mirror of
https://github.com/titanscouting/tra-analysis.git
synced 2024-11-13 22:56:18 +00:00
438 lines
15 KiB
C++
438 lines
15 KiB
C++
/*********************************************************************
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* NAN - Native Abstractions for Node.js
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*
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* Copyright (c) 2018 NAN contributors
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*
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* MIT License <https://github.com/nodejs/nan/blob/master/LICENSE.md>
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********************************************************************/
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#ifndef NAN_WEAK_H_
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#define NAN_WEAK_H_
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static const int kInternalFieldsInWeakCallback = 2;
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static const int kNoInternalFieldIndex = -1;
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#if defined(V8_MAJOR_VERSION) && (V8_MAJOR_VERSION > 4 || \
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(V8_MAJOR_VERSION == 4 && defined(V8_MINOR_VERSION) && V8_MINOR_VERSION >= 3))
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# define NAN_WEAK_PARAMETER_CALLBACK_DATA_TYPE_ \
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v8::WeakCallbackInfo<WeakCallbackInfo<T> > const&
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# define NAN_WEAK_TWOFIELD_CALLBACK_DATA_TYPE_ \
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NAN_WEAK_PARAMETER_CALLBACK_DATA_TYPE_
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# define NAN_WEAK_PARAMETER_CALLBACK_SIG_ NAN_WEAK_PARAMETER_CALLBACK_DATA_TYPE_
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# define NAN_WEAK_TWOFIELD_CALLBACK_SIG_ NAN_WEAK_TWOFIELD_CALLBACK_DATA_TYPE_
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#elif NODE_MODULE_VERSION > IOJS_1_1_MODULE_VERSION
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# define NAN_WEAK_PARAMETER_CALLBACK_DATA_TYPE_ \
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v8::PhantomCallbackData<WeakCallbackInfo<T> > const&
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# define NAN_WEAK_TWOFIELD_CALLBACK_DATA_TYPE_ \
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NAN_WEAK_PARAMETER_CALLBACK_DATA_TYPE_
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# define NAN_WEAK_PARAMETER_CALLBACK_SIG_ NAN_WEAK_PARAMETER_CALLBACK_DATA_TYPE_
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# define NAN_WEAK_TWOFIELD_CALLBACK_SIG_ NAN_WEAK_TWOFIELD_CALLBACK_DATA_TYPE_
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#elif NODE_MODULE_VERSION > NODE_0_12_MODULE_VERSION
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# define NAN_WEAK_PARAMETER_CALLBACK_DATA_TYPE_ \
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v8::PhantomCallbackData<WeakCallbackInfo<T> > const&
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# define NAN_WEAK_TWOFIELD_CALLBACK_DATA_TYPE_ \
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v8::InternalFieldsCallbackData<WeakCallbackInfo<T>, void> const&
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# define NAN_WEAK_PARAMETER_CALLBACK_SIG_ NAN_WEAK_PARAMETER_CALLBACK_DATA_TYPE_
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# define NAN_WEAK_TWOFIELD_CALLBACK_SIG_ NAN_WEAK_TWOFIELD_CALLBACK_DATA_TYPE_
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#elif NODE_MODULE_VERSION > NODE_0_10_MODULE_VERSION
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# define NAN_WEAK_CALLBACK_DATA_TYPE_ \
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v8::WeakCallbackData<S, WeakCallbackInfo<T> > const&
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# define NAN_WEAK_CALLBACK_SIG_ NAN_WEAK_CALLBACK_DATA_TYPE_
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#else
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# define NAN_WEAK_CALLBACK_DATA_TYPE_ void *
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# define NAN_WEAK_CALLBACK_SIG_ \
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v8::Persistent<v8::Value>, NAN_WEAK_CALLBACK_DATA_TYPE_
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#endif
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template<typename T>
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class WeakCallbackInfo {
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public:
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typedef void (*Callback)(const WeakCallbackInfo<T>& data);
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WeakCallbackInfo(
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Persistent<v8::Value> *persistent
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, Callback callback
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, void *parameter
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, void *field1 = 0
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, void *field2 = 0) :
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callback_(callback), isolate_(0), parameter_(parameter) {
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std::memcpy(&persistent_, persistent, sizeof (v8::Persistent<v8::Value>));
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internal_fields_[0] = field1;
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internal_fields_[1] = field2;
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}
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inline v8::Isolate *GetIsolate() const { return isolate_; }
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inline T *GetParameter() const { return static_cast<T*>(parameter_); }
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inline void *GetInternalField(int index) const {
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assert((index == 0 || index == 1) && "internal field index out of bounds");
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if (index == 0) {
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return internal_fields_[0];
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} else {
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return internal_fields_[1];
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}
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}
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private:
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NAN_DISALLOW_ASSIGN_COPY_MOVE(WeakCallbackInfo)
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Callback callback_;
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v8::Isolate *isolate_;
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void *parameter_;
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void *internal_fields_[kInternalFieldsInWeakCallback];
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v8::Persistent<v8::Value> persistent_;
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template<typename S, typename M> friend class Persistent;
