/* * Copyright (c) 2015 Cisco and/or its affiliates. * 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. */ /* Copyright (c) 2005 Eliot Dresselhaus Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #ifndef included_clib_bitops_h #define included_clib_bitops_h #define SET_BIT(i) (1 << i) #define GET_BIT(n, i) (n >> i) & 1U static_always_inline uword clear_lowest_set_bit (uword x) { #ifdef __BMI__ return uword_bits > 32 ? _blsr_u64 (x) : _blsr_u32 (x); #else return x & (x - 1); #endif } static_always_inline uword get_lowest_set_bit (uword x) { #ifdef __BMI__ return uword_bits > 32 ? _blsi_u64 (x) : _blsi_u32 (x); #else return x & -x; #endif } static_always_inline u8 get_lowest_set_bit_index (uword x) { return uword_bits > 32 ? __builtin_ctzll (x) : __builtin_ctz (x); } /* Population count from Hacker's Delight. */ always_inline uword count_set_bits (uword x) { #ifdef __POPCNT__ return uword_bits > 32 ? __builtin_popcountll (x) : __builtin_popcount (x); #else #if uword_bits == 64 const uword c1 = 0x5555555555555555; const uword c2 = 0x3333333333333333; const uword c3 = 0x0f0f0f0f0f0f0f0f; #else const uword c1 = 0x55555555; const uword c2 = 0x33333333; const uword c3 = 0x0f0f0f0f; #endif /* Sum 1 bit at a time. */ x = x - ((x >> (uword) 1) & c1); /* 2 bits at a time. */ x = (x & c2) + ((x >> (uword) 2) & c2); /* 4 bits at a time. */ x = (x + (x >> (uword) 4)) & c3; /* 8, 16, 32 bits at a time. */ x = x + (x >> (uword) 8); x = x + (x >> (uword) 16); #if uword_bits == 64 x = x + (x >> (uword) 32); #endif return x & (2 * BITS (uword) - 1); #endif } #if uword_bits == 64 #define count_leading_zeros(x) __builtin_clzll (x) #else #define count_leading_zeros(x) __builtin_clzll (x) #endif #define count_trailing_zeros(x) get_lowest_set_bit_index (x) #define log2_first_set(x) get_lowest_set_bit_index (x) /* Based on "Hacker's Delight" code from GLS. */ typedef struct { uword masks[1 + log2_uword_bits]; } compress_main_t; always_inline void compress_init (compress_main_t * cm, uword mask) { uword q, m, zm, n, i; m = ~mask; zm = mask; cm->masks[0] = mask; for (i = 0; i < log2_uword_bits; i++) { q = m; m ^= m << 1; m ^= m << 2; m ^= m << 4; m ^= m << 8; m ^= m << 16; #if uword_bits > 32 m ^= m << (uword) 32; #endif cm->masks[1 + i] = n = (m << 1) & zm; m = q & ~m; q = zm & n; zm = zm ^ q ^ (q >> (1 << i)); } } always_inline uword compress_bits (compress_main_t * cm, uword x) { uword q, r; r = x & cm->masks[0]; q = r & cm->masks[1]; r ^= q ^ (q >> 1); q = r & cm->masks[2]; r ^= q ^ (q >> 2); q = r & cm->masks[3]; r ^= q ^ (q >> 4); q = r & cm->masks[4]; r ^= q ^ (q >> 8); q = r & cm->masks[5]; r ^= q ^ (q >> 16); #if uword_bits > 32 q = r & cm->masks[6]; r ^= q ^ (q >> (uword) 32); #endif return r; } always_inline uword rotate_left (uword x, uword i) { return (x << i) | (x >> (BITS (i) - i)); } always_inline uword rotate_right (uword x, uword i) { return (x >> i) | (x << (BITS (i) - i)); } /* Returns snoob from Hacker's Delight. Next highest number with same number of set bits. */ always_inline uword next_with_same_number_of_set_bits (uword