/*
* Copyright (c) 2002-2003 Michael David Adams.
* All rights reserved.
*/
/* __START_OF_JASPER_LICENSE__
*
* JasPer Software License
*
* IMAGE POWER JPEG-2000 PUBLIC LICENSE
* ************************************
*
* GRANT:
*
* Permission is hereby granted, free of charge, to any person (the "User")
* obtaining a copy of this software and associated documentation, to deal
* in the JasPer Software without restriction, including without limitation
* the right to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the JasPer Software (in source and binary forms),
* and to permit persons to whom the JasPer Software is furnished to do so,
* provided further that the License Conditions below are met.
*
* License Conditions
* ******************
*
* A. Redistributions of source code must retain the above copyright notice,
* and this list of conditions, and the following disclaimer.
*
* B. Redistributions in binary form must reproduce the above copyright
* notice, and this list of conditions, and the following disclaimer in
* the documentation and/or other materials provided with the distribution.
*
* C. Neither the name of Image Power, Inc. nor any other contributor
* (including, but not limited to, the University of British Columbia and
* Michael David Adams) may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* D. User agrees that it shall not commence any action against Image Power,
* Inc., the University of British Columbia, Michael David Adams, or any
* other contributors (collectively "Licensors") for infringement of any
* intellectual property rights ("IPR") held by the User in respect of any
* technology that User owns or has a right to license or sublicense and
* which is an element required in order to claim compliance with ISO/IEC
* 15444-1 (i.e., JPEG-2000 Part 1). "IPR" means all intellectual property
* rights worldwide arising under statutory or common law, and whether
* or not perfected, including, without limitation, all (i) patents and
* patent applications owned or licensable by User; (ii) rights associated
* with works of authorship including copyrights, copyright applications,
* copyright registrations, mask work rights, mask work applications,
* mask work registrations; (iii) rights relating to the protection of
* trade secrets and confidential information; (iv) any right analogous
* to those set forth in subsections (i), (ii), or (iii) and any other
* proprietary rights relating to intangible property (other than trademark,
* trade dress, or service mark rights); and (v) divisions, continuations,
* renewals, reissues and extensions of the foregoing (as and to the extent
* applicable) now existing, hereafter filed, issued or acquired.
*
* E. If User commences an infringement action against any Licensor(s) then
* such Licensor(s) shall have the right to terminate User's license and
* all sublicenses that have been granted hereunder by User to other parties.
*
* F. This software is for use only in hardware or software products that
* are compliant with ISO/IEC 15444-1 (i.e., JPEG-2000 Part 1). No license
* or right to this Software is granted for products that do not comply
* with ISO/IEC 15444-1. The JPEG-2000 Part 1 standard can be purchased
* from the ISO.
*
* THIS DISCLAIMER OF WARRANTY CONSTITUTES AN ESSENTIAL PART OF THIS LICENSE.
* NO USE OF THE JASPER SOFTWARE IS AUTHORIZED HEREUNDER EXCEPT UNDER
* THIS DISCLAIMER. THE JASPER SOFTWARE IS PROVIDED BY THE LICENSORS AND
* CONTRIBUTORS UNDER THIS LICENSE ON AN ``AS-IS'' BASIS, WITHOUT WARRANTY
* OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, WITHOUT LIMITATION,
* WARRANTIES THAT THE JASPER SOFTWARE IS FREE OF DEFECTS, IS MERCHANTABLE,
* IS FIT FOR A PARTICULAR PURPOSE OR IS NON-INFRINGING. THOSE INTENDING
* TO USE THE JASPER SOFTWARE OR MODIFICATIONS THEREOF FOR USE IN HARDWARE
* OR SOFTWARE PRODUCTS ARE ADVISED THAT THEIR USE MAY INFRINGE EXISTING
* PATENTS, COPYRIGHTS, TRADEMARKS, OR OTHER INTELLECTUAL PROPERTY RIGHTS.
* THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE JASPER SOFTWARE
* IS WITH THE USER. SHOULD ANY PART OF THE JASPER SOFTWARE PROVE DEFECTIVE
* IN ANY RESPECT, THE USER (AND NOT THE INITIAL DEVELOPERS, THE UNIVERSITY
* OF BRITISH COLUMBIA, IMAGE POWER, INC., MICHAEL DAVID ADAMS, OR ANY
* OTHER CONTRIBUTOR) SHALL ASSUME THE COST OF ANY NECESSARY SERVICING,
* REPAIR OR CORRECTION. UNDER NO CIRCUMSTANCES AND UNDER NO LEGAL THEORY,
* WHETHER TORT (INCLUDING NEGLIGENCE), CONTRACT, OR OTHERWISE, SHALL THE
* INITIAL DEVELOPER, THE UNIVERSITY OF BRITISH COLUMBIA, IMAGE POWER, INC.,
* MICHAEL DAVID ADAMS, ANY OTHER CONTRIBUTOR, OR ANY DISTRIBUTOR OF THE
* JASPER SOFTWARE, OR ANY SUPPLIER OF ANY OF SUCH PARTIES, BE LIABLE TO
* THE USER OR ANY OTHER PERSON FOR ANY INDIRECT, SPECIAL, INCIDENTAL, OR
* CONSEQUENTIAL DAMAGES OF ANY CHARACTER INCLUDING, WITHOUT LIMITATION,
* DAMAGES FOR LOSS OF GOODWILL, WORK STOPPAGE, COMPUTER FAILURE OR
* MALFUNCTION, OR ANY AND ALL OTHER COMMERCIAL DAMAGES OR LOSSES, EVEN IF
* SUCH PARTY HAD BEEN INFORMED, OR OUGHT TO HAVE KNOWN, OF THE POSSIBILITY
* OF SUCH DAMAGES. THE JASPER SOFTWARE AND UNDERLYING TECHNOLOGY ARE NOT
* FAULT-TOLERANT AND ARE NOT DESIGNED, MANUFACTURED OR INTENDED FOR USE OR
* RESALE AS ON-LINE CONTROL EQUIPMENT IN HAZARDOUS ENVIRONMENTS REQUIRING
* FAIL-SAFE PERFORMANCE, SUCH AS IN THE OPERATION OF NUCLEAR FACILITIES,
* AIRCRAFT NAVIGATION OR COMMUNICATION SYSTEMS, AIR TRAFFIC CONTROL, DIRECT
* LIFE SUPPORT MACHINES, OR WEAPONS SYSTEMS, IN WHICH THE FAILURE OF THE
* JASPER SOFTWARE OR UNDERLYING TECHNOLOGY OR PRODUCT COULD LEAD DIRECTLY
* TO DEATH, PERSONAL INJURY, OR SEVERE PHYSICAL OR ENVIRONMENTAL DAMAGE
* ("HIGH RISK ACTIVITIES"). LICENSOR SPECIFICALLY DISCLAIMS ANY EXPRESS
* OR IMPLIED WARRANTY OF FITNESS FOR HIGH RISK ACTIVITIES. USER WILL NOT
* KNOWINGLY USE, DISTRIBUTE OR RESELL THE JASPER SOFTWARE OR UNDERLYING
* TECHNOLOGY OR PRODUCTS FOR HIGH RISK ACTIVITIES AND WILL ENSURE THAT ITS
* CUSTOMERS AND END-USERS OF ITS PRODUCTS ARE PROVIDED WITH A COPY OF THE
* NOTICE SPECIFIED IN THIS SECTION.
