#ifndef JEMALLOC_INTERNAL_BIT_UTIL_H #define JEMALLOC_INTERNAL_BIT_UTIL_H #include "jemalloc/internal/assert.h" #define BIT_UTIL_INLINE static inline /* Sanity check. */ #if !defined(JEMALLOC_INTERNAL_FFSLL) || !defined(JEMALLOC_INTERNAL_FFSL) \ || !defined(JEMALLOC_INTERNAL_FFS) # error JEMALLOC_INTERNAL_FFS{,L,LL} should have been defined by configure #endif BIT_UTIL_INLINE unsigned ffs_llu(unsigned long long bitmap) { return JEMALLOC_INTERNAL_FFSLL(bitmap); } BIT_UTIL_INLINE unsigned ffs_lu(unsigned long bitmap) { return JEMALLOC_INTERNAL_FFSL(bitmap); } BIT_UTIL_INLINE unsigned ffs_u(unsigned bitmap) { return JEMALLOC_INTERNAL_FFS(bitmap); } BIT_UTIL_INLINE unsigned ffs_zu(size_t bitmap) { #if LG_SIZEOF_PTR == LG_SIZEOF_INT return ffs_u(bitmap); #elif LG_SIZEOF_PTR == LG_SIZEOF_LONG return ffs_lu(bitmap); #elif LG_SIZEOF_PTR == LG_SIZEOF_LONG_LONG return ffs_llu(bitmap); #else #error No implementation for size_t ffs() #endif } BIT_UTIL_INLINE unsigned ffs_u64(uint64_t bitmap) { #if LG_SIZEOF_LONG == 3 return ffs_lu(bitmap); #elif LG_SIZEOF_LONG_LONG == 3 return ffs_llu(bitmap); #else #error No implementation for 64-bit ffs() #endif } BIT_UTIL_INLINE unsigned ffs_u32(uint32_t bitmap) { #if LG_SIZEOF_INT == 2 return ffs_u(bitmap); #else #error No implementation for 32-bit ffs() #endif return ffs_u(bitmap); } BIT_UTIL_INLINE uint64_t pow2_ceil_u64(uint64_t x) { x--; x |= x >> 1; x |= x >> 2; x |= x >> 4; x |= x >> 8; x |= x >> 16; x |= x >> 32; x++; return x; } BIT_UTIL_INLINE uint32_t pow2_ceil_u32(uint32_t x) { x--; x |= x >> 1; x |= x >> 2; x |= x >> 4; x |= x >> 8; x |= x >> 16; x++; return x; } /* Compute the smallest power of 2 that is >= x. */ BIT_UTIL_INLINE size_t pow2_ceil_zu(size_t x) { #if (LG_SIZEOF_PTR == 3) return pow2_ceil_u64(x); #else return pow2_ceil_u32(x); #endif } #if (defined(__i386__) || defined(__amd64__) || defined(__x86_64__)) BIT_UTIL_INLINE unsigned lg_floor(size_t x) { size_t ret; assert(x != 0); asm ("bsr %1, %0" : "=r"(ret) // Outputs. : "r"(x) // Inputs. ); assert(ret < UINT_MAX); return (unsigned)ret; } #elif (defined(_MSC_VER)) BIT_UTIL_INLINE unsigned lg_floor(size_t x) { unsigned long ret; assert(x != 0); #if (LG_SIZEOF_PTR == 3) _BitScanReverse64(&ret, x); #elif (LG_SIZEOF_PTR == 2) _BitScanReverse(&ret, x); #else # error "Unsupported type size for lg_floor()" #endif assert(ret < UINT_MAX); return (unsigned)ret; } #elif (defined(JEMALLOC_HAVE_BUILTIN_CLZ)) BIT_UTIL_INLINE unsigned lg_floor(size_t x) { assert(x != 0); #if (LG_SIZEOF_PTR == LG_SIZEOF_INT) return ((8 << LG_SIZEOF_PTR) - 1) - __builtin_clz(x); #elif (LG_SIZEOF_PTR == LG_SIZEOF_LONG) return ((8 << LG_SIZEOF_PTR) - 1) - __builtin_clzl(x); #else # error "Unsupported type size for lg_floor()" #endif } #else BIT_UTIL_INLINE unsigned lg_floor(size_t x) { assert(x != 0); x |= (x >> 1); x |= (x >> 2); x |= (x >> 4); x |= (x >> 8); x |= (x >> 16); #if (LG_SIZEOF_PTR == 3) x |= (x >> 32); #endif if (x == SIZE_T_MAX) { return (8 << LG_SIZEOF_PTR) - 1; } x++; return ffs_zu(x) - 2; } #endif BIT_UTIL_INLINE unsigned lg_ceil(size_t x) { return lg_floor(x) + ((x & (x - 1)) == 0 ? 0 : 1); } #undef BIT_UTIL_INLINE /* A compile-time version of lg_floor and lg_ceil. */ #define LG_FLOOR_1(x) 0 #define LG_FLOOR_2(x) (x < (1ULL << 1) ? LG_FLOOR_1(x) : 1 + LG_FLOOR_1(x >> 1)) #define LG_FLOOR_4(x) (x < (1ULL << 2) ? LG_FLOOR_2(x) : 2 + LG_FLOOR_2(x >> 2)) #define LG_FLOOR_8(x) (x < (1ULL << 4) ? LG_FLOOR_4(x) : 4 + LG_FLOOR_4(x >> 4)) #define LG_FLOOR_16(x) (x < (1ULL << 8) ? LG_FLOOR_8(x) : 8 + LG_FLOOR_8(x >> 8)) #define LG_FLOOR_32(x) (x < (1ULL << 16) ? LG_FLOOR_16(x) : 16 + LG_FLOOR_16(x >> 16)) #define LG_FLOOR_64(x) (x < (1ULL << 32) ? LG_FLOOR_32(x) : 32 + LG_FLOOR_32(x >> 32)) #if LG_SIZEOF_PTR == 2 # define LG_FLOOR(x) LG_FLOOR_32((x)) #else # define LG_FLOOR(x) LG_FLOOR_64((x)) #endif #define LG_CEIL(x) (LG_FLOOR(x) + (((x) & ((x) - 1)) == 0 ? 0 : 1)) #endif /* JEMALLOC_INTERNAL_BIT_UTIL_H */