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SqMod/include/sqrat/sqratGlobalMethods.h

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//
// SqratGlobalMethods: Global Methods
//
//
// Copyright (c) 2009 Brandon Jones
// Copyirght 2011 Li-Cheng (Andy) Tai
//
// This software is provided 'as-is', without any express or implied
// warranty. In no event will the authors be held liable for any damages
// arising from the use of this software.
//
// Permission is granted to anyone to use this software for any purpose,
// including commercial applications, and to alter it and redistribute it
// freely, subject to the following restrictions:
//
// 1. The origin of this software must not be misrepresented; you must not
// claim that you wrote the original software. If you use this software
// in a product, an acknowledgment in the product documentation would be
// appreciated but is not required.
//
// 2. Altered source versions must be plainly marked as such, and must not be
// misrepresented as being the original software.
//
// 3. This notice may not be removed or altered from any source
// distribution.
//
#if !defined(_SCRAT_GLOBAL_METHODS_H_)
#define _SCRAT_GLOBAL_METHODS_H_
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#ifdef SQMOD_PLUGIN_API
#include <SqAPI.h>
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#else
#include <squirrel.h>
#endif // SQMOD_PLUGIN_API
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#include "sqratTypes.h"
namespace Sqrat {
/// @cond DEV
//
// Squirrel Global Functions
//
template <class R> struct SqGlobal {
// Function proxy
template <SQInteger startIdx, bool overloaded, class... A> static SQFUNCTION GetProxy() noexcept {
typedef R(*M)(A...);
return +[](HSQUIRRELVM vm) noexcept -> SQInteger {
#if !defined (SCRAT_NO_ERROR_CHECKING)
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if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) != startIdx + sizeof...(A)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
M* method;
sq_getuserdata(vm, -1, reinterpret_cast<SQUserPointer*>(&method), NULL);
SQTRY()
ArgPop<A...> a(vm, startIdx);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
R ret = a.template Eval<R,M>(*method);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVar(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
};
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}
};
//
// reference return specialization
//
template <class R> struct SqGlobal<R&> {
// Function proxy
template <SQInteger startIdx, bool overloaded, class... A> static SQFUNCTION GetProxy() noexcept {
typedef R&(*M)(A...);
return +[](HSQUIRRELVM vm) noexcept -> SQInteger {
#if !defined (SCRAT_NO_ERROR_CHECKING)
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if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) != startIdx + sizeof...(A)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
M* method;
sq_getuserdata(vm, -1, reinterpret_cast<SQUserPointer*>(&method), NULL);
SQTRY()
ArgPop<A...> a(vm, startIdx);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
R& ret = a.template Eval<R&, M>(*method);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVarR(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
};
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}
};
//
// void return specialization
//
template <> struct SqGlobal<void> {
// Function proxy
template <SQInteger startIdx, bool overloaded, class... A> static SQFUNCTION GetProxy() noexcept {
typedef void(*M)(A...);
return +[](HSQUIRRELVM vm) noexcept -> SQInteger {
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#if !defined (SCRAT_NO_ERROR_CHECKING)
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if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) != startIdx + sizeof...(A)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
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#endif
M* method;
sq_getuserdata(vm, -1, reinterpret_cast<SQUserPointer*>(&method), NULL);
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SQTRY()
ArgPop<A...> a(vm, startIdx);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
a.template Exec<M>(*method);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
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return 0;
};
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}
};
// Global Function Resolver
template <class R,class... A> SQFUNCTION SqGlobalFunc(R (* /*method*/)(A...)) noexcept {
return SqGlobal<R>::template GetProxy<2, false, A...>();
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}
// Global Function Resolver
template <class R,class... A> SQFUNCTION SqGlobalFunc(R& (* /*method*/)(A...)) noexcept {
return SqGlobal<R&>::template GetProxy<2, false, A...>();
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}
// Member Global Function Resolver
template <class R,class T,class... A> SQFUNCTION SqMemberGlobalFunc(R (* /*method*/)(T, A...)) noexcept {
