openjpeg/libopenjpeg/t2.c

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/*
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* Copyright (c) 2002-2007, Communications and Remote Sensing Laboratory, Universite catholique de Louvain (UCL), Belgium
* Copyright (c) 2002-2007, Professor Benoit Macq
* Copyright (c) 2001-2003, David Janssens
* Copyright (c) 2002-2003, Yannick Verschueren
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* Copyright (c) 2003-2007, Francois-Olivier Devaux and Antonin Descampe
* Copyright (c) 2005, Herve Drolon, FreeImage Team
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* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. 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.
*
* 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 COPYRIGHT OWNER 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 "opj_includes.h"
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/** @defgroup T2 T2 - Implementation of a tier-2 coding */
/*@{*/
/** @name Local static functions */
/*@{*/
static void t2_putcommacode(opj_bio_t *bio, int n);
static int t2_getcommacode(opj_bio_t *bio);
/**
Variable length code for signalling delta Zil (truncation point)
@param bio Bit Input/Output component
@param n delta Zil
*/
static void t2_putnumpasses(opj_bio_t *bio, int n);
static int t2_getnumpasses(opj_bio_t *bio);
/**
Encode a packet of a tile to a destination buffer
@param tile Tile for which to write the packets
@param tcp Tile coding parameters
@param pi Packet identity
@param dest Destination buffer
@param len Length of the destination buffer
@param cstr_info Codestream information structure
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@param tileno Number of the tile encoded
@return
*/
static int t2_encode_packet(opj_tcd_tile_t *tile, opj_tcp_t *tcp, opj_pi_iterator_t *pi, unsigned char *dest, int len, opj_codestream_info_t *cstr_info, int tileno);
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/**
@param cblk
@param index
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@param cblksty
@param first
*/
static void t2_init_seg(opj_tcd_cblk_dec_t* cblk, int index, int cblksty, int first);
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/**
Decode a packet of a tile from a source buffer
@param t2 T2 handle
@param src Source buffer
@param len Length of the source buffer
@param tile Tile for which to write the packets
@param tcp Tile coding parameters
@param pi Packet identity
@param pack_info Packet information
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@return
*/
static int t2_decode_packet(opj_t2_t* t2, unsigned char *src, int len, opj_tcd_tile_t *tile,
opj_tcp_t *tcp, opj_pi_iterator_t *pi, opj_packet_info_t *pack_info);
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/**
Decode a packet of a tile from a source buffer
@param t2 T2 handle
@param src Source buffer
@param len Length of the source buffer
@param tile Tile for which to write the packets
@param tcp Tile coding parameters
@param pi Packet identity
@return
*/
static opj_bool t2_decode_packet_v2(
opj_t2_v2_t* p_t2,
opj_tcd_tile_v2_t *p_tile,
opj_tcp_v2_t *p_tcp,
opj_pi_iterator_t *p_pi,
OPJ_BYTE *p_src,
OPJ_UINT32 * p_data_read,
OPJ_UINT32 p_max_length,
opj_packet_info_t *p_pack_info);
static opj_bool t2_skip_packet(
opj_t2_v2_t* p_t2,
opj_tcd_tile_v2_t *p_tile,
opj_tcp_v2_t *p_tcp,
opj_pi_iterator_t *p_pi,
OPJ_BYTE *p_src,
OPJ_UINT32 * p_data_read,
OPJ_UINT32 p_max_length,
opj_packet_info_t *p_pack_info);
static opj_bool t2_read_packet_header(
opj_t2_v2_t* p_t2,
opj_tcd_tile_v2_t *p_tile,
opj_tcp_v2_t *p_tcp,
opj_pi_iterator_t *p_pi,
opj_bool * p_is_data_present,
OPJ_BYTE *p_src_data,
OPJ_UINT32 * p_data_read,
OPJ_UINT32 p_max_length,
opj_packet_info_t *p_pack_info);
static opj_bool t2_read_packet_data(
opj_t2_v2_t* p_t2,
opj_tcd_tile_v2_t *p_tile,
opj_pi_iterator_t *p_pi,
OPJ_BYTE *p_src_data,
OPJ_UINT32 * p_data_read,
OPJ_UINT32 p_max_length,
opj_packet_info_t *pack_info);
static opj_bool t2_skip_packet_data(
opj_t2_v2_t* p_t2,
opj_tcd_tile_v2_t *p_tile,
opj_pi_iterator_t *p_pi,
OPJ_UINT32 * p_data_read,
OPJ_UINT32 p_max_length,
opj_packet_info_t *pack_info);
/**
@param seg
@param cblksty
@param first
*/
static opj_bool t2_init_seg_v2( opj_tcd_cblk_dec_v2_t* cblk,
OPJ_UINT32 index,
OPJ_UINT32 cblksty,
OPJ_UINT32 first);
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/*@}*/
/*@}*/
/* ----------------------------------------------------------------------- */
/* #define RESTART 0x04 */
static void t2_putcommacode(opj_bio_t *bio, int n) {
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while (--n >= 0) {
bio_write(bio, 1, 1);
}
bio_write(bio, 0, 1);
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}
static int t2_getcommacode(opj_bio_t *bio) {
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int n;
for (n = 0; bio_read(bio, 1); n++) {
;
}
return n;
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}
static void t2_putnumpasses(opj_bio_t *bio, int n) {
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if (n == 1) {
bio_write(bio, 0, 1);
} else if (n == 2) {
bio_write(bio, 2, 2);
} else if (n <= 5) {
bio_write(bio, 0xc | (n - 3), 4);
} else if (n <= 36) {
bio_write(bio, 0x1e0 | (n - 6), 9);
} else if (n <= 164) {
bio_write(bio, 0xff80 | (n - 37), 16);
}
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}
static int t2_getnumpasses(opj_bio_t *bio) {
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int n;
if (!bio_read(bio, 1))
return 1;
if (!bio_read(bio, 1))
return 2;
if ((n = bio_read(bio, 2)) != 3)
return (3 + n);
if ((n = bio_read(bio, 5)) != 31)
return (6 + n);
return (37 + bio_read(bio, 7));
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}
static int t2_encode_packet(opj_tcd_tile_t * tile, opj_tcp_t * tcp, opj_pi_iterator_t *pi, unsigned char *dest, int length, opj_codestream_info_t *cstr_info, int tileno) {
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int bandno, cblkno;
unsigned char *c = dest;
int compno = pi->compno; /* component value */