*
* __END_OF_JASPER_LICENSE__
*/
/*
* Color Management
*
* $Id: jas_cm.c,v 1.1 2003/05/15 01:30:32 ace Exp $
*/
#include "jas_config.h"
#include <math.h>
#include <stdlib.h>
#include <assert.h>
#include "jas_cm.h"
#include "jas_icc.h"
#include "jas_init.h"
#include "jas_stream.h"
#include "jas_malloc.h"
#include "jas_math.h"
static jas_cmprof_t
*jas_cmprof_create
(void);
static void jas_cmshapmatlut_cleanup
(jas_cmshapmatlut_t
*);
static jas_cmreal_t jas_cmshapmatlut_lookup
(jas_cmshapmatlut_t
*lut
, jas_cmreal_t x
);
static void jas_cmpxform_destroy
(jas_cmpxform_t
*pxform
);
static jas_cmpxform_t
*jas_cmpxform_copy
(jas_cmpxform_t
*pxform
);
static void jas_cmshapmat_destroy
(jas_cmpxform_t
*pxform
);
static int jas_cmshapmat_apply
(jas_cmpxform_t
*pxform
, jas_cmreal_t
*in
,
jas_cmreal_t
*out
, int cnt
);
static int jas_cmputint
(long **bufptr
, int sgnd
, int prec
, long val
);
static int jas_cmgetint
(long **bufptr
, int sgnd
, int prec
, long *val
);
static int jas_cmpxformseq_append
(jas_cmpxformseq_t
*pxformseq
,
jas_cmpxformseq_t
*othpxformseq
);
static int jas_cmpxformseq_appendcnvt
(jas_cmpxformseq_t
*pxformseq
,
int, int);
static int jas_cmpxformseq_resize
(jas_cmpxformseq_t
*pxformseq
, int n
);
static int mono
(jas_iccprof_t
*prof
, int op
, jas_cmpxformseq_t
**pxformseq
);
static int triclr
(jas_iccprof_t
*prof
, int op
, jas_cmpxformseq_t
**retpxformseq
);
static void jas_cmpxformseq_destroy
(jas_cmpxformseq_t
*pxformseq
);
static int jas_cmpxformseq_delete
(jas_cmpxformseq_t
*pxformseq
, int i
);
static jas_cmpxformseq_t
*jas_cmpxformseq_create
(void);
static jas_cmpxformseq_t
*jas_cmpxformseq_copy
(jas_cmpxformseq_t
*pxformseq
);
static int jas_cmshapmat_invmat
(jas_cmreal_t out
[3][4], jas_cmreal_t in
[3][4]);
static int jas_cmpxformseq_insertpxform
(jas_cmpxformseq_t
*pxformseq
,
int i
, jas_cmpxform_t
*pxform
);
#define SEQFWD(intent) (intent)
#define SEQREV(intent) (4 + (intent))
#define SEQSIM(intent) (8 + (intent))
#define SEQGAM 12
#define fwdpxformseq(prof, intent) \
(((prof)->pxformseqs[SEQFWD(intent)]) ? \
((prof)->pxformseqs[SEQFWD(intent)]) : \
((prof)->pxformseqs[SEQFWD(0)]))
#define revpxformseq(prof, intent) \
(((prof)->pxformseqs[SEQREV(intent)]) ? \
((prof)->pxformseqs[SEQREV(intent)]) : \
((prof)->pxformseqs[SEQREV(0)]))
#define simpxformseq(prof, intent) \
(((prof)->pxformseqs[SEQSIM(intent)]) ? \
((prof)->pxformseqs[SEQSIM(intent)]) : \
((prof)->pxformseqs[SEQSIM(0)]))
#define gampxformseq(prof) ((prof)->pxformseqs[SEQGAM])
static int icctoclrspc
(int iccclrspc
, int refflag
);
static jas_cmpxform_t
*jas_cmpxform_create0
(void);
static jas_cmpxform_t
*jas_cmpxform_createshapmat
(void);
static void jas_cmshapmatlut_init
(jas_cmshapmatlut_t
*lut
);
static int jas_cmshapmatlut_set
(jas_cmshapmatlut_t
*lut
, jas_icccurv_t
*curv
);
static jas_cmpxformops_t shapmat_ops
= {jas_cmshapmat_destroy
, jas_cmshapmat_apply
, 0};
static jas_cmprof_t
*jas_cmprof_createsycc
(void);
/******************************************************************************\
* Color profile class.
\******************************************************************************/
jas_cmprof_t
*jas_cmprof_createfromclrspc
(int clrspc
)
{
jas_iccprof_t
*iccprof
;
jas_cmprof_t
*prof
;
iccprof
= 0;
prof
= 0;
switch (clrspc
) {
case JAS_CLRSPC_SYCBCR
:
if (!(prof
= jas_cmprof_createsycc
()))
goto error
;
break;
default:
if (!(iccprof
= jas_iccprof_createfromclrspc
(clrspc
)))
goto error
;
if (!(prof
= jas_cmprof_createfromiccprof
(iccprof
)))
goto error
;
jas_iccprof_destroy
(iccprof
);
if (!jas_clrspc_isgeneric
(clrspc
))
prof
->clrspc
= clrspc
;
break;
}
return prof
;
error
:
if (iccprof
)
jas_iccprof_destroy
(iccprof
);
return 0;
}
static jas_cmprof_t
*jas_cmprof_createsycc
()
{
jas_cmprof_t
*prof
;
jas_cmpxform_t
*fwdpxform
;
jas_cmpxform_t
*revpxform
;
jas_cmshapmat_t
*fwdshapmat
;
jas_cmshapmat_t
*revshapmat
;
int i
;
int j
;
if (!(prof
= jas_cmprof_createfromclrspc
(JAS_CLRSPC_SRGB
)))
goto error
;
prof
->clrspc
= JAS_CLRSPC_SYCBCR
;
assert(prof
->numchans
== 3 && prof
->numrefchans
== 3);
assert(prof
->refclrspc
== JAS_CLRSPC_CIEXYZ
);
if (!(fwdpxform
= jas_cmpxform_createshapmat
()))
goto error
;
fwdpxform
->numinchans
= 3;
fwdpxform
->numoutchans
= 3;
fwdshapmat
= &fwdpxform
->data.
