bf51c23bf0
Reviewed by: SO (cperciva)
647 lines
20 KiB
C
647 lines
20 KiB
C
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/*-------------------------------------------------------------*/
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/*--- Decompression machinery ---*/
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/*--- decompress.c ---*/
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/*-------------------------------------------------------------*/
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/* ------------------------------------------------------------------
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This file is part of bzip2/libbzip2, a program and library for
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lossless, block-sorting data compression.
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bzip2/libbzip2 version 1.0.6 of 6 September 2010
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Copyright (C) 1996-2010 Julian Seward <jseward@bzip.org>
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Please read the WARNING, DISCLAIMER and PATENTS sections in the
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README file.
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This program is released under the terms of the license contained
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in the file LICENSE.
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------------------------------------------------------------------ */
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#include "bzlib_private.h"
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/*---------------------------------------------------*/
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static
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void makeMaps_d ( DState* s )
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{
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Int32 i;
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s->nInUse = 0;
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for (i = 0; i < 256; i++)
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if (s->inUse[i]) {
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s->seqToUnseq[s->nInUse] = i;
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s->nInUse++;
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}
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}
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/*---------------------------------------------------*/
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#define RETURN(rrr) \
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{ retVal = rrr; goto save_state_and_return; };
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#define GET_BITS(lll,vvv,nnn) \
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case lll: s->state = lll; \
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while (True) { \
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if (s->bsLive >= nnn) { \
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UInt32 v; \
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v = (s->bsBuff >> \
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(s->bsLive-nnn)) & ((1 << nnn)-1); \
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s->bsLive -= nnn; \
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vvv = v; \
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break; \
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} \
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if (s->strm->avail_in == 0) RETURN(BZ_OK); \
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s->bsBuff \
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= (s->bsBuff << 8) | \
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((UInt32) \
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(*((UChar*)(s->strm->next_in)))); \
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s->bsLive += 8; \
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s->strm->next_in++; \
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s->strm->avail_in--; \
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s->strm->total_in_lo32++; \
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if (s->strm->total_in_lo32 == 0) \
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s->strm->total_in_hi32++; \
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}
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#define GET_UCHAR(lll,uuu) \
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GET_BITS(lll,uuu,8)
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#define GET_BIT(lll,uuu) \
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GET_BITS(lll,uuu,1)
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/*---------------------------------------------------*/
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#define GET_MTF_VAL(label1,label2,lval) \
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{ \
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if (groupPos == 0) { \
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groupNo++; \
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if (groupNo >= nSelectors) \
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RETURN(BZ_DATA_ERROR); \
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groupPos = BZ_G_SIZE; \
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gSel = s->selector[groupNo]; \
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gMinlen = s->minLens[gSel]; \
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gLimit = &(s->limit[gSel][0]); \
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gPerm = &(s->perm[gSel][0]); \
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gBase = &(s->base[gSel][0]); \
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} \
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groupPos--; \
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zn = gMinlen; \
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GET_BITS(label1, zvec, zn); \
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while (1) { \
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if (zn > 20 /* the longest code */) \