int resno = pi->resno; /* resolution level value */
int precno = pi->precno; /* precinct value */
int layno = pi->layno; /* quality layer value */
opj_tcd_tilecomp_t *tilec = &tile->comps[compno];
opj_tcd_resolution_t *res = &tilec->resolutions[resno];
opj_bio_t *bio = NULL; /* BIO component */
/* <SOP 0xff91> */
if (tcp->csty & J2K_CP_CSTY_SOP) {
c[0] = 255;
c[1] = 145;
c[2] = 0;
c[3] = 4;
c[4] = (unsigned char)((tile->packno % 65536) / 256);
c[5] = (unsigned char)((tile->packno % 65536) % 256);
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c += 6;
}
/* </SOP> */
if (!layno) {
for (bandno = 0; bandno < res->numbands; bandno++) {
opj_tcd_band_t *band = &res->bands[bandno];
opj_tcd_precinct_t *prc = &band->precincts[precno];
tgt_reset(prc->incltree);
tgt_reset(prc->imsbtree);
for (cblkno = 0; cblkno < prc->cw * prc->ch; cblkno++) {
opj_tcd_cblk_enc_t* cblk = &prc->cblks.enc[cblkno];
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cblk->numpasses = 0;
tgt_setvalue(prc->imsbtree, cblkno, band->numbps - cblk->numbps);
}
}
}
bio = bio_create();
bio_init_enc(bio, c, length);
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bio_write(bio, 1, 1); /* Empty header bit */
/* Writing Packet header */
for (bandno = 0; bandno < res->numbands; bandno++) {
opj_tcd_band_t *band = &res->bands[bandno];
opj_tcd_precinct_t *prc = &band->precincts[precno];
for (cblkno = 0; cblkno < prc->cw * prc->ch; cblkno++) {
opj_tcd_cblk_enc_t* cblk = &prc->cblks.enc[cblkno];
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opj_tcd_layer_t *layer = &cblk->layers[layno];
if (!cblk->numpasses && layer->numpasses) {
tgt_setvalue(prc->incltree, cblkno, layno);
}
}
for (cblkno = 0; cblkno < prc->cw * prc->ch; cblkno++) {
opj_tcd_cblk_enc_t* cblk = &prc->cblks.enc[cblkno];
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opj_tcd_layer_t *layer = &cblk->layers[layno];
int increment = 0;
int nump = 0;
int len = 0, passno;
/* cblk inclusion bits */
if (!cblk->numpasses) {
tgt_encode(bio, prc->incltree, cblkno, layno + 1);
} else {
bio_write(bio, layer->numpasses != 0, 1);
}
/* if cblk not included, go to the next cblk */
if (!layer->numpasses) {
continue;
}
/* if first instance of cblk --> zero bit-planes information */
if (!cblk->numpasses) {
cblk->numlenbits = 3;
tgt_encode(bio, prc->imsbtree, cblkno, 999);
}
/* number of coding passes included */
t2_putnumpasses(bio, layer->numpasses);
/* computation of the increase of the length indicator and insertion in the header */
for (passno = cblk->numpasses; passno < cblk->numpasses + layer->numpasses; passno++) {
opj_tcd_pass_t *pass = &cblk->passes[passno];
nump++;
len += pass->len;
if (pass->term || passno == (cblk->numpasses + layer->numpasses) - 1) {
increment = int_max(increment, int_floorlog2(len) + 1 - (cblk->numlenbits + int_floorlog2(nump)));
len = 0;
nump = 0;
}
}
t2_putcommacode(bio, increment);
/* computation of the new Length indicator */
cblk->numlenbits += increment;
/* insertion of the codeword segment length */
for (passno = cblk->numpasses; passno < cblk->numpasses + layer->numpasses; passno++) {
opj_tcd_pass_t *pass = &cblk->passes[passno];
nump++;
len += pass->len;
if (pass->term || passno == (cblk->numpasses + layer->numpasses) - 1) {
bio_write(bio, len, cblk->numlenbits + int_floorlog2(nump));
len = 0;
nump = 0;
}
}
}
}
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if (bio_flush(bio)) {
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bio_destroy(bio);
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return -999; /* modified to eliminate longjmp !! */
}
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c += bio_numbytes(bio);
bio_destroy(bio);
/* <EPH 0xff92> */
if (tcp->csty & J2K_CP_CSTY_EPH) {
c[0] = 255;
c[1] = 146;
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c += 2;
}
/* </EPH> */
/* << INDEX */
// End of packet header position. Currently only represents the distance to start of packet
// Will be updated later by incrementing with packet start value
if(cstr_info && cstr_info->index_write) {
opj_packet_info_t *info_PK = &cstr_info->tile[tileno].packet[cstr_info->packno];
info_PK->end_ph_pos = (int)(c - dest);
}
/* INDEX >> */
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/* Writing the packet body */
for (bandno = 0; bandno < res->numbands; bandno++) {
opj_tcd_band_t *band = &res->bands[bandno];
opj_tcd_precinct_t *prc = &band->precincts[precno];
for (cblkno = 0; cblkno < prc->cw * prc->ch; cblkno++) {
opj_tcd_cblk_enc_t* cblk = &prc->cblks.enc[cblkno];
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opj_tcd_layer_t *layer = &cblk->layers[layno];
if (!layer->numpasses) {
continue;
}
if (c + layer->len > dest + length) {
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return -999;
}
memcpy(c, layer->data, layer->len);
cblk->numpasses += layer->numpasses;
c += layer->len;
/* << INDEX */
if(cstr_info && cstr_info->index_write) {
opj_packet_info_t *info_PK = &cstr_info->tile[tileno].packet[cstr_info->packno];
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info_PK->disto += layer->disto;
if (cstr_info->D_max < info_PK->disto) {
cstr_info->D_max = info_PK->disto;
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}
}
/* INDEX >> */
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}
}
return (c - dest);
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}
static void t2_init_seg(opj_tcd_cblk_dec_t* cblk, int index, int cblksty, int first) {
opj_tcd_seg_t* seg;
cblk->segs = (opj_tcd_seg_t*) opj_realloc(cblk->segs, (index + 1) * sizeof(opj_tcd_seg_t));
seg = &cblk->segs[index];
seg->data = NULL;
seg->dataindex = 0;
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seg->numpasses = 0;
seg->len = 0;
if (cblksty & J2K_CCP_CBLKSTY_TERMALL) {
seg->maxpasses = 1;
}
else if (cblksty & J2K_CCP_CBLKSTY_LAZY) {
if (first) {
seg->maxpasses = 10;
} else {
seg->maxpasses = (((seg - 1)->maxpasses == 1) || ((seg - 1)->maxpasses == 10)) ? 2 : 1;
}
} else {
seg->maxpasses = 109;
}
