Mercurial > sdl-ios-xcode
view src/atomic/qnx/SDL_atomic.c @ 3230:816a7a65a59a
Fixed compiling SDL_fsaudio.c against fusionsound 1.0.0
author | Couriersud <couriersud@arcor.de> |
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date | Mon, 03 Aug 2009 18:07:31 +0000 |
parents | 26ce0b98f2fb |
children | 70bfe3337f8a |
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/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2009 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA Sam Lantinga slouken@libsdl.org */ #include "SDL_stdinc.h" #include "SDL_atomic.h" #include <atomic.h> /* This file provides 8, 16, 32, and 64 bit atomic operations. If the operations are provided by the native hardware and operating system they are used. If they are not then the operations are emulated using the SDL mutex operations. */ /* First, detect whether the operations are supported and create #defines that indicate that they do exist. The goal is to have all the system dependent code in the top part of the file so that the bottom can be use unchanged across all platforms. Second, #define all the operations in each size class that are supported. Doing this allows supported operations to be used along side of emulated operations. */ /* Emmulated version. Assume there is no support for atomic operations. All such operations are implemented using SDL mutex operations. */ #ifdef EMULATED_ATOMIC_OPERATIONS #undef EMULATED_ATOMIC_OPERATIONS #endif #ifdef EMULATED_ATOMIC_OPERATIONS #define HAVE_ALL_8_BIT_OPS #define nativeExchange8(ptr, value) () #define nativeCompareThenSet8(ptr, oldvalue, newvalue) () #define nativeTestThenSet8(ptr) () #define nativeClear8(ptr) () #define nativeFetchThenIncrement8(ptr) () #define nativeFetchThenDecrement8(ptr) () #define nativeFetchThenAdd8(ptr, value) () #define nativeFetchThenSubtract8(ptr, value) () #define nativeIncrementThenFetch8(ptr) () #define nativeDecrementThenFetch8(ptr) () #define nativeAddThenFetch8(ptr, value) () #define nativeSubtractThenFetch8(ptr, value) () #endif #ifdef EMULATED_ATOMIC_OPERATIONS #define HAVE_ALL_16_BIT_OPS #define nativeExchange16(ptr, value) () #define nativeCompareThenSet16(ptr, oldvalue, newvalue) () #define nativeTestThenSet16(ptr) () #define nativeClear16(ptr) () #define nativeFetchThenIncrement16(ptr) () #define nativeFetchThenDecrement16(ptr) () #define nativeFetchThenAdd16(ptr, value) () #define nativeFetchThenSubtract16(ptr, value) () #define nativeIncrementThenFetch16(ptr) () #define nativeDecrementThenFetch16(ptr) () #define nativeAddThenFetch16(ptr, value) () #define nativeSubtractThenFetch16(ptr, value) () #endif #ifdef EMULATED_ATOMIC_OPERATIONS #define HAVE_ALL_64_BIT_OPS #define nativeExchange64(ptr, value) () #define nativeCompareThenSet64(ptr, oldvalue, newvalue) () #define nativeTestThenSet64(ptr) () #define nativeClear64(ptr) () #define nativeFetchThenIncrement64(ptr) () #define