nan::GetFunction(proto).ToLocalChecked();
V8_VAR_OBJ ctorObj = V8_VAR_OBJ::Cast(ctor);
Nan::SetMethod(ctorObj, "listenerCount", jsStaticListenerCount);
_ctorEventEmitter.Reset(ctor);
_protoEventEmitter.Reset(proto);
Nan::Set(target, JS_STR("EventEmitter"), ctor);
}
// C++ side emit() method
void emit(const std::string &name, int argc = 0, V8_VAR_VAL *argv = NULL) {
// Important! As actual get map[key] produces a new (empty) map entry
if ( _listeners.find(name) == _listeners.end() ) {
return;
}
// A copy is intended, because handlers can call removeListener (and they DO)
VEC_TYPE list = _listeners[name];
if (list.empty()) {
return;
}
for (IT_TYPE it = list.begin(); it != list.end(); ++it) {
Nan::Callback callback(Nan::New(*it));
if ( ! callback.IsEmpty() ) {
Nan::AsyncResource async("EventEmitter::cpp_emit()");
callback.Call(handle(), argc, argv, &async);
}
}
}
// C++ side on() method
void on(const std::string &name, V8_VAR_FUNC cb) {
V8_VAR_OBJ me = handle();
V8_VAR_VAL onVal = Nan::Get(me, JS_STR("on")).ToLocalChecked();
V8_VAR_FUNC onFunc = V8_VAR_FUNC::Cast(onVal);
Nan::Callback onCb(onFunc);
V8_VAR_VAL argv[] = { JS_STR(name.c_str()), cb };
Nan::AsyncResource async("EventEmitter::cpp_on()");
onCb.Call(me, 2, argv, &async);
}
void _destroy() { DES_CHECK;
_isDestroyed = true;
_listeners.clear();
_raw.clear();
_wrappedIds.clear();
_rawIds.clear();
}
~EventEmitter () { _destroy(); }
protected:
EventEmitter () {
_isDestroyed = false;
_maxListeners = 0;
_freeId = 0;
}
private:
static NAN_METHOD(newCtor) {
CTOR_CHECK("EventEmitter");
EventEmitter *eventEmitter = new EventEmitter();
eventEmitter->Wrap(info.This());
RET_VALUE(info.This());
}
static NAN_GETTER(isDestroyedGetter) { THIS_EVENT_EMITTER; EVENT_EMITTER_THIS_CHECK;
RET_BOOL(eventEmitter->_isDestroyed);
}
// Deprecated static method
static NAN_METHOD(jsStaticListenerCount) {
REQ_OBJ_ARG(0, obj);
EventEmitter *eventEmitter = ObjectWrap::Unwrap<EventEmitter>(obj);
REQ_UTF8_ARG(1, name);
const VEC_TYPE &list = eventEmitter->_listeners[*name];
RET_INT(static_cast<int>(list.size()));
}
static NAN_METHOD(jsAddListener) {
_wrapListener(info);
RET_VALUE(info.This());
}
static NAN_METHOD(jsDispatchEvent) { THIS_EVENT_EMITTER; EVENT_EMITTER_THIS_CHECK;
REQ_OBJ_ARG(0, event);
if ( ! event->Has(JS_STR("type")) ) {
return Nan::ThrowError("Event must have the `type` property.");
}
Nan::Utf8String name(event->Get(JS_STR("type")));
V8_VAR_VAL args = event;
eventEmitter->emit(*name, 1, &args);
RET_BOOL(true);
}
static NAN_METHOD(jsEmit) { THIS_EVENT_EMITTER; EVENT_EMITTER_THIS_CHECK;
REQ_UTF8_ARG(0, name);
int length = info.Length();
std::vector< V8_VAR_VAL > args;
for (int i = 1; i < length; i++) {
args.push_back(info[i]);
}
eventEmitter->emit(*name, length - 1, &args[0]);
if ( eventEmitter->_listeners.find(*name) == eventEmitter->_listeners.end() ) {
RET_BOOL(false);
} else {