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}
static int t2_decode_packet(opj_t2_t* t2, unsigned char *src, int len, opj_tcd_tile_t *tile,
opj_tcp_t *tcp, opj_pi_iterator_t *pi, opj_packet_info_t *pack_info) {
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int bandno, cblkno;
unsigned char *c = src;
opj_cp_t *cp = t2->cp;
int compno = pi->compno; /* component value */
int resno = pi->resno; /* resolution level value */
int precno = pi->precno; /* precinct value */
int layno = pi->layno; /* quality layer value */
opj_tcd_resolution_t* res = &tile->comps[compno].resolutions[resno];
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unsigned char *hd = NULL;
int present;
opj_bio_t *bio = NULL; /* BIO component */
if (layno == 0) {
for (bandno = 0; bandno < res->numbands; bandno++) {
opj_tcd_band_t *band = &res->bands[bandno];
opj_tcd_precinct_t *prc = &band->precincts[precno];
if ((band->x1-band->x0 == 0)||(band->y1-band->y0 == 0)) continue;
tgt_reset(prc->incltree);
tgt_reset(prc->imsbtree);
for (cblkno = 0; cblkno < prc->cw * prc->ch; cblkno++) {
opj_tcd_cblk_dec_t* cblk = &prc->cblks.dec[cblkno];
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cblk->numsegs = 0;
}
}
}
/* SOP markers */
if (tcp->csty & J2K_CP_CSTY_SOP) {
if ((*c) != 0xff || (*(c + 1) != 0x91)) {
opj_event_msg(t2->cinfo, EVT_WARNING, "Expected SOP marker\n");
} else {
c += 6;
}
/** TODO : check the Nsop value */
}
/*
When the marker PPT/PPM is used the packet header are store in PPT/PPM marker
This part deal with this caracteristic
step 1: Read packet header in the saved structure
step 2: Return to codestream for decoding
*/
bio = bio_create();
if (cp->ppm == 1) { /* PPM */
hd = cp->ppm_data;
bio_init_dec(bio, hd, cp->ppm_len);
} else if (tcp->ppt == 1) { /* PPT */
hd = tcp->ppt_data;
bio_init_dec(bio, hd, tcp->ppt_len);
} else { /* Normal Case */
hd = c;
bio_init_dec(bio, hd, src+len-hd);
}
present = bio_read(bio, 1);
if (!present) {
bio_inalign(bio);
hd += bio_numbytes(bio);
bio_destroy(bio);
/* EPH markers */
if (tcp->csty & J2K_CP_CSTY_EPH) {
if ((*hd) != 0xff || (*(hd + 1) != 0x92)) {
printf("Error : expected EPH marker\n");
} else {
hd += 2;
}
}
/* << INDEX */
// End of packet header position. Currently only represents the distance to start of packet
// Will be updated later by incrementing with packet start value
if(pack_info) {
pack_info->end_ph_pos = (int)(c - src);
}
/* INDEX >> */
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if (cp->ppm == 1) { /* PPM case */
cp->ppm_len += cp->ppm_data-hd;
cp->ppm_data = hd;
return (c - src);
}
if (tcp->ppt == 1) { /* PPT case */
tcp->ppt_len+=tcp->ppt_data-hd;
tcp->ppt_data = hd;
return (c - src);
}
return (hd - src);
}
for (bandno = 0; bandno < res->numbands; bandno++) {
opj_tcd_band_t *band = &res->bands[bandno];
opj_tcd_precinct_t *prc = &band->precincts[precno];
if ((band->x1-band->x0 == 0)||(band->y1-band->y0 == 0)) continue;
for (cblkno = 0; cblkno < prc->cw * prc->ch; cblkno++) {
int included, increment, n, segno;
opj_tcd_cblk_dec_t* cblk = &prc->cblks.dec[cblkno];
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/* if cblk not yet included before --> inclusion tagtree */
if (!cblk->numsegs) {
included = tgt_decode(bio, prc->incltree, cblkno, layno + 1);
/* else one bit */
} else {
included = bio_read(bio, 1);
}
/* if cblk not included */
if (!included) {
cblk->numnewpasses = 0;
continue;
}
/* if cblk not yet included --> zero-bitplane tagtree */
if (!cblk->numsegs) {
int i, numimsbs;
for (i = 0; !tgt_decode(bio, prc->imsbtree, cblkno, i); i++) {
;
}
numimsbs = i - 1;
cblk->numbps = band->numbps - numimsbs;
cblk->numlenbits = 3;
}
/* number of coding passes */
cblk->numnewpasses = t2_getnumpasses(bio);
increment = t2_getcommacode(bio);
/* length indicator increment */
cblk->numlenbits += increment;
segno = 0;
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if (!cblk->numsegs) {
t2_init_seg(cblk, segno, tcp->tccps[compno].cblksty, 1);
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} else {
segno = cblk->numsegs - 1;
if (cblk->segs[segno].numpasses == cblk->segs[segno].maxpasses) {
++segno;
t2_init_seg(cblk, segno, tcp->tccps[compno].cblksty, 0);
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}
}
n = cblk->numnewpasses;
do {
cblk->segs[segno].numnewpasses = int_min(cblk->segs[segno].maxpasses - cblk->segs[segno].numpasses, n);
cblk->segs[segno].newlen = bio_read(bio, cblk->numlenbits + int_floorlog2(cblk->segs[segno].numnewpasses));
n -= cblk->segs[segno].numnewpasses;
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if (n > 0) {
++segno;
t2_init_seg(cblk, segno, tcp->tccps[compno].cblksty, 0);
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}
} while (n > 0);
}
}
if (bio_inalign(bio)) {
bio_destroy(bio);
return -999;
}
hd += bio_numbytes(bio);
bio_destroy(bio);
/* EPH markers */
if (tcp->csty & J2K_CP_CSTY_EPH) {
if ((*hd) != 0xff || (*(hd + 1) != 0x92)) {
opj_event_msg(t2->cinfo, EVT_ERROR, "Expected EPH marker\n");
return -999;
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} else {
hd += 2;
}
}
/* << INDEX */
// End of packet header position. Currently only represents the distance to start of packet
// Will be updated later by incrementing with packet start value
if(pack_info) {
pack_info->end_ph_pos = (int)(hd - src);
}
/* INDEX >> */
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if (cp->ppm==1) {
cp->ppm_len+=cp->ppm_data-hd;
cp->ppm_data = hd;
} else if (tcp->ppt == 1) {
tcp->ppt_len+=tcp->ppt_data-hd;
tcp->ppt_data = hd;
} else {
c=hd;
}
for (bandno = 0; bandno < res->numbands; bandno++) {
opj_tcd_band_t *band = &res->bands[bandno];
opj_tcd_precinct_t *prc = &band->precincts[precno];
if ((band->x1-band->x0 == 0)||(band->y1-band->y0 == 0)) continue;
for (cblkno = 0; cblkno < prc->cw * prc->ch; cblkno++) {
opj_tcd_cblk_dec_t* cblk = &prc->cblks.dec[cblkno];
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opj_tcd_seg_t *seg = NULL;
if (!cblk->numnewpasses)
continue;
if (!cblk->numsegs) {
