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forked from 0ad/0ad
0ad/source/scriptinterface/NativeWrapperDefns.h
elexis 1b44946078 Replace deprecated jsval with JS::Value.
Remove unused SGUIBaseSettings and GUI comment.
Fix indentation of a macro, refs D794.

Differential Revision: https://code.wildfiregames.com/D838
Review by: leper.
Itms came up with the same patch for the SpiderMonkey 45 update
independently.

This was SVN commit r20062.
2017-08-28 10:27:36 +00:00

246 lines
9.2 KiB
C++

/* Copyright (C) 2017 Wildfire Games.
* This file is part of 0 A.D.
*
* 0 A.D. is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* 0 A.D. is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with 0 A.D. If not, see <http://www.gnu.org/licenses/>.
*/
#include "ps/Profile.h"
// Use the macro below to define types that will be passed by value to C++ functions.
// NOTE: References are used just to avoid superfluous copy constructor calls
// in the script wrapper code. They cannot be used as out-parameters.
// They are const T& by default to avoid confusion about this, especially
// because sometimes the function is not just exposed to scripts, but also
// called from C++ code.
template <typename T> struct ScriptInterface::MaybeRef
{
typedef const T& Type;
};
#define PASS_BY_VALUE_IN_NATIVE_WRAPPER(T) \
template <> struct ScriptInterface::MaybeRef<T> \
{ \
typedef T Type; \
}; \
PASS_BY_VALUE_IN_NATIVE_WRAPPER(JS::HandleValue)
PASS_BY_VALUE_IN_NATIVE_WRAPPER(bool)
PASS_BY_VALUE_IN_NATIVE_WRAPPER(int)
PASS_BY_VALUE_IN_NATIVE_WRAPPER(uint8_t)
PASS_BY_VALUE_IN_NATIVE_WRAPPER(uint16_t)
PASS_BY_VALUE_IN_NATIVE_WRAPPER(uint32_t)
PASS_BY_VALUE_IN_NATIVE_WRAPPER(fixed)
PASS_BY_VALUE_IN_NATIVE_WRAPPER(float)
PASS_BY_VALUE_IN_NATIVE_WRAPPER(double)
#undef PASS_BY_VALUE_IN_NATIVE_WRAPPER
// This works around a bug in Visual Studio 2013 (error C2244 if ScriptInterface:: is included in the
// type specifier of MaybeRef<T>::Type for parameters inside the member function declaration).
// It's probably the bug described here, but I'm not quite sure (at least the example there still
// cause error C2244):
// https://connect.microsoft.com/VisualStudio/feedback/details/611863/vs2010-c-fails-with-error-c2244-gcc-4-3-4-compiles-ok
//
// TODO: When dropping support for VS 2013, check if this bug is still present in the supported
// Visual Studio versions (replace the macro definitions in NativeWrapperDecls.h with these ones,
// remove them from here and check if this causes error C2244 when compiling.
