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Merge remote-tracking branch 'upstream/3.4' into merge-3.4

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pull/19664/head
Alexander Alekhin 4 years ago
parent 325bdf952c 2ab1f3f166
commit ec4baf337a
74 changed files with 6143 additions and 1612 deletions
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  1. 3
      3rdparty/libtiff/CMakeLists.txt
  2. 2326
      3rdparty/libtiff/ChangeLog
  3. 12
      3rdparty/libtiff/libport.h
  4. 89
      3rdparty/libtiff/tif_aux.c
  5. 2
      3rdparty/libtiff/tif_compress.c
  6. 107
      3rdparty/libtiff/tif_dir.c
  7. 14
      3rdparty/libtiff/tif_dir.h
  8. 244
      3rdparty/libtiff/tif_dirinfo.c
  9. 1177
      3rdparty/libtiff/tif_dirread.c
  10. 837
      3rdparty/libtiff/tif_dirwrite.c
  11. 114
      3rdparty/libtiff/tif_fax3.c
  12. 39
      3rdparty/libtiff/tif_fax3.h
  13. 1
      3rdparty/libtiff/tif_fax3sm.c
  14. 118
      3rdparty/libtiff/tif_flush.c
  15. 67
      3rdparty/libtiff/tif_getimage.c
  16. 1
      3rdparty/libtiff/tif_jbig.c
  17. 82
      3rdparty/libtiff/tif_jpeg.c
  18. 42
      3rdparty/libtiff/tif_luv.c
  19. 7
      3rdparty/libtiff/tif_lzma.c
  20. 12
      3rdparty/libtiff/tif_lzw.c
  21. 94
      3rdparty/libtiff/tif_ojpeg.c
  22. 23
      3rdparty/libtiff/tif_open.c
  23. 17
      3rdparty/libtiff/tif_pixarlog.c
  24. 6
      3rdparty/libtiff/tif_predict.c
  25. 10
      3rdparty/libtiff/tif_print.c
  26. 260
      3rdparty/libtiff/tif_read.c
  27. 38
      3rdparty/libtiff/tif_strip.c
  28. 10
      3rdparty/libtiff/tif_thunder.c
  29. 27
      3rdparty/libtiff/tif_tile.c
  30. 2
      3rdparty/libtiff/tif_unix.c
  31. 15
      3rdparty/libtiff/tif_webp.c
  32. 60
      3rdparty/libtiff/tif_win32.c
  33. 149
      3rdparty/libtiff/tif_write.c
  34. 280
      3rdparty/libtiff/tif_zip.c
  35. 6
      3rdparty/libtiff/tif_zstd.c
  36. 117
      3rdparty/libtiff/tiff.h
  37. 3
      3rdparty/libtiff/tiffconf.h.cmake.in
  38. 26
      3rdparty/libtiff/tiffio.h
  39. 23
      3rdparty/libtiff/tiffiop.h
  40. 4
      3rdparty/libtiff/tiffvers.h
  41. 53
      3rdparty/libwebp/src/dec/io_dec.c
  42. 12
      3rdparty/libwebp/src/dec/vp8_dec.c
  43. 2
      3rdparty/libwebp/src/dec/vp8i_dec.h
  44. 1
      3rdparty/libwebp/src/dec/vp8l_dec.c
  45. 11
      3rdparty/libwebp/src/demux/anim_decode.c
  46. 7
      3rdparty/libwebp/src/demux/demux.c
  47. 8
      3rdparty/libwebp/src/dsp/alpha_processing.c
  48. 22
      3rdparty/libwebp/src/dsp/alpha_processing_sse2.c
  49. 38
      3rdparty/libwebp/src/dsp/cpu.c
  50. 68
      3rdparty/libwebp/src/dsp/dec_neon.c
  51. 18
      3rdparty/libwebp/src/dsp/dsp.h
  52. 56
      3rdparty/libwebp/src/dsp/lossless.c
  53. 17
      3rdparty/libwebp/src/dsp/lossless.h
  54. 13
      3rdparty/libwebp/src/dsp/lossless_common.h
  55. 173
      3rdparty/libwebp/src/dsp/lossless_enc.c
  56. 38
      3rdparty/libwebp/src/dsp/lossless_enc_sse2.c
  57. 60
      3rdparty/libwebp/src/enc/analysis_enc.c
  58. 201
      3rdparty/libwebp/src/enc/backward_references_enc.c
  59. 20
      3rdparty/libwebp/src/enc/backward_references_enc.h
  60. 5
      3rdparty/libwebp/src/enc/config_enc.c
  61. 20
      3rdparty/libwebp/src/enc/frame_enc.c
  62. 1
      3rdparty/libwebp/src/enc/histogram_enc.c
  63. 14
      3rdparty/libwebp/src/enc/picture_csp_enc.c
  64. 31
      3rdparty/libwebp/src/enc/picture_tools_enc.c
  65. 8
      3rdparty/libwebp/src/enc/vp8i_enc.h
  66. 327
      3rdparty/libwebp/src/enc/vp8l_enc.c
  67. 2
      3rdparty/libwebp/src/enc/vp8li_enc.h
  68. 2
      3rdparty/libwebp/src/enc/webp_enc.c
  69. 2
      3rdparty/libwebp/src/mux/muxi.h
  70. 2
      3rdparty/libwebp/src/mux/muxread.c
  71. 2
      3rdparty/libwebp/src/utils/utils.c
  72. 2
      3rdparty/libwebp/src/webp/decode.h
  73. 8
      3rdparty/libwebp/src/webp/encode.h
  74. 47
      modules/videoio/src/cap_ffmpeg_impl.hpp

