ref: 0d62e74e14ccf4e123d5c2d7af76cb02e695c0ee
dir: /jpc_t1dec.c/
/* * Copyright (c) 1999-2000 Image Power, Inc. and the University of * British Columbia. * Copyright (c) 2001-2003 Michael David Adams. * All rights reserved. */ /* __START_OF_JASPER_LICENSE__ * * JasPer License Version 2.0 * * Copyright (c) 2001-2006 Michael David Adams * Copyright (c) 1999-2000 Image Power, Inc. * Copyright (c) 1999-2000 The University of British Columbia * * All rights reserved. * * Permission is hereby granted, free of charge, to any person (the * "User") 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, 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: * * 1. The above copyright notices and this permission notice (which * includes the disclaimer below) shall be included in all copies or * substantial portions of the Software. * * 2. The name of a copyright holder shall not be used to endorse or * promote products derived from the Software without specific prior * written permission. * * THIS DISCLAIMER OF WARRANTY CONSTITUTES AN ESSENTIAL PART OF THIS * LICENSE. NO USE OF THE SOFTWARE IS AUTHORIZED HEREUNDER EXCEPT UNDER * THIS DISCLAIMER. THE SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS * "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 OF THIRD PARTY RIGHTS. IN NO * EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, OR ANY SPECIAL * INDIRECT OR CONSEQUENTIAL DAMAGES, OR ANY DAMAGES WHATSOEVER RESULTING * FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, * NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION * WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. NO ASSURANCES ARE * PROVIDED BY THE COPYRIGHT HOLDERS THAT THE SOFTWARE DOES NOT INFRINGE * THE PATENT OR OTHER INTELLECTUAL PROPERTY RIGHTS OF ANY OTHER ENTITY. * EACH COPYRIGHT HOLDER DISCLAIMS ANY LIABILITY TO THE USER FOR CLAIMS * BROUGHT BY ANY OTHER ENTITY BASED ON INFRINGEMENT OF INTELLECTUAL * PROPERTY RIGHTS OR OTHERWISE. AS A CONDITION TO EXERCISING THE RIGHTS * GRANTED HEREUNDER, EACH USER HEREBY ASSUMES SOLE RESPONSIBILITY TO SECURE * ANY OTHER INTELLECTUAL PROPERTY RIGHTS NEEDED, IF ANY. THE SOFTWARE * IS NOT FAULT-TOLERANT AND IS NOT INTENDED FOR USE IN MISSION-CRITICAL * SYSTEMS, SUCH AS THOSE USED IN THE OPERATION OF NUCLEAR FACILITIES, * AIRCRAFT NAVIGATION OR COMMUNICATION SYSTEMS, AIR TRAFFIC CONTROL * SYSTEMS, DIRECT LIFE SUPPORT MACHINES, OR WEAPONS SYSTEMS, IN WHICH * THE FAILURE OF THE SOFTWARE OR SYSTEM COULD LEAD DIRECTLY TO DEATH, * PERSONAL INJURY, OR SEVERE PHYSICAL OR ENVIRONMENTAL DAMAGE ("HIGH * RISK ACTIVITIES"). THE COPYRIGHT HOLDERS SPECIFICALLY DISCLAIM ANY * EXPRESS OR IMPLIED WARRANTY OF FITNESS FOR HIGH RISK ACTIVITIES. * * __END_OF_JASPER_LICENSE__ */ /* * Tier 1 Decoder * * $Id$ */ /******************************************************************************\ * Includes. \******************************************************************************/ #include "jpc_t1dec.h" #include "jpc_bs.h" #include "jpc_mqdec.h" #include "jpc_t1cod.h" #include "jpc_dec.h" #include "jasper/jas_stream.h" #include "jasper/jas_math.h" #include "jasper/jas_debug.h" /******************************************************************************\ * \******************************************************************************/ static int jpc_dec_decodecblk(jpc_dec_tile_t *tile, jpc_dec_tcomp_t *tcomp, jpc_dec_band_t *band, jpc_dec_cblk_t *cblk, int dopartial, int maxlyrs); static int dec_sigpass(jpc_mqdec_t *mqdec, unsigned bitpos, enum jpc_tsfb_orient orient, bool vcausalflag, jas_matrix_t *flags, jas_matrix_t *data); static int dec_rawsigpass(jpc_bitstream_t *in, unsigned bitpos, bool vcausalflag, jas_matrix_t *flags, jas_matrix_t *data); static int dec_refpass(jpc_mqdec_t *mqdec, unsigned bitpos, jas_matrix_t *flags, jas_matrix_t *data); static int dec_rawrefpass(jpc_bitstream_t *in, unsigned bitpos, jas_matrix_t *flags, jas_matrix_t *data); static int dec_clnpass(jpc_mqdec_t *mqdec, unsigned bitpos, enum jpc_tsfb_orient orient, bool vcausalflag, bool segsymflag, jas_matrix_t *flags, jas_matrix_t *data); #ifndef NDEBUG static long t1dec_cnt = 0; #endif JAS_FORCE_INLINE static bool JPC_T1D_GETBIT(jpc_mqdec_t *mqdec, const char *passtypename, const char *symtypename) { bool v = jpc_mqdec_getbit(mqdec); #ifndef NDEBUG if (jas_getdbglevel() >= 100) { jas_eprintf("index = %ld; passtype = %s; symtype = %s; sym = %d\n", t1dec_cnt, passtypename, symtypename, v); ++t1dec_cnt; } #else (void)passtypename; (void)symtypename; #endif return v; } JAS_FORCE_INLINE static bool JPC_T1D_GETBITNOSKEW(jpc_mqdec_t *mqdec, const char *passtypename, const char *symtypename) { return JPC_T1D_GETBIT(mqdec, passtypename, symtypename); } JAS_FORCE_INLINE static int JPC_T1D_RAWGETBIT(jpc_bitstream_t *bitstream, const char *passtypename, const char *symtypename) { int v = jpc_bitstream_getbit(bitstream); #ifndef NDEBUG if (jas_getdbglevel() >= 100) { jas_eprintf("index = %ld; passtype = %s; symtype = %s; sym = %d\n", t1dec_cnt, passtypename, symtypename, v); ++t1dec_cnt; } #else (void)passtypename; (void)symtypename; #endif return v; } /******************************************************************************\ * Code. \******************************************************************************/ int jpc_dec_decodecblks(jpc_dec_t *dec, jpc_dec_tile_t *tile) { jpc_dec_tcomp_t *tcomp; jpc_dec_rlvl_t *rlvl; jpc_dec_band_t *band; jpc_dec_prc_t *prc; jpc_dec_cblk_t *cblk; unsigned compcnt; for (compcnt = dec->numcomps, tcomp = tile->tcomps; compcnt > 0; --compcnt, ++tcomp) { unsigned rlvlcnt; for (rlvlcnt = tcomp->numrlvls, rlvl = tcomp->rlvls; rlvlcnt > 0; --rlvlcnt, ++rlvl) { if (!rlvl->bands) { continue; } unsigned bandcnt; for (bandcnt = rlvl->numbands, band = rlvl->bands; bandcnt > 0; --bandcnt, ++band) { if (!band->data) { continue; } unsigned prccnt; for (prccnt = rlvl->numprcs, prc = band->prcs; prccnt > 0; --prccnt, ++prc) { if (!prc->cblks) { continue; } unsigned cblkcnt; for (cblkcnt = prc->numcblks, cblk = prc->cblks; cblkcnt > 0; --cblkcnt, ++cblk) { if (jpc_dec_decodecblk(tile, tcomp, band, cblk, 1, JPC_MAXLYRS)) { return -1; } } } } } } return 0; } static int jpc_dec_decodecblk(jpc_dec_tile_t *tile, jpc_dec_tcomp_t *tcomp, jpc_dec_band_t *band, jpc_dec_cblk_t *cblk, int dopartial, int maxlyrs) { jpc_dec_seg_t *seg; int bpno; int ret = -1; int filldata; int fillmask; const size_t compno = tcomp - tile->tcomps; const jpc_dec_ccp_t *const ccp = &tile->cp->ccps[compno]; /* The MQ decoder. */ jpc_mqdec_t *mqdec = NULL; /* The raw bit stream decoder. */ jpc_bitstream_t *nulldec = NULL; /* The per-sample state information for this code block. */ /* Note: matrix is assumed to be zeroed */ jas_matrix_t *const flags = jas_matrix_create(jas_matrix_numrows(cblk->data) + 2, jas_matrix_numcols(cblk->data) + 2); if (!flags) goto error; seg = cblk->segs.head; while (seg && (seg != cblk->curseg || dopartial) && (maxlyrs < 0 || seg->lyrno < (unsigned)maxlyrs)) { assert(seg->numpasses >= seg->maxpasses || dopartial); assert(seg->stream); jas_stream_rewind(seg->stream); jas_stream_setrwcount(seg->stream, 0); if (seg->type == JPC_SEG_MQ) { if (!mqdec) { if (!(mqdec = jpc_mqdec_create(JPC_NUMCTXS, 0))) { goto error; } jpc_mqdec_setctxs(mqdec, JPC_NUMCTXS, jpc_mqctxs); } jpc_mqdec_setinput(mqdec, seg->stream); jpc_mqdec_init(mqdec); } else { assert(seg->type == JPC_SEG_RAW); if (!nulldec) { if (!(nulldec = jpc_bitstream_sopen(seg->stream, "r"))) { goto error; } } } for (unsigned i = 0; i < seg->numpasses; ++i) { if (cblk->numimsbs > band->numbps) { if (ccp->roishift <= 0) { jas_eprintf("warning: corrupt code stream\n"); } else { if (cblk->numimsbs < ccp->roishift - band->numbps) { jas_eprintf("warning: corrupt code stream\n"); } } } bpno = band->roishift + band->numbps - 1 - (cblk->numimsbs + (seg->passno + i - cblk->firstpassno + 2) / 3); if (bpno < 0) { goto premature_exit; } enum jpc_passtype passtype = JPC_PASSTYPE(seg->passno + i); assert(bpno >= 0 && bpno < 31); switch (passtype) { case JPC_SIGPASS: ret = (seg->type == JPC_SEG_MQ) ? dec_sigpass(mqdec, bpno, band->orient, (ccp->cblkctx & JPC_COX_VSC) != 0, flags, cblk->data) : dec_rawsigpass(nulldec, bpno, (ccp->cblkctx & JPC_COX_VSC) != 0, flags, cblk->data); break; case JPC_REFPASS: ret = (seg->type == JPC_SEG_MQ) ? dec_refpass(mqdec, bpno, flags, cblk->data) : dec_rawrefpass(nulldec, bpno, flags, cblk->data); break; case JPC_CLNPASS: assert(seg->type == JPC_SEG_MQ); ret = dec_clnpass(mqdec, bpno, band->orient, (ccp->cblkctx & JPC_COX_VSC) != 0, (ccp->cblkctx & JPC_COX_SEGSYM) != 0, flags, cblk->data); break; default: assert(false); JAS_UNREACHABLE(); } /* Do we need to reset after each coding pass? */ if ((ccp->cblkctx & JPC_COX_RESET) && mqdec) { jpc_mqdec_setctxs(mqdec, JPC_NUMCTXS, jpc_mqctxs); } if (ret) { jas_eprintf("coding pass failed passtype=%d segtype=%d\n", passtype, seg->type); goto error; } } if (seg->type == JPC_SEG_MQ) { /* Note: dont destroy mq decoder because context info will be lost */ } else { assert(seg->type == JPC_SEG_RAW); if (ccp->cblkctx & JPC_COX_PTERM) { fillmask = 0x7f; filldata = 0x2a; } else { fillmask = 0; filldata = 0; } if ((ret = jpc_bitstream_inalign(nulldec, fillmask, filldata)) < 0) { goto error; } else if (ret > 0) { jas_eprintf("warning: bad termination pattern detected\n"); } jpc_bitstream_close(nulldec); nulldec = 0; } cblk->curseg = seg->next; jpc_seglist_remove(&cblk->segs, seg); jpc_seg_destroy(seg); seg = cblk->curseg; } assert(dopartial ? (!cblk->curseg) : 1); premature_exit: if (mqdec) jpc_mqdec_destroy(mqdec); if (nulldec) jpc_bitstream_close(nulldec); if (flags) jas_matrix_destroy(flags); return 0; error: if (mqdec) jpc_mqdec_destroy(mqdec); if (nulldec) jpc_bitstream_close(nulldec); if (flags) jas_matrix_destroy(flags); return -1; } /******************************************************************************\ * Code for significance pass. \******************************************************************************/ JAS_FORCE_INLINE static void jpc_sigpass_step(jpc_fix_t *fp, size_t frowstep, jpc_fix_t *dp, jpc_fix_t oneplushalf, enum jpc_tsfb_orient orient, jpc_mqdec_t *mqdec, bool vcausalflag) { const jpc_fix_t f = *(fp); if ((f & JPC_OTHSIGMSK) && !(f & (JPC_SIG | JPC_VISIT))) { jpc_mqdec_setcurctx(mqdec, JPC_GETZCCTXNO(f, orient)); if (JPC_T1D_GETBIT(mqdec, "SIG", "ZC")) { jpc_mqdec_setcurctx(mqdec, JPC_GETSCCTXNO(f)); bool v = JPC_T1D_GETBIT(mqdec, "SIG", "SC"); v ^= JPC_GETSPB(f); JPC_UPDATEFLAGS4(fp, frowstep, v, vcausalflag); *fp |= JPC_SIG; *dp = v ? -oneplushalf : oneplushalf; } *fp |= JPC_VISIT; } } static int dec_sigpass(jpc_mqdec_t *mqdec, unsigned bitpos, enum jpc_tsfb_orient orient, bool vcausalflag, jas_matrix_t *flags, jas_matrix_t *data) { int i; jpc_fix_t *fp; jpc_fix_t *fstripestart; jpc_fix_t *fvscanstart; jpc_fix_t *dp; jpc_fix_t *dstripestart; jpc_fix_t *dvscanstart; const unsigned width = jas_matrix_numcols(data); const unsigned height = jas_matrix_numrows(data); const unsigned frowstep = jas_matrix_rowstep(flags); const unsigned drowstep = jas_matrix_rowstep(data); const unsigned fstripestep = frowstep << 2; const unsigned dstripestep = drowstep << 2; const jpc_fix_t one = (jpc_fix_t)1 << bitpos; const jpc_fix_t half = one >> 1; const jpc_fix_t oneplushalf = one | half; fstripestart = jas_matrix_getref(flags, 1, 1); dstripestart = jas_matrix_getref(data, 0, 0); for (i = height; i > 0; i -= 4, fstripestart += fstripestep, dstripestart += dstripestep) { fvscanstart = fstripestart; dvscanstart = dstripestart; const unsigned vscanlen = JAS_MIN(i, 4); for (unsigned j = width; j > 0; --j, ++fvscanstart, ++dvscanstart) { fp = fvscanstart; dp = dvscanstart; unsigned k = vscanlen; /* Process first sample in vertical scan. */ jpc_sigpass_step(fp, frowstep, dp, oneplushalf, orient, mqdec, vcausalflag); if (--k <= 0) { continue; } fp += frowstep; dp += drowstep; /* Process second sample in vertical scan. */ jpc_sigpass_step(fp, frowstep, dp, oneplushalf, orient, mqdec, 0); if (--k <= 0) { continue; } fp += frowstep; dp += drowstep; /* Process third sample in vertical scan. */ jpc_sigpass_step(fp, frowstep, dp, oneplushalf, orient, mqdec, 0); if (--k <= 0) { continue; } fp += frowstep; dp += drowstep; /* Process fourth sample in vertical scan. */ jpc_sigpass_step(fp, frowstep, dp, oneplushalf, orient, mqdec, 0); } } return 0; } JAS_FORCE_INLINE static int jpc_rawsigpass_step(jpc_fix_t *fp, size_t frowstep, jpc_fix_t *dp, jpc_fix_t oneplushalf, jpc_bitstream_t *in, bool vcausalflag) { const jpc_fix_t f = *fp; if ((f & JPC_OTHSIGMSK) && !