#include "Rts.h" // Fallbacks for atomic primops on byte arrays. The builtins used // below are supported on both GCC and LLVM. // // Ideally these function would take StgWord8, StgWord16, etc but // older GCC versions incorrectly assume that the register that the // argument is passed in has been zero extended, which is incorrect // according to the ABI and is not what GHC does when it generates // calls to these functions. // FetchAddByteArrayOp_Int extern StgWord hs_atomic_add8(volatile StgWord8 *x, StgWord val); StgWord hs_atomic_add8(volatile StgWord8 *x, StgWord val) { return __sync_fetch_and_add(x, (StgWord8) val); } extern StgWord hs_atomic_add16(volatile StgWord16 *x, StgWord val); StgWord hs_atomic_add16(volatile StgWord16 *x, StgWord val) { return __sync_fetch_and_add(x, (StgWord16) val); } extern StgWord hs_atomic_add32(volatile StgWord32 *x, StgWord val); StgWord hs_atomic_add32(volatile StgWord32 *x, StgWord val) { return __sync_fetch_and_add(x, (StgWord32) val); } #if WORD_SIZE_IN_BITS == 64 extern StgWord64 hs_atomic_add64(volatile StgWord64 *x, StgWord64 val); StgWord64 hs_atomic_add64(volatile StgWord64 *x, StgWord64 val) { return __sync_fetch_and_add(x, val); } #endif // FetchSubByteArrayOp_Int extern StgWord hs_atomic_sub8(volatile StgWord8 *x, StgWord val); StgWord hs_atomic_sub8(volatile StgWord8 *x, StgWord val) { return __sync_fetch_and_sub(x, (StgWord8) val); } extern StgWord hs_atomic_sub16(volatile StgWord16 *x, StgWord val); StgWord hs_atomic_sub16(volatile StgWord16 *x, StgWord val) { return __sync_fetch_and_sub(x, (StgWord16) val); } extern StgWord hs_atomic_sub32(volatile StgWord32 *x, StgWord val); StgWord hs_atomic_sub32(volatile StgWord32 *x, StgWord val) { return __sync_fetch_and_sub(x, (StgWord32) val); } #if WORD_SIZE_IN_BITS == 64 extern StgWord64 hs_atomic_sub64(volatile StgWord64 *x, StgWord64 val); StgWord64 hs_atomic_sub64(volatile StgWord64 *x, StgWord64 val) { return __sync_fetch_and_sub(x, val); } #endif // FetchAndByteArrayOp_Int extern StgWord hs_atomic_and8(volatile StgWord8 *x, StgWord val); StgWord hs_atomic_and8(volatile StgWord8 *x, StgWord val) { return __sync_fetch_and_and(x, (StgWord8) val); } extern StgWord hs_atomic_and16(volatile StgWord16 *x, StgWord val); StgWord hs_atomic_and16(volatile StgWord16 *x, StgWord val) { return __sync_fetch_and_and(x, (StgWord16) val); } extern StgWord hs_atomic_and32(volatile StgWord32 *x, StgWord val); StgWord hs_atomic_and32(volatile StgWord32 *x, StgWord val) { return __sync_fetch_and_and(x, (StgWord32) val); } #if WORD_SIZE_IN_BITS == 64 extern StgWord64 hs_atomic_and64(volatile StgWord64 *x, StgWord64 val); StgWord64 hs_atomic_and64(volatile StgWord64 *x, StgWord64 val) { return __sync_fetch_and_and(x, val); } #endif // FetchNandByteArrayOp_Int // Workaround for http://llvm.org/bugs/show_bug.cgi?id=8842 #define CAS_NAND(x, val) \ { \ __typeof__ (*(x)) tmp = *(x); \ while (!__sync_bool_compare_and_swap(x, tmp, ~(tmp & (val)))) { \ tmp = *(x); \ } \ return tmp; \ } extern StgWord hs_atomic_nand8(volatile StgWord8 *x, StgWord val); StgWord hs_atomic_nand8(volatile StgWord8 *x, StgWord val) { #ifdef __clang__ CAS_NAND(x, (StgWord8) val) #else return __sync_fetch_and_nand(x, (StgWord8) val); #endif } extern StgWord hs_atomic_nand16(volatile StgWord16 *x, StgWord val); StgWord hs_atomic_nand16(volatile StgWord16 *x, StgWord val) { #ifdef __clang__ CAS_NAND(x, (StgWord16) val); #else return __sync_fetch_and_nand(x, (StgWord16) val); #endif } extern StgWord hs_atomic_nand32(volatile StgWord32 *x, StgWord val); StgWord hs_atomic_nand32(volatile StgWord32 *x, StgWord val) { #ifdef __clang__ CAS_NAND(x, (StgWord32) val); #else return __sync_fetch_and_nand(x, (StgWord32) val); #endif } #if WORD_SIZE_IN_BITS == 64 extern StgWord64 hs_atomic_nand64(volatile