/* * 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 2 Encoder * * $Id: jpc_t2enc.c,v 1.1 2008/10/17 06:15:00 scuri Exp $ */ /******************************************************************************\ * Includes. \******************************************************************************/ #include #include #include #include "jasper/jas_fix.h" #include "jasper/jas_malloc.h" #include "jasper/jas_math.h" #include "jasper/jas_debug.h" #include "jpc_flt.h" #include "jpc_t2enc.h" #include "jpc_t2cod.h" #include "jpc_tagtree.h" #include "jpc_enc.h" #include "jpc_math.h" /******************************************************************************\ * Code. \******************************************************************************/ static int jpc_putcommacode(jpc_bitstream_t *out, int n) { assert(n >= 0); while (--n >= 0) { if (jpc_bitstream_putbit(out, 1) == EOF) { return -1; } } if (jpc_bitstream_putbit(out, 0) == EOF) { return -1; } return 0; } static int jpc_putnumnewpasses(jpc_bitstream_t *out, int n) { int ret; if (n <= 0) { return -1; } else if (n == 1) { ret = jpc_bitstream_putbit(out, 0); } else if (n == 2) { ret = jpc_bitstream_putbits(out, 2, 2); } else if (n <= 5) { ret = jpc_bitstream_putbits(out, 4, 0xc | (n - 3)); } else if (n <= 36) { ret = jpc_bitstream_putbits(out, 9, 0x1e0 | (n - 6)); } else if (n <= 164) { ret = jpc_bitstream_putbits(out, 16, 0xff80 | (n - 37)); } else { /* The standard has no provision for encoding a larger value. In practice, however, it is highly unlikely that this limitation will ever be encountered. */ return -1; } return (ret != EOF) ? 0 : (-1); } int jpc_enc_encpkts(jpc_enc_t *enc, jas_stream_t *out) { jpc_enc_tile_t *tile; jpc_pi_t *pi; tile = enc->curtile; jpc_init_t2state(enc, 0); pi = tile->pi; jpc_pi_init(pi); if (!jpc_pi_next(pi)) { for (;;) { if (jpc_enc_encpkt(enc, out, jpc_pi_cmptno(pi), jpc_pi_rlvlno(pi), jpc_pi_prcno(pi), jpc_pi_lyrno(pi))) { return -1; } if (jpc_pi_next(pi)) { break; } } } return 0; } int jpc_enc_encpkt(jpc_enc_t *enc, jas_stream_t *out, int compno, int lvlno, int prcno, int lyrno) { jpc_enc_tcmpt_t *comp; jpc_enc_rlvl_t *lvl; jpc_enc_band_t *band; jpc_enc_band_t *endbands; jpc_enc_cblk_t *cblk; jpc_enc_cblk_t *endcblks; jpc_bitstream_t *outb; jpc_enc_pass_t *pass; jpc_enc_pass_t *startpass; jpc_enc_pass_t *lastpass; jpc_enc_pass_t *endpass; jpc_enc_pass_t *endpasses; int i; int included; int ret; jpc_tagtreenode_t *leaf; int n; int t1; int t2; int adjust; int maxadjust; int datalen; int numnewpasses; int passcount; jpc_enc_tile_t *tile; jpc_enc_prc_t *prc; jpc_enc_cp_t *cp; jpc_ms_t *ms; tile = enc->curtile; cp = enc->cp; if (cp->tcp.csty & JPC_COD_SOP) { if (!(ms = jpc_ms_create(JPC_MS_SOP))) { return -1; } ms->parms.sop.seqno = jpc_pi_getind(tile->pi); if (jpc_putms(out, enc->cstate, ms)) { return -1; } jpc_ms_destroy(ms); } outb = jpc_bitstream_sopen(out, "w+"); assert(outb); if (jpc_bitstream_putbit(outb, 1) == EOF) { return -1; } JAS_DBGLOG(10, ("\n")); JAS_DBGLOG(10, ("present. ")); comp = &tile->tcmpts[compno]; lvl = &comp->rlvls[lvlno]; endbands = &lvl->bands[lvl->numbands]; for (band = lvl->bands; band != endbands; ++band) { if (!band->data) { continue; } prc = &band->prcs[prcno]; if (!prc->cblks) { continue; } endcblks = &prc->cblks[prc->numcblks]; for (cblk = prc->cblks; cblk != endcblks; ++cblk) { if (!lyrno) { leaf = jpc_tagtree_getleaf(prc->nlibtree, cblk - prc->cblks); jpc_tagtree_setvalue(prc->nlibtree, leaf, cblk->numimsbs); } pass = cblk->curpass; included = (pass && pass->lyrno == lyrno); if (included && (!cblk->numencpasses)) { assert(pass->lyrno == lyrno); leaf = jpc_tagtree_getleaf(prc->incltree, cblk - prc->cblks); jpc_tagtree_setvalue(prc->incltree, leaf, pass->lyrno); } } endcblks = &prc->cblks[prc->numcblks]; for (cblk = prc->cblks; cblk != endcblks; ++cblk) { pass = cblk->curpass; included = (pass && pass->lyrno == lyrno); if (!cblk->numencpasses) { leaf = jpc_tagtree_getleaf(prc->incltree, cblk - prc->cblks); if (jpc_tagtree_encode(prc->incltree, leaf, lyrno + 1, outb) < 0) { return -1; } } else { if (jpc_bitstream_putbit(outb, included) == EOF) { return -1; } } JAS_DBGLOG(10, ("included=%d ", included)); if (!included) { continue; } if (!cblk->numencpasses) { i = 1; leaf = jpc_tagtree_getleaf(prc->nlibtree, cblk - prc->cblks); for (;;) { if ((ret = jpc_tagtree_encode(prc->nlibtree, leaf, i, outb)) < 0) { return -1; } if (ret) { break; } ++i; } assert(leaf->known_ && i == leaf->value_ + 1); } endpasses = &cblk->passes[cblk->numpasses]; startpass = pass; endpass = startpass; while (endpass != endpasses && endpass->lyrno == lyrno){ ++endpass; } numnewpasses = endpass - startpass; if (jpc_putnumnewpasses(outb, numnewpasses)) { return -1; } JAS_DBGLOG(10, ("numnewpasses=%d ", numnewpasses)); lastpass = endpass - 1; n = startpass->start; passcount = 1; maxadjust = 0; for (pass = startpass; pass != endpass; ++pass) { if (pass->term || pass == lastpass) { datalen = pass->end - n; t1 = jpc_firstone(datalen) + 1; t2 = cblk->numlenbits + jpc_floorlog2(passcount); adjust = JAS_MAX(t1 - t2, 0); maxadjust = JAS_MAX(adjust, maxadjust); n += datalen; passcount = 1; } else { ++passcount; } } if (jpc_putcommacode(outb, maxadjust)) { return -1; } cblk->numlenbits += maxadjust; lastpass = endpass - 1; n = startpass->start; passcount = 1; for (pass = startpass; pass != endpass; ++pass) { if (pass->term || pass == lastpass) { datalen = pass->end - n; assert(jpc_firstone(datalen) < cblk->numlenbits + jpc_floorlog2(passcount)); if (jpc_bitstream_putbits(outb, cblk->numlenbits + jpc_floorlog2(passcount), datalen) == EOF) { return -1; } n += datalen; passcount = 1; } else { ++passcount; } } } } jpc_bitstream_outalign(outb, 0); jpc_bitstream_close(outb); if (cp->tcp.csty & JPC_COD_EPH) { if (!(ms = jpc_ms_create(JPC_MS_EPH))) { return -1; } jpc_putms(out, enc->cstate, ms); jpc_ms_destroy(ms); } comp = &tile->tcmpts[compno]; lvl = &comp->rlvls[lvlno]; endbands = &lvl->bands[lvl->numbands]; for (band = lvl->bands; band != endbands; ++band) { if (!band->data) { continue; } prc = &band->prcs[prcno]; if (!prc->cblks) { continue; } endcblks = &prc->cblks[prc->numcblks]; for (cblk = prc->cblks; cblk != endcblks; ++cblk) { pass = cblk->curpass; if (!pass) { continue; } if (pass->lyrno != lyrno) { assert(pass->lyrno < 0 || pass->lyrno > lyrno); continue; } endpasses = &cblk->passes[cblk->numpasses]; startpass = pass; endpass = startpass; while (endpass != endpasses && endpass->lyrno == lyrno){ ++endpass; } lastpass = endpass - 1; numnewpasses = endpass - startpass; jas_stream_seek(cblk->stream, startpass->start, SEEK_SET); assert(jas_stream_tell(cblk->stream) == startpass->start); if (jas_stream_copy(out, cblk->stream, lastpass->end - startpass->start)) { return -1; } cblk->curpass = (endpass != endpasses) ? endpass : 0; cblk->numencpasses += numnewpasses; } } return 0; } void jpc_save_t2state(jpc_enc_t *enc) { /* stream pos in embedded T1 stream may be wrong since not saved/restored! */ jpc_enc_tcmpt_t *comp; jpc_enc_tcmpt_t *endcomps; jpc_enc_rlvl_t *lvl; jpc_enc_rlvl_t *endlvls; jpc_enc_band_t *band; jpc_enc_band_t *endbands; jpc_enc_cblk_t *cblk; jpc_enc_cblk_t *endcblks; jpc_enc_tile_t *tile; int prcno; jpc_enc_prc_t *prc; tile = enc->curtile; endcomps = &tile->tcmpts[tile->numtcmpts]; for (comp = tile->tcmpts; comp != endcomps; ++comp) { endlvls = &comp->rlvls[comp->numrlvls]; for (lvl = comp->rlvls; lvl != endlvls; ++lvl) { if (!lvl->bands) { continue; } endbands = &lvl->bands[lvl->numbands]; for (band = lvl->bands; band != endbands; ++band) { if (!band->data) { continue; } for (prcno = 0, prc = band->prcs; prcno < lvl->numprcs; ++prcno, ++prc) { if (!prc->cblks) { continue; } jpc_tagtree_copy(prc->savincltree, prc->incltree); jpc_tagtree_copy(prc->savnlibtree, prc->nlibtree); endcblks = &prc->cblks[prc->numcblks]; for (cblk = prc->cblks; cblk != endcblks; ++cblk) { cblk->savedcurpass = cblk->curpass; cblk->savednumencpasses = cblk->numencpasses; cblk->savednumlenbits = cblk->numlenbits; } } } } } } void jpc_restore_t2state(jpc_enc_t *enc) { jpc_enc_tcmpt_t *comp; jpc_enc_tcmpt_t *endcomps; jpc_enc_rlvl_t *lvl; jpc_enc_rlvl_t *endlvls; jpc_enc_band_t *band; jpc_enc_band_t *endbands; jpc_enc_cblk_t *cblk; jpc_enc_cblk_t *endcblks; jpc_enc_tile_t *tile; int prcno; jpc_enc_prc_t *prc; tile = enc->curtile; endcomps = &tile->tcmpts[tile->numtcmpts]; for (comp = tile->tcmpts; comp != endcomps; ++comp) { endlvls = &comp->rlvls[comp->numrlvls]; for (lvl = comp->rlvls; lvl != endlvls; ++lvl) { if (!lvl->bands) { continue; } endbands = &lvl->bands[lvl->numbands]; for (band = lvl->bands; band != endbands; ++band) { if (!band->data) { continue; } for (prcno = 0, prc = band->prcs; prcno < lvl->numprcs; ++prcno, ++prc) { if (!prc->cblks) { continue; } jpc_tagtree_copy(prc->incltree, prc->savincltree); jpc_tagtree_copy(prc->nlibtree, prc->savnlibtree); endcblks = &prc->cblks[prc->numcblks]; for (cblk = prc->cblks; cblk != endcblks; ++cblk) { cblk->curpass = cblk->savedcurpass; cblk->numencpasses = cblk->savednumencpasses; cblk->numlenbits = cblk->savednumlenbits; } } } } } } void jpc_init_t2state(jpc_enc_t *enc, int raflag) { /* It is assumed that band->numbps and cblk->numbps precomputed */ jpc_enc_tcmpt_t *comp; jpc_enc_tcmpt_t *endcomps; jpc_enc_rlvl_t *lvl; jpc_enc_rlvl_t *endlvls; jpc_enc_band_t *band; jpc_enc_band_t *endbands; jpc_enc_cblk_t *cblk; jpc_enc_cblk_t *endcblks; jpc_enc_pass_t *pass; jpc_enc_pass_t *endpasses; jpc_tagtreenode_t *leaf; jpc_enc_tile_t *tile; int prcno; jpc_enc_prc_t *prc; tile = enc->curtile; endcomps = &tile->tcmpts[tile->numtcmpts]; for (comp = tile->tcmpts; comp != endcomps; ++comp) { endlvls = &comp->rlvls[comp->numrlvls]; for (lvl = comp->rlvls; lvl != endlvls; ++lvl) { if (!lvl->bands) { continue; } endbands = &lvl->bands[lvl->numbands]; for (band = lvl->bands; band != endbands; ++band) { if (!band->data) { continue; } for (prcno = 0, prc = band->prcs; prcno < lvl->numprcs; ++prcno, ++prc) { if (!prc->cblks) { continue; } jpc_tagtree_reset(prc->incltree); jpc_tagtree_reset(prc->nlibtree); endcblks = &prc->cblks[prc->numcblks]; for (cblk = prc->cblks; cblk != endcblks; ++cblk) { if (jas_stream_rewind(cblk->stream)) { assert(0); } cblk->curpass = (cblk->numpasses > 0) ? cblk->passes : 0; cblk->numencpasses = 0; cblk->numlenbits = 3; cblk->numimsbs = band->numbps - cblk->numbps; assert(cblk->numimsbs >= 0); leaf = jpc_tagtree_getleaf(prc->nlibtree, cblk - prc->cblks); jpc_tagtree_setvalue(prc->nlibtree, leaf, cblk->numimsbs); if (raflag) { endpasses = &cblk->passes[cblk->numpasses]; for (pass = cblk->passes; pass != endpasses; ++pass) { pass->lyrno = -1; pass->lyrno = 0; } } } } } } } } jpc_pi_t *jpc_enc_pi_create(jpc_enc_cp_t *cp, jpc_enc_tile_t *tile) { jpc_pi_t *pi; int compno; jpc_picomp_t *picomp; jpc_pirlvl_t *pirlvl; jpc_enc_tcmpt_t *tcomp; int rlvlno; jpc_enc_rlvl_t *rlvl; int prcno; int *prclyrno; if (!(pi = jpc_pi_create0())) { return 0; } pi->pktno = -1; pi->numcomps = cp->numcmpts; if (!(pi->picomps = jas_malloc(pi->numcomps * sizeof(jpc_picomp_t)))) { jpc_pi_destroy(pi); return 0; } for (compno = 0, picomp = pi->picomps; compno < pi->numcomps; ++compno, ++picomp) { picomp->pirlvls = 0; } for (compno = 0, tcomp = tile->tcmpts, picomp = pi->picomps; compno < pi->numcomps; ++compno, ++tcomp, ++picomp) { picomp->numrlvls = tcomp->numrlvls; if (!(picomp->pirlvls = jas_malloc(picomp->numrlvls * sizeof(jpc_pirlvl_t)))) { jpc_pi_destroy(pi); return 0; } for (rlvlno = 0, pirlvl = picomp->pirlvls; rlvlno < picomp->numrlvls; ++rlvlno, ++pirlvl) { pirlvl->prclyrnos = 0; } for (rlvlno = 0, pirlvl = picomp->pirlvls, rlvl = tcomp->rlvls; rlvlno < picomp->numrlvls; ++rlvlno, ++pirlvl, ++rlvl) { /* XXX sizeof(long) should be sizeof different type */ pirlvl->numprcs = rlvl->numprcs; if (rlvl->numprcs) { if (!(pirlvl->prclyrnos = jas_malloc(pirlvl->numprcs * sizeof(long)))) { jpc_pi_destroy(pi); return 0; } } else { pirlvl->prclyrnos = 0; } } } pi->maxrlvls = 0; for (compno = 0, tcomp = tile->tcmpts, picomp = pi->picomps; compno < pi->numcomps; ++compno, ++tcomp, ++picomp) { picomp->hsamp = cp->ccps[compno].sampgrdstepx; picomp->vsamp = cp->ccps[compno].sampgrdstepy; for (rlvlno = 0, pirlvl = picomp->pirlvls, rlvl = tcomp->rlvls; rlvlno < picomp->numrlvls; ++rlvlno, ++pirlvl, ++rlvl) { pirlvl->prcwidthexpn = rlvl->prcwidthexpn; pirlvl->prcheightexpn = rlvl->prcheightexpn; for (prcno = 0, prclyrno = pirlvl->prclyrnos; prcno < pirlvl->numprcs; ++prcno, ++prclyrno) { *prclyrno = 0; } pirlvl->numhprcs = rlvl->numhprcs; } if (pi->maxrlvls < tcomp->numrlvls) { pi->maxrlvls = tcomp->numrlvls; } } pi->numlyrs = tile->numlyrs; pi->xstart = tile->tlx; pi->ystart = tile->tly; pi->xend = tile->brx; pi->yend = tile->bry; pi->picomp = 0; pi->pirlvl = 0; pi->x = 0; pi->y = 0; pi->compno = 0; pi->rlvlno = 0; pi->prcno = 0; pi->lyrno = 0; pi->xstep = 0; pi->ystep = 0; pi->pchgno = -1; pi->defaultpchg.prgord = tile->prg; pi->defaultpchg.compnostart = 0; pi->defaultpchg.compnoend = pi->numcomps; pi->defaultpchg.rlvlnostart = 0; pi->defaultpchg.rlvlnoend = pi->maxrlvls; pi->defaultpchg.lyrnoend = pi->numlyrs; pi->pchg = 0; pi->valid = 0; return pi; }