(f & (JPC_SIG | JPC_VISIT))) { int v = JPC_T1D_RAWGETBIT(in, "SIG", "ZC"); if (v < 0) { return -1; } if (v) { v = JPC_T1D_RAWGETBIT(in, "SIG", "SC"); if (v < 0) { return -1; } JPC_UPDATEFLAGS4(fp, frowstep, v, vcausalflag); *fp |= JPC_SIG; *dp = v ? -oneplushalf : oneplushalf; } *fp |= JPC_VISIT; } return 0; } static int dec_rawsigpass(jpc_bitstream_t *in, unsigned bitpos, bool vcausalflag, jas_matrix_t *flags, jas_matrix_t *data) { int i; jpc_fix_t *fp; jpc_fix_t *fstripestart; jpc_fix_t *fvscanstart; jpc_fix_t *dp; jpc_fix_t *dstripestart; jpc_fix_t *dvscanstart; const unsigned width = jas_matrix_numcols(data); const unsigned height = jas_matrix_numrows(data); const unsigned frowstep = jas_matrix_rowstep(flags); const unsigned drowstep = jas_matrix_rowstep(data); const unsigned fstripestep = frowstep << 2; const unsigned dstripestep = drowstep << 2; const jpc_fix_t one = (jpc_fix_t)1 << bitpos; const jpc_fix_t half = one >> 1; const jpc_fix_t oneplushalf = one | half; fstripestart = jas_matrix_getref(flags, 1, 1); dstripestart = jas_matrix_getref(data, 0, 0); for (i = height; i > 0; i -= 4, fstripestart += fstripestep, dstripestart += dstripestep) { fvscanstart = fstripestart; dvscanstart = dstripestart; const unsigned vscanlen = JAS_MIN(i, 4); for (unsigned j = width; j > 0; --j, ++fvscanstart, ++dvscanstart) { fp = fvscanstart; dp = dvscanstart; unsigned k = vscanlen; /* Process first sample in vertical scan. */ if (jpc_rawsigpass_step(fp, frowstep, dp, oneplushalf, in, vcausalflag)) return -1; if (--k <= 0) { continue; } fp += frowstep; dp += drowstep; /* Process second sample in vertical scan. */ if (jpc_rawsigpass_step(fp, frowstep, dp, oneplushalf, in, 0)) return -1; if (--k <= 0) { continue; } fp += frowstep; dp += drowstep; /* Process third sample in vertical scan. */ if (jpc_rawsigpass_step(fp, frowstep, dp, oneplushalf, in, 0)) return -1; if (--k <= 0) { continue; } fp += frowstep; dp += drowstep; /* Process fourth sample in vertical scan. */ jpc_rawsigpass_step(fp, frowstep, dp, oneplushalf, in, 0); } } return 0; } /******************************************************************************\ * Code for refinement pass. \******************************************************************************/ JAS_FORCE_INLINE static void jpc_refpass_step(jpc_fix_t *fp, jpc_fix_t *dp, jpc_fix_t poshalf, jpc_fix_t neghalf, jpc_mqdec_t *mqdec) { if (((*(fp)) & (JPC_SIG | JPC_VISIT)) == JPC_SIG) { \ jpc_mqdec_setcurctx(mqdec, JPC_GETMAGCTXNO(*fp)); const bool v = JPC_T1D_GETBITNOSKEW(mqdec, "REF", "MR"); const jpc_fix_t t = v ? poshalf : neghalf; *dp += *dp < 0 ? -t : t; *fp |= JPC_REFINE; } } static int dec_refpass(jpc_mqdec_t *mqdec, unsigned bitpos, jas_matrix_t *flags, jas_matrix_t *data) { int i; jpc_fix_t *fp; jpc_fix_t *fstripestart; jpc_fix_t *fvscanstart; jpc_fix_t *dp; jpc_fix_t *dstripestart; jpc_fix_t *dvscanstart; const unsigned width = jas_matrix_numcols(data); const unsigned height = jas_matrix_numrows(data); const unsigned frowstep = jas_matrix_rowstep(flags); const unsigned drowstep = jas_matrix_rowstep(data); const unsigned fstripestep = frowstep << 2; const unsigned dstripestep = drowstep << 2; const jpc_fix_t one = (jpc_fix_t)1 << bitpos; const jpc_fix_t