return SqGlobal<R>::template GetProxy<1, false, T, A...>();
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}
// Member Global Function Resolver
template <class R,class T,class... A> SQFUNCTION SqMemberGlobalFunc(R& (* /*method*/)(T, A...)) noexcept {
return SqGlobal<R&>::template GetProxy<1, false, T, A...>();
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}
//
// Squirrel Global Functions
//
template <class R>
class SqGlobalFmt {
public:
// Arg Count 0
template <bool overloaded /*= false*/>
static SQInteger Func0(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < 2) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R (*M)(const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
const StackStrF fmt(vm, 2, true, sq_gettop(vm) == 2);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R ret = (*method)(fmt);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVar(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 1
template <class A1, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func1(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 1)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R (*M)(A1, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 1, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R ret = (*method)(
a1.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVar(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 2
template <class A1, class A2, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func2(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 2)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R (*M)(A1, A2, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 2, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R ret = (*method)(
a1.value,
a2.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVar(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 3
template <class A1, class A2, class A3, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func3(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 3)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R (*M)(A1, A2, A3, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 3, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R ret = (*method)(
a1.value,
a2.value,
a3.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVar(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 4
template <class A1, class A2, class A3, class A4, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func4(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 4)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R (*M)(A1, A2, A3, A4, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 4, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R ret = (*method)(
a1.value,
a2.value,
a3.value,
a4.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVar(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 5
template <class A1, class A2, class A3, class A4, class A5, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func5(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 5)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R (*M)(A1, A2, A3, A4, A5, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
Var<A5> a5(vm, startIdx + 4);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 5, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R ret = (*method)(
a1.value,
a2.value,
a3.value,
a4.value,
a5.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVar(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 6
template <class A1, class A2, class A3, class A4, class A5, class A6, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func6(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 6)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R (*M)(A1, A2, A3, A4, A5, A6, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
Var<A5> a5(vm, startIdx + 4);
Var<A6> a6(vm, startIdx + 5);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 6, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R ret = (*method)(
a1.value,
a2.value,
a3.value,
a4.value,
a5.value,
a6.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVar(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 7
template <class A1, class A2, class A3, class A4, class A5, class A6, class A7, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func7(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 7)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R (*M)(A1, A2, A3, A4, A5, A6, A7, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
Var<A5> a5(vm, startIdx + 4);
Var<A6> a6(vm, startIdx + 5);
Var<A7> a7(vm, startIdx + 6);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 7, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R ret = (*method)(
a1.value,
a2.value,
a3.value,
a4.value,
a5.value,
a6.value,
a7.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVar(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 8