nativeFetchThenDecrement64(ptr) () #define nativeFetchThenAdd64(ptr, value) () #define nativeFetchThenSubtract64(ptr, value) () #define nativeIncrementThenFetch64(ptr) () #define nativeDecrementThenFetch64(ptr) () #define nativeAddThenFetch64(ptr, value) () #define nativeSubtractThenFetch64(ptr, value) () #endif /* If any of the operations are not provided then we must emulate some of them. */ #if !defined(HAVE_ALL_8_BIT_OPS) || !defined(HAVE_ALL_16_BIT_OPS) || !defined(HAVE_ALL_64_BIT_OPS) #include "SDL_mutex.h" #include "SDL_error.h" static SDL_mutex * lock = NULL; static __inline__ void privateWaitLock() { if(NULL == lock) { lock = SDL_CreateMutex(); if (NULL == lock) { SDL_SetError("SDL_atomic.c: can't create a mutex"); return; } } if (-1 == SDL_LockMutex(lock)) { SDL_SetError("SDL_atomic.c: can't lock mutex"); } } static __inline__ void privateUnlock() { if (-1 == SDL_UnlockMutex(lock)) { SDL_SetError("SDL_atomic.c: can't unlock mutex"); } } #endif /* 8 bit atomic operations */ Uint8 SDL_AtomicExchange8(volatile Uint8 * ptr, Uint8 value) { #ifdef nativeExchange8 return nativeExchange8(ptr, value); #else Uint8 tmp = 0; privateWaitLock(); tmp = *ptr; *ptr = value; privateUnlock(); return tmp; #endif } SDL_bool SDL_AtomicCompareThenSet8(volatile Uint8 * ptr, Uint8 oldvalue, Uint8 newvalue) { #ifdef nativeCompareThenSet8 return (SDL_bool)nativeCompareThenSet8(ptr, oldvalue, newvalue); #else SDL_bool result = SDL_FALSE; privateWaitLock(); result = (*ptr == oldvalue); if (result) { *ptr = newvalue; } privateUnlock(); return result; #endif } SDL_bool SDL_AtomicTestThenSet8(volatile Uint8 * ptr) { #ifdef nativeTestThenSet8 return (SDL_bool)nativeTestThenSet8(ptr); #else SDL_bool result = SDL_FALSE; privateWaitLock(); result = (*ptr == 0); if (result) { *ptr = 1; } privateUnlock(); return result; #endif } void SDL_AtomicClear8(volatile Uint8 * ptr) { #ifdef nativeClear8 nativeClear8(ptr); #else privateWaitLock(); *ptr = 0; privateUnlock(); return; #endif } Uint8 SDL_AtomicFetchThenIncrement8(volatile Uint8 * ptr) { #ifdef nativeFetchThenIncrement8 return nativeFetchThenIncrement8(ptr); #else Uint8 tmp = 0; privateWaitLock(); tmp = *ptr; (*ptr)+= 1; privateUnlock(); return tmp; #endif } Uint8 SDL_AtomicFetchThenDecrement8(volatile Uint8 * ptr) { #ifdef nativeFetchThenDecrement8 return nativeFetchThenDecrement8(ptr); #else Uint8 tmp = 0; privateWaitLock(); tmp = *ptr; (*ptr) -= 1; privateUnlock(); return tmp; #endif } Uint8 SDL_AtomicFetchThenAdd8(volatile Uint8 * ptr, Uint8 value) { #ifdef nativeFetchThenAdd8 return nativeFetchThenAdd8(ptr, value); #else Uint8 tmp = 0; privateWaitLock(); tmp = *ptr; (*ptr)+= value; privateUnlock(); return tmp; #endif } Uint8 SDL_AtomicFetchThenSubtract8(volatile Uint8 * ptr, Uint8 value) { #ifdef nativeFetchThenSubtract8 return nativeFetchThenSubtract8(ptr, value); #else Uint8 tmp = 0; privateWaitLock(); tmp = *ptr; (*ptr)-= value; privateUnlock(); return