#ifndef _DEDEFS_H #define _DEDEFS_H /*------------------------------------------------------------------------- * drawElements Base Portability Library * ------------------------------------- * * Copyright 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * *//*! * \file * \brief Basic portability. *//*--------------------------------------------------------------------*/ /* Compilers. */ #define DE_COMPILER_VANILLA 0 /*!< Vanilla compiler. Used for disabling all platform-specific optimizations. */ #define DE_COMPILER_MSC 1 /*!< Microsoft Visual Studio. */ #define DE_COMPILER_GCC 2 /*!< Gnu C Compiler. */ #define DE_COMPILER_CLANG 3 /*!< LLVM Clang Compiler. */ /* Compiler detection. */ #if defined(_MSC_VER) # define DE_DETAIL_DETECTED_COMPILER DE_COMPILER_MSC #elif defined(__clang__) # define DE_DETAIL_DETECTED_COMPILER DE_COMPILER_CLANG #elif defined(__GNUC__) # define DE_DETAIL_DETECTED_COMPILER DE_COMPILER_GCC #else /* DE_DETAIL_DETECTED_COMPILER not set */ #endif /* Compiler setting. */ #if defined(DE_COMPILER) /* Allow definitions from outside, but fail early if it conflicts with our detection */ # if defined(DE_DETAIL_DETECTED_COMPILER) && (DE_COMPILER != DE_DETAIL_DETECTED_COMPILER) /* conflict, print a nice error messages for the most common misconfigs, * GCC and Clang, and a generic for other conflicts. */ # if (DE_DETAIL_DETECTED_COMPILER == DE_COMPILER_CLANG) && (DE_COMPILER == DE_COMPILER_GCC) # error Detected compiler is Clang, but got DE_COMPILER == DE_COMPILER_GCC # elif (DE_DETAIL_DETECTED_COMPILER == DE_COMPILER_GCC) && (DE_COMPILER == DE_COMPILER_CLANG) # error Detected compiler is GCC, but got DE_COMPILER == DE_COMPILER_CLANG # else # error Detected compiler does not match the supplied compiler. # endif # endif /* Clear autodetect vars. */ # if defined(DE_DETAIL_DETECTED_COMPILER) # undef DE_DETAIL_DETECTED_COMPILER # endif #else /* No definition given from outside, try to autodetect */ # if defined(DE_DETAIL_DETECTED_COMPILER) # define DE_COMPILER DE_DETAIL_DETECTED_COMPILER /*!< Compiler identification (set to one of DE_COMPILER_*). */ # else # error Unknown compiler. # endif #endif /* Operating systems. */ #define DE_OS_VANILLA 0 /*!< Vanilla OS. */ #define DE_OS_WIN32 1 /*!< Microsoft Windows desktop */ #define DE_OS_UNIX 2 /*!< Unix (or compatible) */ #define DE_OS_WINCE 3 /*!< Windows CE, Windows Mobile or Pocket PC */ #define DE_OS_OSX 4 /*!< Mac OS X */ #define DE_OS_ANDROID 5 /*!< Android */ #define DE_OS_SYMBIAN 6 /*!< Symbian OS */ #define DE_OS_IOS 7 /*!< iOS */ #define DE_OS_QNX 8 /*!< QNX */ /* OS detection (set to one of DE_OS_*). */ #if defined(DE_OS) /* Allow definitions from outside. */ #elif defined(__ANDROID__) # define DE_OS DE_OS_ANDROID #elif defined(_WIN32_WCE) || defined(UNDER_CE) # define DE_OS DE_OS_WINCE #elif defined(_WIN32) # define DE_OS DE_OS_WIN32 #elif defined(__unix__) || defined(__linux) || defined(__linux__) # define DE_OS DE_OS_UNIX #elif defined(__APPLE__) # define DE_OS DE_OS_OSX #elif defined(__EPOC32__) # define DE_OS DE_OS_SYMBIAN #elif defined(__QNX__) # define DE_OS DE_OS_QNX #else # error Unknown operating system. #endif /* CPUs */ #define DE_CPU_VANILLA 0 #define DE_CPU_X86 1 #define DE_CPU_ARM 2 #define DE_CPU_X86_64 3 #define DE_CPU_ARM_64 4 #define DE_CPU_MIPS 5 #define DE_CPU_MIPS_64 6 /* CPU detection. */ #if defined(DE_CPU) /* Allow definitions from outside. */ #elif defined(__aarch64__) # define DE_CPU DE_CPU_ARM_64 #elif defined(__arm__) || defined(__ARM__) || defined(__ARM_NEON__) || defined(ARM_BUILD) # define DE_CPU DE_CPU_ARM #elif defined(_M_X64) || defined(__x86_64__) || defined(__amd64__) # define DE_CPU DE_CPU_X86_64 #elif defined(__i386__) || defined(_M_X86) || defined(_M_IX86) || defined(X86_BUILD) # define DE_CPU DE_CPU_X86 #elif defined(__mips__) && ((__mips) == 32) # define DE_CPU DE_CPU_MIPS #elif defined(__mips__) && ((__mips) == 64) # define DE_CPU DE_CPU_MIPS_64 #else # error Unknown CPU. #endif /* Endianness */ #define DE_BIG_ENDIAN 0 #define DE_LITTLE_ENDIAN 1 #if defined(DE_ENDIANNESS) /* Allow definitions from outside. */ #elif (DE_CPU == DE_CPU_X86) || (DE_CPU == DE_CPU_X86_64) /* "detect" x86(_64) endianness */ # define DE_ENDIANNESS DE_LITTLE_ENDIAN #elif ((DE_CPU == DE_CPU_MIPS) || (DE_CPU == DE_CPU_MIPS_64)) /* detect mips endianness using platform specific macros */ # if defined(__MIPSEB__) && !defined(__MIPSEL__) # define DE_ENDIANNESS DE_BIG_ENDIAN # elif !defined(__MIPSEB__) && defined(__MIPSEL__) # define DE_ENDIANNESS DE_LITTLE_ENDIAN # else # error Invalid MIPS endianness. # endif #elif defined(__BYTE_ORDER__) && defined(__ORDER_LITTLE_ENDIAN__) && (__BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__) # define DE_ENDIANNESS DE_LITTLE_ENDIAN #elif defined(__BYTE_ORDER__) && defined(__ORDER_BIG_ENDIAN__) && (__BYTE_ORDER__ == __ORDER_BIG_ENDIAN__) # define DE_ENDIANNESS DE_BIG_ENDIAN #else # error Unknown endianness. #endif /* Sanity */ #if ((DE_CPU == DE_CPU_X86) || (DE_CPU == DE_CPU_X86_64)) && (DE_ENDIANNESS == DE_BIG_ENDIAN) # error Invalid x86(_64) endianness. #endif /* Sized data types. */ typedef signed char deInt8; typedef signed short deInt16; typedef signed int deInt32; typedef unsigned char deUint8; typedef unsigned short deUint16; typedef unsigned int deUint32; #if (DE_COMPILER == DE_COMPILER_MSC) typedef signed __int64 deInt64; typedef unsigned __int64 deUint64; # if (DE_OS == DE_OS_WINCE) # include typedef INT_PTR deIntptr; typedef UINT_PTR deUintptr; # elif (DE_OS == DE_OS_WIN32) # include typedef intptr_t deIntptr; typedef uintptr_t deUintptr; # else # error Define intptr types. # endif #elif (DE_COMPILER == DE_COMPILER_GCC) || (DE_COMPILER == DE_COMPILER_CLANG) /* \note stddef.h is needed for size_t definition. */ # include # include typedef int64_t deInt64; typedef uint64_t deUint64; typedef intptr_t deIntptr; typedef uintptr_t deUintptr; #else # error Define 64-bit and intptr types. #endif /** Boolean type. */ typedef int deBool; #define DE_TRUE 1 /*!< True value for deBool. */ #define DE_FALSE 0 /*!< False value for deBool. */ /* Null pointer. */ #if defined(__cplusplus) # define DE_NULL 0 #else # define DE_NULL ((void*)0) /*!< Null pointer. */ #endif /* Function pointer type. */ typedef void (*deFunctionPtr) (void); /* Use DE_PTR_TYPE(T) instead of T* in macros to avoid clang-tidy warning. */ #define DE_PTR_TYPE(T) T* /* NOLINT(T) */ /* Debug macro. */ #if defined(DE_DEBUG) /* Already defined from outside. */ #else # if (DE_COMPILER != DE_COMPILER_GCC) # if defined(_DEBUG) # define DE_DEBUG /*!