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RETURN(BZ_DATA_ERROR); \
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if (zvec <= gLimit[zn]) break; \
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zn++; \
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GET_BIT(label2, zj); \
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zvec = (zvec << 1) | zj; \
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}; \
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if (zvec - gBase[zn] < 0 \
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|| zvec - gBase[zn] >= BZ_MAX_ALPHA_SIZE) \
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RETURN(BZ_DATA_ERROR); \
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lval = gPerm[zvec - gBase[zn]]; \
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}
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/*---------------------------------------------------*/
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Int32 BZ2_decompress ( DState* s )
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{
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UChar uc;
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Int32 retVal;
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Int32 minLen, maxLen;
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bz_stream* strm = s->strm;
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/* stuff that needs to be saved/restored */
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Int32 i;
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Int32 j;
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Int32 t;
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Int32 alphaSize;
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Int32 nGroups;
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Int32 nSelectors;
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Int32 EOB;
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Int32 groupNo;
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Int32 groupPos;
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Int32 nextSym;
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Int32 nblockMAX;
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Int32 nblock;
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Int32 es;
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Int32 N;
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Int32 curr;
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Int32 zt;
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Int32 zn;
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Int32 zvec;
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Int32 zj;
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Int32 gSel;
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Int32 gMinlen;
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Int32* gLimit;
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Int32* gBase;
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Int32* gPerm;
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if (s->state == BZ_X_MAGIC_1) {
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/*initialise the save area*/
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s->save_i = 0;
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s->save_j = 0;
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s->save_t = 0;
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s->save_alphaSize = 0;
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s->save_nGroups = 0;
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s->save_nSelectors = 0;
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s->save_EOB = 0;
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s->save_groupNo = 0;
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s->save_groupPos = 0;
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s->save_nextSym = 0;
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s->save_nblockMAX = 0;
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s->save_nblock = 0;
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s->save_es = 0;
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s->save_N = 0;
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s->save_curr = 0;
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s->save_zt = 0;
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s->save_zn = 0;
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s->save_zvec = 0;
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s->save_zj = 0;
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s->save_gSel = 0;
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s->save_gMinlen = 0;
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s->save_gLimit = NULL;
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s->save_gBase = NULL;
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s->save_gPerm = NULL;
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}
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/*restore from the save area*/
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i = s->save_i;
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j = s->save_j;
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t = s->save_t;
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alphaSize = s->save_alphaSize;
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nGroups = s->save_nGroups;
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nSelectors = s->save_nSelectors;
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EOB = s->save_EOB;
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groupNo = s->save_groupNo;
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groupPos = s->save_groupPos;
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nextSym = s->save_nextSym;
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nblockMAX = s->save_nblockMAX;
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nblock = s->save_nblock;
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es = s->save_es;
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N = s->save_N;
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curr = s->save_curr;
