LearnWithTouch/App/LearnWithTouch_ios/Libraries/libil2cpp/include/codegen/il2cpp-codegen-common.h

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2019-07-01 14:33:21 +02:00
#pragma once
#include "il2cpp-config.h"
#include <cassert>
#include <cstdlib>
#include <limits>
#include <string>
#include <math.h>
#include <vector>
#include "il2cpp-object-internals.h"
#include "il2cpp-class-internals.h"
#include "il2cpp-tabledefs.h"
#include "gc/GarbageCollector.h"
#include "vm/PlatformInvoke.h"
#include "vm/StackTrace.h"
#include "vm/PlatformInvoke.h"
#include "vm/StackTrace.h"
#include "vm-utils/Debugger.h"
#include "utils/StringUtils.h"
#include "utils/StringView.h"
#include "utils/Exception.h"
#include "utils/Output.h"
#include "utils/Runtime.h"
REAL_NORETURN IL2CPP_NO_INLINE void il2cpp_codegen_no_return();
#if IL2CPP_COMPILER_MSVC
#define DEFAULT_CALL STDCALL
#else
#define DEFAULT_CALL
#endif
#if defined(__ARMCC_VERSION)
inline double bankers_round(double x)
{
return __builtin_round(x);
}
inline float bankers_roundf(float x)
{
return __builtin_roundf(x);
}
#else
inline double bankers_round(double x)
{
double integerPart;
if (x >= 0.0)
{
if (modf(x, &integerPart) == 0.5)
return (int64_t)integerPart % 2 == 0 ? integerPart : integerPart + 1.0;
return floor(x + 0.5);
}
else
{
if (modf(x, &integerPart) == -0.5)
return (int64_t)integerPart % 2 == 0 ? integerPart : integerPart - 1.0;
return ceil(x - 0.5);
}
}
inline float bankers_roundf(float x)
{
double integerPart;
if (x >= 0.0f)
{
if (modf(x, &integerPart) == 0.5)
return (int64_t)integerPart % 2 == 0 ? (float)integerPart : (float)integerPart + 1.0f;
return floorf(x + 0.5f);
}
else
{
if (modf(x, &integerPart) == -0.5)
return (int64_t)integerPart % 2 == 0 ? (float)integerPart : (float)integerPart - 1.0f;
return ceilf(x - 0.5f);
}
}
#endif
// returns true if overflow occurs
inline bool il2cpp_codegen_check_mul_overflow_i64(int64_t a, int64_t b, int64_t imin, int64_t imax)
{
// TODO: use a better algorithm without division
uint64_t ua = (uint64_t)llabs(a);
uint64_t ub = (uint64_t)llabs(b);
uint64_t c;
if ((a > 0 && b > 0) || (a <= 0 && b <= 0))
c = (uint64_t)llabs(imax);
else
c = (uint64_t)llabs(imin);
return ua != 0 && ub > c / ua;
}
inline bool il2cpp_codegen_check_mul_oveflow_u64(uint64_t a, uint64_t b)
{
return b != 0 && (a * b) / b != a;
}
inline int32_t il2cpp_codegen_abs(uint32_t value)
{
return abs(static_cast<int32_t>(value));
}
inline int32_t il2cpp_codegen_abs(int32_t value)
{
return abs(value);
}
inline int64_t il2cpp_codegen_abs(uint64_t value)
{
return llabs(static_cast<int64_t>(value));
}
inline int64_t il2cpp_codegen_abs(int64_t value)
{
return llabs(value);
}
// Exception support macros
#define IL2CPP_LEAVE(Offset, Target) \
__leave_target = Offset; \
goto Target;
#define IL2CPP_END_FINALLY(Id) \
goto __CLEANUP_ ## Id;
#define IL2CPP_CLEANUP(Id) \
__CLEANUP_ ## Id:
#define IL2CPP_RETHROW_IF_UNHANDLED(ExcType) \
if(__last_unhandled_exception) { \
ExcType _tmp_exception_local = __last_unhandled_exception; \
__last_unhandled_exception = 0; \
il2cpp_codegen_raise_exception(_tmp_exception_local); \
}
#define IL2CPP_JUMP_TBL(Offset, Target) \
if(__leave_target == Offset) { \
__leave_target = 0; \
goto Target; \
}
#define IL2CPP_END_CLEANUP(Offset, Target) \
if(__leave_target == Offset) \
goto Target;
#if IL2CPP_MONO_DEBUGGER
#define IL2CPP_RAISE_MANAGED_EXCEPTION(message, seqPoint, lastManagedFrame) \
do {\
il2cpp_codegen_raise_exception((Exception_t*)message, seqPoint, (MethodInfo*)lastManagedFrame);\
il2cpp_codegen_no_return();\
} while (0)
#else
#define IL2CPP_RAISE_MANAGED_EXCEPTION(message, seqPoint, lastManagedFrame) \
do {\
il2cpp_codegen_raise_exception((Exception_t*)message, NULL, (MethodInfo*)lastManagedFrame);\
il2cpp_codegen_no_return();\
} while (0)
#endif
template<typename T>
inline void Il2CppCodeGenWriteBarrier(T** targetAddress, T* object)
{
il2cpp::gc::GarbageCollector::SetWriteBarrier((void**)targetAddress);
}
void il2cpp_codegen_memory_barrier();
template<typename T>
inline T VolatileRead(T* location)
{
T result = *location;
il2cpp_codegen_memory_barrier();
return result;
}
template<typename T>
inline void VolatileWrite(T** location, T* value)
