Team Fortress 2 Source Code as on 22/4/2020
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//=========== Copyright Valve Corporation, All rights reserved. ===============//
//
// Purpose:
//=============================================================================//
#ifndef UIJSREGISTRATION_H
#define UIJSREGISTRATION_H
#pragma once
#include "../panorama/uiengine.h"
#if defined( OSX ) && !defined( SOURCE2_PANORAMA )
#include <tr1/tuple>
#include <tr1/utility>
#define STDTR1 std::tr1
#else
#define STDTR1 std
#endif
#if _GNUC
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wuninitialized"
#endif // _GNUC
#ifdef None
#undef None // X11 defines None breaking the ability to use v8::None down below, so remove the preprocessor macro here
#endif
#pragma warning(push)
//warning C4700 : uninitialized local variable 'getcaster' used -- we'll do a lot of this, but its ok
#pragma warning( disable : 4700 )
namespace panorama
{
template<typename T> struct RegisterJSTypeDeducer_t { static RegisterJSType_t Type() { return k_ERegisterJSTypeUnknown; } };
#define PANORAMA_DECLARE_DEDUCE_JSTYPE( _JSType, _T ) template<> struct RegisterJSTypeDeducer_t<_T> { static RegisterJSType_t Type() { return k_ERegisterJSType##_JSType; } };
PANORAMA_DECLARE_DEDUCE_JSTYPE( Void, void )
PANORAMA_DECLARE_DEDUCE_JSTYPE( Bool, bool )
PANORAMA_DECLARE_DEDUCE_JSTYPE( Int8, int8 )
PANORAMA_DECLARE_DEDUCE_JSTYPE( Uint8, uint8 )
PANORAMA_DECLARE_DEDUCE_JSTYPE( Int16, int16 )
PANORAMA_DECLARE_DEDUCE_JSTYPE( Uint16, uint16 )
PANORAMA_DECLARE_DEDUCE_JSTYPE( Int32, int32 )
PANORAMA_DECLARE_DEDUCE_JSTYPE( Uint32, uint32 )
PANORAMA_DECLARE_DEDUCE_JSTYPE( Int64, int64 )
PANORAMA_DECLARE_DEDUCE_JSTYPE( Uint64, uint64 )
PANORAMA_DECLARE_DEDUCE_JSTYPE( Float, float )
PANORAMA_DECLARE_DEDUCE_JSTYPE( Double, double )
PANORAMA_DECLARE_DEDUCE_JSTYPE( ConstString, const char * )
PANORAMA_DECLARE_DEDUCE_JSTYPE( PanoramaSymbol, CPanoramaSymbol )
PANORAMA_DECLARE_DEDUCE_JSTYPE( RawV8Args, const v8::FunctionCallbackInfo<v8::Value>& )
inline void JSCheckObjectValidity( const v8::FunctionCallbackInfo<v8::Value>& args )
{
// Don't use helper for getting panel, as it will throw exception, which we don't want in just this function
v8::Local<v8::Object> obj = args.Holder();
if( obj->InternalFieldCount() != 1 )
{
v8::Handle< v8::Boolean > value = v8::Boolean::New( args.GetIsolate(), false );
args.GetReturnValue().Set( value );
}
v8::Local<v8::External> wrap = v8::Local<v8::External>::Cast( obj->GetInternalField( 0 ) );
void *pPanel = (void*)wrap->Value();
if( !pPanel )
{
v8::Handle< v8::Boolean > value = v8::Boolean::New( args.GetIsolate(), false );
args.GetReturnValue().Set( value );
}
else
{
v8::Handle< v8::Boolean > value = v8::Boolean::New( args.GetIsolate(), true );
args.GetReturnValue().Set( value );
}
}
// Register special IsValid(), which makes the JS obj like a safe handle where you can use this
// to check if the obj has been deleted in C++ and is gone. You must still track all objects that are
// created and set their internal value to 0 so they point at nothing to make this work.