tmp; #endif } Uint8 SDL_AtomicIncrementThenFetch8(volatile Uint8 * ptr) { #ifdef nativeIncrementThenFetch8 return nativeIncrementThenFetch8(ptr); #else Uint8 tmp = 0; privateWaitLock(); (*ptr)+= 1; tmp = *ptr; privateUnlock(); return tmp; #endif } Uint8 SDL_AtomicDecrementThenFetch8(volatile Uint8 * ptr) { #ifdef nativeDecrementThenFetch8 return nativeDecrementThenFetch8(ptr); #else Uint8 tmp = 0; privateWaitLock(); (*ptr)-= 1; tmp = *ptr; privateUnlock(); return tmp; #endif } Uint8 SDL_AtomicAddThenFetch8(volatile Uint8 * ptr, Uint8 value) { #ifdef nativeAddThenFetch8 return nativeAddThenFetch8(ptr, value); #else Uint8 tmp = 0; privateWaitLock(); (*ptr)+= value; tmp = *ptr; privateUnlock(); return tmp; #endif } Uint8 SDL_AtomicSubtractThenFetch8(volatile Uint8 * ptr, Uint8 value) { #ifdef nativeSubtractThenFetch8 return nativeSubtractThenFetch8(ptr, value); #else Uint8 tmp = 0; privateWaitLock(); (*ptr)-= value; tmp = *ptr; privateUnlock(); return tmp; #endif } /* 16 bit atomic operations */ Uint16 SDL_AtomicExchange16(volatile Uint16 * ptr, Uint16 value) { #ifdef nativeExchange16 return nativeExchange16(ptr, value); #else Uint16 tmp = 0; privateWaitLock(); tmp = *ptr; *ptr = value; privateUnlock(); return tmp; #endif } SDL_bool SDL_AtomicCompareThenSet16(volatile Uint16 * ptr, Uint16 oldvalue, Uint16 newvalue) { #ifdef nativeCompareThenSet16 return (SDL_bool)nativeCompareThenSet16(ptr, oldvalue, newvalue); #else SDL_bool result = SDL_FALSE; privateWaitLock(); result = (*ptr == oldvalue); if (result) { *ptr = newvalue; } privateUnlock(); return result; #endif } SDL_bool SDL_AtomicTestThenSet16(volatile Uint16 * ptr) { #ifdef nativeTestThenSet16 return (SDL_bool)nativeTestThenSet16(ptr); #else SDL_bool result = SDL_FALSE; privateWaitLock(); result = (*ptr == 0); if (result) { *ptr = 1; } privateUnlock(); return result; #endif } void SDL_AtomicClear16(volatile Uint16 * ptr) { #ifdef nativeClear16 nativeClear16(ptr); #else privateWaitLock(); *ptr = 0; privateUnlock(); return; #endif } Uint16 SDL_AtomicFetchThenIncrement16(volatile Uint16 * ptr) { #ifdef nativeFetchThenIncrement16 return nativeFetchThenIncrement16(ptr); #else Uint16 tmp = 0; privateWaitLock(); tmp = *ptr; (*ptr)+= 1; privateUnlock(); return tmp; #endif } Uint16 SDL_AtomicFetchThenDecrement16(volatile Uint16 * ptr) { #ifdef nativeFetchThenDecrement16 return nativeFetchThenDecrement16(ptr); #else Uint16 tmp = 0; privateWaitLock(); tmp = *ptr; (*ptr) -= 1; privateUnlock(); return tmp; #endif } Uint16 SDL_AtomicFetchThenAdd16(volatile Uint16 * ptr, Uint16 value) { #ifdef nativeFetchThenAdd16 return nativeFetchThenAdd16(ptr, value); #else Uint16 tmp = 0; privateWaitLock(); tmp = *ptr; (*ptr)+= value; privateUnlock(); return tmp; #endif } Uint16 SDL_AtomicFetchThenSubtract16(volatile Uint16 * ptr, Uint16 value) { #ifdef nativeFetchThenSubtract16 return nativeFetchThenSubtract16(ptr, value); #else Uint16 