< Debug build enabled? Usage: #if defined(DE_DEBUG). */ # endif # elif (DE_COMPILER == DE_COMPILER_GCC) || (DE_COMPILER == DE_COMPILER_CLANG) # if !defined(NDEBUG) # define DE_DEBUG # endif # endif #endif /* Debug code macro. */ #if defined(DE_DEBUG) # define DE_DEBUG_CODE(X) X #else # define DE_DEBUG_CODE(X) #endif /* Inline. */ #if (DE_COMPILER == DE_COMPILER_MSC) # define DE_INLINE __forceinline #elif (DE_COMPILER == DE_COMPILER_GCC) || (DE_COMPILER == DE_COMPILER_CLANG) # define DE_INLINE static __inline__ #else # define DE_INLINE inline /*!< Function inline. */ #endif /* DE_DEV_BUILD -- only define when building on a development machine. */ #if !defined(DE_DEV_BUILD) # if (DE_COMPILER == DE_COMPILER_MSC) # define DE_DEV_BUILD # endif #endif /* DE_VALGRIND_BUILD -- define this in makefile if support for Valgrind is wanted. */ /*#define DE_VALGRIND_BUILD*/ /** Length of array. C++ version does compile time check that passed value is an array reference. */ #if defined(__cplusplus) // deArraySizeHelper is a function that receives a reference to an array of N elements of type T and returns a reference to an // array of N chars. This forces the compiler to check the argument is an actual array and not some other type implementing // operator[]. The actual function is never defined anywhere, but taking the sizeof() of the result is allowed and equal to N. template char (&deArraySizeHelper(T (&array)[N]))[N]; # define DE_LENGTH_OF_ARRAY(ARRAY) ((int)(sizeof(deArraySizeHelper(ARRAY)))) #else # define DE_LENGTH_OF_ARRAY(ARRAY) ((int)(sizeof(ARRAY) / sizeof((ARRAY)[0]))) #endif #ifdef __cplusplus extern "C" { #endif /* Assertion macro family. */ void deAssertFail(const char* reason, const char* file, int line); /* Assertion failure callback. Requires DE_ASSERT_FAILURE_CALLBACK to be defined or otherwise has no effect. */ typedef void (*deAssertFailureCallbackFunc) (const char* reason, const char* file, int line); void deSetAssertFailureCallback (deAssertFailureCallbackFunc callback); DE_INLINE deBool deGetFalse (void) { return DE_FALSE; } DE_INLINE deBool deGetTrue (void) { return DE_TRUE; } /* Assertion macro. */ #if defined(DE_DEBUG) && !defined(DE_COVERAGE_BUILD) # define DE_ASSERT(X) do { if ((!deGetFalse() && (X)) ? DE_FALSE : DE_TRUE) deAssertFail(#X, __FILE__, __LINE__); } while(deGetFalse()) #else # define DE_ASSERT(X) /*@ -noeffect*/ ((void)0) /*!< Assertion macro. */ #endif /* Verify macro. Behaves like assert in debug build, but executes statement in release build. */ #if defined(DE_DEBUG) # define DE_VERIFY(X) do { if ((!deGetFalse() && (X)) ? DE_FALSE : DE_TRUE) deAssertFail(#X, __FILE__, __LINE__); } while(deGetFalse()) #else # define DE_VERIFY(X) X #endif /* Fatal macro. */ #if defined(DE_DEBUG) && !defined(DE_COVERAGE_BUILD) # define DE_FATAL(MSG) do { deAssertFail("" /* force to string literal */ MSG, __FILE__, __LINE__); } while(deGetFalse()) #else # define DE_FATAL(MSG) /*@ -noeffect*/ ((void)0) /*!< Fatal macro. */ #endif /** Test assert macro for use in testers (same as DE_ASSERT, but always enabled). */ #define DE_TEST_ASSERT(X) do { if ((!deGetFalse() && (X)) ? DE_FALSE : DE_TRUE) deAssertFail(#X, __FILE__, __LINE__); } while(deGetFalse()) #if (DE_COMPILER == DE_COMPILER_GCC) || (DE_COMPILER == DE_COMPILER_CLANG) /* GCC 4.8 and newer warns about unused typedefs. */ # define DE_UNUSED_ATTR __attribute__((unused)) #else # define DE_UNUSED_ATTR #endif /** Compile-time assertion macro. */ #define DE_STATIC_ASSERT(X) typedef char DE_UNIQUE_NAME[(X) ? 1 : -1] DE_UNUSED_ATTR #define DE_HEADER_STATIC_ASSERT(HEADERTOKEN, X) typedef char DE_HEADER_UNIQUE_NAME(HEADERTOKEN)[(X) ? 