shapmat;
fwdshapmat
->mono
= 0;
fwdshapmat
->order
= 0;
fwdshapmat
->useluts
= 0;
fwdshapmat
->usemat
= 1;
fwdshapmat
->mat
[0][0] = 1.0;
fwdshapmat
->mat
[0][1] = 0.0;
fwdshapmat
->mat
[0][2] = 1.402;
fwdshapmat
->mat
[1][0] = 1.0;
fwdshapmat
->mat
[1][1] = -0.34413;
fwdshapmat
->mat
[1][2] = -0.71414;
fwdshapmat
->mat
[2][0] = 1.0;
fwdshapmat
->mat
[2][1] = 1.772;
fwdshapmat
->mat
[2][2] = 0.0;
fwdshapmat
->mat
[0][3] = -0.5 * (1.402);
fwdshapmat
->mat
[1][3] = -0.5 * (-0.34413 - 0.71414);
fwdshapmat
->mat
[2][3] = -0.5 * (1.772);
if (!(revpxform
= jas_cmpxform_createshapmat
()))
goto error
;
revpxform
->numinchans
= 3;
revpxform
->numoutchans
= 3;
revshapmat
= &revpxform
->data.
shapmat;
revshapmat
->mono
= 0;
revshapmat
->order
= 1;
revshapmat
->useluts
= 0;
revshapmat
->usemat
= 1;
jas_cmshapmat_invmat
(revshapmat
->mat
, fwdshapmat
->mat
);
for (i
= 0; i
< JAS_CMXFORM_NUMINTENTS
; ++i
) {
j
= SEQFWD
(i
);
if (prof
->pxformseqs
[j
]) {
if (jas_cmpxformseq_insertpxform
(prof
->pxformseqs
[j
], 0,
fwdpxform
))
goto error
;
}
j
= SEQREV
(i
);
if (prof
->pxformseqs
[j
]) {
if (jas_cmpxformseq_insertpxform
(prof
->pxformseqs
[j
],
-1, revpxform
))
goto error
;
}
}
jas_cmpxform_destroy
(fwdpxform
);
jas_cmpxform_destroy
(revpxform
);
return prof
;
error
:
return 0;
}
jas_cmprof_t
*jas_cmprof_createfromiccprof
(jas_iccprof_t
*iccprof
)
{
jas_cmprof_t
*prof
;
jas_icchdr_t icchdr
;
jas_cmpxformseq_t
*fwdpxformseq
;
jas_cmpxformseq_t
*revpxformseq
;
if (!(prof
= jas_cmprof_create
()))
goto error
;
jas_iccprof_gethdr
(iccprof
, &icchdr
);
if (!(prof
->iccprof
= jas_iccprof_copy
(iccprof
)))
goto error
;
prof
->clrspc
= icctoclrspc
(icchdr.
colorspc, 0);
prof
->refclrspc
= icctoclrspc
(icchdr.
refcolorspc, 1);
prof
->numchans
= jas_clrspc_numchans
(prof
->clrspc
);
prof
->numrefchans
= jas_clrspc_numchans
(prof
->refclrspc
);
if (prof
->numchans
== 1) {
if (mono
(prof
->iccprof
, 0, &fwdpxformseq
))
goto error
;
if (mono
(prof
->iccprof
, 1, &revpxformseq
))
goto error
;
} else if (prof
->numchans
== 3) {
if (triclr
(prof
->iccprof
, 0, &fwdpxformseq
))
goto error
;
if (triclr
(prof
->iccprof
, 1, &revpxformseq
))
goto error
;
}
prof
->pxformseqs
[SEQFWD
(0)] = fwdpxformseq
;
prof
->pxformseqs
[SEQREV
(0)] = revpxformseq
;
#if 0
if (prof
->numchans
> 1) {
lut
(prof
->iccprof
, 0, PER
, &pxformseq
);
pxformseqs_set
(prof
, SEQFWD
(PER
), pxformseq
);
lut
(prof
->iccprof
, 1, PER
, &pxformseq
);
pxformseqs_set
(prof
, SEQREV
(PER
), pxformseq
);
lut
(prof
->iccprof
, 0, CLR
, &pxformseq
);
pxformseqs_set
(prof
, SEQREV
(CLR
), pxformseq
);
lut
(prof
->iccprof
, 1, CLR
, &pxformseq
);
pxformseqs_set
(prof
, SEQREV
(CLR
), pxformseq
);
lut
(prof
->iccprof
, 0, SAT
, &pxformseq
);
pxformseqs_set
(prof
, SEQREV
(SAT
), pxformseq
);
lut
(prof
->iccprof
, 1, SAT
, &pxformseq
);
pxformseqs_set
(prof
, SEQREV
(SAT
), pxformseq
);
}
#endif
return prof
;
error
:
return 0;
}
static jas_cmprof_t
*jas_cmprof_create
()
{
int i
;
jas_cmprof_t
*prof
;
if (!(prof
= jas_malloc
(sizeof(jas_cmprof_t
))))
return 0;
memset(prof
, 0, sizeof(jas_cmprof_t
));
prof
->iccprof
= 0;
for (i
= 0; i
< JAS_CMPROF_NUMPXFORMSEQS
; ++i
)
prof
->pxformseqs
[i
] = 0;
return prof
;
}
void jas_cmprof_destroy
(jas_cmprof_t
*prof
)
{
int i
;
for (i
= 0; i
< JAS_CMPROF_NUMPXFORMSEQS
; ++i
) {
if (prof
->pxformseqs
[i
]) {
jas_cmpxformseq_destroy
(prof
->pxformseqs
[i
]);
prof
->pxformseqs
[i
] = 0;
}
}
if (prof
->iccprof
)
jas_iccprof_destroy
(prof
->iccprof
);
jas_free
(prof
);
}
jas_cmprof_t
*jas_cmprof_copy
(jas_cmprof_t
*prof
)
{
jas_cmprof_t
*newprof
;
int i
;
if (!(newprof
= jas_cmprof_create
()))
goto error
;
newprof
->clrspc
= prof
->clrspc
;
newprof
->numchans
= prof
->numchans
;
newprof
->refclrspc
= prof
->refclrspc
;
newprof
->numrefchans
= prof
->numrefchans
;
newprof
->iccprof
= jas_iccprof_copy
(prof
->iccprof
);
for (i
= 0; i
< JAS_CMPROF_NUMPXFORMSEQS
; ++i
) {
if (prof
->pxformseqs
[i
]) {
if (!(newprof
->pxformseqs
[i
] = jas_cmpxformseq_copy
(prof
->pxformseqs
[i
])))
goto error
;
}
}
return newprof
;
error
:
return 0;
}
/******************************************************************************\
* Transform class.