template <class A1, class A2, class A3, class A4, class A5, class A6, class A7, class A8, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func8(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 8)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R (*M)(A1, A2, A3, A4, A5, A6, A7, A8, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
Var<A5> a5(vm, startIdx + 4);
Var<A6> a6(vm, startIdx + 5);
Var<A7> a7(vm, startIdx + 6);
Var<A8> a8(vm, startIdx + 7);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 8, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R ret = (*method)(
a1.value,
a2.value,
a3.value,
a4.value,
a5.value,
a6.value,
a7.value,
a8.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVar(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
};
//
// reference return specialization
//
template <class R>
class SqGlobalFmt<R&> {
public:
// Arg Count 0
template <bool overloaded /*= false*/>
static SQInteger Func0(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < 2) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R& (*M)(const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
const StackStrF fmt(vm, 2, true, sq_gettop(vm) == 2);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R& ret = (*method)(fmt);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVarR(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 1
template <class A1, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func1(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 1)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R& (*M)(A1, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 1, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R& ret = (*method)(
a1.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVarR(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 2
template <class A1, class A2, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func2(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 2)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R& (*M)(A1, A2, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 2, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R& ret = (*method)(
a1.value,
a2.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVarR(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 3
template <class A1, class A2, class A3, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func3(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 3)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R& (*M)(A1, A2, A3, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 3, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R& ret = (*method)(
a1.value,
a2.value,
a3.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVarR(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 4
template <class A1, class A2, class A3, class A4, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func4(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 4)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R& (*M)(A1, A2, A3, A4, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 4, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R& ret = (*method)(
a1.value,
a2.value,
a3.value,
a4.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVarR(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 5
template <class A1, class A2, class A3, class A4, class A5, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func5(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 5)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R& (*M)(A1, A2, A3, A4, A5, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
Var<A5> a5(vm, startIdx + 4);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 5, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R& ret = (*method)(
a1.value,
a2.value,
a3.value,
a4.value,
a5.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVarR(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 6
template <class A1, class A2, class A3, class A4, class A5, class A6, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func6(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 6)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R& (*M)(A1, A2, A3, A4, A5, A6, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
Var<A5> a5(vm, startIdx + 4);
Var<A6> a6(vm, startIdx + 5);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 6, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R& ret = (*method)(
a1.value,
a2.value,
a3.value,
a4.value,
a5.value,
a6.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVarR(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 7
template <class A1, class A2, class A3, class A4, class A5, class A6, class A7, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func7(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 7)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R& (*M)(A1, A2, A3, A4, A5, A6, A7, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