poshalf = one >> 1; const jpc_fix_t neghalf = bitpos > 0 ? -poshalf : -1; fstripestart = jas_matrix_getref(flags, 1, 1); dstripestart = jas_matrix_getref(data, 0, 0); for (i = height; i > 0; i -= 4, fstripestart += fstripestep, dstripestart += dstripestep) { fvscanstart = fstripestart; dvscanstart = dstripestart; const unsigned vscanlen = JAS_MIN(i, 4); for (unsigned j = width; j > 0; --j, ++fvscanstart, ++dvscanstart) { fp = fvscanstart; dp = dvscanstart; for (unsigned k = 0; k < vscanlen; ++k) { jpc_refpass_step(fp, dp, poshalf, neghalf, mqdec); fp += frowstep; dp += drowstep; } } } return 0; } static int jpc_rawrefpass_step(jpc_fix_t *fp, jpc_fix_t *dp, jpc_fix_t poshalf, jpc_fix_t neghalf, jpc_bitstream_t *in) { if ((*fp & (JPC_SIG | JPC_VISIT)) == JPC_SIG) { int v = JPC_T1D_RAWGETBIT(in, "REF", "MAGREF"); if (v < 0) { return -1; } jpc_fix_t t = v ? poshalf : neghalf; *dp += *dp < 0 ? -t : t; *fp |= JPC_REFINE; } return 0; } static int dec_rawrefpass(jpc_bitstream_t *in, unsigned bitpos, jas_matrix_t *flags, jas_matrix_t *data) { int i; jpc_fix_t *fp; jpc_fix_t *fstripestart; jpc_fix_t *fvscanstart; jpc_fix_t *dp; jpc_fix_t *dstripestart; jpc_fix_t *dvscanstart; const unsigned width = jas_matrix_numcols(data); const unsigned height = jas_matrix_numrows(data); const unsigned frowstep = jas_matrix_rowstep(flags); const unsigned drowstep = jas_matrix_rowstep(data); const unsigned fstripestep = frowstep << 2; const unsigned dstripestep = drowstep << 2; const jpc_fix_t one = (jpc_fix_t)1 << bitpos; const jpc_fix_t poshalf = one >> 1; const jpc_fix_t neghalf = bitpos > 0 ? -poshalf : -1; fstripestart = jas_matrix_getref(flags, 1, 1); dstripestart = jas_matrix_getref(data, 0, 0); for (i = height; i > 0; i -= 4, fstripestart += fstripestep, dstripestart += dstripestep) { fvscanstart = fstripestart; dvscanstart = dstripestart; const unsigned vscanlen = JAS_MIN(i, 4); for (unsigned j = width; j > 0; --j, ++fvscanstart, ++dvscanstart) { fp = fvscanstart; dp = dvscanstart; for (unsigned k = 0; k < vscanlen; ++k) { if (jpc_rawrefpass_step(fp, dp, poshalf, neghalf, in)) return -1; fp += frowstep; dp += drowstep; } } } return 0; } /******************************************************************************\ * Code for cleanup pass. \******************************************************************************/ #define jpc_clnpass_step(f, fp, frowstep, dp, oneplushalf, orient, mqdec, flabel, plabel, vcausalflag) \ { \ flabel \ if (!((f) & (JPC_SIG | JPC_VISIT))) { \ jpc_mqdec_setcurctx((mqdec), JPC_GETZCCTXNO((f), (orient))); \ if (JPC_T1D_GETBIT((mqdec), "CLN", "ZC")) { \ plabel \ /* Coefficient is significant. */ \ jpc_mqdec_setcurctx((mqdec), JPC_GETSCCTXNO(f)); \ bool v = JPC_T1D_GETBIT((mqdec), "CLN", "SC"); \ v ^= JPC_GETSPB(f); \ *(dp) = (v) ? (-(jpc_fix_t)(oneplushalf)) : (jpc_fix_t)(oneplushalf); \ JPC_UPDATEFLAGS4((fp), (frowstep), v, (vcausalflag)); \ *(fp) |= JPC_SIG; \ } \ } \ /* XXX - Is this correct? Can aggregation cause some VISIT bits not to be reset? Check. */ \ *(fp) &= ~JPC_VISIT; \ } static int dec_clnpass(jpc_mqdec_t *mqdec, unsigned bitpos, enum jpc_tsfb_orient orient, bool vcausalflag, bool