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zt = s->save_zt;
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zn = s->save_zn;
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zvec = s->save_zvec;
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zj = s->save_zj;
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gSel = s->save_gSel;
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gMinlen = s->save_gMinlen;
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gLimit = s->save_gLimit;
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gBase = s->save_gBase;
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gPerm = s->save_gPerm;
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retVal = BZ_OK;
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switch (s->state) {
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GET_UCHAR(BZ_X_MAGIC_1, uc);
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if (uc != BZ_HDR_B) RETURN(BZ_DATA_ERROR_MAGIC);
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GET_UCHAR(BZ_X_MAGIC_2, uc);
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if (uc != BZ_HDR_Z) RETURN(BZ_DATA_ERROR_MAGIC);
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GET_UCHAR(BZ_X_MAGIC_3, uc)
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if (uc != BZ_HDR_h) RETURN(BZ_DATA_ERROR_MAGIC);
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GET_BITS(BZ_X_MAGIC_4, s->blockSize100k, 8)
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if (s->blockSize100k < (BZ_HDR_0 + 1) ||
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s->blockSize100k > (BZ_HDR_0 + 9)) RETURN(BZ_DATA_ERROR_MAGIC);
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s->blockSize100k -= BZ_HDR_0;
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if (s->smallDecompress) {
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s->ll16 = BZALLOC( s->blockSize100k * 100000 * sizeof(UInt16) );
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s->ll4 = BZALLOC(
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((1 + s->blockSize100k * 100000) >> 1) * sizeof(UChar)
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);
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if (s->ll16 == NULL || s->ll4 == NULL) RETURN(BZ_MEM_ERROR);
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} else {
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s->tt = BZALLOC( s->blockSize100k * 100000 * sizeof(Int32) );
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if (s->tt == NULL) RETURN(BZ_MEM_ERROR);
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}
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GET_UCHAR(BZ_X_BLKHDR_1, uc);
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if (uc == 0x17) goto endhdr_2;
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if (uc != 0x31) RETURN(BZ_DATA_ERROR);
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GET_UCHAR(BZ_X_BLKHDR_2, uc);
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if (uc != 0x41) RETURN(BZ_DATA_ERROR);
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GET_UCHAR(BZ_X_BLKHDR_3, uc);
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if (uc != 0x59) RETURN(BZ_DATA_ERROR);
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GET_UCHAR(BZ_X_BLKHDR_4, uc);
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if (uc != 0x26) RETURN(BZ_DATA_ERROR);
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GET_UCHAR(BZ_X_BLKHDR_5, uc);
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if (uc != 0x53) RETURN(BZ_DATA_ERROR);
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GET_UCHAR(BZ_X_BLKHDR_6, uc);
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if (uc != 0x59) RETURN(BZ_DATA_ERROR);
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s->currBlockNo++;
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if (s->verbosity >= 2)
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VPrintf1 ( "\n [%d: huff+mtf ", s->currBlockNo );
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s->storedBlockCRC = 0;
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GET_UCHAR(BZ_X_BCRC_1, uc);
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s->storedBlockCRC = (s->storedBlockCRC << 8) | ((UInt32)uc);
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GET_UCHAR(BZ_X_BCRC_2, uc);
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s->storedBlockCRC = (s->storedBlockCRC << 8) | ((UInt32)uc);
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GET_UCHAR(BZ_X_BCRC_3, uc);
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s->storedBlockCRC = (s->storedBlockCRC << 8) | ((UInt32)uc);
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GET_UCHAR(BZ_X_BCRC_4, uc);
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s->storedBlockCRC = (s->storedBlockCRC << 8) | ((UInt32)uc);
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GET_BITS(BZ_X_RANDBIT, s->blockRandomised, 1);
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s->origPtr = 0;
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GET_UCHAR(BZ_X_ORIGPTR_1, uc);
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s->origPtr = (s->origPtr << 8) | ((Int32)uc);
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GET_UCHAR(BZ_X_ORIGPTR_2, uc);
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s->origPtr = (s->origPtr << 8) | ((Int32)uc);
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GET_UCHAR(BZ_X_ORIGPTR_3, uc);
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s->origPtr = (s->origPtr << 8) | ((Int32)uc);
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if (s->origPtr < 0)
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RETURN(BZ_DATA_ERROR);
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if (s->origPtr > 10 + 100000*s->blockSize100k)
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RETURN(BZ_DATA_ERROR);
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/*--- Receive the mapping table ---*/
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for (i = 0; i < 16; i++) {
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GET_BIT(BZ_X_MAPPING_1, uc);
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if (uc == 1)