3
3rdparty/libtiff/CMakeLists.txt vendored
Unescape View File

@ -239,6 +239,9 @@ if(HOST_BIG_ENDIAN)
else()
set(HOST_BIG_ENDIAN 0)
endif()
if(HOST_BIG_ENDIAN)
add_definitions(-DWORDS_BIGENDIAN)
endif()
# IEEE floating point
set(HAVE_IEEEFP 1 CACHE STRING "IEEE floating point is available")

2326
3rdparty/libtiff/ChangeLog vendored
View File

File diff suppressed because it is too large Load Diff

12
3rdparty/libtiff/libport.h vendored
Unescape View File

@ -24,6 +24,10 @@
#ifndef _LIBPORT_
#define _LIBPORT_
#if defined(HAVE_CONFIG_H)
# include <tif_config.h>
#endif
int getopt(int argc, char * const argv[], const char *optstring);
extern char *optarg;
extern int opterr;
@ -36,16 +40,16 @@ int strcasecmp(const char *s1, const char *s2);
# define HAVE_GETOPT 1
#endif
#if HAVE_STRTOL
#if !defined(HAVE_STRTOL)
long strtol(const char *nptr, char **endptr, int base);
#endif
#if HAVE_STRTOLL
#if !defined(HAVE_STRTOLL)
long long strtoll(const char *nptr, char **endptr, int base);
#endif
#if HAVE_STRTOUL
#if !defined(HAVE_STRTOUL)
unsigned long strtoul(const char *nptr, char **endptr, int base);
#endif
#if HAVE_STRTOULL
#if !defined(HAVE_STRTOULL)
unsigned long long strtoull(const char *nptr, char **endptr, int base);
#endif