segsymflag, jas_matrix_t *flags, jas_matrix_t *data) { int f; jpc_fix_t *fp; jpc_fix_t *fstripestart; jpc_fix_t *fvscanstart; jpc_fix_t *dp; jpc_fix_t *dstripestart; jpc_fix_t *dvscanstart; const jpc_fix_t one = (jpc_fix_t)1 << bitpos; const jpc_fix_t half = one >> 1; const jpc_fix_t oneplushalf = one | half; const unsigned width = jas_matrix_numcols(data); const unsigned height = jas_matrix_numrows(data); const unsigned frowstep = jas_matrix_rowstep(flags); const unsigned drowstep = jas_matrix_rowstep(data); const unsigned fstripestep = frowstep << 2; const unsigned dstripestep = drowstep << 2; fstripestart = jas_matrix_getref(flags, 1, 1); dstripestart = jas_matrix_getref(data, 0, 0); for (unsigned i = 0; i < height; i += 4, fstripestart += fstripestep, dstripestart += dstripestep) { fvscanstart = fstripestart; dvscanstart = dstripestart; const unsigned vscanlen = JAS_MIN(4, height - i); for (unsigned j = width; j > 0; --j, ++fvscanstart, ++dvscanstart) { fp = fvscanstart; unsigned k; if (vscanlen >= 4 && (!((*fp) & (JPC_SIG | JPC_VISIT | JPC_OTHSIGMSK))) && (fp += frowstep, !((*fp) & (JPC_SIG | JPC_VISIT | JPC_OTHSIGMSK))) && (fp += frowstep, !((*fp) & (JPC_SIG | JPC_VISIT | JPC_OTHSIGMSK))) && (fp += frowstep, !((*fp) & (JPC_SIG | JPC_VISIT | JPC_OTHSIGMSK)))) { jpc_mqdec_setcurctx(mqdec, JPC_AGGCTXNO); if (!JPC_T1D_GETBIT(mqdec, "CLN", "AGG")) { continue; } jpc_mqdec_setcurctx(mqdec, JPC_UCTXNO); unsigned runlen = JPC_T1D_GETBITNOSKEW(mqdec, "CLN", "RL"); runlen = (runlen << 1) | JPC_T1D_GETBITNOSKEW(mqdec, "CLN", "RL"); f = *(fp = fvscanstart + frowstep * runlen); dp = dvscanstart + drowstep * runlen; k = vscanlen - runlen; switch (runlen) { case 0: goto clnpass_partial0; case 1: goto clnpass_partial1; case 2: goto clnpass_partial2; case 3: goto clnpass_partial3; } } else { f = *(fp = fvscanstart); dp = dvscanstart; k = vscanlen; goto clnpass_full0; } /* Process first sample in vertical scan. */ jpc_clnpass_step(f, fp, frowstep, dp, oneplushalf, orient, mqdec, clnpass_full0:, clnpass_partial0:, vcausalflag); if (--k <= 0) { continue; } fp += frowstep; dp += drowstep; /* Process second sample in vertical scan. */ f = *fp; jpc_clnpass_step(f, fp, frowstep, dp, oneplushalf, orient, mqdec, ;, clnpass_partial1:, 0); if (--k <= 0) { continue; } fp += frowstep; dp += drowstep; /* Process third sample in vertical scan. */ f = *fp; jpc_clnpass_step(f, fp, frowstep, dp, oneplushalf, orient, mqdec, ;, clnpass_partial2:, 0); if (--k <= 0) { continue; } fp += frowstep; dp += drowstep; /* Process fourth sample in vertical scan. */ f = *fp; jpc_clnpass_step(f, fp, frowstep, dp, oneplushalf, orient, mqdec, ;, clnpass_partial3:, 0); } } if (segsymflag) { unsigned segsymval = 0; jpc_mqdec_setcurctx(mqdec, JPC_UCTXNO); segsymval = (segsymval << 1) | JPC_T1D_GETBITNOSKEW(mqdec, "CLN", "SEGSYM"); segsymval = (segsymval << 1) | JPC_T1D_GETBITNOSKEW(mqdec, "CLN", "SEGSYM"); segsymval = (segsymval << 1) | JPC_T1D_GETBITNOSKEW(mqdec, "CLN", "SEGSYM"); segsymval = (segsymval << 1) | JPC_T1D_GETBITNOSKEW(mqdec, "CLN", "SEGSYM"); if (segsymval != 0xa) { jas_eprintf("warning: bad segmentation symbol\n"); } } return 0; }