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s->inUse16[i] = True; else
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s->inUse16[i] = False;
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}
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for (i = 0; i < 256; i++) s->inUse[i] = False;
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for (i = 0; i < 16; i++)
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if (s->inUse16[i])
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for (j = 0; j < 16; j++) {
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GET_BIT(BZ_X_MAPPING_2, uc);
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if (uc == 1) s->inUse[i * 16 + j] = True;
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}
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makeMaps_d ( s );
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if (s->nInUse == 0) RETURN(BZ_DATA_ERROR);
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alphaSize = s->nInUse+2;
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/*--- Now the selectors ---*/
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GET_BITS(BZ_X_SELECTOR_1, nGroups, 3);
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if (nGroups < 2 || nGroups > 6) RETURN(BZ_DATA_ERROR);
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GET_BITS(BZ_X_SELECTOR_2, nSelectors, 15);
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if (nSelectors < 1) RETURN(BZ_DATA_ERROR);
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for (i = 0; i < nSelectors; i++) {
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j = 0;
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while (True) {
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GET_BIT(BZ_X_SELECTOR_3, uc);
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if (uc == 0) break;
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j++;
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if (j >= nGroups) RETURN(BZ_DATA_ERROR);
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}
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s->selectorMtf[i] = j;
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}
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/*--- Undo the MTF values for the selectors. ---*/
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{
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UChar pos[BZ_N_GROUPS], tmp, v;
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for (v = 0; v < nGroups; v++) pos[v] = v;
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for (i = 0; i < nSelectors; i++) {
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v = s->selectorMtf[i];
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tmp = pos[v];
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while (v > 0) { pos[v] = pos[v-1]; v--; }
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pos[0] = tmp;
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s->selector[i] = tmp;
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}
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}
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/*--- Now the coding tables ---*/
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for (t = 0; t < nGroups; t++) {
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GET_BITS(BZ_X_CODING_1, curr, 5);
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for (i = 0; i < alphaSize; i++) {
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while (True) {
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if (curr < 1 || curr > 20) RETURN(BZ_DATA_ERROR);
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GET_BIT(BZ_X_CODING_2, uc);
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if (uc == 0) break;
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GET_BIT(BZ_X_CODING_3, uc);
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if (uc == 0) curr++; else curr--;
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}
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s->len[t][i] = curr;
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}
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}
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/*--- Create the Huffman decoding tables ---*/
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for (t = 0; t < nGroups; t++) {
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minLen = 32;
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maxLen = 0;
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for (i = 0; i < alphaSize; i++) {
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if (s->len[t][i] > maxLen) maxLen = s->len[t][i];
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if (s->len[t][i] < minLen) minLen = s->len[t][i];
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}
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BZ2_hbCreateDecodeTables (
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&(s->limit[t][0]),
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&(s->base[t][0]),
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&(s->perm[t][0]),
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&(s->len[t][0]),
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minLen, maxLen, alphaSize
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);
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s->minLens[t] = minLen;
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}
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/*--- Now the MTF values ---*/
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EOB = s->nInUse+1;
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nblockMAX = 100000 * s->blockSize100k;
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groupNo = -1;
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groupPos = 0;
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for (i = 0; i <= 255; i++) s->unzftab[i] = 0;
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/*-- MTF init --*/
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{
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Int32 ii, jj, kk;
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kk = MTFA_SIZE-1;
