/* libFLAC - Free Lossless Audio Codec library * Copyright (C) 2004,2005 Josh Coalson * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * - Neither the name of the Xiph.org Foundation nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "FLAC/assert.h" #include "private/float.h" #ifdef FLAC__INTEGER_ONLY_LIBRARY /* adjust for compilers that can't understand using LLU suffix for uint64_t literals */ #ifdef _MSC_VER #define FLAC__U64L(x) x #else #define FLAC__U64L(x) x##LLU #endif const FLAC__fixedpoint FLAC__FP_ZERO = 0; const FLAC__fixedpoint FLAC__FP_ONE_HALF = 0x00008000; const FLAC__fixedpoint FLAC__FP_ONE = 0x00010000; const FLAC__fixedpoint FLAC__FP_LN2 = 45426; const FLAC__fixedpoint FLAC__FP_E = 178145; /* Lookup tables for Knuth's logarithm algorithm */ #define LOG2_LOOKUP_PRECISION 16 static const FLAC__uint32 log2_lookup[][LOG2_LOOKUP_PRECISION] = { { /* * 0 fraction bits */ /* undefined */ 0x00000000, /* lg(2/1) = */ 0x00000001, /* lg(4/3) = */ 0x00000000, /* lg(8/7) = */ 0x00000000, /* lg(16/15) = */ 0x00000000, /* lg(32/31) = */ 0x00000000, /* lg(64/63) = */ 0x00000000, /* lg(128/127) = */ 0x00000000, /* lg(256/255) = */ 0x00000000, /* lg(512/511) = */ 0x00000000, /* lg(1024/1023) = */ 0x00000000, /* lg(2048/2047) = */ 0x00000000, /* lg(4096/4095) = */ 0x00000000, /* lg(8192/8191) = */ 0x00000000, /* lg(16384/16383) = */ 0x00000000, /* lg(32768/32767) = */ 0x00000000 }, { /* * 4 fraction bits */ /* undefined */ 0x00000000, /* lg(2/1) = */ 0x00000010, /* lg(4/3) = */ 0x00000007, /* lg(8/7) = */ 0x00000003, /* lg(16/15) = */ 0x00000001, /* lg(32/31) = */ 0x00000001, /* lg(64/63) = */ 0x00000000, /* lg(128/127) = */ 0x00000000, /* lg(256/255) = */ 0x00000000, /* lg(512/511) = */ 0x00000000, /* lg(1024/1023) = */ 0x00000000, /* lg(2048/2047) = */ 0x00000000, /* lg(4096/4095) = */ 0x00000000, /* lg(8192/8191) = */ 0x00000000, /* lg(16384/16383) = */ 0x00000000, /* lg(32768/32767) = */ 0x00000000 }, { /* * 8 fraction bits */ /* undefined */ 0x00000000, /* lg(2/1) = */ 0x00000100, /* lg(4/3) = */ 0x0000006a, /* lg(8/7) = */ 0x00000031, /* lg(16/15) = */ 0x00000018, /* lg(32/31) = */ 0x0000000c, /* lg(64/63) = */ 0x00000006, /* lg(128/127) = */ 0x00000003, /* lg(256/255) = */ 0x00000001, /* lg(512/511) = */ 0x00000001, /* lg(1024/1023) = */ 0x00000000, /* lg(2048/2047) = */ 0x00000000, /* lg(4096/4095) = */ 0x00000000, /* lg(8192/8191) = */ 0x00000000, /* lg(16384/16383) = */ 0x00000000, /* lg(32768/32767) = */ 0x00000000 }, { /* * 12 fraction bits */ /* undefined */ 0x00000000, /* lg(2/1) = */ 0x00001000, /* lg(4/3) = */ 0x000006a4, /* lg(8/7) = */ 0x00000315, /* lg(16/15) = */ 0x0000017d, /* lg(32/31) = */ 0x000000bc, /* lg(64/63) = */ 0x0000005d, /* lg(128/127) = */ 0x0000002e, /* lg(256/255) = */ 0x00000017, /* lg(512/511) = */ 0x0000000c, /* lg(1024/1023) = */ 0x00000006, /* lg(2048/2047) = */ 0x00000003, /* lg(4096/4095) = */ 0x00000001, /* lg(8192/8191) = */ 0x00000001, /* lg(16384/16383) = */ 0x00000000, /* lg(32768/32767) = */ 0x00000000 }, { /* * 16 fraction bits */ /* undefined */ 0x00000000, /* lg(2/1) = */ 0x00010000, /* lg(4/3) = */ 0x00006a40, /* lg(8/7) = */ 0x00003151, /* lg(16/15) = */ 0x000017d6, /* lg(32/31) = */ 0x00000bba, /* lg(64/63) = */ 0x000005d1, /* lg(128/127) = */ 0x000002e6, /* lg(256/255) = */ 0x00000172, /* lg(512/511) = */ 0x000000b9, /* lg(1024/1023) = */ 0x0000005c, /* lg(2048/2047) = */ 0x0000002e, /* lg(4096/4095) = */ 0x00000017, /* lg(8192/8191) = */ 0x0000000c, /* lg(16384/16383) = */ 0x00000006, /* lg(32768/32767) = */ 0x00000003 }, { /* * 20 fraction bits */ /* undefined */ 0x00000000, /* lg(2/1) = */ 0x00100000, /* lg(4/3) = */ 0x0006a3fe, /* lg(8/7) = */ 