89
3rdparty/libtiff/tif_aux.c vendored
Unescape View File

@ -35,27 +35,61 @@
uint32
_TIFFMultiply32(TIFF* tif, uint32 first, uint32 second, const char* where)
{
uint32 bytes = first * second;
if (second && bytes / second != first) {
if (second && first > TIFF_UINT32_MAX / second) {
TIFFErrorExt(tif->tif_clientdata, where, "Integer overflow in %s", where);
bytes = 0;
return 0;
}
return bytes;
return first * second;
}
uint64
_TIFFMultiply64(TIFF* tif, uint64 first, uint64 second, const char* where)
{
uint64 bytes = first * second;
if (second && bytes / second != first) {
if (second && first > TIFF_UINT64_MAX / second) {
TIFFErrorExt(tif->tif_clientdata, where, "Integer overflow in %s", where);
bytes = 0;
return 0;
}
return bytes;
return first * second;
}
tmsize_t
_TIFFMultiplySSize(TIFF* tif, tmsize_t first, tmsize_t second, const char* where)
{
if( first <= 0 || second <= 0 )
{
if( tif != NULL && where != NULL )
{
TIFFErrorExt(tif->tif_clientdata, where,
"Invalid argument to _TIFFMultiplySSize() in %s", where);
}
return 0;
}
if( first > TIFF_TMSIZE_T_MAX / second )
{
if( tif != NULL && where != NULL )
{
TIFFErrorExt(tif->tif_clientdata, where,
"Integer overflow in %s", where);
}
return 0;
}
return first * second;
}
tmsize_t _TIFFCastUInt64ToSSize(TIFF* tif, uint64 val, const char* module)
{
if( val > (uint64)TIFF_TMSIZE_T_MAX )
{
if( tif != NULL && module != NULL )
{
TIFFErrorExt(tif->tif_clientdata,module,"Integer overflow");
}
return 0;
}
return (tmsize_t)val;
}
void*
@ -63,13 +97,14 @@ _TIFFCheckRealloc(TIFF* tif, void* buffer,
tmsize_t nmemb, tmsize_t elem_size, const char* what)
{
void* cp = NULL;
tmsize_t bytes = nmemb * elem_size;
tmsize_t count = _TIFFMultiplySSize(tif, nmemb, elem_size, NULL);
/*
* XXX: Check for integer overflow.
* Check for integer overflow.
*/
if (nmemb && elem_size && bytes / elem_size == nmemb)
cp = _TIFFrealloc(buffer, bytes);
if (count != 0)
{
cp = _TIFFrealloc(buffer, count);
}
if (cp == NULL) {
TIFFErrorExt(tif->tif_clientdata, tif->tif_name,
@ -235,7 +270,7 @@ TIFFVGetFieldDefaulted(TIFF* tif, uint32 tag, va_list ap)
return (1);
case TIFFTAG_EXTRASAMPLES:
*va_arg(ap, uint16 *) = td->td_extrasamples;
*va_arg(ap, uint16 **) = td->td_sampleinfo;
*va_arg(ap, const uint16 **) = td->td_sampleinfo;
return (1);
case TIFFTAG_MATTEING:
*va_arg(ap, uint16 *) =
@ -257,8 +292,8 @@ TIFFVGetFieldDefaulted(TIFF* tif, uint32 tag, va_list ap)
case TIFFTAG_YCBCRCOEFFICIENTS:
{
/* defaults are from CCIR Recommendation 601-1 */
static float ycbcrcoeffs[] = { 0.299f, 0.587f, 0.114f };
*va_arg(ap, float **) = ycbcrcoeffs;
static const float ycbcrcoeffs[] = { 0.299f, 0.587f, 0.114f };
*va_arg(ap, const float **) = ycbcrcoeffs;
return 1;
}
case TIFFTAG_YCBCRSUBSAMPLING:
@ -270,14 +305,14 @@ TIFFVGetFieldDefaulted(TIFF* tif, uint32 tag, va_list ap)
return (1);
case TIFFTAG_WHITEPOINT:
{
static float whitepoint[2];
/* TIFF 6.0 specification tells that it is no default
value for the WhitePoint, but AdobePhotoshop TIFF
Technical Note tells that it should be CIE D50. */
whitepoint[0] = D50_X0 / (D50_X0 + D50_Y0 + D50_Z0);
whitepoint[1] = D50_Y0 / (D50_X0 + D50_Y0 + D50_Z0);
*va_arg(ap, float **) = whitepoint;
static const float whitepoint[] = {
D50_X0 / (D50_X0 + D50_Y0 + D50_Z0),
D50_Y0 / (D50_X0 + D50_Y0 + D50_Z0)
};
*va_arg(ap, const float **) = whitepoint;
return 1;
}
case TIFFTAG_TRANSFERFUNCTION:
@ -286,16 +321,16 @@ TIFFVGetFieldDefaulted(TIFF* tif, uint32 tag, va_list ap)
TIFFErrorExt(tif->tif_clientdata, tif->tif_name, "No space for \"TransferFunction\" tag");
return (0);
}
*va_arg(ap, uint16 **) = td->td_transferfunction[0];
*va_arg(ap, const uint16 **) = td->td_transferfunction[0];
if (td->td_samplesperpixel - td->td_extrasamples > 1) {
*va_arg(ap, uint16 **) = td->td_transferfunction[1];
*va_arg(ap, uint16 **) = td->td_transferfunction[2];
*va_arg(ap, const uint16 **) = td->td_transferfunction[1];
*va_arg(ap, const uint16 **) = td->td_transferfunction[2];
}
return (1);
case TIFFTAG_REFERENCEBLACKWHITE:
if (!td->td_refblackwhite && !TIFFDefaultRefBlackWhite(td))
return (0);
*va_arg(ap, float **) = td->td_refblackwhite;
*va_arg(ap, const float **) = td->td_refblackwhite;
return (1);
}
return 0;