StgWord64 *x, StgWord64 val); StgWord64 hs_atomic_nand64(volatile StgWord64 *x, StgWord64 val) { #ifdef __clang__ CAS_NAND(x, val); #else return __sync_fetch_and_nand(x, val); #endif } #endif // FetchOrByteArrayOp_Int extern StgWord hs_atomic_or8(volatile StgWord8 *x, StgWord val); StgWord hs_atomic_or8(volatile StgWord8 *x, StgWord val) { return __sync_fetch_and_or(x, (StgWord8) val); } extern StgWord hs_atomic_or16(volatile StgWord16 *x, StgWord val); StgWord hs_atomic_or16(volatile StgWord16 *x, StgWord val) { return __sync_fetch_and_or(x, (StgWord16) val); } extern StgWord hs_atomic_or32(volatile StgWord32 *x, StgWord val); StgWord hs_atomic_or32(volatile StgWord32 *x, StgWord val) { return __sync_fetch_and_or(x, (StgWord32) val); } #if WORD_SIZE_IN_BITS == 64 extern StgWord64 hs_atomic_or64(volatile StgWord64 *x, StgWord64 val); StgWord64 hs_atomic_or64(volatile StgWord64 *x, StgWord64 val) { return __sync_fetch_and_or(x, val); } #endif // FetchXorByteArrayOp_Int extern StgWord hs_atomic_xor8(volatile StgWord8 *x, StgWord val); StgWord hs_atomic_xor8(volatile StgWord8 *x, StgWord val) { return __sync_fetch_and_xor(x, (StgWord8) val); } extern StgWord hs_atomic_xor16(volatile StgWord16 *x, StgWord val); StgWord hs_atomic_xor16(volatile StgWord16 *x, StgWord val) { return __sync_fetch_and_xor(x, (StgWord16) val); } extern StgWord hs_atomic_xor32(volatile StgWord32 *x, StgWord val); StgWord hs_atomic_xor32(volatile StgWord32 *x, StgWord val) { return __sync_fetch_and_xor(x, (StgWord32) val); } #if WORD_SIZE_IN_BITS == 64 extern StgWord64 hs_atomic_xor64(volatile StgWord64 *x, StgWord64 val); StgWord64 hs_atomic_xor64(volatile StgWord64 *x, StgWord64 val) { return __sync_fetch_and_xor(x, val); } #endif // CasByteArrayOp_Int extern StgWord hs_cmpxchg8(volatile StgWord8 *x, StgWord old, StgWord new); StgWord hs_cmpxchg8(volatile StgWord8 *x, StgWord old, StgWord new) { return __sync_val_compare_and_swap(x, (StgWord8) old, (StgWord8) new); } extern StgWord hs_cmpxchg16(volatile StgWord16 *x, StgWord old, StgWord new); StgWord hs_cmpxchg16(volatile StgWord16 *x, StgWord old, StgWord new) { return __sync_val_compare_and_swap(x, (StgWord16) old, (StgWord16) new); } extern StgWord hs_cmpxchg32(volatile StgWord32 *x, StgWord old, StgWord new); StgWord hs_cmpxchg32(volatile StgWord32 *x, StgWord old, StgWord new) { return __sync_val_compare_and_swap(x, (StgWord32) old, (StgWord32) new); } #if WORD_SIZE_IN_BITS == 64 extern StgWord hs_cmpxchg64(volatile StgWord64 *x, StgWord64 old, StgWord64 new); StgWord hs_cmpxchg64(volatile StgWord64 *x, StgWord64 old, StgWord64 new) { return __sync_val_compare_and_swap(x, old, new); } #endif // AtomicReadByteArrayOp_Int extern StgWord hs_atomicread8(volatile StgWord8 *x); StgWord hs_atomicread8(volatile StgWord8 *x) { return *x; } extern StgWord hs_atomicread16(volatile StgWord16 *x); StgWord hs_atomicread16(volatile StgWord16 *x) { return *x; } extern StgWord hs_atomicread32(volatile StgWord32 *x); StgWord hs_atomicread32(volatile StgWord32 *x) { return *x; } extern StgWord64 hs_atomicread64(volatile StgWord64 *x); StgWord64 hs_atomicread64(volatile StgWord64 *x) { return *x; } // AtomicWriteByteArrayOp_Int extern void hs_atomicwrite8(volatile StgWord8 *x, StgWord val); void hs_atomicwrite8(volatile StgWord8 *x, StgWord val) { *x = (StgWord8) val; } extern void hs_atomicwrite16(volatile StgWord16 *x, StgWord val); void hs_atomicwrite16(volatile StgWord16 *x, StgWord val) { *x = (StgWord16) val; } extern void hs_atomicwrite32(volatile StgWord32 *x, StgWord val); void hs_atomicwrite32(volatile StgWord32 *x, StgWord val) { *x = (StgWord32) val; } extern void hs_atomicwrite64(volatile StgWord64 *x, StgWord64 val); void hs_atomicwrite64(volatile StgWord64 *x, StgWord64 val) { *x = (StgWord64) val; }