seg = &cblk->segs[0];
cblk->numsegs++;
cblk->len = 0;
} else {
seg = &cblk->segs[cblk->numsegs - 1];
if (seg->numpasses == seg->maxpasses) {
seg++;
cblk->numsegs++;
}
}
do {
if (c + seg->newlen > src + len) {
return -999;
}
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#ifdef USE_JPWL
/* we need here a j2k handle to verify if making a check to
the validity of cblocks parameters is selected from user (-W) */
/* let's check that we are not exceeding */
if ((cblk->len + seg->newlen) > 8192) {
opj_event_msg(t2->cinfo, EVT_WARNING,
"JPWL: segment too long (%d) for codeblock %d (p=%d, b=%d, r=%d, c=%d)\n",
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seg->newlen, cblkno, precno, bandno, resno, compno);
if (!JPWL_ASSUME) {
opj_event_msg(t2->cinfo, EVT_ERROR, "JPWL: giving up\n");
return -999;
}
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seg->newlen = 8192 - cblk->len;
opj_event_msg(t2->cinfo, EVT_WARNING, " - truncating segment to %d\n", seg->newlen);
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break;
};
#endif /* USE_JPWL */
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cblk->data = (unsigned char*) opj_realloc(cblk->data, (cblk->len + seg->newlen) * sizeof(unsigned char*));
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memcpy(cblk->data + cblk->len, c, seg->newlen);
if (seg->numpasses == 0) {
seg->data = &cblk->data;
seg->dataindex = cblk->len;
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}
c += seg->newlen;
cblk->len += seg->newlen;
seg->len += seg->newlen;
seg->numpasses += seg->numnewpasses;
cblk->numnewpasses -= seg->numnewpasses;
if (cblk->numnewpasses > 0) {
seg++;
cblk->numsegs++;
}
} while (cblk->numnewpasses > 0);
}
}
return (c - src);
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}
/* ----------------------------------------------------------------------- */
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int t2_encode_packets(opj_t2_t* t2,int tileno, opj_tcd_tile_t *tile, int maxlayers, unsigned char *dest, int len, opj_codestream_info_t *cstr_info,int tpnum, int tppos,int pino, J2K_T2_MODE t2_mode, int cur_totnum_tp){
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unsigned char *c = dest;
int e = 0;
int compno;
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opj_pi_iterator_t *pi = NULL;
int poc;
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opj_image_t *image = t2->image;
opj_cp_t *cp = t2->cp;
opj_tcp_t *tcp = &cp->tcps[tileno];
int pocno = cp->cinema == CINEMA4K_24? 2: 1;
int maxcomp = cp->max_comp_size > 0 ? image->numcomps : 1;
pi = pi_initialise_encode(image, cp, tileno, t2_mode);
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if(!pi) {
/* TODO: throw an error */
return -999;
}
if(t2_mode == THRESH_CALC ){ /* Calculating threshold */
for(compno = 0; compno < maxcomp; compno++ ){
for(poc = 0; poc < pocno ; poc++){
int comp_len = 0;
int tpnum = compno;
if (pi_create_encode(pi, cp,tileno,poc,tpnum,tppos,t2_mode,cur_totnum_tp)) {
opj_event_msg(t2->cinfo, EVT_ERROR, "Error initializing Packet Iterator\n");
pi_destroy(pi, cp, tileno);
return -999;
}
while (pi_next(&pi[poc])) {
if (pi[poc].layno < maxlayers) {
e = t2_encode_packet(tile, &cp->tcps[tileno], &pi[poc], c, dest + len - c, cstr_info, tileno);
comp_len = comp_len + e;
if (e == -999) {
break;
} else {
c += e;
}
}
}
if (e == -999) break;
if (cp->max_comp_size){
if (comp_len > cp->max_comp_size){
e = -999;
break;
}
}
}
if (e == -999) break;
}
}else{ /* t2_mode == FINAL_PASS */
pi_create_encode(pi, cp,tileno,pino,tpnum,tppos,t2_mode,cur_totnum_tp);
while (pi_next(&pi[pino])) {
if (pi[pino].layno < maxlayers) {
e = t2_encode_packet(tile, &cp->tcps[tileno], &pi[pino], c, dest + len - c, cstr_info, tileno);
if (e == -999) {
break;
} else {
c += e;
}
/* INDEX >> */
if(cstr_info) {
if(cstr_info->index_write) {
opj_tile_info_t *info_TL = &cstr_info->tile[tileno];
opj_packet_info_t *info_PK = &info_TL->packet[cstr_info->packno];
if (!cstr_info->packno) {
info_PK->start_pos = info_TL->end_header + 1;
} else {
info_PK->start_pos = ((cp->tp_on | tcp->POC)&& info_PK->start_pos) ? info_PK->start_pos : info_TL->packet[cstr_info->packno - 1].end_pos + 1;
}
info_PK->end_pos = info_PK->start_pos + e - 1;
info_PK->end_ph_pos += info_PK->start_pos - 1; // End of packet header which now only represents the distance
// to start of packet is incremented by value of start of packet
}
cstr_info->packno++;
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}
/* << INDEX */
tile->packno++;
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}
}
}
pi_destroy(pi, cp, tileno);
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if (e == -999) {
return e;
}
return (c - dest);
}
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int t2_decode_packets(opj_t2_t *t2, unsigned char *src, int len, int tileno, opj_tcd_tile_t *tile, opj_codestream_info_t *cstr_info) {
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unsigned char *c = src;
opj_pi_iterator_t *pi;
int pino, e = 0;
int n = 0, curtp = 0;
int tp_start_packno;
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opj_image_t *image = t2->image;
opj_cp_t *cp = t2->cp;
/* create a packet iterator */
pi = pi_create_decode(image, cp, tileno);
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if(!pi) {
/* TODO: throw an error */
return -999;
}
tp_start_packno = 0;
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for (pino = 0; pino <= cp->tcps[tileno].numpocs; pino++) {
while (pi_next(&pi[pino])) {
if ((cp->layer==0) || (cp->layer>=((pi[pino].layno)+1))) {
opj_packet_info_t *pack_info;
if (cstr_info)
pack_info = &cstr_info->tile[tileno].packet[cstr_info->packno];
else
pack_info = NULL;
e = t2_decode_packet(t2, c, src + len - c, tile, &cp->tcps[tileno], &pi[pino], pack_info);
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} else {
e = 0;
}
if(e == -999) return -999;
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/* progression in resolution */
image->comps[pi[pino].compno].resno_decoded =
(e > 0) ?