\******************************************************************************/
jas_cmxform_t
*jas_cmxform_create
(jas_cmprof_t
*inprof
, jas_cmprof_t
*outprof
,
jas_cmprof_t
*prfprof
, int op
, int intent
, int optimize
)
{
jas_cmxform_t
*xform
;
jas_cmpxformseq_t
*inpxformseq
;
jas_cmpxformseq_t
*outpxformseq
;
jas_cmpxformseq_t
*altoutpxformseq
;
jas_cmpxformseq_t
*prfpxformseq
;
int prfintent
;
/* Avoid compiler warnings about unused parameters. */
optimize
= 0;
prfintent
= intent
;
if (!(xform
= jas_malloc
(sizeof(jas_cmxform_t
))))
goto error
;
if (!(xform
->pxformseq
= jas_cmpxformseq_create
()))
goto error
;
switch (op
) {
case JAS_CMXFORM_OP_FWD
:
inpxformseq
= fwdpxformseq
(inprof
, intent
);
outpxformseq
= revpxformseq
(outprof
, intent
);
if (!inpxformseq
|| !outpxformseq
)
goto error
;
if (jas_cmpxformseq_append
(xform
->pxformseq
, inpxformseq
) ||
jas_cmpxformseq_appendcnvt
(xform
->pxformseq
,
inprof
->refclrspc
, outprof
->refclrspc
) ||
jas_cmpxformseq_append
(xform
->pxformseq
, outpxformseq
))
goto error
;
xform
->numinchans
= jas_clrspc_numchans
(inprof
->clrspc
);
xform
->numoutchans
= jas_clrspc_numchans
(outprof
->clrspc
);
break;
case JAS_CMXFORM_OP_REV
:
outpxformseq
= fwdpxformseq
(outprof
, intent
);
inpxformseq
= revpxformseq
(inprof
, intent
);
if (!outpxformseq
|| !inpxformseq
)
goto error
;
if (jas_cmpxformseq_append
(xform
->pxformseq
, outpxformseq
) ||
jas_cmpxformseq_appendcnvt
(xform
->pxformseq
,
outprof
->refclrspc
, inprof
->refclrspc
) ||
jas_cmpxformseq_append
(xform
->pxformseq
, inpxformseq
))
goto error
;
xform
->numinchans
= jas_clrspc_numchans
(outprof
->clrspc
);
xform
->numoutchans
= jas_clrspc_numchans
(inprof
->clrspc
);
break;
case JAS_CMXFORM_OP_PROOF
:
assert(prfprof
);
inpxformseq
= fwdpxformseq
(inprof
, intent
);
prfpxformseq
= fwdpxformseq
(prfprof
, prfintent
);
if (!inpxformseq
|| !prfpxformseq
)
goto error
;
outpxformseq
= simpxformseq
(outprof
, intent
);
altoutpxformseq
= 0;
if (!outpxformseq
) {
outpxformseq
= revpxformseq
(outprof
, intent
);
altoutpxformseq
= fwdpxformseq
(outprof
, intent
);
if (!outpxformseq
|| !altoutpxformseq
)
goto error
;
}
if (jas_cmpxformseq_append
(xform
->pxformseq
, inpxformseq
) ||
jas_cmpxformseq_appendcnvt
(xform
->pxformseq
,
inprof
->refclrspc
, outprof
->refclrspc
))
goto error
;
if (altoutpxformseq
) {
if (jas_cmpxformseq_append
(xform
->pxformseq
, outpxformseq
) ||
jas_cmpxformseq_append
(xform
->pxformseq
, altoutpxformseq
))
goto error
;
} else {
if (jas_cmpxformseq_append
(xform
->pxformseq
, outpxformseq
))
goto error
;
}
if (jas_cmpxformseq_appendcnvt
(xform
->pxformseq
,
outprof
->refclrspc
, inprof
->refclrspc
) ||
jas_cmpxformseq_append
(xform
->pxformseq
, prfpxformseq
))
goto error
;
xform
->numinchans
= jas_clrspc_numchans
(inprof
->clrspc
);
xform
->numoutchans
= jas_clrspc_numchans
(prfprof
->clrspc
);
break;
case JAS_CMXFORM_OP_GAMUT
:
inpxformseq
= fwdpxformseq
(inprof
, intent
);
outpxformseq
= gampxformseq
(outprof
);
if (!inpxformseq
|| !outpxformseq
)
goto error
;
if (jas_cmpxformseq_append
(xform
->pxformseq
, inpxformseq
) ||
jas_cmpxformseq_appendcnvt
(xform
->pxformseq
,
inprof
->refclrspc
, outprof
->refclrspc
) ||
jas_cmpxformseq_append
(xform
->pxformseq
, outpxformseq
))
goto error
;
xform
->numinchans
= jas_clrspc_numchans
(inprof
->clrspc
);
xform
->numoutchans
= 1;
break;
}
return xform
;
error
:
return 0;
}
#define APPLYBUFSIZ 2048
int jas_cmxform_apply
(jas_cmxform_t
*xform
, jas_cmpixmap_t
*in
, jas_cmpixmap_t
*out
)
{
jas_cmcmptfmt_t
*fmt
;
jas_cmreal_t buf
[2][APPLYBUFSIZ
];
jas_cmpxformseq_t
*pxformseq
;
int i
;
int j
;
int width
;
int height
;
int total
;
int n
;
jas_cmreal_t
*inbuf
;
jas_cmreal_t
*outbuf
;
jas_cmpxform_t
*pxform
;
long *dataptr
;
int maxchans
;
int bufmax
;
int m
;
int bias
;
jas_cmreal_t scale
;
long v
;
jas_cmreal_t
*bufptr
;
if (xform
->numinchans
> in
->numcmpts
|| xform
->numoutchans
> out
->numcmpts
)
goto error
;
fmt
= &in
->cmptfmts
[0];
width
= fmt
->width
;
height
= fmt
->height
;
for (i
= 1; i
< xform
->numinchans
; ++i
) {
fmt
= &in
->cmptfmts
[i
];
if (fmt
->width
!= width
|| fmt
->height
!= height
) {
goto error
;
}
}
for (i
= 0; i
< xform
->numoutchans
; ++i
) {
fmt
= &out
->cmptfmts
[i
];
if (fmt
->width
!= width
|| fmt
->height
!= height
) {
goto error
;
}
}
maxchans
= 0;
pxformseq
= xform
->pxformseq
;
for (i
= 0; i
< pxformseq
->numpxforms
; ++i
) {
pxform
= pxformseq
->pxforms
[i
];
if (pxform
->numinchans
> maxchans
) {
maxchans
= pxform
->numinchans
;
}
if (pxform
->numoutchans
> maxchans
) {
maxchans
= pxform
->numoutchans
;
}
}
bufmax
= APPLYBUFSIZ
/ maxchans
;
assert(bufmax
> 0);
total
= width
* height
;
n
= 0;
while (n
< total
) {
inbuf
= &buf
[0][0];
m
= JAS_MIN
(total
- n
, bufmax
);
for (i
= 0; i
< xform
->numinchans
; ++i
) {
fmt
= &in
->cmptfmts
[i
];
scale
= (double)((1 << fmt
->prec
) - 1);
bias
= fmt
->sgnd
? (1 << (fmt
->prec
- 1)) : 0;
dataptr
= &fmt
->buf
[n
];
bufptr
= &inbuf
[i
];
for (j
= 0; j
< m
; ++j
) {
if (jas_cmgetint
(&dataptr
, fmt
->sgnd
, fmt
->prec
, &v
))
goto error
;
*bufptr
= (v
- bias
) / scale
;
bufptr
+= xform
->numinchans
;
}
}
inbuf
= &buf
[0][0];
outbuf
= inbuf
;
for (i
= 0; i
< pxformseq
->numpxforms
; ++i
) {
pxform
= pxformseq
->pxforms
[i
];
if (pxform
->numoutchans
> pxform
->numinchans
) {
outbuf
= (inbuf
== &buf
[0][0]) ? &buf
[1][0] : &buf
[0][0];
} else {
outbuf
= inbuf
;
}
if ((*pxform
->ops
->apply
)(pxform
, inbuf
, outbuf
, m
))
goto error
;
inbuf
= outbuf
;
}
for (i
= 0; i
< xform
->numoutchans
; ++i
) {
fmt
= &out
->cmptfmts
[i
];
scale
= (double)((1 << fmt
->prec
) - 1);
bias
= fmt
->sgnd
? (1 << (fmt
->prec
- 1)) : 0;
bufptr
= &outbuf
[i
];
dataptr
= &fmt
->buf
[n
];
for (j
= 0; j
< m
; ++j
) {
v
= (*bufptr
) * scale
+ bias
;
bufptr
+= xform
->numoutchans
;
if (jas_cmputint
(&dataptr
, fmt
->sgnd
, fmt
->prec
, v
))
goto error
;
}
}
n
+= m
;
}
return 0;
error
:
return -1;
}
void jas_cmxform_destroy
(jas_cmxform_t
*xform
)
{
if (xform
->pxformseq
)
jas_cmpxformseq_destroy
(xform
->pxformseq
);
jas_free
(xform
);
}
/******************************************************************************\
* Primitive transform sequence class.