inline void RegisterJSIsValid()
{
v8::Isolate::Scope isolate_scope( GetV8Isolate() );
v8::HandleScope handle_scope( GetV8Isolate() );
v8::Handle<v8::ObjectTemplate> objTemplate = UIEngine()->GetCurrentV8ObjectTemplateToSetup();
objTemplate->Set( v8::String::NewFromUtf8( GetV8Isolate(), "IsValid" ), v8::FunctionTemplate::New( GetV8Isolate(), &JSCheckObjectValidity ) );
}
// Register a member to expose to JavaScript as read/write
template< typename ObjType, typename MemberType >
void RegisterJSAccessor( const char *jsMemberName, MemberType( ObjType::*pGetFunc )() const, void(ObjType::*pSetFunc)(MemberType), const char *pDesc = NULL );
// Register a read-only member to expose to JavaScript
template< typename ObjType, typename MemberType >
void RegisterJSAccessorReadOnly( const char *jsMemberName, MemberType( ObjType::*pGetFunc )() const, const char *pDesc = NULL );
template < typename ObjType, typename RetType, typename ...Args>
void RegisterJSMethod( const char *pchMethodName, RetType( ObjType::*mf )(Args...) const, const char *pDesc = NULL );
template <typename T>
void RegisterJSConstantValue( const char *pchJSMemberName, T value, const char *pDesc = NULL );
template < typename RetType, typename ...Args>
void RegisterJSGlobalFunction( const char *pchJSFunctionName, RetType(*pFunc)(Args...), bool bTrueGlobal = false, const char *pDesc = NULL );
//
// Everything below here is internals, and should be ignored if you aren't adding additional type
// support inside panorama itself.
//
template< typename ObjType> ObjType* GetThisPtrForJSCall( v8::Local<v8::Object> self )
{
v8::Local<v8::External> wrap = v8::Local<v8::External>::Cast( self->GetInternalField( 0 ) );
ObjType *pPanel = (ObjType*)wrap->Value();
if( pPanel && panorama_is_base_of< IUIPanelClient, ObjType >::value )
{
IUIPanel *pUIPanel = (IUIPanel*)(pPanel);
pPanel = (ObjType*)(pUIPanel->ClientPtr());
}
if( !pPanel )
{
GetV8Isolate()->ThrowException( v8::String::NewFromUtf8( GetV8Isolate(), "Underlying object is deleted!" ) );
return NULL;
}
return pPanel;
}
template < typename T > void GetPtrToCallbackArray( T pGetFunc, v8::Handle<v8::Array> &callbackArray );
template < typename T > void SetPtrToCallbackArray( T pSetFunc, v8::Handle<v8::Array> &callbackArray );
struct funcbytes
{
void * v1;
void * v2;
void * v3;
};
template< typename T> union HACKY_FUNC_PTR_CASTER
{
T funcPtr;
funcbytes funcBytes;
};
template< typename T> void RestoreFuncPtr( HACKY_FUNC_PTR_CASTER< T > &caster, v8::Local<v8::Array> &callbackArray, int iOffset )
{
Assert( (int)callbackArray->Length() >= iOffset + 3 );
caster.funcBytes.v1 = v8::Local<v8::External>::Cast( callbackArray->Get( iOffset++ ) )->Value();
caster.funcBytes.v2 = v8::Local<v8::External>::Cast( callbackArray->Get( iOffset++ ) )->Value();
caster.funcBytes.v3 = v8::Local<v8::External>::Cast( callbackArray->Get( iOffset++ ) )->Value();
}
template <typename T>
void RegisterJSConstantValue( const char *pchJSMemberName, T value, const char *pDesc )
{
v8::Isolate::Scope isolate_scope( GetV8Isolate() );
v8::HandleScope handle_scope( GetV8Isolate() );
v8::Handle<v8::ObjectTemplate> objTemplate = UIEngine()->GetCurrentV8ObjectTemplateToSetup();
v8::Handle<v8::Value> val;
PanoramaTypeToV8Param( value, &val );
objTemplate->Set( v8::String::NewFromUtf8( GetV8Isolate(), pchJSMemberName ), val, v8::PropertyAttribute( v8::ReadOnly | v8::DontDelete ) );
UIEngine()->NewRegisterJSEntry( pchJSMemberName, RegisterJSEntryInfo_t::k_EConstantValue, pDesc, RegisterJSTypeDeducer_t<T>::Type() );
}
//-----------------------------------------------------------------------------
// Purpose: More heavily templated helper for registering accessors of various types. We'll
// expose explicit more strongly typed versions, but this avoids duplicating setup code in each.