tmp = 0; privateWaitLock(); tmp = *ptr; (*ptr)-= value; privateUnlock(); return tmp; #endif } Uint16 SDL_AtomicIncrementThenFetch16(volatile Uint16 * ptr) { #ifdef nativeIncrementThenFetch16 return nativeIncrementThenFetch16(ptr); #else Uint16 tmp = 0; privateWaitLock(); (*ptr)+= 1; tmp = *ptr; privateUnlock(); return tmp; #endif } Uint16 SDL_AtomicDecrementThenFetch16(volatile Uint16 * ptr) { #ifdef nativeDecrementThenFetch16 return nativeDecrementThenFetch16(ptr); #else Uint16 tmp = 0; privateWaitLock(); (*ptr)-= 1; tmp = *ptr; privateUnlock(); return tmp; #endif } Uint16 SDL_AtomicAddThenFetch16(volatile Uint16 * ptr, Uint16 value) { #ifdef nativeAddThenFetch16 return nativeAddThenFetch16(ptr, value); #else Uint16 tmp = 0; privateWaitLock(); (*ptr)+= value; tmp = *ptr; privateUnlock(); return tmp; #endif } Uint16 SDL_AtomicSubtractThenFetch16(volatile Uint16 * ptr, Uint16 value) { #ifdef nativeSubtractThenFetch16 return nativeSubtractThenFetch16(ptr, value); #else Uint16 tmp = 0; privateWaitLock(); (*ptr)-= value; tmp = *ptr; privateUnlock(); return tmp; #endif } /* 64 bit atomic operations */ #ifdef SDL_HAS_64BIT_TYPE Uint64 SDL_AtomicExchange64(volatile Uint64 * ptr, Uint64 value) { #ifdef nativeExchange64 return nativeExchange64(ptr, value); #else Uint64 tmp = 0; privateWaitLock(); tmp = *ptr; *ptr = value; privateUnlock(); return tmp; #endif } SDL_bool SDL_AtomicCompareThenSet64(volatile Uint64 * ptr, Uint64 oldvalue, Uint64 newvalue) { #ifdef nativeCompareThenSet64 return (SDL_bool)nativeCompareThenSet64(ptr, oldvalue, newvalue); #else SDL_bool result = SDL_FALSE; privateWaitLock(); result = (*ptr == oldvalue); if (result) { *ptr = newvalue; } privateUnlock(); return result; #endif } SDL_bool SDL_AtomicTestThenSet64(volatile Uint64 * ptr) { #ifdef nativeTestThenSet64 return (SDL_bool)nativeTestThenSet64(ptr); #else SDL_bool result = SDL_FALSE; privateWaitLock(); result = (*ptr == 0); if (result) { *ptr = 1; } privateUnlock(); return result; #endif } void SDL_AtomicClear64(volatile Uint64 * ptr) { #ifdef nativeClear64 nativeClear64(ptr); #else privateWaitLock(); *ptr = 0; privateUnlock(); return; #endif } Uint64 SDL_AtomicFetchThenIncrement64(volatile Uint64 * ptr) { #ifdef nativeFetchThenIncrement64 return nativeFetchThenIncrement64(ptr); #else Uint64 tmp = 0; privateWaitLock(); tmp = *ptr; (*ptr)+= 1; privateUnlock(); return tmp; #endif } Uint64 SDL_AtomicFetchThenDecrement64(volatile Uint64 * ptr) { #ifdef nativeFetchThenDecrement64 return nativeFetchThenDecrement64(ptr); #else Uint64 tmp = 0; privateWaitLock(); tmp = *ptr; (*ptr) -= 1; privateUnlock(); return tmp; #endif } Uint64 SDL_AtomicFetchThenAdd64(volatile Uint64 * ptr, Uint64 value) { #ifdef nativeFetchThenAdd64 return nativeFetchThenAdd64(ptr, value); #else Uint64 tmp = 0; privateWaitLock(); tmp = *ptr; (*ptr)+= value; privateUnlock(); return tmp; #endif } Uint64 SDL_AtomicFetchThenSubtract64(volatile