\******************************************************************************/
static jas_cmpxformseq_t
*jas_cmpxformseq_create
()
{
jas_cmpxformseq_t
*pxformseq
;
pxformseq
= 0;
if (!(pxformseq
= jas_malloc
(sizeof(jas_cmpxformseq_t
))))
goto error
;
pxformseq
->pxforms
= 0;
pxformseq
->numpxforms
= 0;
pxformseq
->maxpxforms
= 0;
if (jas_cmpxformseq_resize
(pxformseq
, 16))
goto error
;
return pxformseq
;
error
:
if (pxformseq
)
jas_cmpxformseq_destroy
(pxformseq
);
return 0;
}
static jas_cmpxformseq_t
*jas_cmpxformseq_copy
(jas_cmpxformseq_t
*pxformseq
)
{
jas_cmpxformseq_t
*newpxformseq
;
if (!(newpxformseq
= jas_cmpxformseq_create
()))
goto error
;
if (jas_cmpxformseq_append
(newpxformseq
, pxformseq
))
goto error
;
return newpxformseq
;
error
:
return 0;
}
static void jas_cmpxformseq_destroy
(jas_cmpxformseq_t
*pxformseq
)
{
while (pxformseq
->numpxforms
> 0)
jas_cmpxformseq_delete
(pxformseq
, pxformseq
->numpxforms
- 1);
if (pxformseq
->pxforms
)
jas_free
(pxformseq
->pxforms
);
jas_free
(pxformseq
);
}
static int jas_cmpxformseq_delete
(jas_cmpxformseq_t
*pxformseq
, int i
)
{
assert(i
>= 0 && i
< pxformseq
->numpxforms
);
if (i
!= pxformseq
->numpxforms
- 1)
abort();
jas_cmpxform_destroy
(pxformseq
->pxforms
[i
]);
pxformseq
->pxforms
[i
] = 0;
--pxformseq
->numpxforms
;
return 0;
}
static int jas_cmpxformseq_appendcnvt
(jas_cmpxformseq_t
*pxformseq
,
int dstclrspc
, int srcclrspc
)
{
if (dstclrspc
== srcclrspc
)
return 0;
abort();
/* Avoid compiler warnings about unused parameters. */
pxformseq
= 0;
return -1;
}
static int jas_cmpxformseq_insertpxform
(jas_cmpxformseq_t
*pxformseq
,
int i
, jas_cmpxform_t
*pxform
)
{
jas_cmpxform_t
*tmppxform
;
int n
;
if (i
< 0)
i
= pxformseq
->numpxforms
;
assert(i
>= 0 && i
<= pxformseq
->numpxforms
);
if (pxformseq
->numpxforms
>= pxformseq
->maxpxforms
) {
if (jas_cmpxformseq_resize
(pxformseq
, pxformseq
->numpxforms
+
16))
goto error
;
}
assert(pxformseq
->numpxforms
< pxformseq
->maxpxforms
);
if (!(tmppxform
= jas_cmpxform_copy
(pxform
)))
goto error
;
n
= pxformseq
->numpxforms
- i
;
if (n
> 0) {
memmove(&pxformseq
->pxforms
[i
+ 1], &pxformseq
->pxforms
[i
],
n
* sizeof(jas_cmpxform_t
*));
}
pxformseq
->pxforms
[i
] = tmppxform
;
++pxformseq
->numpxforms
;
return 0;
error
:
return -1;
}
static int jas_cmpxformseq_append
(jas_cmpxformseq_t
*pxformseq
,
jas_cmpxformseq_t
*othpxformseq
)
{
int n
;
int i
;
jas_cmpxform_t
*pxform
;
jas_cmpxform_t
*othpxform
;
n
= pxformseq
->numpxforms
+ othpxformseq
->numpxforms
;
if (n
> pxformseq
->maxpxforms
) {
if (jas_cmpxformseq_resize
(pxformseq
, n
))
goto error
;
}
for (i
= 0; i
< othpxformseq
->numpxforms
; ++i
) {
othpxform
= othpxformseq
->pxforms
[i
];
if (!(pxform
= jas_cmpxform_copy
(othpxform
)))
goto error
;
pxformseq
->pxforms
[pxformseq
->numpxforms
] = pxform
;
++pxformseq
->numpxforms
;
}
return 0;
error
:
return -1;
}
static int jas_cmpxformseq_resize
(jas_cmpxformseq_t
*pxformseq
, int n
)
{
jas_cmpxform_t
**p
;
assert(n
>= pxformseq
->numpxforms
);
p
= (!pxformseq
->pxforms
) ? jas_malloc
(n
* sizeof(jas_cmpxform_t
*)) :
jas_realloc
(pxformseq
->pxforms
, n
* sizeof(jas_cmpxform_t
*));
if (!p
) {
return -1;
}
pxformseq
->pxforms
= p
;
pxformseq
->maxpxforms
= n
;
return 0;
}
/******************************************************************************\
* Primitive transform class.