//-----------------------------------------------------------------------------
template <typename JSGetterCallback, typename JSSetterCallback, typename ObjGetMethod, typename ObjSetMethod>
void RegisterJSAccessorInternal( const char *pchJSMemberName, ObjGetMethod pGetFunc, ObjSetMethod pSetFunc, JSGetterCallback pGetCallback, JSSetterCallback pSetCallback, const char *pDesc = NULL, RegisterJSType_t eDataType = k_ERegisterJSTypeUnknown )
{
v8::Isolate::Scope isolate_scope( GetV8Isolate() );
v8::HandleScope handle_scope( GetV8Isolate() );
v8::Handle<v8::Array> callbackArray = v8::Array::New( GetV8Isolate(), 6 );
GetPtrToCallbackArray( pGetFunc, callbackArray );
SetPtrToCallbackArray( pSetFunc, callbackArray );
v8::Handle<v8::ObjectTemplate> objTemplate = UIEngine()->GetCurrentV8ObjectTemplateToSetup();
if( pSetFunc )
objTemplate->SetAccessor( v8::String::NewFromUtf8( GetV8Isolate(), pchJSMemberName ), pGetCallback, pSetCallback, callbackArray, v8::DEFAULT, v8::None );
else
objTemplate->SetAccessor( v8::String::NewFromUtf8( GetV8Isolate(), pchJSMemberName ), pGetCallback, 0, callbackArray, v8::DEFAULT, v8::ReadOnly );
UIEngine()->NewRegisterJSEntry( pchJSMemberName, pSetFunc ? RegisterJSEntryInfo_t::k_EAccessor : RegisterJSEntryInfo_t::k_EAccessorReadOnly, pDesc, eDataType );
}
template < class ObjType, class T > class CJSPropGetter
{
public:
static void GetProp( v8::Local<v8::String> property, const v8::PropertyCallbackInfo<v8::Value>& info )
{
v8::Isolate::Scope isolate_scope( GetV8Isolate() );
v8::HandleScope handle_scope( GetV8Isolate() );
ObjType *pPanel = GetThisPtrForJSCall<ObjType>( info.Holder() );
if( !pPanel )
return;
v8::Local<v8::Array> callbackArray = v8::Local<v8::Array>::Cast( info.Data() );
HACKY_FUNC_PTR_CASTER< T( ObjType::* )() const > caster;
RestoreFuncPtr( caster, callbackArray, 0 );
v8::Handle< v8::Value > val;
T nativeval = (pPanel->*caster.funcPtr)();
PanoramaTypeToV8Param( nativeval, &val );
info.GetReturnValue().Set( val );
}
static void SetProp( v8::Local<v8::String> property, v8::Local<v8::Value> value, const v8::PropertyCallbackInfo<void>& info )
{
v8::Isolate::Scope isolate_scope( GetV8Isolate() );
v8::HandleScope handle_scope( GetV8Isolate() );
ObjType *pPanel = GetThisPtrForJSCall<ObjType>( info.Holder() );
if( !pPanel )
return;
v8::Local<v8::Array> callbackArray = v8::Local<v8::Array>::Cast( info.Data() );
HACKY_FUNC_PTR_CASTER< void (ObjType::*)(T) > caster;
RestoreFuncPtr( caster, callbackArray, 3 );
T val;
V8ParamToPanoramaType( value, &val );
(pPanel->*caster.funcPtr)(val);
FreeConvertedParam( val );
}
};
//-----------------------------------------------------------------------------
// Purpose: Register a float member to expose to JavaScript, can pass NULL for pSetFunc if this is only able to be read not written
//-----------------------------------------------------------------------------
template< typename ObjType, typename MemberType >
void RegisterJSAccessor( const char *jsMemberName, MemberType( ObjType::*pGetFunc )() const, void(ObjType::*pSetFunc)(MemberType), const char *pDesc )
{
RegisterJSAccessorInternal( jsMemberName, pGetFunc, pSetFunc, &CJSPropGetter<ObjType, MemberType>::GetProp, &CJSPropGetter<ObjType, MemberType>::SetProp, pDesc, RegisterJSTypeDeducer_t<MemberType>::Type() );
}
// Register a read-only member to expose to JavaScript
template< typename ObjType, typename MemberType >
void RegisterJSAccessorReadOnly( const char *jsMemberName, MemberType( ObjType::*pGetFunc )() const, const char *pDesc )
{
RegisterJSAccessorInternal( jsMemberName, pGetFunc, 0, &CJSPropGetter<ObjType, MemberType>::GetProp, &CJSPropGetter<ObjType, MemberType>::SetProp, pDesc, RegisterJSTypeDeducer_t<MemberType>::Type() );
}