Uint64 * ptr, Uint64 value) { #ifdef nativeFetchThenSubtract64 return nativeFetchThenSubtract64(ptr, value); #else Uint64 tmp = 0; privateWaitLock(); tmp = *ptr; (*ptr)-= value; privateUnlock(); return tmp; #endif } Uint64 SDL_AtomicIncrementThenFetch64(volatile Uint64 * ptr) { #ifdef nativeIncrementThenFetch64 return nativeIncrementThenFetch64(ptr); #else Uint64 tmp = 0; privateWaitLock(); (*ptr)+= 1; tmp = *ptr; privateUnlock(); return tmp; #endif } Uint64 SDL_AtomicDecrementThenFetch64(volatile Uint64 * ptr) { #ifdef nativeDecrementThenFetch64 return nativeDecrementThenFetch64(ptr); #else Uint64 tmp = 0; privateWaitLock(); (*ptr)-= 1; tmp = *ptr; privateUnlock(); return tmp; #endif } Uint64 SDL_AtomicAddThenFetch64(volatile Uint64 * ptr, Uint64 value) { #ifdef nativeAddThenFetch64 return nativeAddThenFetch64(ptr, value); #else Uint64 tmp = 0; privateWaitLock(); (*ptr)+= value; tmp = *ptr; privateUnlock(); return tmp; #endif } Uint64 SDL_AtomicSubtractThenFetch64(volatile Uint64 * ptr, Uint64 value) { #ifdef nativeSubtractThenFetch64 return nativeSubtractThenFetch64(ptr, value); #else Uint64 tmp = 0; privateWaitLock(); (*ptr)-= value; tmp = *ptr; privateUnlock(); return tmp; #endif } #endif /* QNX native 32 bit atomic operations */ Uint32 SDL_AtomicExchange32(volatile Uint32 * ptr, Uint32 value) { Uint32 tmp = 0; privateWaitLock(); tmp = *ptr; *ptr = value; privateUnlock(); return tmp; } SDL_bool SDL_AtomicCompareThenSet32(volatile Uint32 * ptr, Uint32 oldvalue, Uint32 newvalue) { SDL_bool result = SDL_FALSE; privateWaitLock(); result = (*ptr == oldvalue); if (result) { *ptr = newvalue; } privateUnlock(); return result; } SDL_bool SDL_AtomicTestThenSet32(volatile Uint32 * ptr) { SDL_bool result = SDL_FALSE; privateWaitLock(); result = (*ptr == 0); if (result) { *ptr = 1; } privateUnlock(); return result; } void SDL_AtomicClear32(volatile Uint32 * ptr) { atomic_clr(ptr, 0xFFFFFFFF); } Uint32 SDL_AtomicFetchThenIncrement32(volatile Uint32 * ptr) { return atomic_add_value(ptr, 0x00000001); } Uint32 SDL_AtomicFetchThenDecrement32(volatile Uint32 * ptr) { return atomic_sub_value(ptr, 0x00000001); } Uint32 SDL_AtomicFetchThenAdd32(volatile Uint32 * ptr, Uint32 value) { return atomic_add_value(ptr, value); } Uint32 SDL_AtomicFetchThenSubtract32(volatile Uint32 * ptr, Uint32 value) { return atomic_sub_value(ptr, value); } Uint32 SDL_AtomicIncrementThenFetch32(volatile Uint32 * ptr) { atomic_add(ptr, 0x00000001); return atomic_add_value(ptr, 0x00000000); } Uint32 SDL_AtomicDecrementThenFetch32(volatile Uint32 * ptr) { atomic_sub(ptr, 0x00000001); return atomic_sub_value(ptr, 0x00000000); } Uint32 SDL_AtomicAddThenFetch32(volatile Uint32 * ptr, Uint32 value) { atomic_add(ptr, value); return atomic_add_value(ptr, 0x00000000); } Uint32 SDL_AtomicSubtractThenFetch32(volatile Uint32 * ptr, Uint32 value) { atomic_sub(ptr, value); return atomic_sub_value(ptr, 0x00000000); }