Var<A5> a5(vm, startIdx + 4);
Var<A6> a6(vm, startIdx + 5);
Var<A7> a7(vm, startIdx + 6);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 7, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R& ret = (*method)(
a1.value,
a2.value,
a3.value,
a4.value,
a5.value,
a6.value,
a7.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVarR(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
// Arg Count 8
template <class A1, class A2, class A3, class A4, class A5, class A6, class A7, class A8, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func8(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 8)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef R& (*M)(A1, A2, A3, A4, A5, A6, A7, A8, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
Var<A5> a5(vm, startIdx + 4);
Var<A6> a6(vm, startIdx + 5);
Var<A7> a7(vm, startIdx + 6);
Var<A8> a8(vm, startIdx + 7);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 8, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
R& ret = (*method)(
a1.value,
a2.value,
a3.value,
a4.value,
a5.value,
a6.value,
a7.value,
a8.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
PushVarR(vm, ret);
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 1;
}
};
//
// void return specialization
//
template <>
class SqGlobalFmt<void> {
public:
// Arg Count 0
template <bool overloaded /*= false*/>
static SQInteger Func0(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < 2) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef void (*M)(const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
const StackStrF fmt(vm, 2, true, sq_gettop(vm) == 2);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
(*method)(fmt);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 0;
}
// Arg Count 1
template <class A1, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func1(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 1)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef void (*M)(A1, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 1, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
(*method)(
a1.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 0;
}
// Arg Count 2
template <class A1, class A2, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func2(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 2)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef void (*M)(A1, A2, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 2, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
(*method)(
a1.value,
a2.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 0;
}
// Arg Count 3
template <class A1, class A2, class A3, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func3(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 3)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef void (*M)(A1, A2, A3, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 3, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
(*method)(
a1.value,
a2.value,
a3.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 0;
}
// Arg Count 4
template <class A1, class A2, class A3, class A4, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func4(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 4)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef void (*M)(A1, A2, A3, A4, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 4, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
(*method)(
a1.value,
a2.value,
a3.value,
a4.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 0;
}
// Arg Count 5
template <class A1, class A2, class A3, class A4, class A5, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func5(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 5)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef void (*M)(A1, A2, A3, A4, A5, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
Var<A5> a5(vm, startIdx + 4);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 5, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
(*method)(
a1.value,
a2.value,
a3.value,
a4.value,
a5.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 0;
}
// Arg Count 6
template <class A1, class A2, class A3, class A4, class A5, class A6, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func6(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 6)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef void (*M)(A1, A2, A3, A4, A5, A6, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
Var<A5> a5(vm, startIdx + 4);
Var<A6> a6(vm, startIdx + 5);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 6, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
(*method)(
a1.value,
a2.value,
a3.value,
a4.value,
a5.value,
a6.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 0;
}
// Arg Count 7