1 : -1] DE_UNUSED_ATTR #define DE_UNIQUE_NAME DE_MAKE_NAME(__LINE__, hoax) #define DE_HEADER_UNIQUE_NAME(HEADERTOKEN) DE_MAKE_NAME(__LINE__, HEADERTOKEN) #define DE_MAKE_NAME(line, token) DE_MAKE_NAME2(line, token) #define DE_MAKE_NAME2(line, token) _static_assert_##line##_##token /** Software breakpoint. */ #if (DE_CPU == DE_CPU_X86) && (DE_COMPILER == DE_COMPILER_MSC) # define DE_BREAKPOINT() do { printf("Software breakpoint encountered in %s, line %d\n", __FILE__, __LINE__); __asm { int 3 } } while (deGetFalse()) #elif (DE_CPU == DE_CPU_X86_64) && (DE_COMPILER == DE_COMPILER_MSC) # define DE_BREAKPOINT() do { printf("Software breakpoint encountered in %s, line %d\n", __FILE__, __LINE__); __debugbreak(); } while (deGetFalse()) #elif (DE_CPU == DE_CPU_ARM) && (DE_COMPILER == DE_COMPILER_GCC) # define DE_BREAKPOINT() do { printf("Software breakpoint encountered in %s, line %d\n", __FILE__, __LINE__); __asm__ __volatile__ ( "bkpt #3" ); } while (deGetFalse()) #elif (DE_CPU == DE_CPU_ARM_64) && (DE_COMPILER == DE_COMPILER_GCC) # define DE_BREAKPOINT() do { printf("Software breakpoint encountered in %s, line %d\n", __FILE__, __LINE__); __asm__ __volatile__ ( "brk #3" ); } while (deGetFalse()) #elif ((DE_CPU == DE_CPU_ARM) || (DE_CPU == DE_CPU_ARM_64)) && (DE_COMPILER == DE_COMPILER_MSC) # define DE_BREAKPOINT() do { printf("Software breakpoint encountered in %s, line %d\n", __FILE__, __LINE__); DebugBreak(); } while (deGetFalse()) #else # define DE_BREAKPOINT() DE_FATAL("Software breakpoint encountered!") #endif /** Swap two values. */ #define DE_SWAP(TYPE, A, B) do { TYPE _tmp_ = (A); (A) = (B); (B) = _tmp_; } while(deGetFalse()) /** Offset of a struct member. */ #define DE_OFFSET_OF(STRUCT, MEMBER) ((deUint32)(deUintptr)(deUint8*)&(((STRUCT*)0)->MEMBER)) /** Used in enum to easify declarations for struct serialization. Declares 'NAME'_OFFSET, 'NAME'_SIZE, and offsets counter for next enum value by SIZE. */ #define DE_SERIALIZED_FIELD(NAME, SIZE) NAME ## _OFFSET, NAME ## _SIZE = (SIZE), _DE_TMP_ ## NAME = NAME ## _OFFSET + (SIZE) - 1 /* Pointer size. */ #if defined(DE_PTR_SIZE) /* nada */ #elif defined(_M_X64) || defined(__x86_64__) || defined(__amd64__) || defined(__aarch64__) || (defined(__mips) && ((__mips) == 64)) || defined(_LP64) || defined(__LP64__) # define DE_PTR_SIZE 8 #else # define DE_PTR_SIZE 4 /* default to 32-bit */ #endif /** Unreferenced variable silencing. */ #define DE_UNREF(VAR) ((void)(VAR)) /** DE_BEGIN_EXTERN_C and DE_END_EXTERN_C. */ #if defined(__cplusplus) # define DE_BEGIN_EXTERN_C extern "C" { # define DE_END_EXTERN_C } #else # define DE_BEGIN_EXTERN_C # define DE_END_EXTERN_C #endif /** DE_NULL_STATEMENT */ #if defined(DE_DEBUG) # define DE_NULL_STATEMENT do {} while (deGetFalse()) #else # define DE_NULL_STATEMENT (void)0 #endif /** GCC format string attributes */ #if (DE_COMPILER == DE_COMPILER_GCC) || (DE_COMPILER == DE_COMPILER_CLANG) # define DE_PRINTF_FUNC_ATTR(FORMAT_STRING, FIRST_ARG) __attribute__ ((format(printf, FORMAT_STRING, FIRST_ARG))) #else # define DE_PRINTF_FUNC_ATTR(FORMAT_STRING, FIRST_ARG) #endif /** Potentially unused func attribute to silence warnings from C templates. */ #if (DE_COMPILER == DE_COMPILER_GCC) || (DE_COMPILER == DE_COMPILER_CLANG) # define DE_UNUSED_FUNCTION __attribute__((unused)) #else # define DE_UNUSED_FUNCTION #endif #ifdef __cplusplus } #endif #endif /* _DEDEFS_H */