#undef NUMBERED_LIST_TAIL_MAYBE_REF
#undef NUMBERED_LIST_BALANCED_MAYBE_REF
#define NUMBERED_LIST_TAIL_MAYBE_REF(z, i, data) , typename ScriptInterface::MaybeRef<data##i>::Type
#define NUMBERED_LIST_BALANCED_MAYBE_REF(z, i, data) BOOST_PP_COMMA_IF(i) typename ScriptInterface::MaybeRef<data##i>::Type
// (NativeWrapperDecls.h set up a lot of the macros we use here)
// ScriptInterface_NativeWrapper<T>::call(cx, rval, fptr, args...) will call fptr(cbdata, args...),
// and if T != void then it will store the result in rval:
// Templated on the return type so void can be handled separately
template <typename R>
struct ScriptInterface_NativeWrapper
{
template<typename F, typename... Ts>
static void call(JSContext* cx, JS::MutableHandleValue rval, F fptr, Ts... params)
{
ScriptInterface::AssignOrToJSValUnrooted<R>(cx, rval, fptr(ScriptInterface::GetScriptInterfaceAndCBData(cx), params...));
}
};
// Overloaded to ignore the return value from void functions
template <>
struct ScriptInterface_NativeWrapper<void>
{
template<typename F, typename... Ts>
static void call(JSContext* cx, JS::MutableHandleValue UNUSED(rval), F fptr, Ts... params)
{
fptr(ScriptInterface::GetScriptInterfaceAndCBData(cx), params...);
}
};
// Same idea but for method calls:
template <typename R, typename TC>
struct ScriptInterface_NativeMethodWrapper
{
template<typename F, typename... Ts>
static void call(JSContext* cx, JS::MutableHandleValue rval, TC* c, F fptr, Ts... params)
{
ScriptInterface::AssignOrToJSValUnrooted<R>(cx, rval, (c->*fptr)(params...));
}
};
template <typename TC>
struct ScriptInterface_NativeMethodWrapper<void, TC>
{
template<typename F, typename... Ts>
static void call(JSContext* UNUSED(cx), JS::MutableHandleValue UNUSED(rval), TC* c, F fptr, Ts... params)
{
(c->*fptr)(params...);
}
};
// JSFastNative-compatible function that wraps the function identified in the template argument list
#define OVERLOADS(z, i, data) \
template <typename R, TYPENAME_T0_HEAD(z,i) R (*fptr) ( ScriptInterface::CxPrivate* T0_TAIL_MAYBE_REF(z,i) )> \
bool ScriptInterface::call(JSContext* cx, uint argc, JS::Value* vp) \
{ \
JS::CallArgs args = JS::CallArgsFromVp(argc, vp); \
JSAutoRequest rq(cx); \
BOOST_PP_REPEAT_##z (i, CONVERT_ARG, ~) \
JS::RootedValue rval(cx); \
ScriptInterface_NativeWrapper<R>::template call<R( ScriptInterface::CxPrivate* T0_TAIL_MAYBE_REF(z,i)) T0_TAIL(z,i)>(cx, &rval, fptr A0_TAIL(z,i)); \
args.rval().set(rval); \
return !ScriptInterface::IsExceptionPending(cx); \
}
BOOST_PP_REPEAT(SCRIPT_INTERFACE_MAX_ARGS, OVERLOADS, ~)
#undef OVERLOADS
// Same idea but for methods
#define OVERLOADS(z, i, data) \
template <typename R, TYPENAME_T0_HEAD(z,i) JSClass* CLS, typename TC, R (TC::*fptr) ( T0_MAYBE_REF(z,i) )> \
bool ScriptInterface::callMethod(JSContext* cx, uint argc, JS::Value* vp) \
{ \
JS::CallArgs args = JS::CallArgsFromVp(argc, vp); \
JSAutoRequest rq(cx); \
JS::RootedObject thisObj(cx, JS_THIS_OBJECT(cx, vp)); \
if (ScriptInterface::GetClass(thisObj) != CLS) return false; \
TC* c = static_cast<TC*>(ScriptInterface::GetPrivate(thisObj)); \
if (! c) return false; \
BOOST_PP_REPEAT_##z (i, CONVERT_ARG, ~) \
JS::RootedValue rval(cx); \
ScriptInterface_NativeMethodWrapper<R, TC>::template call<R (TC::*)(T0_MAYBE_REF(z,i)) T0_TAIL(z,i)>(cx, &rval, c, fptr A0_TAIL(z,i)); \
args.rval().set(rval); \
return !ScriptInterface::IsExceptionPending(cx); \