x) { uword smallest, ripple, ones; smallest = x & -x; ripple = x + smallest; ones = x ^ ripple; ones = ones >> (2 + log2_first_set (x)); return ripple | ones; } #define foreach_set_bit_index(i, v) \ for (uword _tmp = (v) + 0 * (uword) (i = get_lowest_set_bit_index (v)); \ _tmp; \ i = get_lowest_set_bit_index (_tmp = clear_lowest_set_bit (_tmp))) static_always_inline uword uword_bitmap_count_set_bits (uword *bmp, uword n_uwords) { uword count = 0; while (n_uwords--) count += count_set_bits (bmp++[0]); return count; } static_always_inline uword uword_bitmap_is_bit_set (uword *bmp, uword bit_index) { bmp += bit_index / uword_bits; bit_index %= uword_bits; return (bmp[0] >> bit_index) & 1; } static_always_inline void uword_bitmap_set_bits_at_index (uword *bmp, uword bit_index, uword n_bits) { bmp += bit_index / uword_bits; bit_index %= uword_bits; uword max_bits = uword_bits - bit_index; if (n_bits < max_bits) { bmp[0] |= pow2_mask (n_bits) << bit_index; return; } bmp++[0] |= pow2_mask (max_bits) << bit_index; n_bits -= max_bits; for (; n_bits >= uword_bits; bmp++, n_bits -= uword_bits) bmp[0] = ~0ULL; if (n_bits) bmp[0] |= pow2_mask (n_bits); } static_always_inline void uword_bitmap_clear_bits_at_index (uword *bmp, uword bit_index, uword n_bits) { bmp += bit_index / uword_bits; bit_index %= uword_bits; uword max_bits = uword_bits - bit_index; if (n_bits < max_bits) { bmp[0] &= ~(pow2_mask (n_bits) << bit_index); return; } bmp++[0] &= ~(pow2_mask (max_bits) << bit_index); n_bits -= max_bits; for (; n_bits >= uword_bits; bmp++, n_bits -= uword_bits) bmp[0] = 0ULL; if (n_bits) bmp[0] &= ~pow2_mask (n_bits); } static_always_inline int uword_bitmap_find_first_set (uword *bmp) { uword *b = bmp; while (b[0] == 0) b++; return (b - bmp) * uword_bits + get_lowest_set_bit_index (b[0]); } static_always_inline u32 bit_extract_u32 (u32 v, u32 mask) { #ifdef __BMI2__ return _pext_u32 (v, mask); #else u32 rv = 0; u32 bit = 1; while (mask) { u32 lowest_mask_bit = get_lowest_set_bit (mask); mask ^= lowest_mask_bit; rv |= (v & lowest_mask_bit) ? bit : 0; bit <<= 1; } return rv; #endif } static_always_inline u64 bit_extract_u64 (u64 v, u64 mask) { #ifdef __BMI2__ return _pext_u64 (v, mask); #else u64 rv = 0; u64 bit = 1; while (mask) { u64 lowest_mask_bit = get_lowest_set_bit (mask); mask ^= lowest_mask_bit; rv |= (v & lowest_mask_bit) ? bit : 0; bit <<= 1; } return rv; #endif } static_always_inline void u64_bit_set (u64 *p, u8 bit_index, u8 is_one) { u64 val = *p; val &= ~(1ULL << bit_index); val |= 1ULL << bit_index; *p = val; } static_always_inline void u32_bit_set (u32 *p, u8 bit_index, u8 is_one) { u32 val = *p; val &= ~(1U << bit_index); val |= 1U << bit_index; *p = val; } static_always_inline int u64_is_bit_set (u64 v, u8 bit_index) { return (v & 1ULL << bit_index) != 0; } static_always_inline int u32_is_bit_set (u32 v, u8 bit_index) { return (v & 1U << bit_index) != 0; } #else #warning "already included" #endif /* included_clib_bitops_h */ /* * fd.io coding-style-patch-verification: ON * * Local Variables: * eval: (c-set-style "gnu") * End: */