0x00031513, /* lg(16/15) = */ 0x00017d60, /* lg(32/31) = */ 0x0000bb9d, /* lg(64/63) = */ 0x00005d10, /* lg(128/127) = */ 0x00002e59, /* lg(256/255) = */ 0x00001721, /* lg(512/511) = */ 0x00000b8e, /* lg(1024/1023) = */ 0x000005c6, /* lg(2048/2047) = */ 0x000002e3, /* lg(4096/4095) = */ 0x00000171, /* lg(8192/8191) = */ 0x000000b9, /* lg(16384/16383) = */ 0x0000005c, /* lg(32768/32767) = */ 0x0000002e }, { /* * 24 fraction bits */ /* undefined */ 0x00000000, /* lg(2/1) = */ 0x01000000, /* lg(4/3) = */ 0x006a3fe6, /* lg(8/7) = */ 0x00315130, /* lg(16/15) = */ 0x0017d605, /* lg(32/31) = */ 0x000bb9ca, /* lg(64/63) = */ 0x0005d0fc, /* lg(128/127) = */ 0x0002e58f, /* lg(256/255) = */ 0x0001720e, /* lg(512/511) = */ 0x0000b8d8, /* lg(1024/1023) = */ 0x00005c61, /* lg(2048/2047) = */ 0x00002e2d, /* lg(4096/4095) = */ 0x00001716, /* lg(8192/8191) = */ 0x00000b8b, /* lg(16384/16383) = */ 0x000005c5, /* lg(32768/32767) = */ 0x000002e3 }, { /* * 28 fraction bits */ /* undefined */ 0x00000000, /* lg(2/1) = */ 0x10000000, /* lg(4/3) = */ 0x06a3fe5c, /* lg(8/7) = */ 0x03151301, /* lg(16/15) = */ 0x017d6049, /* lg(32/31) = */ 0x00bb9ca6, /* lg(64/63) = */ 0x005d0fba, /* lg(128/127) = */ 0x002e58f7, /* lg(256/255) = */ 0x001720da, /* lg(512/511) = */ 0x000b8d87, /* lg(1024/1023) = */ 0x0005c60b, /* lg(2048/2047) = */ 0x0002e2d7, /* lg(4096/4095) = */ 0x00017160, /* lg(8192/8191) = */ 0x0000b8ad, /* lg(16384/16383) = */ 0x00005c56, /* lg(32768/32767) = */ 0x00002e2b } }; #if 0 static const FLAC__uint64 log2_lookup_wide[] = { { /* * 32 fraction bits */ /* undefined */ 0x00000000, /* lg(2/1) = */ FLAC__U64L(0x100000000), /* lg(4/3) = */ FLAC__U64L(0x6a3fe5c6), /* lg(8/7) = */ FLAC__U64L(0x31513015), /* lg(16/15) = */ FLAC__U64L(0x17d60497), /* lg(32/31) = */ FLAC__U64L(0x0bb9ca65), /* lg(64/63) = */ FLAC__U64L(0x05d0fba2), /* lg(128/127) = */ FLAC__U64L(0x02e58f74), /* lg(256/255) = */ FLAC__U64L(0x01720d9c), /* lg(512/511) = */ FLAC__U64L(0x00b8d875), /* lg(1024/1023) = */ FLAC__U64L(0x005c60aa), /* lg(2048/2047) = */ FLAC__U64L(0x002e2d72), /* lg(4096/4095) = */ FLAC__U64L(0x00171600), /* lg(8192/8191) = */ FLAC__U64L(0x000b8ad2), /* lg(16384/16383) = */ FLAC__U64L(0x0005c55d), /* lg(32768/32767) = */ FLAC__U64L(0x0002e2ac) }, { /* * 48 fraction bits */ /* undefined */ 0x00000000, /* lg(2/1) = */ FLAC__U64L(0x1000000000000), /* lg(4/3) = */ FLAC__U64L(0x6a3fe5c60429), /* lg(8/7) = */ FLAC__U64L(0x315130157f7a), /* lg(16/15) = */ FLAC__U64L(0x17d60496cfbb), /* lg(32/31) = */ FLAC__U64L(0xbb9ca64ecac), /* lg(64/63) = */ FLAC__U64L(0x5d0fba187cd), /* lg(128/127) = */ FLAC__U64L(0x2e58f7441ee), /* lg(256/255) = */ FLAC__U64L(0x1720d9c06a8), /* lg(512/511) = */ FLAC__U64L(0xb8d8752173), /* lg(1024/1023) = */ FLAC__U64L(0x5c60aa252e), /* lg(2048/2047) = */ FLAC__U64L(0x2e2d71b0d8), /* lg(4096/4095) = */ FLAC__U64L(0x1716001719), /* lg(8192/8191) = */ FLAC__U64L(0xb8ad1de1b), /* lg(16384/16383) = */ FLAC__U64L(0x5c55d640d), /* lg(32768/32767) = */ FLAC__U64L(0x2e2abcf52) } }; #endif FLAC__uint32 FLAC__fixedpoint_log2(FLAC__uint32 x, unsigned fracbits, unsigned precision) { const FLAC__uint32 ONE = (1u << fracbits); const FLAC__uint32 *table = log2_lookup[fracbits >> 2]; FLAC__ASSERT(fracbits < 32); FLAC__ASSERT((fracbits & 0x3) == 0); if(x < ONE) return 0; if(precision > LOG2_LOOKUP_PRECISION) precision = LOG2_LOOKUP_PRECISION; /* Knuth's algorithm for computing logarithms, optimized for base-2 with lookup tables */ { FLAC__uint32 y = 0; FLAC__uint32 z = x >> 1, k = 1; while (x > ONE && k < precision) { if (x - z >= ONE) { x -= z; z = x >> k; y += table[k]; } else { z >>= 1; k++; } } return y; } } #endif /* defined FLAC__INTEGER_ONLY_LIBRARY */