2
3rdparty/libtiff/tif_compress.c vendored
Unescape View File

@ -264,7 +264,7 @@ TIFFGetConfiguredCODECs()
return NULL;
}
codecs = new_codecs;
_TIFFmemcpy(codecs + i - 1, cd, sizeof(TIFFCodec));
_TIFFmemcpy(codecs + i - 1, cd->info, sizeof(TIFFCodec));
i++;
}
for (c = _TIFFBuiltinCODECS; c->name; c++) {

107
3rdparty/libtiff/tif_dir.c vendored
Unescape View File

@ -29,6 +29,7 @@
* (and also some miscellaneous stuff)
*/
#include "tiffiop.h"
#include <float.h> /*--: for Rational2Double */
/*
* These are used in the backwards compatibility code...
@ -46,8 +47,8 @@ setByteArray(void** vpp, void* vp, size_t nmemb, size_t elem_size)
*vpp = 0;
}
if (vp) {
tmsize_t bytes = (tmsize_t)(nmemb * elem_size);
if (elem_size && bytes / elem_size == nmemb)
tmsize_t bytes = _TIFFMultiplySSize(NULL, nmemb, elem_size, NULL);
if (bytes)
*vpp = (void*) _TIFFmalloc(bytes);
if (*vpp)
_TIFFmemcpy(*vpp, vp, bytes);
@ -123,7 +124,7 @@ setExtraSamples(TIFF* tif, va_list ap, uint32* v)
{
TIFFWarningExt(tif->tif_clientdata,module,
"ExtraSamples tag value is changing, "
"but TransferFunction was read with a different value. Cancelling it");
"but TransferFunction was read with a different value. Canceling it");
TIFFClrFieldBit(tif,FIELD_TRANSFERFUNCTION);
_TIFFfree(td->td_transferfunction[0]);
td->td_transferfunction[0] = NULL;
@ -205,7 +206,7 @@ _TIFFVSetField(TIFF* tif, uint32 tag, va_list ap)
/*
* If the data require post-decoding processing to byte-swap
* samples, set it up here. Note that since tags are required
* to be ordered, compression code can override this behaviour
* to be ordered, compression code can override this behavior
* in the setup method if it wants to roll the post decoding
* work in with its normal work.
*/
@ -275,7 +276,7 @@ _TIFFVSetField(TIFF* tif, uint32 tag, va_list ap)
{
TIFFWarningExt(tif->tif_clientdata,module,
"SamplesPerPixel tag value is changing, "
"but SMinSampleValue tag was read with a different value. Cancelling it");
"but SMinSampleValue tag was read with a different value. Canceling it");
TIFFClrFieldBit(tif,FIELD_SMINSAMPLEVALUE);
_TIFFfree(td->td_sminsamplevalue);
td->td_sminsamplevalue = NULL;
@ -284,7 +285,7 @@ _TIFFVSetField(TIFF* tif, uint32 tag, va_list ap)
{
TIFFWarningExt(tif->tif_clientdata,module,
"SamplesPerPixel tag value is changing, "
"but SMaxSampleValue tag was read with a different value. Cancelling it");
"but SMaxSampleValue tag was read with a different value. Canceling it");
TIFFClrFieldBit(tif,FIELD_SMAXSAMPLEVALUE);
_TIFFfree(td->td_smaxsamplevalue);
td->td_smaxsamplevalue = NULL;
@ -296,7 +297,7 @@ _TIFFVSetField(TIFF* tif, uint32 tag, va_list ap)
{
TIFFWarningExt(tif->tif_clientdata,module,
"SamplesPerPixel tag value is changing, "