//-----------------------------------------------------------------------------
// Purpose: Convert a v8 argument to native panorama type
//-----------------------------------------------------------------------------
template< typename T> bool BConvertV8ArgToPanorama( const v8::Handle<v8::Value> &val, T *pNativeVal )
{
v8::TryCatch try_catch;
V8ParamToPanoramaType( val, pNativeVal );
if( try_catch.HasCaught() )
{
UIEngine()->OutputJSExceptionToConsole( try_catch, UIEngine()->GetPanelForJavaScriptContext( *(GetV8Isolate()->GetCurrentContext()) ) );
return false;
}
return true;
}
void JSCheckObjectValidity( const v8::FunctionCallbackInfo<v8::Value>& args );
//-----------------------------------------------------------------------------
// Purpose: Helper for passing function pointers into js data callback
//-----------------------------------------------------------------------------
template < typename T > void GetPtrToCallbackArray( T pGetFunc, v8::Handle<v8::Array> &callbackArray )
{
COMPILE_TIME_ASSERT( sizeof( T ) <= sizeof( funcbytes ) );
Assert( callbackArray->Length() >= 3 );
HACKY_FUNC_PTR_CASTER< T > getcaster;
// single a legit GCC warning when our func pointers are 2 bytes, not 3
getcaster.funcBytes.v3 = NULL;
getcaster.funcPtr = pGetFunc;
callbackArray->Set( 0, v8::External::New( GetV8Isolate(), getcaster.funcBytes.v1 ) );
callbackArray->Set( 1, v8::External::New( GetV8Isolate(), getcaster.funcBytes.v2 ) );
callbackArray->Set( 2, v8::External::New( GetV8Isolate(), getcaster.funcBytes.v3 ) );
}
//-----------------------------------------------------------------------------
// Purpose: Helper for passing function pointers into js data callback
//-----------------------------------------------------------------------------
template < typename T > void SetPtrToCallbackArray( T pSetFunc, v8::Handle<v8::Array> &callbackArray )
{
COMPILE_TIME_ASSERT( sizeof( T ) <= sizeof( funcbytes ) );
Assert( callbackArray->Length() >= 6 );
if( pSetFunc )
{
HACKY_FUNC_PTR_CASTER< T > setcaster;
// single a legit GCC warning when our func pointers are 2 bytes, not 3
setcaster.funcBytes.v3 = NULL;
setcaster.funcPtr = pSetFunc;
callbackArray->Set( 3, v8::External::New( GetV8Isolate(), setcaster.funcBytes.v1 ) );
callbackArray->Set( 4, v8::External::New( GetV8Isolate(), setcaster.funcBytes.v2 ) );
callbackArray->Set( 5, v8::External::New( GetV8Isolate(), setcaster.funcBytes.v3 ) );
}
}
//-----------------------------------------------------------------------------
// Purpose: Handler for JS method call callbacks
//-----------------------------------------------------------------------------
// two JSMethodCallbackWrappers to handle void callbacks & callbacks with return values
template< typename RetType, typename ObjType, typename ...Args >
struct JSMethodCallbackWrapper
{
static void Call( ObjType *pObject, RetType( ObjType::*mf )(Args...), const v8::FunctionCallbackInfo<v8::Value>& v8Args, Args... args )
{
RetType ret = (pObject->*mf)(panorama_forward< Args >( args )...);
v8::Handle< v8::Value > value;
PanoramaTypeToV8Param( ret, &value );
v8Args.GetReturnValue().Set( value );
}
};
template< typename ObjType, typename ...Args >
struct JSMethodCallbackWrapper< void, ObjType, Args... >
{
static void Call( ObjType *pObject, void(ObjType::*mf)(Args...), const v8::FunctionCallbackInfo<v8::Value>& v8Args, Args... args )
{
(pObject->*mf)(panorama_forward< Args >( args )...);
}
};
template< typename RetType, typename ...Args >
struct JSFunctionCallbackWrapper
{
static void Call( RetType( *mf )(Args...), const v8::FunctionCallbackInfo<v8::Value>& v8Args, Args... args )
{
RetType ret = mf(panorama_forward< Args >( args )... );
v8::Handle< v8::Value > value;
PanoramaTypeToV8Param( ret, &value );
v8Args.GetReturnValue().Set( value );
}
};
template< typename ...Args >