int_max(pi[pino].resno, image->comps[pi[pino].compno].resno_decoded)
: image->comps[pi[pino].compno].resno_decoded;
n++;
/* INDEX >> */
if(cstr_info) {
opj_tile_info_t *info_TL = &cstr_info->tile[tileno];
opj_packet_info_t *info_PK = &info_TL->packet[cstr_info->packno];
if (!cstr_info->packno) {
info_PK->start_pos = info_TL->end_header + 1;
} else if (info_TL->packet[cstr_info->packno-1].end_pos >= (int)cstr_info->tile[tileno].tp[curtp].tp_end_pos){ // New tile part
info_TL->tp[curtp].tp_numpacks = cstr_info->packno - tp_start_packno; // Number of packets in previous tile-part
info_TL->tp[curtp].tp_start_pack = tp_start_packno;
tp_start_packno = cstr_info->packno;
curtp++;
info_PK->start_pos = cstr_info->tile[tileno].tp[curtp].tp_end_header+1;
} else {
info_PK->start_pos = (cp->tp_on && info_PK->start_pos) ? info_PK->start_pos : info_TL->packet[cstr_info->packno - 1].end_pos + 1;
}
info_PK->end_pos = info_PK->start_pos + e - 1;
info_PK->end_ph_pos += info_PK->start_pos - 1; // End of packet header which now only represents the distance
// to start of packet is incremented by value of start of packet
cstr_info->packno++;
}
/* << INDEX */
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if (e == -999) { /* ADD */
break;
} else {
c += e;
}
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}
}
/* INDEX >> */
if(cstr_info) {
cstr_info->tile[tileno].tp[curtp].tp_numpacks = cstr_info->packno - tp_start_packno; // Number of packets in last tile-part
cstr_info->tile[tileno].tp[curtp].tp_start_pack = tp_start_packno;
}
/* << INDEX */
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/* don't forget to release pi */
pi_destroy(pi, cp, tileno);
if (e == -999) {
return e;
}
return (c - src);
}
opj_bool t2_decode_packets_v2(
opj_t2_v2_t *p_t2,
OPJ_UINT32 p_tile_no,
struct opj_tcd_tile_v2 *p_tile,
OPJ_BYTE *p_src,
OPJ_UINT32 * p_data_read,
OPJ_UINT32 p_max_len,
opj_codestream_index_t *p_cstr_index)
{
OPJ_BYTE *l_current_data = p_src;
opj_pi_iterator_t *l_pi = 00;
OPJ_UINT32 pino;
opj_image_t *l_image = p_t2->image;
opj_cp_v2_t *l_cp = p_t2->cp;
opj_cp_v2_t *cp = p_t2->cp;
opj_tcp_v2_t *l_tcp = &(p_t2->cp->tcps[p_tile_no]);
OPJ_UINT32 l_nb_bytes_read;
OPJ_UINT32 l_nb_pocs = l_tcp->numpocs + 1;
opj_pi_iterator_t *l_current_pi = 00;
OPJ_UINT32 curtp = 0;
OPJ_UINT32 tp_start_packno;
opj_packet_info_t *l_pack_info = 00;
opj_image_comp_t* l_img_comp = 00;
#ifdef TODO_MSD
if (p_cstr_index) {
l_pack_info = p_cstr_index->tile_index[p_tile_no].packet;
}
#endif
/* create a packet iterator */
l_pi = pi_create_decode_v2(l_image, l_cp, p_tile_no);
if (!l_pi) {
return OPJ_FALSE;
}
tp_start_packno = 0;
l_current_pi = l_pi;
for (pino = 0; pino <= l_tcp->numpocs; ++pino) {
/* if the resolution needed is to low, one dim of the tilec could be equal to zero
* and no packets are used to encode this resolution and
* l_current_pi->resno is always >= p_tile->comps[l_current_pi->compno].minimum_num_resolutions
* and no l_img_comp->resno_decoded are computed
*/
opj_bool* first_pass_failed = (opj_bool*)opj_malloc(l_image->numcomps * sizeof(opj_bool));
memset(first_pass_failed, OPJ_TRUE, l_image->numcomps * sizeof(opj_bool));
while (pi_next(l_current_pi)) {
if (l_tcp->num_layers_to_decode > l_current_pi->layno
&& l_current_pi->resno < p_tile->comps[l_current_pi->compno].minimum_num_resolutions) {
l_nb_bytes_read = 0;
first_pass_failed[l_current_pi->compno] = OPJ_FALSE;
if (! t2_decode_packet_v2(p_t2,p_tile,l_tcp,l_current_pi,l_current_data,&l_nb_bytes_read,p_max_len,l_pack_info)) {
pi_destroy_v2(l_pi,l_nb_pocs);
return OPJ_FALSE;
}
l_img_comp = &(l_image->comps[l_current_pi->compno]);
l_img_comp->resno_decoded = uint_max(l_current_pi->resno, l_img_comp->resno_decoded);
}
else {
l_nb_bytes_read = 0;
if (! t2_skip_packet(p_t2,p_tile,l_tcp,l_current_pi,l_current_data,&l_nb_bytes_read,p_max_len,l_pack_info)) {
pi_destroy_v2(l_pi,l_nb_pocs);
return OPJ_FALSE;
}
}
if (first_pass_failed[l_current_pi->compno]) {
l_img_comp = &(l_image->comps[l_current_pi->compno]);
if (l_img_comp->resno_decoded == 0)
l_img_comp->resno_decoded = p_tile->comps[l_current_pi->compno].minimum_num_resolutions - 1;
}
l_current_data += l_nb_bytes_read;
p_max_len -= l_nb_bytes_read;
/* INDEX >> */
#ifdef TODO_MSD
if(p_cstr_info) {
opj_tile_info_v2_t *info_TL = &p_cstr_info->tile[p_tile_no];
opj_packet_info_t *info_PK = &info_TL->packet[p_cstr_info->packno];
if (!p_cstr_info->packno) {
info_PK->start_pos = info_TL->end_header + 1;
} else if (info_TL->packet[p_cstr_info->packno-1].end_pos >= (OPJ_INT32)p_cstr_info->tile[p_tile_no].tp[curtp].tp_end_pos){ // New tile part
info_TL->tp[curtp].tp_numpacks = p_cstr_info->packno - tp_start_packno; // Number of packets in previous tile-part
tp_start_packno = p_cstr_info->packno;
curtp++;
info_PK->start_pos = p_cstr_info->tile[p_tile_no].tp[curtp].tp_end_header+1;
} else {
info_PK->start_pos = (cp->m_specific_param.m_enc.m_tp_on && info_PK->start_pos) ? info_PK->start_pos : info_TL->packet[p_cstr_info->packno - 1].end_pos + 1;
}
info_PK->end_pos = info_PK->start_pos + l_nb_bytes_read - 1;
info_PK->end_ph_pos += info_PK->start_pos - 1; // End of packet header which now only represents the distance
++p_cstr_info->packno;
}
#endif
/* << INDEX */
}
++l_current_pi;
opj_free(first_pass_failed);
}
/* INDEX >> */
#ifdef TODO_MSD
if
(p_cstr_info) {
p_cstr_info->tile[p_tile_no].tp[curtp].tp_numpacks = p_cstr_info->packno - tp_start_packno; // Number of packets in last tile-part
}
#endif
/* << INDEX */
/* don't forget to release pi */
pi_destroy_v2(l_pi,l_nb_pocs);
*p_data_read = l_current_data - p_src;
return OPJ_TRUE;
}
/* ----------------------------------------------------------------------- */
opj_t2_t* t2_create(opj_common_ptr cinfo, opj_image_t *image, opj_cp_t *cp) {
2005-12-08 10:38:47 +01:00
/* create the tcd structure */
opj_t2_t *t2 = (opj_t2_t*)opj_malloc(sizeof(opj_t2_t));
if(!t2) return NULL;
t2->cinfo = cinfo;
t2->image = image;
t2->cp = cp;
return t2;
2003-11-27 11:10:17 +01:00
}
/**
* Creates a Tier 2 handle
*
* @param p_image Source or destination image
* @param p_cp Image coding parameters.