RET_BOOL(true);
}
}
static NAN_METHOD(jsEventNames) { THIS_EVENT_EMITTER; EVENT_EMITTER_THIS_CHECK;
V8_VAR_ARR jsNames = Nan::New<v8::Array>(eventEmitter->_raw.size());
if (eventEmitter->_raw.empty()) {
RET_VALUE(jsNames);
return;
}
int i = 0;
for (MAP_IT_TYPE it = eventEmitter->_raw.begin(); it != eventEmitter->_raw.end(); ++it, i++) {
jsNames->Set(JS_INT(i), JS_STR(it->first));
}
RET_VALUE(jsNames);
}
static NAN_METHOD(jsGetMaxListeners) { THIS_EVENT_EMITTER; EVENT_EMITTER_THIS_CHECK;
RET_INT(eventEmitter->_maxListeners);
}
static NAN_METHOD(jsListenerCount) { THIS_EVENT_EMITTER; EVENT_EMITTER_THIS_CHECK;
REQ_UTF8_ARG(0, name);
const VEC_TYPE &list = eventEmitter->_listeners[*name];
RET_INT(static_cast<int>(list.size()));
}
static NAN_METHOD(jsListeners) { THIS_EVENT_EMITTER; EVENT_EMITTER_THIS_CHECK;
REQ_UTF8_ARG(0, name);
VEC_TYPE &list = eventEmitter->_listeners[*name];
V8_VAR_ARR jsListeners = Nan::New<v8::Array>(list.size());
if (list.empty()) {
RET_VALUE(jsListeners);
return;
}
int i = 0;
for (IT_TYPE it = list.begin(); it != list.end(); ++it, i++) {
jsListeners->Set(JS_INT(i), Nan::New(*it));
}
RET_VALUE(jsListeners);
}
static inline void _reportListeners(
const std::string &name,
int numListeners,
int maxListeners
) {
std::string msg = "EventEmitter Warning: too many listeners (";
msg += std::to_string(numListeners);
msg += " > ";
msg += std::to_string(maxListeners);
msg += ") on '";
msg += name;
msg += "' event, possible memory leak.\n";
// Some JS magic to retrieve the call stack
V8_VAR_STR code = JS_STR(
"(new Error()).stack.split('\\n').slice(2).join('\\n')"
);
v8::Local<v8::Value> stack = v8::Script::Compile(
Nan::GetCurrentContext(), code
).ToLocalChecked()->Run(
Nan::GetCurrentContext()
).ToLocalChecked();
Nan::Utf8String stackStr(stack);
msg += *stackStr;
consoleLog(msg);
}
static inline void _addListener(
const Nan::FunctionCallbackInfo<v8::Value> &info,
const std::string &name,
V8_STORE_FUNC *cb,
bool isFront
) { THIS_EVENT_EMITTER; EVENT_EMITTER_THIS_CHECK;
V8_VAR_VAL args[] = { info[0], info[1] };
eventEmitter->emit("newListener", 2, args);
if (isFront) {
eventEmitter->_listeners[name].push_front(*cb);
eventEmitter->_raw[name].push_front(*cb);
} else {
eventEmitter->_listeners[name].push_back(*cb);
eventEmitter->_raw[name].push_back(*cb);
}
int count = eventEmitter->_raw[name].size();
if (eventEmitter->_maxListeners > 0 && count > eventEmitter->_maxListeners) {
_reportListeners(name, count, eventEmitter->_maxListeners);
}
}
static inline void _wrapListener(
const Nan::FunctionCallbackInfo<v8::Value> &info,
bool isFront = false
) {
REQ_UTF8_ARG(0, name);
REQ_FUN_ARG(1, cb);
V8_STORE_FUNC persistentCb;
persistentCb.Reset(cb);
_addListener(info, *name, &persistentCb, isFront);
}
static inline void _addOnceListener(
const Nan::FunctionCallbackInfo<v8::Value> &info,
const std::string &name,