struct JSFunctionCallbackWrapper < void, Args... >
{
static void Call( void(*mf)(Args...), const v8::FunctionCallbackInfo<v8::Value>& v8Args, Args... args )
{
mf(panorama_forward< Args >( args )...);
}
};
// helper to generate a sequences of index to iterate
template<int...> struct index_tuple {};
template<int I, typename IndexTuple, typename... Types>
struct make_indexes_impl;
template<int I, int... Indexes, typename T, typename ... Types>
struct make_indexes_impl < I, index_tuple<Indexes...>, T, Types... >
{
typedef typename make_indexes_impl<I + 1, index_tuple<Indexes..., I>, Types...>::type type;
};
template<int I, int... Indexes>
struct make_indexes_impl < I, index_tuple<Indexes...> >
{
typedef index_tuple<Indexes...> type;
};
template<typename ... Types>
struct make_indexes : make_indexes_impl < 0, index_tuple<>, Types... >
{
};
// Expands values in tuple into a single function call
template< typename ObjType, typename RetType, typename TupleType, class... Args, int... Indexes >
void JSMethodCallTuple_Helper( ObjType *pPanel, RetType( ObjType::*mf )(Args...), const v8::FunctionCallbackInfo<v8::Value> &args, index_tuple< Indexes... >, TupleType &tup )
{
JSMethodCallbackWrapper< RetType, ObjType, Args... >::Call( pPanel, mf, args, panorama_forward<Args>( STDTR1::get<Indexes>( tup ) )... );
}
// Expands values in tuple into a single function call
template< typename RetType, typename TupleType, class... Args, int... Indexes >
void JSFunctionCallTuple_Helper( RetType( *pFunc )(Args...), const v8::FunctionCallbackInfo<v8::Value> &args, index_tuple< Indexes... >, TupleType &tup )
{
JSFunctionCallbackWrapper< RetType, Args... >::Call( pFunc, args, panorama_forward<Args>( STDTR1::get<Indexes>( tup ) )... );
}
// converts all v8 args into a tuple
template< int Index, typename T >
struct ConvertV8ArgsToTuple
{
static void Call( T &tup, const v8::FunctionCallbackInfo<v8::Value> &args, bool *pbSucceeded )
{
bool bSucceeded = BConvertV8ArgToPanorama( args[Index - 1], &STDTR1::get< Index - 1>( tup ) );
if ( pbSucceeded )
pbSucceeded[Index - 1] = bSucceeded;
if ( !bSucceeded )
return;
ConvertV8ArgsToTuple<Index - 1, T >::Call( tup, args, pbSucceeded );
}
};
template< typename T >
struct ConvertV8ArgsToTuple< 0, T >
{
static void Call( T &tup, const v8::FunctionCallbackInfo<v8::Value> &args, bool *pbSucceeded )
{
}
};
// frees all args in tuple
template< int Index, typename T >
struct FreeV8ArgsToTuple
{
static void Call( T &tup, bool *pbSucceeded )
{
if ( pbSucceeded && pbSucceeded[Index - 1] )
FreeConvertedParam( STDTR1::get< Index - 1 >( tup ) );
FreeV8ArgsToTuple<Index - 1, T >::Call( tup, pbSucceeded );
}
};
template< typename T >
struct FreeV8ArgsToTuple < 0, T >
{
static void Call( T &tup, bool *pbSucceeded )
{
}
};
template< typename ObjType, typename RetType, typename ...Args >
void JSMethodCallTuple( const v8::FunctionCallbackInfo<v8::Value>& args )
{
v8::Isolate::Scope isolate_scope( args.GetIsolate() );
v8::HandleScope handle_scope( args.GetIsolate() );
v8::Persistent<v8::Context> &perContext = UIEngine()->GetV8GlobalContext();
v8::Handle<v8::Context> context = v8::Local<v8::Context>::New( GetV8Isolate(), perContext );
v8::Context::Scope context_scope( context );
if( args.Length() < sizeof...(Args) )
{
v8::String::Utf8Value str( args.Callee()->GetName()->ToString() );
GetV8Isolate()->ThrowException( v8::String::NewFromUtf8( GetV8Isolate(), CFmtStr1024( "%s requires %d arguments; only %d given.", *str, (int)sizeof...(Args), (int)args.Length() ).String() ) );
return;
}
ObjType *pPanel = GetThisPtrForJSCall<ObjType>( args.Holder() );
if ( !pPanel )
return;
v8::Local<v8::Array> callbackArray = v8::Local<v8::Array>::Cast( args.Data() );
HACKY_FUNC_PTR_CASTER< RetType( ObjType::* )(Args...) > caster;