{
il2cpp_codegen_memory_barrier();
*location = value;
Il2CppCodeGenWriteBarrier(location, value);
}
template<typename T>
inline void VolatileWrite(T* location, T value)
{
il2cpp_codegen_memory_barrier();
*location = value;
}
inline void il2cpp_codegen_write_to_stdout(const char* str)
{
il2cpp::utils::Output::WriteToStdout(str);
}
inline void il2cpp_codegen_write_to_stderr(const char* str)
{
il2cpp::utils::Output::WriteToStderr(str);
}
inline REAL_NORETURN void il2cpp_codegen_abort()
{
il2cpp::utils::Runtime::Abort();
il2cpp_codegen_no_return();
}
inline bool il2cpp_codegen_check_add_overflow(int64_t left, int64_t right)
{
return (right >= 0 && left > kIl2CppInt64Max - right) ||
(left < 0 && right < kIl2CppInt64Min - left);
}
inline bool il2cpp_codegen_check_sub_overflow(int64_t left, int64_t right)
{
return (right >= 0 && left < kIl2CppInt64Min + right) ||
(right < 0 && left > kIl2CppInt64Max + right);
}
template<bool, class T, class U>
struct pick_first;
template<class T, class U>
struct pick_first<true, T, U>
{
typedef T type;
};
template<class T, class U>
struct pick_first<false, T, U>
{
typedef U type;
};
template<class T, class U>
struct pick_bigger
{
typedef typename pick_first<(sizeof(T) >= sizeof(U)), T, U>::type type;
};
template<typename T, typename U>
inline typename pick_bigger<T, U>::type il2cpp_codegen_multiply(T left, U right)
{
return left * right;
}
template<typename T, typename U>
inline typename pick_bigger<T, U>::type il2cpp_codegen_add(T left, U right)
{
return left + right;
}
template<typename T, typename U>
inline typename pick_bigger<T, U>::type il2cpp_codegen_subtract(T left, U right)
{
return left - right;
}
inline void il2cpp_codegen_memcpy(void* dest, const void* src, size_t count)
{
memcpy(dest, src, count);
}
inline void il2cpp_codegen_memset(void* ptr, int value, size_t num)
{
memset(ptr, value, num);
}
#if IL2CPP_MONO_DEBUGGER
extern volatile uint32_t g_Il2CppDebuggerCheckPointEnabled;
#endif
inline void il2cpp_codegen_register_debugger_data(const Il2CppDebuggerMetadataRegistration *data)
{
#if IL2CPP_MONO_DEBUGGER
il2cpp::utils::Debugger::RegisterSequencePointCheck(&g_Il2CppDebuggerCheckPointEnabled);
il2cpp::utils::Debugger::RegisterMetadata(data);
#endif
}
inline void il2cpp_codegen_check_sequence_point(Il2CppSequencePointExecutionContext* executionContext, size_t seqPointId)
{
#if IL2CPP_MONO_DEBUGGER
if (g_Il2CppDebuggerCheckPointEnabled)
il2cpp::utils::Debugger::CheckSequencePoint(executionContext, seqPointId);
#endif
}
inline void il2cpp_codegen_check_pause_point()
{
#if IL2CPP_MONO_DEBUGGER
if (g_Il2CppDebuggerCheckPointEnabled)
il2cpp::utils::Debugger::CheckPausePoint();
#endif
}
inline Il2CppSequencePoint* il2cpp_codegen_get_sequence_point(size_t id)
{
#if IL2CPP_MONO_DEBUGGER
return il2cpp::utils::Debugger::GetSequencePoint(id);
#else
return NULL;
#endif
}
class MethodExitSequencePointChecker
{
private:
size_t m_pSeqPoint;
Il2CppSequencePointExecutionContext* m_seqPointStorage;
public:
MethodExitSequencePointChecker(Il2CppSequencePointExecutionContext* seqPointStorage, size_t seqPointId) :
m_seqPointStorage(seqPointStorage), m_pSeqPoint(seqPointId)
{
}
~MethodExitSequencePointChecker()
{
#if IL2CPP_MONO_DEBUGGER
il2cpp_codegen_check_sequence_point(m_seqPointStorage, m_pSeqPoint);
#endif
}
};
#ifdef _MSC_VER
#define IL2CPP_DISABLE_OPTIMIZATIONS __pragma(optimize("", off))
#define IL2CPP_ENABLE_OPTIMIZATIONS __pragma(optimize("", on))
#else
#define IL2CPP_DISABLE_OPTIMIZATIONS __attribute__ ((optnone))
#define IL2CPP_ENABLE_OPTIMIZATIONS
#endif
// NativeArray macros
#define IL2CPP_NATIVEARRAY_GET_ITEM(TElementType, TTField, TIndex) \
*(reinterpret_cast<TElementType*>(TTField) + TIndex)
#define IL2CPP_NATIVEARRAY_SET_ITEM(TElementType, TTField, TIndex, TValue) \
*(reinterpret_cast<TElementType*>(TTField) + TIndex) = TValue;
#define IL2CPP_NATIVEARRAY_GET_LENGTH(TLengthField) \
(TLengthField)
// Array Unsafe
#define IL2CPP_ARRAY_UNSAFE_LOAD(TArray, TIndex) \
(TArray)->GetAtUnchecked(static_cast<il2cpp_array_size_t>(TIndex))
inline bool il2cpp_codegen_object_reference_equals(const RuntimeObject *obj1, const RuntimeObject *obj2)
{
return obj1 == obj2;
}