template <class A1, class A2, class A3, class A4, class A5, class A6, class A7, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func7(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 7)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef void (*M)(A1, A2, A3, A4, A5, A6, A7, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
Var<A5> a5(vm, startIdx + 4);
Var<A6> a6(vm, startIdx + 5);
Var<A7> a7(vm, startIdx + 6);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 7, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
(*method)(
a1.value,
a2.value,
a3.value,
a4.value,
a5.value,
a6.value,
a7.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 0;
}
// Arg Count 8
template <class A1, class A2, class A3, class A4, class A5, class A6, class A7, class A8, SQInteger startIdx, bool overloaded /*= false*/>
static SQInteger Func8(HSQUIRRELVM vm) {
#if !defined (SCRAT_NO_ERROR_CHECKING)
if (!SQRAT_CONST_CONDITION(overloaded) && sq_gettop(vm) < (startIdx + 8)) {
return sq_throwerror(vm, _SC("wrong number of parameters"));
}
#endif
typedef void (*M)(A1, A2, A3, A4, A5, A6, A7, A8, const StackStrF &);
M* method;
sq_getuserdata(vm, -1, (SQUserPointer*)&method, NULL);
SQTRY()
Var<A1> a1(vm, startIdx);
Var<A2> a2(vm, startIdx + 1);
Var<A3> a3(vm, startIdx + 2);
Var<A4> a4(vm, startIdx + 3);
Var<A5> a5(vm, startIdx + 4);
Var<A6> a6(vm, startIdx + 5);
Var<A7> a7(vm, startIdx + 6);
Var<A8> a8(vm, startIdx + 7);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
const StackStrF fmt(vm, startIdx + 8, true);
// Validate the format
if (SQ_FAILED(fmt.mRes)) {
return fmt.mRes;
}
(*method)(
a1.value,
a2.value,
a3.value,
a4.value,
a5.value,
a6.value,
a7.value,
a8.value,
fmt
);
SQCATCH_NOEXCEPT(vm) {
return sq_throwerror(vm, SQWHAT_NOEXCEPT(vm));
}
SQCATCH(vm) {
return sq_throwerror(vm, SQWHAT(vm));
}
return 0;
}
};
//
// Formatted Global Function Resolvers
//
// Arg Count 0
template <class R>
SQFUNCTION SqGlobalFmtFunc(R (* /*method*/)(const StackStrF &)) {
return &SqGlobalFmt<R>::template Func0<false>;
}
// Arg Count 0
template <class R>
SQFUNCTION SqGlobalFmtFunc(R& (* /*method*/)(const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func0<false>;
}
// Arg Count 1
template <class R, class A1>
SQFUNCTION SqGlobalFmtFunc(R (* /*method*/)(A1, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func1<A1, 2, false>;
}
// Arg Count 1
template <class R, class A1>
SQFUNCTION SqGlobalFmtFunc(R& (* /*method*/)(A1, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func1<A1, 2, false>;
}
// Arg Count 2
template <class R, class A1, class A2>
SQFUNCTION SqGlobalFmtFunc(R (* /*method*/)(A1, A2, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func2<A1, A2, 2, false>;
}
// Arg Count 2
template <class R, class A1, class A2>
SQFUNCTION SqGlobalFmtFunc(R& (* /*method*/)(A1, A2, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func2<A1, A2, 2, false>;
}
// Arg Count 3
template <class R, class A1, class A2, class A3>
SQFUNCTION SqGlobalFmtFunc(R (* /*method*/)(A1, A2, A3, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func3<A1, A2, A3, 2, false>;
}
// Arg Count 3
template <class R, class A1, class A2, class A3>
SQFUNCTION SqGlobalFmtFunc(R& (* /*method*/)(A1, A2, A3, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func3<A1, A2, A3, 2, false>;
}
// Arg Count 4
template <class R, class A1, class A2, class A3, class A4>
SQFUNCTION SqGlobalFmtFunc(R (* /*method*/)(A1, A2, A3, A4, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func4<A1, A2, A3, A4, 2, false>;
}
// Arg Count 4
template <class R, class A1, class A2, class A3, class A4>
SQFUNCTION SqGlobalFmtFunc(R& (* /*method*/)(A1, A2, A3, A4, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func4<A1, A2, A3, A4, 2, false>;
}
// Arg Count 5
template <class R, class A1, class A2, class A3, class A4, class A5>
SQFUNCTION SqGlobalFmtFunc(R (* /*method*/)(A1, A2, A3, A4, A5, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func5<A1, A2, A3, A4, A5, 2, false>;
}
// Arg Count 5
template <class R, class A1, class A2, class A3, class A4, class A5>
SQFUNCTION SqGlobalFmtFunc(R& (* /*method*/)(A1, A2, A3, A4, A5, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func5<A1, A2, A3, A4, A5, 2, false>;
}
// Arg Count 6
template <class R, class A1, class A2, class A3, class A4, class A5, class A6>
SQFUNCTION SqGlobalFmtFunc(R (* /*method*/)(A1, A2, A3, A4, A5, A6, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func6<A1, A2, A3, A4, A5, A6, 2, false>;
}
// Arg Count 6
template <class R, class A1, class A2, class A3, class A4, class A5, class A6>
SQFUNCTION SqGlobalFmtFunc(R& (* /*method*/)(A1, A2, A3, A4, A5, A6, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func6<A1, A2, A3, A4, A5, A6, 2, false>;
}
// Arg Count 7
template <class R, class A1, class A2, class A3, class A4, class A5, class A6, class A7>