\******************************************************************************/
static jas_cmpxform_t
*jas_cmpxform_create0
()
{
jas_cmpxform_t
*pxform
;
if (!(pxform
= jas_malloc
(sizeof(jas_cmpxform_t
))))
return 0;
memset(pxform
, 0, sizeof(jas_cmpxform_t
));
pxform
->refcnt
= 0;
pxform
->ops
= 0;
return pxform
;
}
static void jas_cmpxform_destroy
(jas_cmpxform_t
*pxform
)
{
if (--pxform
->refcnt
<= 0) {
(*pxform
->ops
->destroy
)(pxform
);
jas_free
(pxform
);
}
}
static jas_cmpxform_t
*jas_cmpxform_copy
(jas_cmpxform_t
*pxform
)
{
++pxform
->refcnt
;
return pxform
;
}
/******************************************************************************\
* Shaper matrix class.
\******************************************************************************/
static jas_cmpxform_t
*jas_cmpxform_createshapmat
()
{
int i
;
int j
;
jas_cmpxform_t
*pxform
;
jas_cmshapmat_t
*shapmat
;
if (!(pxform
= jas_cmpxform_create0
()))
return 0;
pxform
->ops
= &shapmat_ops
;
shapmat
= &pxform
->data.
shapmat;
shapmat
->mono
= 0;
shapmat
->order
= 0;
shapmat
->useluts
= 0;
shapmat
->usemat
= 0;
for (i
= 0; i
< 3; ++i
)
jas_cmshapmatlut_init
(&shapmat
->luts
[i
]);
for (i
= 0; i
< 3; ++i
) {
for (j
= 0; j
< 4; ++j
)
shapmat
->mat
[i
][j
] = 0.0;
}
++pxform
->refcnt
;
return pxform
;
}
static void jas_cmshapmat_destroy
(jas_cmpxform_t
*pxform
)
{
jas_cmshapmat_t
*shapmat
= &pxform
->data.
shapmat;
int i
;
for (i
= 0; i
< 3; ++i
)
jas_cmshapmatlut_cleanup
(&shapmat
->luts
[i
]);
}
static int jas_cmshapmat_apply
(jas_cmpxform_t
*pxform
, jas_cmreal_t
*in
,
jas_cmreal_t
*out
, int cnt
)
{
jas_cmshapmat_t
*shapmat
= &pxform
->data.
shapmat;
jas_cmreal_t
*src
;
jas_cmreal_t
*dst
;
jas_cmreal_t a0
;
jas_cmreal_t a1
;
jas_cmreal_t a2
;
jas_cmreal_t b0
;
jas_cmreal_t b1
;
jas_cmreal_t b2
;
src
= in
;
dst
= out
;
if (!shapmat
->mono
) {
while (--cnt
>= 0) {
a0
= *src
++;
a1
= *src
++;
a2
= *src
++;
if (!shapmat
->order
&& shapmat
->useluts
) {
a0
= jas_cmshapmatlut_lookup
(&shapmat
->luts
[0], a0
);
a1
= jas_cmshapmatlut_lookup
(&shapmat
->luts
[1], a1
);
a2
= jas_cmshapmatlut_lookup
(&shapmat
->luts
[2], a2
);
}
if (shapmat
->usemat
) {
b0
= shapmat
->mat
[0][0] * a0
+ shapmat
->mat
[0][1] * a1
+ shapmat
->mat
[0][2] * a2
+ shapmat
->mat
[0][3];
b1
= shapmat
->mat
[1][0] * a0
+ shapmat
->mat
[1][1] * a1
+ shapmat
->mat
[1][2] * a2
+ shapmat
->mat
[1][3];
b2
= shapmat
->mat
[2][0] * a0
+ shapmat
->mat
[2][1] * a1
+ shapmat
->mat
[2][2] * a2
+ shapmat
->mat
[2][3];
a0
= b0
;
a1
= b1
;
a2
= b2
;
}
if (shapmat
->order
&& shapmat
->useluts
) {
a0
= jas_cmshapmatlut_lookup
(&shapmat
->luts
[0], a0
);
a1
= jas_cmshapmatlut_lookup
(&shapmat
->luts
[1], a1
);
a2
= jas_cmshapmatlut_lookup
(&shapmat
->luts
[2], a2
);
}
*dst
++ = a0
;
*dst
++ = a1
;
*dst
++ = a2
;
}
} else {
if (!shapmat
->order
) {
while (--cnt
>= 0) {
a0
= *src
++;
if (shapmat
->useluts
)
a0
= jas_cmshapmatlut_lookup
(&shapmat
->luts
[0], a0
);
a2
= a0
* shapmat
->mat
[2][0];
a1
= a0
* shapmat
->mat
[1][0];
a0
= a0
* shapmat
->mat
[0][0];
*dst
++ = a0
;
*dst
++ = a1
;
*dst
++ = a2
;
}
} else {
assert(0);
while (--cnt
>= 0) {
a0
= *src
++;
src
++;
src
++;
a0
= a0
* shapmat
->mat
[0][0];
if (shapmat
->useluts
)
a0
= jas_cmshapmatlut_lookup
(&shapmat
->luts
[0], a0
);
*dst
++ = a0
;
}
}
}
return 0;
}
static void jas_cmshapmatlut_init
(jas_cmshapmatlut_t
*lut
)
{
lut
->data
= 0;
lut
->size
= 0;
}
static void jas_cmshapmatlut_cleanup
(jas_cmshapmatlut_t
*lut
)
{
if (lut
->data
) {
jas_free
(lut
->data
);
lut
->data
= 0;
}
lut
->size
= 0;
}
static double gammafn
(double x
, double gamma
)
{
if (x
== 0.0)
return 0.0;
return pow(x
, gamma
);
}
static int jas_cmshapmatlut_set
(jas_cmshapmatlut_t
*lut
, jas_icccurv_t
*curv
)
{
jas_cmreal_t gamma
;
int i
;
gamma
= 0;
jas_cmshapmatlut_cleanup
(lut
);
if (curv
->numents
== 0) {
lut
->size
= 2;
if (!(lut
->data
= jas_malloc
(lut
->size
* sizeof(jas_cmreal_t
))))
goto error
;
lut
->data
[0] = 0.0;
lut
->data
[1] = 1.0;
} else if (curv
->numents
== 1) {
lut
->size
= 256;
if (!(lut
->data
= jas_malloc
(lut
->size
* sizeof(jas_cmreal_t
))))
goto error
;
gamma
= curv
->ents
[0] / 256.0;
for (i
= 0; i
< lut
->size
; ++i
) {
lut
->data
[i
] = gammafn
(i
/ (double) (lut
->size
- 1), gamma
);
}
} else {
lut
->size
= curv
->numents
;
if (!(lut
->data
= jas_malloc
(lut
->size
* sizeof(jas_cmreal_t
))))
goto error
;
for (i
= 0; i
< lut
->size
; ++i
) {
lut
->data
[i
] = curv
->ents
[i
] / 65535.0;