V8_STORE_FUNC *raw,
V8_STORE_FUNC *cb,
bool isFront
) { THIS_EVENT_EMITTER; EVENT_EMITTER_THIS_CHECK;
V8_VAR_VAL args[] = { info[0], info[1] };
eventEmitter->emit("newListener", 2, args);
if (isFront) {
eventEmitter->_listeners[name].push_front(*cb);
eventEmitter->_raw[name].push_front(*raw);
} else {
eventEmitter->_listeners[name].push_back(*cb);
eventEmitter->_raw[name].push_back(*raw);
}
int nextId = eventEmitter->_freeId++;
eventEmitter->_wrappedIds[nextId] = *cb;
eventEmitter->_rawIds[nextId] = *raw;
int count = eventEmitter->_raw[name].size();
if (eventEmitter->_maxListeners > 0 && count > eventEmitter->_maxListeners) {
_reportListeners(name, count, eventEmitter->_maxListeners);
}
}
static inline void _wrapOnceListener(
const Nan::FunctionCallbackInfo<v8::Value> &info,
bool isFront = false
) {
REQ_UTF8_ARG(0, name);
REQ_FUN_ARG(1, raw);
V8_VAR_STR code = JS_STR(R"(
((emitter, name, cb) => (...args) => {
cb(...args);
emitter.removeListener(name, cb);
})
)");
v8::Local<v8::Value> decor = v8::Script::Compile(
Nan::GetCurrentContext(), code
).ToLocalChecked()->Run(
Nan::GetCurrentContext()
).ToLocalChecked();
Nan::Callback decorCb(Nan::To<v8::Function>(decor).ToLocalChecked());
V8_VAR_VAL argv[] = { info.This(), info[0], raw };
Nan::AsyncResource async("EventEmitter::js_once()");
V8_VAR_VAL wrapValue = decorCb.Call(3, argv, &async).ToLocalChecked();
V8_VAR_FUNC wrap = V8_VAR_FUNC::Cast(wrapValue);
V8_STORE_FUNC persistentWrap;
persistentWrap.Reset(wrap);
V8_STORE_FUNC persistentRaw;
persistentRaw.Reset(raw);
_addOnceListener(info, *name, &persistentRaw, &persistentWrap, isFront);
}
static NAN_METHOD(jsOnce) {
_wrapOnceListener(info);
RET_VALUE(info.This());
}
static NAN_METHOD(jsPrependListener) {
_wrapListener(info, true);
RET_VALUE(info.This());
}
static NAN_METHOD(jsPrependOnceListener) {
_wrapOnceListener(info, true);
RET_VALUE(info.This());
}
static NAN_METHOD(jsRemoveAllListeners) { THIS_EVENT_EMITTER; EVENT_EMITTER_THIS_CHECK;
RET_VALUE(info.This());
if (info.Length() == 0) {
MAP_TYPE tmpMap = eventEmitter->_raw;
eventEmitter->_listeners.clear();
eventEmitter->_raw.clear();
eventEmitter->_wrappedIds.clear();
eventEmitter->_rawIds.clear();
for (MAP_IT_TYPE itMap = tmpMap.begin(); itMap != tmpMap.end(); ++itMap) {
const std::string ¤t = itMap->first;
VEC_TYPE &list = itMap->second;
for (IT_TYPE it = list.begin(); it != list.end(); ++it) {
V8_VAR_VAL args[] = { JS_STR(current.c_str()), Nan::New(*it) };
eventEmitter->emit("removeListener", 2, args);
}
}
return;
}
REQ_UTF8_ARG(0, n);
std::string name = std::string(*n);
VEC_TYPE &list = eventEmitter->_raw[name];
if (list.empty()) {
return;
}
if (eventEmitter->_rawIds.size()) {
std::vector<int> removes;
for (IT_TYPE it = list.begin(); it != list.end(); ++it) {
FN_TYPE fn = *it;
for (FNMAP_IT_TYPE itRaw = eventEmitter->_rawIds.begin(); itRaw != eventEmitter->_rawIds.end(); ++itRaw) {