* @return a new T2 handle if successful, NULL otherwise.
*/
opj_t2_v2_t* t2_create_v2( opj_image_t *p_image,
opj_cp_v2_t *p_cp)
{
/* create the tcd structure */
opj_t2_v2_t *l_t2 = (opj_t2_v2_t*)opj_malloc(sizeof(opj_t2_v2_t));
if (!l_t2) {
return NULL;
}
memset(l_t2,0,sizeof(opj_t2_v2_t));
l_t2->image = p_image;
l_t2->cp = p_cp;
return l_t2;
}
void t2_destroy(opj_t2_t *t2) {
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if(t2) {
opj_free(t2);
}
}
void t2_destroy_v2(opj_t2_v2_t *t2) {
if(t2) {
opj_free(t2);
}
}
static opj_bool t2_decode_packet_v2(
opj_t2_v2_t* p_t2,
opj_tcd_tile_v2_t *p_tile,
opj_tcp_v2_t *p_tcp,
opj_pi_iterator_t *p_pi,
OPJ_BYTE *p_src,
OPJ_UINT32 * p_data_read,
OPJ_UINT32 p_max_length,
opj_packet_info_t *p_pack_info)
{
opj_bool l_read_data;
OPJ_UINT32 l_nb_bytes_read = 0;
OPJ_UINT32 l_nb_total_bytes_read = 0;
*p_data_read = 0;
if (! t2_read_packet_header(p_t2,p_tile,p_tcp,p_pi,&l_read_data,p_src,&l_nb_bytes_read,p_max_length,p_pack_info)) {
return OPJ_FALSE;
}
p_src += l_nb_bytes_read;
l_nb_total_bytes_read += l_nb_bytes_read;
p_max_length -= l_nb_bytes_read;
/* we should read data for the packet */
if (l_read_data) {
l_nb_bytes_read = 0;
if (! t2_read_packet_data(p_t2,p_tile,p_pi,p_src,&l_nb_bytes_read,p_max_length,p_pack_info)) {
return OPJ_FALSE;
}
l_nb_total_bytes_read += l_nb_bytes_read;
}
*p_data_read = l_nb_total_bytes_read;
return OPJ_TRUE;
}
static opj_bool t2_skip_packet(
opj_t2_v2_t* p_t2,
opj_tcd_tile_v2_t *p_tile,
opj_tcp_v2_t *p_tcp,
opj_pi_iterator_t *p_pi,
OPJ_BYTE *p_src,
OPJ_UINT32 * p_data_read,
OPJ_UINT32 p_max_length,
opj_packet_info_t *p_pack_info)
{
opj_bool l_read_data;
OPJ_UINT32 l_nb_bytes_read = 0;
OPJ_UINT32 l_nb_total_bytes_read = 0;
*p_data_read = 0;
if (! t2_read_packet_header(p_t2,p_tile,p_tcp,p_pi,&l_read_data,p_src,&l_nb_bytes_read,p_max_length,p_pack_info)) {
return OPJ_FALSE;
}
p_src += l_nb_bytes_read;
l_nb_total_bytes_read += l_nb_bytes_read;
p_max_length -= l_nb_bytes_read;
/* we should read data for the packet */
if (l_read_data) {
l_nb_bytes_read = 0;
if (! t2_skip_packet_data(p_t2,p_tile,p_pi,&l_nb_bytes_read,p_max_length,p_pack_info)) {
return OPJ_FALSE;
}
l_nb_total_bytes_read += l_nb_bytes_read;
}
*p_data_read = l_nb_total_bytes_read;
return OPJ_TRUE;
}
static opj_bool t2_read_packet_header(
opj_t2_v2_t* p_t2,
opj_tcd_tile_v2_t *p_tile,
opj_tcp_v2_t *p_tcp,
opj_pi_iterator_t *p_pi,
opj_bool * p_is_data_present,
OPJ_BYTE *p_src_data,
OPJ_UINT32 * p_data_read,
OPJ_UINT32 p_max_length,
opj_packet_info_t *p_pack_info)
{
/* loop */
OPJ_UINT32 bandno, cblkno;
OPJ_UINT32 l_nb_code_blocks;
OPJ_UINT32 l_remaining_length;
OPJ_UINT32 l_header_length;
OPJ_UINT32 * l_modified_length_ptr = 00;
OPJ_BYTE *l_current_data = p_src_data;
opj_cp_v2_t *l_cp = p_t2->cp;
opj_bio_t *l_bio = 00; /* BIO component */
opj_tcd_band_v2_t *l_band = 00;
opj_tcd_cblk_dec_v2_t* l_cblk = 00;
opj_tcd_resolution_v2_t* l_res = &p_tile->comps[p_pi->compno].resolutions[p_pi->resno];
OPJ_BYTE *l_header_data = 00;
OPJ_BYTE **l_header_data_start = 00;
OPJ_UINT32 l_present;
if (p_pi->layno == 0) {
l_band = l_res->bands;
/* reset tagtrees */
for (bandno = 0; bandno < l_res->numbands; ++bandno) {
opj_tcd_precinct_v2_t *l_prc = &l_band->precincts[p_pi->precno];
if ( ! ((l_band->x1-l_band->x0 == 0)||(l_band->y1-l_band->y0 == 0)) ) {
tgt_reset(l_prc->incltree);
tgt_reset(l_prc->imsbtree);
l_cblk = l_prc->cblks.dec;
l_nb_code_blocks = l_prc->cw * l_prc->ch;
for (cblkno = 0; cblkno < l_nb_code_blocks; ++cblkno) {
l_cblk->numsegs = 0;
l_cblk->real_num_segs = 0;
++l_cblk;
}
}
++l_band;
}
}
/* SOP markers */
if (p_tcp->csty & J2K_CP_CSTY_SOP) {
if ((*l_current_data) != 0xff || (*(l_current_data + 1) != 0x91)) {
// TODO opj_event_msg(t2->cinfo->event_mgr, EVT_WARNING, "Expected SOP marker\n");
} else {
l_current_data += 6;
}
/** TODO : check the Nsop value */
}
/*
When the marker PPT/PPM is used the packet header are store in PPT/PPM marker
This part deal with this caracteristic
step 1: Read packet header in the saved structure
step 2: Return to codestream for decoding
*/
l_bio = bio_create();
if (! l_bio) {
return OPJ_FALSE;
}
if (l_cp->ppm == 1) { /* PPM */
l_header_data_start = &l_cp->ppm_data;
l_header_data = *l_header_data_start;
l_modified_length_ptr = &(l_cp->ppm_len);
}
else if (p_tcp->ppt == 1) { /* PPT */
l_header_data_start = &(p_tcp->ppt_data);
l_header_data = *l_header_data_start;
l_modified_length_ptr = &(p_tcp->ppt_len);
}
else { /* Normal Case */
l_header_data_start = &(l_current_data);
l_header_data = *l_header_data_start;
l_remaining_length = p_src_data+p_max_length-l_header_data;