}
}
return 0;
error
:
return -1;
}
static jas_cmreal_t jas_cmshapmatlut_lookup
(jas_cmshapmatlut_t
*lut
, jas_cmreal_t x
)
{
jas_cmreal_t t
;
int lo
;
int hi
;
t
= x
* (lut
->size
- 1);
lo
= floor(t
);
if (lo
< 0)
return lut
->data
[0];
hi
= ceil(t
);
if (hi
>= lut
->size
)
return lut
->data
[lut
->size
- 1];
return lut
->data
[lo
] + (t
- lo
) * (lut
->data
[hi
] - lut
->data
[lo
]);
}
static int jas_cmshapmatlut_invert
(jas_cmshapmatlut_t
*invlut
,
jas_cmshapmatlut_t
*lut
, int n
)
{
int i
;
int j
;
int k
;
jas_cmreal_t ax
;
jas_cmreal_t ay
;
jas_cmreal_t bx
;
jas_cmreal_t by
;
jas_cmreal_t sx
;
jas_cmreal_t sy
;
assert(n
>= 2);
if (invlut
->data
) {
jas_free
(invlut
->data
);
invlut
->data
= 0;
}
/* The sample values should be nondecreasing. */
for (i
= 1; i
< lut
->size
; ++i
) {
if (lut
->data
[i
- 1] > lut
->data
[i
]) {
assert(0);
return -1;
}
}
if (!(invlut
->data
= jas_malloc
(n
* sizeof(jas_cmreal_t
))))
return -1;
invlut
->size
= n
;
for (i
= 0; i
< invlut
->size
; ++i
) {
sy
= ((double) i
) / (invlut
->size
- 1);
sx
= 1.0;
for (j
= 0; j
< lut
->size
; ++j
) {
ay
= lut
->data
[j
];
if (sy
== ay
) {
for (k
= j
+ 1; k
< lut
->size
; ++k
) {
by
= lut
->data
[k
];
if (by
!= sy
)
break;
#if 0
assert(0);
#endif
}
if (k
< lut
->size
) {
--k
;
ax
= ((double) j
) / (lut
->size
- 1);
bx
= ((double) k
) / (lut
->size
- 1);
sx
= (ax
+ bx
) / 2.0;
}
break;
}
if (j
< lut
->size
- 1) {
by
= lut
->data
[j
+ 1];
if (sy
> ay
&& sy
< by
) {
ax
= ((double) j
) / (lut
->size
- 1);
bx
= ((double) j
+ 1) / (lut
->size
- 1);
sx
= ax
+
(sy
- ay
) / (by
- ay
) * (bx
- ax
);
break;
}
}
}
invlut
->data
[i
] = sx
;
}
#if 0
for (i
=0;i
<lut
->size
;++i
)
fprintf(stderr
, "lut[%d]=%f ", i
, lut
->data
[i
]);
for (i
=0;i
<invlut
->size
;++i
)
fprintf(stderr
, "invlut[%d]=%f ", i
, invlut
->data
[i
]);
#endif
return 0;
}
static int jas_cmshapmat_invmat
(jas_cmreal_t out
[3][4], jas_cmreal_t in
[3][4])
{
jas_cmreal_t d
;
d
= in
[0][0] * (in
[1][1] * in
[2][2] - in
[1][2] * in
[2][1])
- in
[0][1] * (in
[1][0] * in
[2][2] - in
[1][2] * in
[2][0])
+ in
[0][2] * (in
[1][0] * in
[2][1] - in
[1][1] * in
[2][0]);
#if 0
fprintf(stderr
, "delta=%f\n", d
);
#endif
if (JAS_ABS
(d
) < 1e-6)
return -1;
out
[0][0] = (in
[1][1] * in
[2][2] - in
[1][2] * in
[2][1]) / d
;
out
[1][0] = -(in
[1][0] * in
[2][2] - in
[1][2] * in
[2][0]) / d
;
out
[2][0] = (in
[1][0] * in
[2][1] - in
[1][1] * in
[2][0]) / d
;
out
[0][1] = -(in
[0][1] * in
[2][2] - in
[0][2] * in
[2][1]) / d
;
out
[1][1] = (in
[0][0] * in
[2][2] - in
[0][2] * in
[2][0]) / d
;
out
[2][1] = -(in
[0][0] * in
[2][1] - in
[0][1] * in
[2][0]) / d
;
out
[0][2] = (in
[0][1] * in
[1][2] - in
[0][2] * in
[1][1]) / d
;
out
[1][2] = -(in
[0][0] * in
[1][2] - in
[1][0] * in
[0][2]) / d
;
out
[2][2] = (in
[0][0] * in
[1][1] - in
[0][1] * in
[1][0]) / d
;
out
[0][3] = -in
[0][3];
out
[1][3] = -in
[1][3];
out
[2][3] = -in
[2][3];
#if 0
fprintf(stderr
, "[ %f %f %f %f ]\n[ %f %f %f %f ]\n[ %f %f %f %f ]\n",
in
[0][0], in
[0][1], in
[0][2], in
[0][3],
in
[1][0], in
[1][1], in
[1][2], in
[1][3],
in
[2][0], in
[2][1], in
[2][2], in
[2][3]);
fprintf(stderr
, "[ %f %f %f %f ]\n[ %f %f %f %f ]\n[ %f %f %f %f ]\n",
out
[0][0], out
[0][1], out
[0][2], out
[0][3],
out
[1][0], out
[1][1], out
[1][2], out
[1][3],
out
[2][0], out
[2][1], out
[2][2], out
[2][3]);
#endif
return 0;
}
/******************************************************************************\
*
\******************************************************************************/
static int icctoclrspc
(int iccclrspc
, int refflag
)
{
if (refflag
) {
switch (iccclrspc
) {
case JAS_ICC_COLORSPC_XYZ
:
return JAS_CLRSPC_CIEXYZ
;
case JAS_ICC_COLORSPC_LAB
:
return JAS_CLRSPC_CIELAB
;
default:
abort();
break;
}
} else {
switch (iccclrspc
) {
case JAS_ICC_COLORSPC_YCBCR
:
return JAS_CLRSPC_GENYCBCR
;
case JAS_ICC_COLORSPC_RGB
:
return JAS_CLRSPC_GENRGB
;
case JAS_ICC_COLORSPC_GRAY
:
return JAS_CLRSPC_GENGRAY
;
default:
abort();
break;
}
}
}
static int mono
(jas_iccprof_t
*iccprof
, int op
, jas_cmpxformseq_t
**retpxformseq
)
{
jas_iccattrval_t
*graytrc
;
jas_cmshapmat_t
*shapmat
;
jas_cmpxform_t
*pxform
;
jas_cmpxformseq_t
*pxformseq
;
jas_cmshapmatlut_t lut
;
jas_cmshapmatlut_init
(&lut
);
if (!(graytrc
= jas_iccprof_getattr
(iccprof
, JAS_ICC_TAG_GRYTRC
)) ||
graytrc
->type
!= JAS_ICC_TYPE_CURV
)
goto error
;
if (!(pxform
= jas_cmpxform_createshapmat
()))
goto error
;
shapmat
= &pxform
->data.