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template<typename S> friend class PersistentBase;
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#if NODE_MODULE_VERSION <= NODE_0_12_MODULE_VERSION
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# if NODE_MODULE_VERSION > NODE_0_10_MODULE_VERSION
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template<typename S>
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static void invoke(NAN_WEAK_CALLBACK_SIG_ data);
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template<typename S>
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static WeakCallbackInfo *unwrap(NAN_WEAK_CALLBACK_DATA_TYPE_ data);
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# else
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static void invoke(NAN_WEAK_CALLBACK_SIG_ data);
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static WeakCallbackInfo *unwrap(NAN_WEAK_CALLBACK_DATA_TYPE_ data);
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# endif
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#else
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# if defined(V8_MAJOR_VERSION) && (V8_MAJOR_VERSION > 4 || \
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(V8_MAJOR_VERSION == 4 && defined(V8_MINOR_VERSION) && V8_MINOR_VERSION >= 3))
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template<bool isFirstPass>
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static void invokeparameter(NAN_WEAK_PARAMETER_CALLBACK_SIG_ data);
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template<bool isFirstPass>
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static void invoketwofield(NAN_WEAK_TWOFIELD_CALLBACK_SIG_ data);
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# else
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static void invokeparameter(NAN_WEAK_PARAMETER_CALLBACK_SIG_ data);
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static void invoketwofield(NAN_WEAK_TWOFIELD_CALLBACK_SIG_ data);
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# endif
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static WeakCallbackInfo *unwrapparameter(
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NAN_WEAK_PARAMETER_CALLBACK_DATA_TYPE_ data);
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static WeakCallbackInfo *unwraptwofield(
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NAN_WEAK_TWOFIELD_CALLBACK_DATA_TYPE_ data);
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#endif
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};
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#if defined(V8_MAJOR_VERSION) && (V8_MAJOR_VERSION > 4 || \
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(V8_MAJOR_VERSION == 4 && defined(V8_MINOR_VERSION) && V8_MINOR_VERSION >= 3))
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template<typename T>
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template<bool isFirstPass>
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void
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WeakCallbackInfo<T>::invokeparameter(NAN_WEAK_PARAMETER_CALLBACK_SIG_ data) {
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WeakCallbackInfo<T> *cbinfo = unwrapparameter(data);
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if (isFirstPass) {
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cbinfo->persistent_.Reset();
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data.SetSecondPassCallback(invokeparameter<false>);
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} else {
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cbinfo->callback_(*cbinfo);
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delete cbinfo;
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}
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}
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template<typename T>
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template<bool isFirstPass>
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void
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WeakCallbackInfo<T>::invoketwofield(NAN_WEAK_TWOFIELD_CALLBACK_SIG_ data) {
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WeakCallbackInfo<T> *cbinfo = unwraptwofield(data);
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if (isFirstPass) {
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cbinfo->persistent_.Reset();
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data.SetSecondPassCallback(invoketwofield<false>);
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} else {
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cbinfo->callback_(*cbinfo);
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delete cbinfo;
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}
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}
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template<typename T>
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WeakCallbackInfo<T> *WeakCallbackInfo<T>::unwrapparameter(
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NAN_WEAK_PARAMETER_CALLBACK_DATA_TYPE_ data) {
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WeakCallbackInfo<T> *cbinfo =
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static_cast<WeakCallbackInfo<T>*>(data.GetParameter());
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cbinfo->isolate_ = data.GetIsolate();
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return cbinfo;
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}
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template<typename T>
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WeakCallbackInfo<T> *WeakCallbackInfo<T>::unwraptwofield(
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NAN_WEAK_TWOFIELD_CALLBACK_DATA_TYPE_ data) {
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WeakCallbackInfo<T> *cbinfo =
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static_cast<WeakCallbackInfo<T>*>(data.GetInternalField(0));
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cbinfo->isolate_ = data.GetIsolate();
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return cbinfo;
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}
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#undef NAN_WEAK_PARAMETER_CALLBACK_SIG_
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#undef NAN_WEAK_TWOFIELD_CALLBACK_SIG_
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#undef NAN_WEAK_PARAMETER_CALLBACK_DATA_TYPE_
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#undef NAN_WEAK_TWOFIELD_CALLBACK_DATA_TYPE_
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# elif NODE_MODULE_VERSION > NODE_0_12_MODULE_VERSION
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template<typename T>
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void
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WeakCallbackInfo<T>::invokeparameter(NAN_WEAK_PARAMETER_CALLBACK_SIG_ data) {
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WeakCallbackInfo<T> *cbinfo = unwrapparameter(data);
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cbinfo->persistent_.Reset();