RestoreFuncPtr( caster, callbackArray, 0 );
bool *pbSucceeded = NULL;
if ( sizeof...(Args) > 0 )
{
pbSucceeded = new bool[sizeof...(Args)];
V_memset( pbSucceeded, 0, sizeof...(Args)* sizeof( bool ) );
}
STDTR1::tuple< Args... > tupleArgs;
ConvertV8ArgsToTuple< sizeof...(Args), STDTR1::tuple< Args... > >::Call( tupleArgs, args, pbSucceeded );
bool bSucceeded = true;
for ( int i = 0; i < sizeof...(Args); i++ )
{
if ( !pbSucceeded[i] )
bSucceeded = false;
}
if ( bSucceeded )
JSMethodCallTuple_Helper( pPanel, caster.funcPtr, args, typename make_indexes<Args...>::type(), tupleArgs );
FreeV8ArgsToTuple< sizeof...(Args), STDTR1::tuple< Args... > >::Call( tupleArgs, pbSucceeded );
delete[] pbSucceeded;
}
template< typename ObjType >
void JSMethodCallTupleRaw( const v8::FunctionCallbackInfo<v8::Value>& args )
{
v8::Isolate::Scope isolate_scope( args.GetIsolate() );
v8::HandleScope handle_scope( args.GetIsolate() );
v8::Persistent<v8::Context> &perContext = UIEngine()->GetV8GlobalContext();
v8::Handle<v8::Context> context = v8::Local<v8::Context>::New( GetV8Isolate(), perContext );
v8::Context::Scope context_scope( context );
ObjType *pPanel = GetThisPtrForJSCall<ObjType>( args.Holder() );
if ( !pPanel )
return;
v8::Local<v8::Array> callbackArray = v8::Local<v8::Array>::Cast( args.Data() );
HACKY_FUNC_PTR_CASTER< void ( ObjType::* )( const v8::FunctionCallbackInfo<v8::Value>& ) > caster;
RestoreFuncPtr( caster, callbackArray, 0 );
(pPanel->*caster.funcPtr)( args );
}
template< typename RetType, typename ...Args >
void JSFunctionCallTuple( const v8::FunctionCallbackInfo<v8::Value>& args )
{
v8::Isolate::Scope isolate_scope( args.GetIsolate() );
v8::HandleScope handle_scope( args.GetIsolate() );
v8::Persistent<v8::Context> &perContext = UIEngine()->GetV8GlobalContext();
v8::Handle<v8::Context> context = v8::Local<v8::Context>::New( GetV8Isolate(), perContext );
v8::Context::Scope context_scope( context );
if( args.Length() < sizeof...(Args) )
{
v8::String::Utf8Value str( args.Callee()->GetName()->ToString() );
GetV8Isolate()->ThrowException( v8::String::NewFromUtf8( GetV8Isolate(), CFmtStr1024( "%s requires %d arguments; only %d given.", *str, (int)sizeof...(Args), (int)args.Length() ).String() ) );
return;
}
v8::Local<v8::Array> callbackArray = v8::Local<v8::Array>::Cast( args.Data() );
HACKY_FUNC_PTR_CASTER< RetType( * )(Args...) > caster;
RestoreFuncPtr( caster, callbackArray, 0 );
bool *pbSucceeded = NULL;
if( sizeof...(Args) > 0 )
{
pbSucceeded = new bool[sizeof...(Args)];
V_memset( pbSucceeded, 0, sizeof...(Args)* sizeof( bool ) );
}
STDTR1::tuple< Args... > tupleArgs;
ConvertV8ArgsToTuple< sizeof...(Args), STDTR1::tuple< Args... > >::Call( tupleArgs, args, pbSucceeded );
bool bSucceeded = true;
for( int i = 0; i < sizeof...(Args); i++ )
{
if( !pbSucceeded[i] )
bSucceeded = false;
}
if( bSucceeded )
JSFunctionCallTuple_Helper( caster.funcPtr, args, typename make_indexes<Args...>::type(), tupleArgs );
FreeV8ArgsToTuple< sizeof...(Args), STDTR1::tuple< Args... > >::Call( tupleArgs, pbSucceeded );
delete[] pbSucceeded;
}
// Infer types for all arguments.
template< uint8 unIndex, typename Type1, typename ...Types >
struct RegisterJSTypesDeducer
{
static void Call( RegisterJSType_t *pTypes, uint8 unMaxIndex )
{
Assert( unIndex <= RegisterJSEntryInfo_t::k_unMaxParams );
if ( unIndex <= RegisterJSEntryInfo_t::k_unMaxParams )
{
pTypes[unMaxIndex - unIndex] = RegisterJSTypeDeducer_t<Type1>::Type();
#if defined( SOURCE2_PANORAMA )
RegisterJSTypesDeducer< unIndex - 1, Types... >::Call( pTypes, unMaxIndex );
#endif
}
}
};
template< typename Type1 >
struct RegisterJSTypesDeducer< 0, Type1 >
{
static void Call( RegisterJSType_t *pTypes, uint8 unMaxIndex )
{
// This is the termination placeholder.