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for (ii = 256 / MTFL_SIZE - 1; ii >= 0; ii--) {
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for (jj = MTFL_SIZE-1; jj >= 0; jj--) {
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s->mtfa[kk] = (UChar)(ii * MTFL_SIZE + jj);
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kk--;
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}
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s->mtfbase[ii] = kk + 1;
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}
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}
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/*-- end MTF init --*/
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nblock = 0;
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GET_MTF_VAL(BZ_X_MTF_1, BZ_X_MTF_2, nextSym);
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while (True) {
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if (nextSym == EOB) break;
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if (nextSym == BZ_RUNA || nextSym == BZ_RUNB) {
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es = -1;
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N = 1;
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do {
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/* Check that N doesn't get too big, so that es doesn't
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go negative. The maximum value that can be
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RUNA/RUNB encoded is equal to the block size (post
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the initial RLE), viz, 900k, so bounding N at 2
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million should guard against overflow without
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rejecting any legitimate inputs. */
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if (N >= 2*1024*1024) RETURN(BZ_DATA_ERROR);
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if (nextSym == BZ_RUNA) es = es + (0+1) * N; else
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if (nextSym == BZ_RUNB) es = es + (1+1) * N;
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N = N * 2;
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GET_MTF_VAL(BZ_X_MTF_3, BZ_X_MTF_4, nextSym);
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}
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while (nextSym == BZ_RUNA || nextSym == BZ_RUNB);
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es++;
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uc = s->seqToUnseq[ s->mtfa[s->mtfbase[0]] ];
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s->unzftab[uc] += es;
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if (s->smallDecompress)
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while (es > 0) {
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if (nblock >= nblockMAX) RETURN(BZ_DATA_ERROR);
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s->ll16[nblock] = (UInt16)uc;
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nblock++;
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es--;
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}
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else
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while (es > 0) {
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if (nblock >= nblockMAX) RETURN(BZ_DATA_ERROR);
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s->tt[nblock] = (UInt32)uc;
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nblock++;
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es--;
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};
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continue;
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} else {
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if (nblock >= nblockMAX) RETURN(BZ_DATA_ERROR);
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/*-- uc = MTF ( nextSym-1 ) --*/
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{
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Int32 ii, jj, kk, pp, lno, off;
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UInt32 nn;
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nn = (UInt32)(nextSym - 1);
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if (nn < MTFL_SIZE) {
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/* avoid general-case expense */
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pp = s->mtfbase[0];
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uc = s->mtfa[pp+nn];
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while (nn > 3) {
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Int32 z = pp+nn;
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s->mtfa[(z) ] = s->mtfa[(z)-1];
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s->mtfa[(z)-1] = s->mtfa[(z)-2];
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s->mtfa[(z)-2] = s->mtfa[(z)-3];
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s->mtfa[(z)-3] = s->mtfa[(z)-4];
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nn -= 4;
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}
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while (nn > 0) {
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s->mtfa[(pp+nn)] = s->mtfa[(pp+nn)-1]; nn--;
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};
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s->mtfa[pp] = uc;
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} else {
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/* general case */
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lno = nn / MTFL_SIZE;
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off = nn % MTFL_SIZE;
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pp = s->mtfbase[lno] + off;
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uc = s->mtfa[pp];
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while (pp > s->mtfbase[lno]) {
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s->mtfa[pp] = s->mtfa[pp-1]; pp--;
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};