shapmat;
if (!(pxformseq
= jas_cmpxformseq_create
()))
goto error
;
if (jas_cmpxformseq_insertpxform
(pxformseq
, -1, pxform
))
goto error
;
pxform
->numinchans
= 1;
pxform
->numoutchans
= 3;
shapmat
->mono
= 1;
shapmat
->useluts
= 1;
shapmat
->usemat
= 1;
if (!op
) {
shapmat
->order
= 0;
shapmat
->mat
[0][0] = 0.9642;
shapmat
->mat
[1][0] = 1.0;
shapmat
->mat
[2][0] = 0.8249;
if (jas_cmshapmatlut_set
(&shapmat
->luts
[0], &graytrc
->data.
curv))
goto error
;
} else {
shapmat
->order
= 1;
shapmat
->mat
[0][0] = 1.0 / 0.9642;
shapmat
->mat
[1][0] = 1.0;
shapmat
->mat
[2][0] = 1.0 / 0.8249;
jas_cmshapmatlut_init
(&lut
);
if (jas_cmshapmatlut_set
(&lut
, &graytrc
->data.
curv))
goto error
;
if (jas_cmshapmatlut_invert
(&shapmat
->luts
[0], &lut
, lut.
size))
goto error
;
jas_cmshapmatlut_cleanup
(&lut
);
}
jas_iccattrval_destroy
(graytrc
);
jas_cmpxform_destroy
(pxform
);
*retpxformseq
= pxformseq
;
return 0;
error
:
return -1;
}
static int triclr
(jas_iccprof_t
*iccprof
, int op
, jas_cmpxformseq_t
**retpxformseq
)
{
int i
;
jas_iccattrval_t
*trcs
[3];
jas_iccattrval_t
*cols
[3];
jas_cmshapmat_t
*shapmat
;
jas_cmpxform_t
*pxform
;
jas_cmpxformseq_t
*pxformseq
;
jas_cmreal_t mat
[3][4];
jas_cmshapmatlut_t lut
;
jas_cmshapmatlut_init
(&lut
);
for (i
= 0; i
< 3; ++i
) {
trcs
[i
] = 0;
cols
[i
] = 0;
}
if (!(trcs
[0] = jas_iccprof_getattr
(iccprof
, JAS_ICC_TAG_REDTRC
)) ||
!(trcs
[1] = jas_iccprof_getattr
(iccprof
, JAS_ICC_TAG_GRNTRC
)) ||
!(trcs
[2] = jas_iccprof_getattr
(iccprof
, JAS_ICC_TAG_BLUTRC
)) ||
!(cols
[0] = jas_iccprof_getattr
(iccprof
, JAS_ICC_TAG_REDMATCOL
)) ||
!(cols
[1] = jas_iccprof_getattr
(iccprof
, JAS_ICC_TAG_GRNMATCOL
)) ||
!(cols
[2] = jas_iccprof_getattr
(iccprof
, JAS_ICC_TAG_BLUMATCOL
)))
goto error
;
for (i
= 0; i
< 3; ++i
) {
if (trcs
[i
]->type
!= JAS_ICC_TYPE_CURV
||
cols
[i
]->type
!= JAS_ICC_TYPE_XYZ
)
goto error
;
}
if (!(pxform
= jas_cmpxform_createshapmat
()))
goto error
;
pxform
->numinchans
= 3;
pxform
->numoutchans
= 3;
shapmat
= &pxform
->data.
shapmat;
if (!(pxformseq
= jas_cmpxformseq_create
()))
goto error
;
if (jas_cmpxformseq_insertpxform
(pxformseq
, -1, pxform
))
goto error
;
shapmat
->mono
= 0;
shapmat
->useluts
= 1;
shapmat
->usemat
= 1;
if (!op
) {
shapmat
->order
= 0;
for (i
= 0; i
< 3; ++i
) {
shapmat
->mat
[0][i
] = cols
[i
]->data.
xyz.
x / 65536.0;
shapmat
->mat
[1][i
] = cols
[i
]->data.
xyz.
y / 65536.0;
shapmat
->mat
[2][i
] = cols
[i
]->data.
xyz.
z / 65536.0;
}
for (i
= 0; i
< 3; ++i
)
shapmat
->mat
[i
][3] = 0.0;
for (i
= 0; i
< 3; ++i
) {
if (jas_cmshapmatlut_set
(&shapmat
->luts
[i
], &trcs
[i
]->data.
curv))
goto error
;
}
} else {
shapmat
->order
= 1;
for (i
= 0; i
< 3; ++i
) {
mat
[0][i
] = cols
[i
]->data.
xyz.
x / 65536.0;
mat
[1][i
] = cols
[i
]->data.
xyz.
y / 65536.0;
mat
[2][i
] = cols
[i
]->data.
xyz.
z / 65536.0;
}
for (i
= 0; i
< 3; ++i
)
mat
[i
][3] = 0.0;
if (jas_cmshapmat_invmat
(shapmat
->mat
, mat
))
goto error
;
for (i
= 0; i
< 3; ++i
) {
jas_cmshapmatlut_init
(&lut
);
if (jas_cmshapmatlut_set
(&lut
, &trcs
[i
]->data.
curv))
goto error
;
if (jas_cmshapmatlut_invert
(&shapmat
->luts
[i
], &lut
, lut.
size))
goto error
;
jas_cmshapmatlut_cleanup
(&lut
);
}
}
for (i
= 0; i
< 3; ++i
) {
jas_iccattrval_destroy
(trcs
[i
]);
jas_iccattrval_destroy
(cols
[i
]);
}
jas_cmpxform_destroy
(pxform
);
*retpxformseq
= pxformseq
;
return 0;
error
:
return -1;
}
static int jas_cmgetint
(long **bufptr
, int sgnd
, int prec
, long *val
)
{
long v
;
int m
;
v
= **bufptr
;
if (sgnd
) {
m
= (1 << (prec
- 1));
if (v
< -m
|| v
>= m
)
return -1;
} else {
if (v
< 0 || v
>= (1 << prec
))
return -1;
}
++(*bufptr
);
*val
= v
;
return 0;
}
static int jas_cmputint
(long **bufptr
, int sgnd
, int prec
, long val
)
{
int m
;
if (sgnd
) {
m
= (1 << (prec
- 1));
if (val
< -m
|| val
>= m
)
return -1;
} else {
if (val
< 0 || val
>= (1 << prec
))
return -1;
}
**bufptr
= val
;
++(*bufptr
);
return 0;
}
int jas_clrspc_numchans
(int clrspc
)
{
switch (jas_clrspc_fam
(clrspc
)) {
case JAS_CLRSPC_FAM_XYZ
:
case JAS_CLRSPC_FAM_LAB
:
case JAS_CLRSPC_FAM_RGB
:
case JAS_CLRSPC_FAM_YCBCR
:
return 3;
break;
case JAS_CLRSPC_FAM_GRAY
:
return 1;
break;
default:
abort();
break;
}
}
jas_iccprof_t
*jas_iccprof_createfromcmprof
(jas_cmprof_t
*prof
)
{
return jas_iccprof_copy
(prof
->iccprof
);
}