if (fn == itRaw->second) {
removes.push_back(itRaw->first);
}
}
}
if (removes.size()) {
for (std::vector<int>::const_iterator it = removes.begin(); it != removes.end(); ++it) {
eventEmitter->_wrappedIds.erase(*it);
eventEmitter->_rawIds.erase(*it);
}
}
}
VEC_TYPE tmpVec = eventEmitter->_raw[name];
eventEmitter->_listeners[name].clear();
eventEmitter->_raw[name].clear();
for (IT_TYPE it = tmpVec.begin(); it != tmpVec.end(); ++it) {
V8_VAR_VAL args[] = { JS_STR(name.c_str()), Nan::New(*it) };
eventEmitter->emit("removeListener", 2, args);
}
}
static NAN_METHOD(jsRemoveListener) { THIS_EVENT_EMITTER; EVENT_EMITTER_THIS_CHECK;
RET_VALUE(info.This());
REQ_UTF8_ARG(0, n);
REQ_FUN_ARG(1, raw);
V8_STORE_FUNC persistentRaw;
persistentRaw.Reset(raw);
std::string name = std::string(*n);
VEC_TYPE &rawList = eventEmitter->_raw[name];
if (rawList.empty()) {
return;
}
V8_VAR_VAL args[] = { info[0], info[1] };
for (IT_TYPE it = rawList.begin(); it != rawList.end(); ++it) {
if (*it == persistentRaw) {
rawList.erase(it);
if (rawList.empty()) {
eventEmitter->_raw.erase(name);
}
break;
}
}
VEC_TYPE &wrapList = eventEmitter->_listeners[name];
if (eventEmitter->_wrappedIds.size() == 0) {
for (IT_TYPE it = wrapList.begin(); it != wrapList.end(); ++it) {
if (*it == persistentRaw) {
wrapList.erase(it);
if (wrapList.empty()) {
eventEmitter->_listeners.erase(name);
}
break;
}
}
eventEmitter->emit("removeListener", 2, args);
return;
}
for (FNMAP_IT_TYPE itRaw = eventEmitter->_rawIds.begin(); itRaw != eventEmitter->_rawIds.end(); ++itRaw) {
if (persistentRaw == itRaw->second) {
FN_TYPE fn = eventEmitter->_wrappedIds[itRaw->first];
for (IT_TYPE it = wrapList.begin(); it != wrapList.end(); ++it) {
if (*it == fn) {
wrapList.erase(it);
if (wrapList.empty()) {
eventEmitter->_listeners.erase(name);
}
break;
}
}
eventEmitter->_wrappedIds.erase(itRaw->first);
eventEmitter->_rawIds.erase(itRaw->first);
break;
}
}
eventEmitter->emit("removeListener", 2, args);
}
static NAN_METHOD(jsSetMaxListeners) { THIS_EVENT_EMITTER; EVENT_EMITTER_THIS_CHECK;
REQ_INT32_ARG(0, value);
eventEmitter->_maxListeners = value;
RET_VALUE(info.This());
}
static NAN_METHOD(jsRawListeners) { THIS_EVENT_EMITTER; EVENT_EMITTER_THIS_CHECK;
REQ_UTF8_ARG(0, name);
VEC_TYPE &list = eventEmitter->_raw[*name];
V8_VAR_ARR jsListeners = Nan::New<v8::Array>(list.size());
if (list.empty()) {
RET_VALUE(jsListeners);
return;
}
int i = 0;
for (IT_TYPE it = list.begin(); it != list.end(); ++it, i++) {
jsListeners->Set(JS_INT(i), Nan::New(*it));
}
RET_VALUE(jsListeners);
}
static NAN_METHOD(jsDestroy) { THIS_EVENT_EMITTER; EVENT_EMITTER_THIS_CHECK;
eventEmitter->emit("destroy");
eventEmitter->_destroy();
}
private:
bool _isDestroyed;
int _maxListeners;
MAP_TYPE _listeners;
MAP_TYPE _raw;
int _freeId;
FNMAP_TYPE _wrappedIds;
FNMAP_TYPE _rawIds;
};
#endif // _EVENT_EMITTER_