}
};
// two RegisterJSMethods, one for const function pointers, one for mutable
template < typename ObjType, typename RetType, typename ...Args>
void RegisterJSMethod( const char *pchMethodName, RetType( ObjType::*mf )(Args...), const char *pDesc = NULL )
{
v8::Isolate::Scope isolate_scope( GetV8Isolate() );
v8::HandleScope handle_scope( GetV8Isolate() );
v8::Handle<v8::Array> callbackArray = v8::Array::New( GetV8Isolate(), 3 );
GetPtrToCallbackArray( mf, callbackArray );
v8::Handle<v8::ObjectTemplate> objTemplate = UIEngine()->GetCurrentV8ObjectTemplateToSetup();
objTemplate->Set( v8::String::NewFromUtf8( GetV8Isolate(), pchMethodName ), v8::FunctionTemplate::New( GetV8Isolate(), &JSMethodCallTuple<ObjType, RetType, Args...>, callbackArray ) );
int nEntry = UIEngine()->NewRegisterJSEntry( pchMethodName, RegisterJSEntryInfo_t::k_EMethod, pDesc, RegisterJSTypeDeducer_t<RetType>::Type() );
#if defined( SOURCE2_PANORAMA )
RegisterJSType_t pParamTypes[RegisterJSEntryInfo_t::k_unMaxParams];
RegisterJSTypesDeducer< sizeof...(Args), Args..., void >::Call( pParamTypes, sizeof...(Args) );
UIEngine()->SetRegisterJSEntryParams( nEntry, sizeof...(Args), pParamTypes );
#else
REFERENCE( nEntry );
#endif
}
template < typename ObjType, typename RetType, typename ...Args>
void RegisterJSMethod( const char *pchMethodName, RetType( ObjType::*mf )(Args...) const, const char *pDesc )
{
v8::Isolate::Scope isolate_scope( GetV8Isolate() );
v8::HandleScope handle_scope( GetV8Isolate() );
v8::Handle<v8::Array> callbackArray = v8::Array::New( GetV8Isolate(), 3 );
GetPtrToCallbackArray( mf, callbackArray );
v8::Handle<v8::ObjectTemplate> objTemplate = UIEngine()->GetCurrentV8ObjectTemplateToSetup();
objTemplate->Set( v8::String::NewFromUtf8( GetV8Isolate(), pchMethodName ), v8::FunctionTemplate::New( GetV8Isolate(), &JSMethodCallTuple<ObjType, RetType, Args...>, callbackArray ) );
int nEntry = UIEngine()->NewRegisterJSEntry( pchMethodName, RegisterJSEntryInfo_t::k_EMethod, pDesc, RegisterJSTypeDeducer_t<RetType>::Type() );
#if defined( SOURCE2_PANORAMA )
RegisterJSType_t pParamTypes[RegisterJSEntryInfo_t::k_unMaxParams];
RegisterJSTypesDeducer< sizeof...(Args), Args..., void >::Call( pParamTypes, sizeof...(Args) );
UIEngine()->SetRegisterJSEntryParams( nEntry, sizeof...(Args), pParamTypes );
#else
REFERENCE( nEntry );
#endif
}
template < typename RetType, typename ...Args>
void RegisterJSGlobalFunction( const char *pchJSFunctionName, RetType( *pFunc )(Args...), bool bTrueGlobal, const char *pDesc )
{
v8::Isolate::Scope isolate_scope( GetV8Isolate() );
v8::HandleScope handle_scope( GetV8Isolate() );
v8::Persistent<v8::Context> &perContext = UIEngine()->GetV8GlobalContext();
v8::Handle<v8::Context> context = v8::Local<v8::Context>::New( GetV8Isolate(), perContext );
v8::Context::Scope context_scope( context );
v8::Handle<v8::Array> callbackArray = v8::Array::New( GetV8Isolate(), 3 );
GetPtrToCallbackArray( pFunc, callbackArray );
v8::Handle< v8::FunctionTemplate > funcTempl = v8::FunctionTemplate::New( GetV8Isolate(), &JSFunctionCallTuple< RetType, Args...>, callbackArray );
UIEngine()->AddGlobalV8FunctionTemplate( pchJSFunctionName, &funcTempl, bTrueGlobal );