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cbinfo->callback_(*cbinfo);
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delete cbinfo;
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}
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template<typename T>
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void
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WeakCallbackInfo<T>::invoketwofield(NAN_WEAK_TWOFIELD_CALLBACK_SIG_ data) {
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WeakCallbackInfo<T> *cbinfo = unwraptwofield(data);
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cbinfo->persistent_.Reset();
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cbinfo->callback_(*cbinfo);
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delete cbinfo;
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}
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template<typename T>
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WeakCallbackInfo<T> *WeakCallbackInfo<T>::unwrapparameter(
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NAN_WEAK_PARAMETER_CALLBACK_DATA_TYPE_ data) {
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WeakCallbackInfo<T> *cbinfo =
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static_cast<WeakCallbackInfo<T>*>(data.GetParameter());
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cbinfo->isolate_ = data.GetIsolate();
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return cbinfo;
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}
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template<typename T>
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WeakCallbackInfo<T> *WeakCallbackInfo<T>::unwraptwofield(
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NAN_WEAK_TWOFIELD_CALLBACK_DATA_TYPE_ data) {
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WeakCallbackInfo<T> *cbinfo =
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static_cast<WeakCallbackInfo<T>*>(data.GetInternalField1());
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cbinfo->isolate_ = data.GetIsolate();
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return cbinfo;
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}
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#undef NAN_WEAK_PARAMETER_CALLBACK_SIG_
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#undef NAN_WEAK_TWOFIELD_CALLBACK_SIG_
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#undef NAN_WEAK_PARAMETER_CALLBACK_DATA_TYPE_
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#undef NAN_WEAK_TWOFIELD_CALLBACK_DATA_TYPE_
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#elif NODE_MODULE_VERSION > NODE_0_10_MODULE_VERSION
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template<typename T>
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template<typename S>
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void WeakCallbackInfo<T>::invoke(NAN_WEAK_CALLBACK_SIG_ data) {
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WeakCallbackInfo<T> *cbinfo = unwrap(data);
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cbinfo->persistent_.Reset();
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cbinfo->callback_(*cbinfo);
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delete cbinfo;
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}
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template<typename T>
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template<typename S>
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WeakCallbackInfo<T> *WeakCallbackInfo<T>::unwrap(
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NAN_WEAK_CALLBACK_DATA_TYPE_ data) {
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void *parameter = data.GetParameter();
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WeakCallbackInfo<T> *cbinfo =
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static_cast<WeakCallbackInfo<T>*>(parameter);
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cbinfo->isolate_ = data.GetIsolate();
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return cbinfo;
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}
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#undef NAN_WEAK_CALLBACK_SIG_
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#undef NAN_WEAK_CALLBACK_DATA_TYPE_
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#else
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template<typename T>
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void WeakCallbackInfo<T>::invoke(NAN_WEAK_CALLBACK_SIG_ data) {
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WeakCallbackInfo<T> *cbinfo = unwrap(data);
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cbinfo->persistent_.Dispose();
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cbinfo->persistent_.Clear();
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cbinfo->callback_(*cbinfo);
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delete cbinfo;
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}
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template<typename T>
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WeakCallbackInfo<T> *WeakCallbackInfo<T>::unwrap(
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NAN_WEAK_CALLBACK_DATA_TYPE_ data) {
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WeakCallbackInfo<T> *cbinfo =
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static_cast<WeakCallbackInfo<T>*>(data);
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cbinfo->isolate_ = v8::Isolate::GetCurrent();
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return cbinfo;
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}
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#undef NAN_WEAK_CALLBACK_SIG_
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#undef NAN_WEAK_CALLBACK_DATA_TYPE_
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#endif
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#if defined(V8_MAJOR_VERSION) && (V8_MAJOR_VERSION > 4 || \
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(V8_MAJOR_VERSION == 4 && defined(V8_MINOR_VERSION) && V8_MINOR_VERSION >= 3))
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template<typename T, typename M>
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template<typename P>
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inline void Persistent<T, M>::SetWeak(
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P *parameter
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, typename WeakCallbackInfo<P>::Callback callback
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, WeakCallbackType type) {
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WeakCallbackInfo<P> *wcbd;
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if (type == WeakCallbackType::kParameter) {
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wcbd = new WeakCallbackInfo<P>(
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reinterpret_cast<Persistent<v8::Value>*>(this)
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, callback
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, parameter);