}
BOOST_PP_REPEAT(SCRIPT_INTERFACE_MAX_ARGS, OVERLOADS, ~)
#undef OVERLOADS
// const methods
#define OVERLOADS(z, i, data) \
template <typename R, TYPENAME_T0_HEAD(z,i) JSClass* CLS, typename TC, R (TC::*fptr) ( T0_MAYBE_REF(z,i) ) const> \
bool ScriptInterface::callMethodConst(JSContext* cx, uint argc, JS::Value* vp) \
{ \
JS::CallArgs args = JS::CallArgsFromVp(argc, vp); \
JSAutoRequest rq(cx); \
JS::RootedObject thisObj(cx, JS_THIS_OBJECT(cx, vp)); \
if (ScriptInterface::GetClass(thisObj) != CLS) return false; \
TC* c = static_cast<TC*>(ScriptInterface::GetPrivate(thisObj)); \
if (! c) return false; \
BOOST_PP_REPEAT_##z (i, CONVERT_ARG, ~) \
JS::RootedValue rval(cx); \
ScriptInterface_NativeMethodWrapper<R, TC>::template call<R (TC::*)(T0_MAYBE_REF(z,i)) const T0_TAIL(z,i)>(cx, &rval, c, fptr A0_TAIL(z,i)); \
args.rval().set(rval); \
return !ScriptInterface::IsExceptionPending(cx); \
}
BOOST_PP_REPEAT(SCRIPT_INTERFACE_MAX_ARGS, OVERLOADS, ~)
#undef OVERLOADS
template<int i, typename T, typename... Ts>
static void AssignOrToJSValHelper(JSContext* cx, JS::AutoValueVector& argv, const T& a, const Ts&... params)
{
ScriptInterface::AssignOrToJSVal(cx, argv[i], a);
AssignOrToJSValHelper<i+1>(cx, argv, params...);
}
template<int i, typename... Ts>
static void AssignOrToJSValHelper(JSContext* UNUSED(cx), JS::AutoValueVector& UNUSED(argv))
{
cassert(sizeof...(Ts) == 0);
// Nop, for terminating the template recursion.
}
template<typename R, typename... Ts>
bool ScriptInterface::CallFunction(JS::HandleValue val, const char* name, R& ret, const Ts&... params) const
{
JSContext* cx = GetContext();
JSAutoRequest rq(cx);
JS::RootedValue jsRet(cx);
JS::AutoValueVector argv(cx);
argv.resize(sizeof...(Ts));
AssignOrToJSValHelper<0>(cx, argv, params...);
bool ok = CallFunction_(val, name, argv, &jsRet);
if (!ok)
return false;
return FromJSVal(cx, jsRet, ret);
}
template<typename R, typename... Ts>
bool ScriptInterface::CallFunction(JS::HandleValue val, const char* name, JS::Rooted<R>* ret, const Ts&... params) const
{
JSContext* cx = GetContext();
JSAutoRequest rq(cx);
JS::MutableHandle<R> jsRet(ret);
JS::AutoValueVector argv(cx);
argv.resize(sizeof...(Ts));
AssignOrToJSValHelper<0>(cx, argv, params...);
return CallFunction_(val, name, argv, jsRet);
}
template<typename R, typename... Ts>
bool ScriptInterface::CallFunction(JS::HandleValue val, const char* name, JS::MutableHandle<R> ret, const Ts&... params) const
{
JSContext* cx = GetContext();
JSAutoRequest rq(cx);
JS::AutoValueVector argv(cx);
argv.resize(sizeof...(Ts));
AssignOrToJSValHelper<0>(cx, argv, params...);
return CallFunction_(val, name, argv, ret);
}
// Call the named property on the given object, with void return type
template<typename... Ts>
bool ScriptInterface::CallFunctionVoid(JS::HandleValue val, const char* name, const Ts&... params) const
{
JSContext* cx = GetContext();
JSAutoRequest rq(cx);
JS::RootedValue jsRet(cx);
JS::AutoValueVector argv(cx);
argv.resize(sizeof...(Ts));
AssignOrToJSValHelper<0>(cx, argv, params...);
return CallFunction_(val, name, argv, &jsRet);
}
// Clean up our mess
#undef NUMBERED_LIST_HEAD
#undef NUMBERED_LIST_TAIL
#undef NUMBERED_LIST_TAIL_MAYBE_REF
#undef NUMBERED_LIST_BALANCED
#undef NUMBERED_LIST_BALANCED_MAYBE_REF
#undef CONVERT_ARG
#undef TYPENAME_T0_HEAD
#undef T0
#undef T0_MAYBE_REF
#undef T0_TAIL
#undef T0_TAIL_MAYBE_REF
#undef A0_TAIL