int nEntry = UIEngine()->NewRegisterJSEntry( pchJSFunctionName, RegisterJSEntryInfo_t::k_EGlobalFunction, pDesc, RegisterJSTypeDeducer_t<RetType>::Type() );
#if defined( SOURCE2_PANORAMA )
RegisterJSType_t pParamTypes[RegisterJSEntryInfo_t::k_unMaxParams];
RegisterJSTypesDeducer< sizeof...(Args), Args..., void >::Call( pParamTypes, sizeof...(Args) );
UIEngine()->SetRegisterJSEntryParams( nEntry, sizeof...(Args), pParamTypes );
#else
REFERENCE( nEntry );
#endif
}
inline void RegisterJSGlobalFunctionRaw( const char *pchJSFunctionName, void (*pCallbackFunc)( const v8::FunctionCallbackInfo< v8::Value > &callbackInfo ), bool bTrueGlobal, const char *pDesc = NULL )
{
v8::Isolate::Scope isolate_scope( GetV8Isolate() );
v8::HandleScope handle_scope( GetV8Isolate() );
v8::Persistent<v8::Context> &perContext = UIEngine()->GetV8GlobalContext();
v8::Handle<v8::Context> context = v8::Local<v8::Context>::New( GetV8Isolate(), perContext );
v8::Context::Scope context_scope( context );
v8::Handle< v8::FunctionTemplate > funcTempl = v8::FunctionTemplate::New( GetV8Isolate(), pCallbackFunc );
UIEngine()->AddGlobalV8FunctionTemplate( pchJSFunctionName, &funcTempl, bTrueGlobal );
int nEntry = UIEngine()->NewRegisterJSEntry( pchJSFunctionName, RegisterJSEntryInfo_t::k_EGlobalFunction, pDesc, k_ERegisterJSTypeVoid );
RegisterJSType_t pParamTypes[1] = { k_ERegisterJSTypeRawV8Args };
UIEngine()->SetRegisterJSEntryParams( nEntry, 1, pParamTypes );
}
template < typename ObjType >
inline void RegisterJSMethodRaw( const char *pchMethodName, void ( ObjType::*mf )( const v8::FunctionCallbackInfo< v8::Value > &callbackInfo ), const char *pDesc = NULL )
{
v8::Isolate::Scope isolate_scope( GetV8Isolate() );
v8::HandleScope handle_scope( GetV8Isolate() );
v8::Handle<v8::Array> callbackArray = v8::Array::New( GetV8Isolate(), 3 );
GetPtrToCallbackArray( mf, callbackArray );
v8::Handle<v8::ObjectTemplate> objTemplate = UIEngine()->GetCurrentV8ObjectTemplateToSetup();
objTemplate->Set( v8::String::NewFromUtf8( GetV8Isolate(), pchMethodName ), v8::FunctionTemplate::New( GetV8Isolate(), &JSMethodCallTupleRaw<ObjType>, callbackArray ) );
int nEntry = UIEngine()->NewRegisterJSEntry( pchMethodName, RegisterJSEntryInfo_t::k_EMethod, pDesc, k_ERegisterJSTypeVoid );
RegisterJSType_t pParamTypes[1] = { k_ERegisterJSTypeRawV8Args };
UIEngine()->SetRegisterJSEntryParams( nEntry, 1, pParamTypes );
}
inline v8::Local< v8::String > JSObjectToJSON( v8::Isolate *pIsolate, v8::Local< v8::Value > object )
{
v8::Local< v8::Context > context = pIsolate->GetCurrentContext();
v8::Local< v8::Object > global = context->Global();
v8::Local< v8::Object > global_JSON = v8::Handle< v8::Object >::Cast( global->Get( v8::String::NewFromUtf8( pIsolate, "JSON" ) ) );
v8::Local< v8::Function > global_JSON_stringify = v8::Handle< v8::Function >::Cast( global_JSON->Get( v8::String::NewFromUtf8( pIsolate, "stringify" ) ) );
v8::Local< v8::Value > args[] = { object };
return v8::Local< v8::String >::Cast( global_JSON_stringify->Call( global_JSON, 1, args ) );
}
}
#pragma warning(pop)
#if _GNUC
#pragma GCC diagnostic pop
#endif
#endif // _WIN32