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v8::PersistentBase<T>::SetWeak(
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wcbd
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, WeakCallbackInfo<P>::template invokeparameter<true>
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, type);
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} else {
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v8::Local<v8::Value>* self_v(reinterpret_cast<v8::Local<v8::Value>*>(this));
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assert((*self_v)->IsObject());
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v8::Local<v8::Object> self((*self_v).As<v8::Object>());
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int count = self->InternalFieldCount();
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void *internal_fields[kInternalFieldsInWeakCallback] = {0, 0};
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for (int i = 0; i < count && i < kInternalFieldsInWeakCallback; i++) {
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internal_fields[i] = self->GetAlignedPointerFromInternalField(i);
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}
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wcbd = new WeakCallbackInfo<P>(
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reinterpret_cast<Persistent<v8::Value>*>(this)
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, callback
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, 0
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, internal_fields[0]
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, internal_fields[1]);
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self->SetAlignedPointerInInternalField(0, wcbd);
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v8::PersistentBase<T>::SetWeak(
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static_cast<WeakCallbackInfo<P>*>(0)
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, WeakCallbackInfo<P>::template invoketwofield<true>
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, type);
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}
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}
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#elif NODE_MODULE_VERSION > IOJS_1_1_MODULE_VERSION
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template<typename T, typename M>
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template<typename P>
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inline void Persistent<T, M>::SetWeak(
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P *parameter
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, typename WeakCallbackInfo<P>::Callback callback
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, WeakCallbackType type) {
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WeakCallbackInfo<P> *wcbd;
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if (type == WeakCallbackType::kParameter) {
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wcbd = new WeakCallbackInfo<P>(
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reinterpret_cast<Persistent<v8::Value>*>(this)
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, callback
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, parameter);
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v8::PersistentBase<T>::SetPhantom(
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wcbd
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, WeakCallbackInfo<P>::invokeparameter);
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} else {
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v8::Local<v8::Value>* self_v(reinterpret_cast<v8::Local<v8::Value>*>(this));
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assert((*self_v)->IsObject());
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v8::Local<v8::Object> self((*self_v).As<v8::Object>());
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int count = self->InternalFieldCount();
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void *internal_fields[kInternalFieldsInWeakCallback] = {0, 0};
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for (int i = 0; i < count && i < kInternalFieldsInWeakCallback; i++) {
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internal_fields[i] = self->GetAlignedPointerFromInternalField(i);
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}
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wcbd = new WeakCallbackInfo<P>(
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reinterpret_cast<Persistent<v8::Value>*>(this)
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, callback
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, 0
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, internal_fields[0]
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, internal_fields[1]);
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self->SetAlignedPointerInInternalField(0, wcbd);
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v8::PersistentBase<T>::SetPhantom(
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static_cast<WeakCallbackInfo<P>*>(0)
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, WeakCallbackInfo<P>::invoketwofield
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, 0
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, count > 1 ? 1 : kNoInternalFieldIndex);
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}
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}
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#elif NODE_MODULE_VERSION > NODE_0_12_MODULE_VERSION
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template<typename T, typename M>
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template<typename P>
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inline void Persistent<T, M>::SetWeak(
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P *parameter
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, typename WeakCallbackInfo<P>::Callback callback
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, WeakCallbackType type) {
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WeakCallbackInfo<P> *wcbd;
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if (type == WeakCallbackType::kParameter) {
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wcbd = new WeakCallbackInfo<P>(
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reinterpret_cast<Persistent<v8::Value>*>(this)
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, callback
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, parameter);
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v8::PersistentBase<T>::SetPhantom(
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wcbd
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, WeakCallbackInfo<P>::invokeparameter);
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} else {
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v8::Local<v8::Value>* self_v(reinterpret_cast<v8::Local<v8::Value>*>(this));
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assert((*self_v)->IsObject());
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v8::Local<v8::Object> self((*self_v).As<v8::Object>());
