151 lines
5.6 KiB
C
151 lines
5.6 KiB
C
/* Copyright (c) 2001-2011 Timothy B. Terriberry
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*/
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/*
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions
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are met:
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- Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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- Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER
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OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include "opus/opus_config.h"
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#include "opus/celt/entcode.h"
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#include "opus/celt/arch.h"
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#if !defined(EC_CLZ)
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/*This is a fallback for systems where we don't know how to access
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a BSR or CLZ instruction (see ecintrin.h).
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If you are optimizing Opus on a new platform and it has a native CLZ or
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BZR (e.g. cell, MIPS, x86, etc) then making it available to Opus will be
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an easy performance win.*/
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int ec_ilog(opus_uint32 _v){
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/*On a Pentium M, this branchless version tested as the fastest on
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1,000,000,000 random 32-bit integers, edging out a similar version with
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branches, and a 256-entry LUT version.*/
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int ret;
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int m;
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ret=!!_v;
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m=!!(_v&0xFFFF0000)<<4;
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_v>>=m;
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ret|=m;
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m=!!(_v&0xFF00)<<3;
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_v>>=m;
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ret|=m;
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m=!!(_v&0xF0)<<2;
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_v>>=m;
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ret|=m;
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m=!!(_v&0xC)<<1;
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_v>>=m;
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ret|=m;
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ret+=!!(_v&0x2);
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return ret;
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}
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#endif
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#if 1
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/* This is a faster version of ec_tell_frac() that takes advantage
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of the low (1/8 bit) resolution to use just a linear function
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followed by a lookup to determine the exact transition thresholds. */
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opus_uint32 ec_tell_frac(ec_ctx *_this){
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static const unsigned correction[8] =
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{35733, 38967, 42495, 46340,
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50535, 55109, 60097, 65535};
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opus_uint32 nbits;
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opus_uint32 r;
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int l;
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unsigned b;
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nbits=_this->nbits_total<<BITRES;
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l=EC_ILOG(_this->rng);
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r=_this->rng>>(l-16);
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b = (r>>12)-8;
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b += r>correction[b];
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l = (l<<3)+b;
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return nbits-l;
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}
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#else
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opus_uint32 ec_tell_frac(ec_ctx *_this){
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opus_uint32 nbits;
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opus_uint32 r;
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int l;
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int i;
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/*To handle the non-integral number of bits still left in the encoder/decoder
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state, we compute the worst-case number of bits of val that must be
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encoded to ensure that the value is inside the range for any possible
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subsequent bits.
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The computation here is independent of val itself (the decoder does not
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even track that value), even though the real number of bits used after
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ec_enc_done() may be 1 smaller if rng is a power of two and the
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corresponding trailing bits of val are all zeros.
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If we did try to track that special case, then coding a value with a
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probability of 1/(1<<n) might sometimes appear to use more than n bits.
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This may help explain the surprising result that a newly initialized
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encoder or decoder claims to have used 1 bit.*/
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nbits=_this->nbits_total<<BITRES;
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l=EC_ILOG(_this->rng);
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r=_this->rng>>(l-16);
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for(i=BITRES;i-->0;){
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int b;
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r=r*r>>15;
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b=(int)(r>>16);
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l=l<<1|b;
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r>>=b;
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}
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return nbits-l;
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}
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#endif
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#ifdef USE_SMALL_DIV_TABLE
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/* Result of 2^32/(2*i+1), except for i=0. */
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const opus_uint32 SMALL_DIV_TABLE[129] = {
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0xFFFFFFFF, 0x55555555, 0x33333333, 0x24924924,
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0x1C71C71C, 0x1745D174, 0x13B13B13, 0x11111111,
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0x0F0F0F0F, 0x0D79435E, 0x0C30C30C, 0x0B21642C,
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0x0A3D70A3, 0x097B425E, 0x08D3DCB0, 0x08421084,
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0x07C1F07C, 0x07507507, 0x06EB3E45, 0x06906906,
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0x063E7063, 0x05F417D0, 0x05B05B05, 0x0572620A,
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0x05397829, 0x05050505, 0x04D4873E, 0x04A7904A,
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0x047DC11F, 0x0456C797, 0x04325C53, 0x04104104,
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0x03F03F03, 0x03D22635, 0x03B5CC0E, 0x039B0AD1,
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0x0381C0E0, 0x0369D036, 0x03531DEC, 0x033D91D2,
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0x0329161F, 0x03159721, 0x03030303, 0x02F14990,
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0x02E05C0B, 0x02D02D02, 0x02C0B02C, 0x02B1DA46,
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0x02A3A0FD, 0x0295FAD4, 0x0288DF0C, 0x027C4597,
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0x02702702, 0x02647C69, 0x02593F69, 0x024E6A17,
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0x0243F6F0, 0x0239E0D5, 0x02302302, 0x0226B902,
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0x021D9EAD, 0x0214D021, 0x020C49BA, 0x02040810,
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0x01FC07F0, 0x01F44659, 0x01ECC07B, 0x01E573AC,
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0x01DE5D6E, 0x01D77B65, 0x01D0CB58, 0x01CA4B30,
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0x01C3F8F0, 0x01BDD2B8, 0x01B7D6C3, 0x01B20364,
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0x01AC5701, 0x01A6D01A, 0x01A16D3F, 0x019C2D14,
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0x01970E4F, 0x01920FB4, 0x018D3018, 0x01886E5F,
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0x0183C977, 0x017F405F, 0x017AD220, 0x01767DCE,
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0x01724287, 0x016E1F76, 0x016A13CD, 0x01661EC6,
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0x01623FA7, 0x015E75BB, 0x015AC056, 0x01571ED3,
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0x01539094, 0x01501501, 0x014CAB88, 0x0149539E,
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0x01460CBC, 0x0142D662, 0x013FB013, 0x013C995A,
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0x013991C2, 0x013698DF, 0x0133AE45, 0x0130D190,
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0x012E025C, 0x012B404A, 0x01288B01, 0x0125E227,
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0x01234567, 0x0120B470, 0x011E2EF3, 0x011BB4A4,
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0x01194538, 0x0116E068, 0x011485F0, 0x0112358E,
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0x010FEF01, 0x010DB20A, 0x010B7E6E, 0x010953F3,
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0x01073260, 0x0105197F, 0x0103091B, 0x01010101
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};
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#endif
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