l_modified_length_ptr = &(l_remaining_length);
}
bio_init_dec(l_bio, l_header_data,*l_modified_length_ptr);
l_present = bio_read(l_bio, 1);
if (!l_present) {
bio_inalign(l_bio);
l_header_data += bio_numbytes(l_bio);
bio_destroy(l_bio);
/* EPH markers */
if (p_tcp->csty & J2K_CP_CSTY_EPH) {
if ((*l_header_data) != 0xff || (*(l_header_data + 1) != 0x92)) {
printf("Error : expected EPH marker\n");
} else {
l_header_data += 2;
}
}
l_header_length = (l_header_data - *l_header_data_start);
*l_modified_length_ptr -= l_header_length;
*l_header_data_start += l_header_length;
/* << INDEX */
// End of packet header position. Currently only represents the distance to start of packet
// Will be updated later by incrementing with packet start value
if (p_pack_info) {
p_pack_info->end_ph_pos = (OPJ_INT32)(l_current_data - p_src_data);
}
/* INDEX >> */
* p_is_data_present = OPJ_FALSE;
*p_data_read = l_current_data - p_src_data;
return OPJ_TRUE;
}
l_band = l_res->bands;
for (bandno = 0; bandno < l_res->numbands; ++bandno) {
opj_tcd_precinct_v2_t *l_prc = &(l_band->precincts[p_pi->precno]);
if ((l_band->x1-l_band->x0 == 0)||(l_band->y1-l_band->y0 == 0)) {
++l_band;
continue;
}
l_nb_code_blocks = l_prc->cw * l_prc->ch;
l_cblk = l_prc->cblks.dec;
for (cblkno = 0; cblkno < l_nb_code_blocks; cblkno++) {
OPJ_UINT32 l_included,l_increment, l_segno;
OPJ_INT32 n;
/* if cblk not yet included before --> inclusion tagtree */
if (!l_cblk->numsegs) {
l_included = tgt_decode(l_bio, l_prc->incltree, cblkno, p_pi->layno + 1);
/* else one bit */
}
else {
l_included = bio_read(l_bio, 1);
}
/* if cblk not included */
if (!l_included) {
l_cblk->numnewpasses = 0;
++l_cblk;
continue;
}
/* if cblk not yet included --> zero-bitplane tagtree */
if (!l_cblk->numsegs) {
OPJ_UINT32 i = 0;
while (!tgt_decode(l_bio, l_prc->imsbtree, cblkno, i)) {
++i;
}
l_cblk->numbps = l_band->numbps + 1 - i;
l_cblk->numlenbits = 3;
}
/* number of coding passes */
l_cblk->numnewpasses = t2_getnumpasses(l_bio);
l_increment = t2_getcommacode(l_bio);
/* length indicator increment */
l_cblk->numlenbits += l_increment;
l_segno = 0;
if (!l_cblk->numsegs) {
if (! t2_init_seg_v2(l_cblk, l_segno, p_tcp->tccps[p_pi->compno].cblksty, 1)) {
bio_destroy(l_bio);
return OPJ_FALSE;
}
}
else {
l_segno = l_cblk->numsegs - 1;
if (l_cblk->segs[l_segno].numpasses == l_cblk->segs[l_segno].maxpasses) {
++l_segno;
if (! t2_init_seg_v2(l_cblk, l_segno, p_tcp->tccps[p_pi->compno].cblksty, 0)) {
bio_destroy(l_bio);
return OPJ_FALSE;
}
}
}
n = l_cblk->numnewpasses;
do {
l_cblk->segs[l_segno].numnewpasses = int_min(l_cblk->segs[l_segno].maxpasses - l_cblk->segs[l_segno].numpasses, n);
l_cblk->segs[l_segno].newlen = bio_read(l_bio, l_cblk->numlenbits + uint_floorlog2(l_cblk->segs[l_segno].numnewpasses));
n -= l_cblk->segs[l_segno].numnewpasses;
if (n > 0) {
++l_segno;
if (! t2_init_seg_v2(l_cblk, l_segno, p_tcp->tccps[p_pi->compno].cblksty, 0)) {
bio_destroy(l_bio);
return OPJ_FALSE;
}
}
} while (n > 0);
++l_cblk;
}
++l_band;
}
if (bio_inalign(l_bio)) {
bio_destroy(l_bio);
return OPJ_FALSE;
}
l_header_data += bio_numbytes(l_bio);
bio_destroy(l_bio);
/* EPH markers */
if (p_tcp->csty & J2K_CP_CSTY_EPH) {
if ((*l_header_data) != 0xff || (*(l_header_data + 1) != 0x92)) {
// TODO opj_event_msg(t2->cinfo->event_mgr, EVT_ERROR, "Expected EPH marker\n");
} else {
l_header_data += 2;
}
}
l_header_length = (l_header_data - *l_header_data_start);
*l_modified_length_ptr -= l_header_length;
*l_header_data_start += l_header_length;
/* << INDEX */
// End of packet header position. Currently only represents the distance to start of packet
// Will be updated later by incrementing with packet start value
if (p_pack_info) {
p_pack_info->end_ph_pos = (OPJ_INT32)(l_current_data - p_src_data);
}
/* INDEX >> */
*p_is_data_present = OPJ_TRUE;
*p_data_read = l_current_data - p_src_data;
return OPJ_TRUE;
}
static opj_bool t2_read_packet_data(
opj_t2_v2_t* p_t2,
opj_tcd_tile_v2_t *p_tile,
opj_pi_iterator_t *p_pi,
OPJ_BYTE *p_src_data,
OPJ_UINT32 * p_data_read,
OPJ_UINT32 p_max_length,
opj_packet_info_t *pack_info)
{
OPJ_UINT32 bandno, cblkno;
OPJ_UINT32 l_nb_code_blocks;
OPJ_BYTE *l_current_data = p_src_data;
opj_tcd_band_v2_t *l_band = 00;
opj_tcd_cblk_dec_v2_t* l_cblk = 00;
opj_tcd_resolution_v2_t* l_res = &p_tile->comps[p_pi->compno].resolutions[p_pi->resno];
l_band = l_res->bands;
for (bandno = 0; bandno < l_res->numbands; ++bandno) {
opj_tcd_precinct_v2_t *l_prc = &l_band->precincts[p_pi->precno];
if ((l_band->x1-l_band->x0 == 0)||(l_band->y1-l_band->y0 == 0)) {
++l_band;
continue;
}
l_nb_code_blocks = l_prc->cw * l_prc->ch;
l_cblk = l_prc->cblks.dec;