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int count = self->InternalFieldCount();
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void *internal_fields[kInternalFieldsInWeakCallback] = {0, 0};
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for (int i = 0; i < count && i < kInternalFieldsInWeakCallback; i++) {
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internal_fields[i] = self->GetAlignedPointerFromInternalField(i);
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}
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wcbd = new WeakCallbackInfo<P>(
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reinterpret_cast<Persistent<v8::Value>*>(this)
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, callback
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, 0
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, internal_fields[0]
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, internal_fields[1]);
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self->SetAlignedPointerInInternalField(0, wcbd);
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v8::PersistentBase<T>::SetPhantom(
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WeakCallbackInfo<P>::invoketwofield
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, 0
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, count > 1 ? 1 : kNoInternalFieldIndex);
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}
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}
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#elif NODE_MODULE_VERSION > NODE_0_10_MODULE_VERSION
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template<typename T, typename M>
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template<typename P>
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inline void Persistent<T, M>::SetWeak(
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P *parameter
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, typename WeakCallbackInfo<P>::Callback callback
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, WeakCallbackType type) {
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WeakCallbackInfo<P> *wcbd;
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if (type == WeakCallbackType::kParameter) {
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wcbd = new WeakCallbackInfo<P>(
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reinterpret_cast<Persistent<v8::Value>*>(this)
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, callback
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, parameter);
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v8::PersistentBase<T>::SetWeak(wcbd, WeakCallbackInfo<P>::invoke);
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} else {
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v8::Local<v8::Value>* self_v(reinterpret_cast<v8::Local<v8::Value>*>(this));
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assert((*self_v)->IsObject());
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v8::Local<v8::Object> self((*self_v).As<v8::Object>());
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int count = self->InternalFieldCount();
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void *internal_fields[kInternalFieldsInWeakCallback] = {0, 0};
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for (int i = 0; i < count && i < kInternalFieldsInWeakCallback; i++) {
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internal_fields[i] = self->GetAlignedPointerFromInternalField(i);
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}
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wcbd = new WeakCallbackInfo<P>(
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reinterpret_cast<Persistent<v8::Value>*>(this)
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, callback
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, 0
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, internal_fields[0]
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, internal_fields[1]);
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v8::PersistentBase<T>::SetWeak(wcbd, WeakCallbackInfo<P>::invoke);
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}
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}
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#else
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template<typename T>
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template<typename P>
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inline void PersistentBase<T>::SetWeak(
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P *parameter
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, typename WeakCallbackInfo<P>::Callback callback
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, WeakCallbackType type) {
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WeakCallbackInfo<P> *wcbd;
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if (type == WeakCallbackType::kParameter) {
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wcbd = new WeakCallbackInfo<P>(
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reinterpret_cast<Persistent<v8::Value>*>(this)
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, callback
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, parameter);
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persistent.MakeWeak(wcbd, WeakCallbackInfo<P>::invoke);
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} else {
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v8::Local<v8::Value>* self_v(reinterpret_cast<v8::Local<v8::Value>*>(this));
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assert((*self_v)->IsObject());
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v8::Local<v8::Object> self((*self_v).As<v8::Object>());
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int count = self->InternalFieldCount();
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void *internal_fields[kInternalFieldsInWeakCallback] = {0, 0};
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for (int i = 0; i < count && i < kInternalFieldsInWeakCallback; i++) {
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internal_fields[i] = self->GetPointerFromInternalField(i);
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}
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wcbd = new WeakCallbackInfo<P>(
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reinterpret_cast<Persistent<v8::Value>*>(this)
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, callback
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, 0
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, internal_fields[0]
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, internal_fields[1]);
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persistent.MakeWeak(wcbd, WeakCallbackInfo<P>::invoke);
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}
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}
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#endif
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#endif // NAN_WEAK_H_
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