SQFUNCTION SqGlobalFmtFunc(R (* /*method*/)(A1, A2, A3, A4, A5, A6, A7, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func7<A1, A2, A3, A4, A5, A6, A7, 2, false>;
}
// Arg Count 7
template <class R, class A1, class A2, class A3, class A4, class A5, class A6, class A7>
SQFUNCTION SqGlobalFmtFunc(R& (* /*method*/)(A1, A2, A3, A4, A5, A6, A7, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func7<A1, A2, A3, A4, A5, A6, A7, 2, false>;
}
// Arg Count 8
template <class R, class A1, class A2, class A3, class A4, class A5, class A6, class A7, class A8>
SQFUNCTION SqGlobalFmtFunc(R (* /*method*/)(A1, A2, A3, A4, A5, A6, A7, A8, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func8<A1, A2, A3, A4, A5, A6, A7, A8, 2, false>;
}
// Arg Count 8
template <class R, class A1, class A2, class A3, class A4, class A5, class A6, class A7, class A8>
SQFUNCTION SqGlobalFmtFunc(R& (* /*method*/)(A1, A2, A3, A4, A5, A6, A7, A8, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func8<A1, A2, A3, A4, A5, A6, A7, A8, 2, false>;
}
//
// Formatted Member Global Function Resolvers
//
// Arg Count 1
template <class R, class A1>
SQFUNCTION SqMemberGlobalFmtFunc(R (* /*method*/)(A1, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func1<A1, 1, false>;
}
// Arg Count 1
template <class R, class A1>
SQFUNCTION SqMemberGlobalFmtFunc(R& (* /*method*/)(A1, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func1<A1, 1, false>;
}
// Arg Count 2
template <class R, class A1, class A2>
SQFUNCTION SqMemberGlobalFmtFunc(R (* /*method*/)(A1, A2, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func2<A1, A2, 1, false>;
}
// Arg Count 2
template <class R, class A1, class A2>
SQFUNCTION SqMemberGlobalFmtFunc(R& (* /*method*/)(A1, A2, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func2<A1, A2, 1, false>;
}
// Arg Count 3
template <class R, class A1, class A2, class A3>
SQFUNCTION SqMemberGlobalFmtFunc(R (* /*method*/)(A1, A2, A3, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func3<A1, A2, A3, 1, false>;
}
// Arg Count 3
template <class R, class A1, class A2, class A3>
SQFUNCTION SqMemberGlobalFmtFunc(R& (* /*method*/)(A1, A2, A3, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func3<A1, A2, A3, 1, false>;
}
// Arg Count 4
template <class R, class A1, class A2, class A3, class A4>
SQFUNCTION SqMemberGlobalFmtFunc(R (* /*method*/)(A1, A2, A3, A4, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func4<A1, A2, A3, A4, 1, false>;
}
// Arg Count 4
template <class R, class A1, class A2, class A3, class A4>
SQFUNCTION SqMemberGlobalFmtFunc(R& (* /*method*/)(A1, A2, A3, A4, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func4<A1, A2, A3, A4, 1, false>;
}
// Arg Count 5
template <class R, class A1, class A2, class A3, class A4, class A5>
SQFUNCTION SqMemberGlobalFmtFunc(R (* /*method*/)(A1, A2, A3, A4, A5, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func5<A1, A2, A3, A4, A5, 1, false>;
}
// Arg Count 5
template <class R, class A1, class A2, class A3, class A4, class A5>
SQFUNCTION SqMemberGlobalFmtFunc(R& (* /*method*/)(A1, A2, A3, A4, A5, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func5<A1, A2, A3, A4, A5, 1, false>;
}
// Arg Count 6
template <class R, class A1, class A2, class A3, class A4, class A5, class A6>
SQFUNCTION SqMemberGlobalFmtFunc(R (* /*method*/)(A1, A2, A3, A4, A5, A6, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func6<A1, A2, A3, A4, A5, A6, 1, false>;
}
// Arg Count 6
template <class R, class A1, class A2, class A3, class A4, class A5, class A6>
SQFUNCTION SqMemberGlobalFmtFunc(R& (* /*method*/)(A1, A2, A3, A4, A5, A6, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func6<A1, A2, A3, A4, A5, A6, 1, false>;
}
// Arg Count 7
template <class R, class A1, class A2, class A3, class A4, class A5, class A6, class A7>
SQFUNCTION SqMemberGlobalFmtFunc(R (* /*method*/)(A1, A2, A3, A4, A5, A6, A7, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func7<A1, A2, A3, A4, A5, A6, A7, 1, false>;
}
// Arg Count 7
template <class R, class A1, class A2, class A3, class A4, class A5, class A6, class A7>
SQFUNCTION SqMemberGlobalFmtFunc(R& (* /*method*/)(A1, A2, A3, A4, A5, A6, A7, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func7<A1, A2, A3, A4, A5, A6, A7, 1, false>;
}
// Arg Count 8
template <class R, class A1, class A2, class A3, class A4, class A5, class A6, class A7, class A8>
SQFUNCTION SqMemberGlobalFmtFunc(R (* /*method*/)(A1, A2, A3, A4, A5, A6, A7, A8, const StackStrF &)) {
return &SqGlobalFmt<R>::template Func8<A1, A2, A3, A4, A5, A6, A7, A8, 1, false>;
}
// Arg Count 8
template <class R, class A1, class A2, class A3, class A4, class A5, class A6, class A7, class A8>
SQFUNCTION SqMemberGlobalFmtFunc(R& (* /*method*/)(A1, A2, A3, A4, A5, A6, A7, A8, const StackStrF &)) {
return &SqGlobalFmt<R&>::template Func8<A1, A2, A3, A4, A5, A6, A7, A8, 1, false>;
}
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/// @endcond
}
#endif