for (cblkno = 0; cblkno < l_nb_code_blocks; ++cblkno) {
opj_tcd_seg_t *l_seg = 00;
if (!l_cblk->numnewpasses) {
/* nothing to do */
++l_cblk;
continue;
}
if (!l_cblk->numsegs) {
l_seg = l_cblk->segs;
++l_cblk->numsegs;
l_cblk->len = 0;
}
else {
l_seg = &l_cblk->segs[l_cblk->numsegs - 1];
if (l_seg->numpasses == l_seg->maxpasses) {
++l_seg;
++l_cblk->numsegs;
}
}
do {
if (l_current_data + l_seg->newlen > p_src_data + p_max_length) {
return OPJ_FALSE;
}
#ifdef USE_JPWL
/* we need here a j2k handle to verify if making a check to
the validity of cblocks parameters is selected from user (-W) */
/* let's check that we are not exceeding */
if ((l_cblk->len + l_seg->newlen) > 8192) {
opj_event_msg(p_t2->cinfo, EVT_WARNING,
"JPWL: segment too long (%d) for codeblock %d (p=%d, b=%d, r=%d, c=%d)\n",
l_seg->newlen, cblkno, p_pi->precno, bandno, p_pi->resno, p_pi->compno);
if (!JPWL_ASSUME) {
opj_event_msg(p_t2->cinfo, EVT_ERROR, "JPWL: giving up\n");
return OPJ_FALSE;
}
l_seg->newlen = 8192 - l_cblk->len;
opj_event_msg(p_t2->cinfo, EVT_WARNING, " - truncating segment to %d\n", l_seg->newlen);
break;
};
#endif /* USE_JPWL */
memcpy(l_cblk->data + l_cblk->len, l_current_data, l_seg->newlen);
if (l_seg->numpasses == 0) {
l_seg->data = &l_cblk->data;
l_seg->dataindex = l_cblk->len;
}
l_current_data += l_seg->newlen;
l_seg->numpasses += l_seg->numnewpasses;
l_cblk->numnewpasses -= l_seg->numnewpasses;
l_seg->real_num_passes = l_seg->numpasses;
l_cblk->len += l_seg->newlen;
l_seg->len += l_seg->newlen;
if (l_cblk->numnewpasses > 0) {
++l_seg;
++l_cblk->numsegs;
}
} while (l_cblk->numnewpasses > 0);
l_cblk->real_num_segs = l_cblk->numsegs;
++l_cblk;
}
++l_band;
}
*(p_data_read) = l_current_data - p_src_data;
return OPJ_TRUE;
}
static opj_bool t2_skip_packet_data(
opj_t2_v2_t* p_t2,
opj_tcd_tile_v2_t *p_tile,
opj_pi_iterator_t *p_pi,
OPJ_UINT32 * p_data_read,
OPJ_UINT32 p_max_length,
opj_packet_info_t *pack_info)
{
OPJ_UINT32 bandno, cblkno;
OPJ_UINT32 l_nb_code_blocks;
opj_tcd_band_v2_t *l_band = 00;
opj_tcd_cblk_dec_v2_t* l_cblk = 00;
opj_tcd_resolution_v2_t* l_res = &p_tile->comps[p_pi->compno].resolutions[p_pi->resno];
*p_data_read = 0;
l_band = l_res->bands;
for (bandno = 0; bandno < l_res->numbands; ++bandno) {
opj_tcd_precinct_v2_t *l_prc = &l_band->precincts[p_pi->precno];
if ((l_band->x1-l_band->x0 == 0)||(l_band->y1-l_band->y0 == 0)) {
++l_band;
continue;
}
l_nb_code_blocks = l_prc->cw * l_prc->ch;
l_cblk = l_prc->cblks.dec;
for (cblkno = 0; cblkno < l_nb_code_blocks; ++cblkno) {
opj_tcd_seg_t *l_seg = 00;
if (!l_cblk->numnewpasses) {
/* nothing to do */
++l_cblk;
continue;
}
if (!l_cblk->numsegs) {
l_seg = l_cblk->segs;
++l_cblk->numsegs;
l_cblk->len = 0;
}
else {
l_seg = &l_cblk->segs[l_cblk->numsegs - 1];
if (l_seg->numpasses == l_seg->maxpasses) {
++l_seg;
++l_cblk->numsegs;
}
}
do {
if (* p_data_read + l_seg->newlen > p_max_length) {
return OPJ_FALSE;
}
#ifdef USE_JPWL
/* we need here a j2k handle to verify if making a check to
the validity of cblocks parameters is selected from user (-W) */
/* let's check that we are not exceeding */
if ((l_cblk->len + l_seg->newlen) > 8192) {
opj_event_msg(p_t2->cinfo, EVT_WARNING,
"JPWL: segment too long (%d) for codeblock %d (p=%d, b=%d, r=%d, c=%d)\n",
l_seg->newlen, cblkno, p_pi->precno, bandno, p_pi->resno, p_pi->compno);
if (!JPWL_ASSUME) {
opj_event_msg(p_t2->cinfo, EVT_ERROR, "JPWL: giving up\n");
return -999;
}
l_seg->newlen = 8192 - l_cblk->len;
opj_event_msg(p_t2->cinfo, EVT_WARNING, " - truncating segment to %d\n", l_seg->newlen);
break;
};
#endif /* USE_JPWL */
*(p_data_read) += l_seg->newlen;
l_seg->numpasses += l_seg->numnewpasses;
l_cblk->numnewpasses -= l_seg->numnewpasses;
if (l_cblk->numnewpasses > 0)
{
++l_seg;
++l_cblk->numsegs;
}
} while (l_cblk->numnewpasses > 0);
++l_cblk;
}
++l_band;
}
return OPJ_TRUE;
}
static opj_bool t2_init_seg_v2(opj_tcd_cblk_dec_v2_t* cblk, OPJ_UINT32 index, OPJ_UINT32 cblksty, OPJ_UINT32 first)
{
opj_tcd_seg_t* seg = 00;
OPJ_UINT32 l_nb_segs = index + 1;
if (l_nb_segs > cblk->m_current_max_segs) {
cblk->m_current_max_segs += J2K_DEFAULT_NB_SEGS;
cblk->segs = (opj_tcd_seg_t*) opj_realloc(cblk->segs, cblk->m_current_max_segs * sizeof(opj_tcd_seg_t));
if(! cblk->segs) {
return OPJ_FALSE;
}
}
seg = &cblk->segs[index];
memset(seg,0,sizeof(opj_tcd_seg_t));
if (cblksty & J2K_CCP_CBLKSTY_TERMALL) {
seg->maxpasses = 1;
}
else if (cblksty & J2K_CCP_CBLKSTY_LAZY) {
if (first) {
seg->maxpasses = 10;
} else {
seg->maxpasses = (((seg - 1)->maxpasses == 1) || ((seg - 1)->maxpasses == 10)) ? 2 : 1;
}
} else {
seg->maxpasses = 109;
}
return OPJ_TRUE;
}