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s->mtfbase[lno]++;
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while (lno > 0) {
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s->mtfbase[lno]--;
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s->mtfa[s->mtfbase[lno]]
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= s->mtfa[s->mtfbase[lno-1] + MTFL_SIZE - 1];
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lno--;
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}
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s->mtfbase[0]--;
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s->mtfa[s->mtfbase[0]] = uc;
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if (s->mtfbase[0] == 0) {
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kk = MTFA_SIZE-1;
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for (ii = 256 / MTFL_SIZE-1; ii >= 0; ii--) {
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for (jj = MTFL_SIZE-1; jj >= 0; jj--) {
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s->mtfa[kk] = s->mtfa[s->mtfbase[ii] + jj];
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kk--;
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}
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s->mtfbase[ii] = kk + 1;
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}
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}
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}
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}
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/*-- end uc = MTF ( nextSym-1 ) --*/
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s->unzftab[s->seqToUnseq[uc]]++;
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if (s->smallDecompress)
|
|
s->ll16[nblock] = (UInt16)(s->seqToUnseq[uc]); else
|
|
s->tt[nblock] = (UInt32)(s->seqToUnseq[uc]);
|
|
nblock++;
|
|
|
|
GET_MTF_VAL(BZ_X_MTF_5, BZ_X_MTF_6, nextSym);
|
|
continue;
|
|
}
|
|
}
|
|
|
|
/* Now we know what nblock is, we can do a better sanity
|
|
check on s->origPtr.
|
|
*/
|
|
if (s->origPtr < 0 || s->origPtr >= nblock)
|
|
RETURN(BZ_DATA_ERROR);
|
|
|
|
/*-- Set up cftab to facilitate generation of T^(-1) --*/
|
|
/* Check: unzftab entries in range. */
|
|
for (i = 0; i <= 255; i++) {
|
|
if (s->unzftab[i] < 0 || s->unzftab[i] > nblock)
|
|
RETURN(BZ_DATA_ERROR);
|
|
}
|
|
/* Actually generate cftab. */
|
|
s->cftab[0] = 0;
|
|
for (i = 1; i <= 256; i++) s->cftab[i] = s->unzftab[i-1];
|
|
for (i = 1; i <= 256; i++) s->cftab[i] += s->cftab[i-1];
|
|
/* Check: cftab entries in range. */
|
|
for (i = 0; i <= 256; i++) {
|
|
if (s->cftab[i] < 0 || s->cftab[i] > nblock) {
|
|
/* s->cftab[i] can legitimately be == nblock */
|
|
RETURN(BZ_DATA_ERROR);
|
|
}
|
|
}
|
|
/* Check: cftab entries non-descending. */
|
|
for (i = 1; i <= 256; i++) {
|
|
if (s->cftab[i-1] > s->cftab[i]) {
|
|
RETURN(BZ_DATA_ERROR);
|
|
}
|
|
}
|
|
|
|
s->state_out_len = 0;
|
|
s->state_out_ch = 0;
|
|
BZ_INITIALISE_CRC ( s->calculatedBlockCRC );
|
|
s->state = BZ_X_OUTPUT;
|
|
if (s->verbosity >= 2) VPrintf0 ( "rt+rld" );
|
|
|
|
if (s->smallDecompress) {
|
|
|
|
/*-- Make a copy of cftab, used in generation of T --*/
|
|
for (i = 0; i <= 256; i++) s->cftabCopy[i] = s->cftab[i];
|
|
|
|
/*-- compute the T vector --*/
|
|
for (i = 0; i < nblock; i++) {
|
|
uc = (UChar)(s->ll16[i]);
|
|
SET_LL(i, s->cftabCopy[uc]);
|
|
s->cftabCopy[uc]++;
|
|
}
|
|
|
|
/*-- Compute T^(-1) by pointer reversal on T --*/
|
|
i = s->origPtr;
|
|
j = GET_LL(i);
|
|
do {
|
|
Int32 tmp = GET_LL(j);
|
|
SET_LL(j, i);
|
|
i = j;
|
|
j = tmp;
|
|
}
|
|
while (i != s->origPtr);
|
|
|
|
s->tPos = s->origPtr;
|
|
s->nblock_used = 0;
|
|
if (s->blockRandomised) {
|
|
BZ_RAND_INIT_MASK;
|
|
BZ_GET_SMALL(s->k0); s->nblock_used++;
|
|
BZ_RAND_UPD_MASK; s->k0 ^= BZ_RAND_MASK;
|
|
} else {
|
|
BZ_GET_SMALL(s->k0); s->nblock_used++;
|
|
}
|
|
|
|
} else {
|
|
|
|
/*-- compute the T^(-1) vector --*/
|
|
for (i = 0; i < nblock; i++) {
|
|
uc = (UChar)(s->tt[i] & 0xff);
|
|
s->tt[s->cftab[uc]] |= (i << 8);
|
|
s->cftab[uc]++;
|
|
}
|
|
|
|
s->tPos = s->tt[s->origPtr] >> 8;
|
|
s->nblock_used = 0;
|
|
if (s->blockRandomised) {
|
|
BZ_RAND_INIT_MASK;
|
|
BZ_GET_FAST(s->k0); s->nblock_used++;
|
|
BZ_RAND_UPD_MASK; s->k0 ^= BZ_RAND_MASK;
|
|
} else {
|
|
BZ_GET_FAST(s->k0); s->nblock_used++;
|
|
}
|
|
|
|
}
|
|
|
|
RETURN(BZ_OK);
|
|
|
|
|
|
|
|
endhdr_2:
|
|
|
|
GET_UCHAR(BZ_X_ENDHDR_2, uc);
|
|
if (uc != 0x72) RETURN(BZ_DATA_ERROR);
|
|
GET_UCHAR(BZ_X_ENDHDR_3, uc);
|
|
if (uc != 0x45) RETURN(BZ_DATA_ERROR);
|
|
GET_UCHAR(BZ_X_ENDHDR_4, uc);
|
|
if (uc != 0x38) RETURN(BZ_DATA_ERROR);
|
|
GET_UCHAR(BZ_X_ENDHDR_5, uc);
|
|
if (uc != 0x50) RETURN(BZ_DATA_ERROR);
|
|
GET_UCHAR(BZ_X_ENDHDR_6, uc);
|
|
if (uc != 0x90) RETURN(BZ_DATA_ERROR);
|
|
|
|
s->storedCombinedCRC = 0;
|
|
GET_UCHAR(BZ_X_CCRC_1, uc);
|
|
s->storedCombinedCRC = (s->storedCombinedCRC << 8) | ((UInt32)uc);
|
|
GET_UCHAR(BZ_X_CCRC_2, uc);
|
|
s->storedCombinedCRC = (s->storedCombinedCRC << 8) | ((UInt32)uc);
|
|
GET_UCHAR(BZ_X_CCRC_3, uc);
|
|
s->storedCombinedCRC = (s->storedCombinedCRC << 8) | ((UInt32)uc);
|
|
GET_UCHAR(BZ_X_CCRC_4, uc);
|
|
s->storedCombinedCRC = (s->storedCombinedCRC << 8) | ((UInt32)uc);
|
|
|
|
s->state = BZ_X_IDLE;
|
|
RETURN(BZ_STREAM_END);
|
|
|
|
default: AssertH ( False, 4001 );
|
|
}
|
|
|
|
AssertH ( False, 4002 );
|
|
|
|
save_state_and_return:
|
|
|
|
s->save_i = i;
|
|
s->save_j = j;
|
|
s->save_t = t;
|
|
s->save_alphaSize = alphaSize;
|
|
s->save_nGroups = nGroups;
|
|
s->save_nSelectors = nSelectors;
|
|
s->save_EOB = EOB;
|
|
s->save_groupNo = groupNo;
|
|
s->save_groupPos = groupPos;
|
|
s->save_nextSym = nextSym;
|
|
s->save_nblockMAX = nblockMAX;
|
|
s->save_nblock = nblock;
|
|
s->save_es = es;
|
|
s->save_N = N;
|
|
s->save_curr = curr;
|
|
s->save_zt = zt;
|
|
s->save_zn = zn;
|
|
s->save_zvec = zvec;
|
|
s->save_zj = zj;
|
|
s->save_gSel = gSel;
|
|
s->save_gMinlen = gMinlen;
|
|
s->save_gLimit = gLimit;
|
|
s->save_gBase = gBase;
|
|
s->save_gPerm = gPerm;
|
|
|
|
return retVal;
|
|
}
|
|
|
|
|
|
/*-------------------------------------------------------------*/
|
|
/*--- end decompress.c ---*/
|
|
/*-------------------------------------------------------------*/
|