"but TransferFunction was read with a different value. Cancelling it");
"but TransferFunction was read with a different value. Canceling it");
TIFFClrFieldBit(tif,FIELD_TRANSFERFUNCTION);
_TIFFfree(td->td_transferfunction[0]);
td->td_transferfunction[0] = NULL;
@ -393,7 +394,7 @@ _TIFFVSetField(TIFF* tif, uint32 tag, va_list ap)
if (tif->tif_mode != O_RDONLY)
goto badvalue32;
TIFFWarningExt(tif->tif_clientdata, tif->tif_name,
"Nonstandard tile width %d, convert file", v32);
"Nonstandard tile width %u, convert file", v32);
}
td->td_tilewidth = v32;
tif->tif_flags |= TIFF_ISTILED;
@ -404,7 +405,7 @@ _TIFFVSetField(TIFF* tif, uint32 tag, va_list ap)
if (tif->tif_mode != O_RDONLY)
goto badvalue32;
TIFFWarningExt(tif->tif_clientdata, tif->tif_name,
"Nonstandard tile length %d, convert file", v32);
"Nonstandard tile length %u, convert file", v32);
}
td->td_tilelength = v32;
tif->tif_flags |= TIFF_ISTILED;
@ -559,6 +560,10 @@ _TIFFVSetField(TIFF* tif, uint32 tag, va_list ap)
* Set custom value ... save a copy of the custom tag value.
*/
tv_size = _TIFFDataSize(fip->field_type);
/*--: Rational2Double: For Rationals evaluate "set_field_type" to determine internal storage size. */
if (fip->field_type == TIFF_RATIONAL || fip->field_type == TIFF_SRATIONAL) {
tv_size = _TIFFSetGetFieldSize(fip->set_field_type);
}
if (tv_size == 0) {
status = 0;
TIFFErrorExt(tif->tif_clientdata, module,
@ -638,6 +643,7 @@ _TIFFVSetField(TIFF* tif, uint32 tag, va_list ap)
|| fip->field_writecount == TIFF_VARIABLE2
|| fip->field_writecount == TIFF_SPP
|| tv->count > 1) {
/*--: Rational2Double: For Rationals tv_size is set above to 4 or 8 according to fip->set_field_type! */
_TIFFmemcpy(tv->value, va_arg(ap, void *),
tv->count * tv_size);
} else {
@ -698,6 +704,22 @@ _TIFFVSetField(TIFF* tif, uint32 tag, va_list ap)
break;
case TIFF_RATIONAL:
case TIFF_SRATIONAL:
/*-- Rational2Double: For Rationals tv_size is set above to 4 or 8 according to fip->set_field_type! */
{
if (tv_size == 8) {
double v2 = va_arg(ap, double);
_TIFFmemcpy(val, &v2, tv_size);
} else {
/*-- default should be tv_size == 4 */
float v3 = (float)va_arg(ap, double);
_TIFFmemcpy(val, &v3, tv_size);
/*-- ToDo: After Testing, this should be removed and tv_size==4 should be set as default. */
if (tv_size != 4) {
TIFFErrorExt(0,"TIFFLib: _TIFFVSetField()", "Rational2Double: .set_field_type in not 4 but %d", tv_size);
}
}
}
break;
case TIFF_FLOAT:
{
float v2 = _TIFFClampDoubleToFloat(va_arg(ap, double));
@ -1011,19 +1033,19 @@ _TIFFVGetField(TIFF* tif, uint32 tag, va_list ap)
*va_arg(ap, uint16*) = td->td_halftonehints[1];
break;
case TIFFTAG_COLORMAP:
*va_arg(ap, uint16**) = td->td_colormap[0];
*va_arg(ap, uint16**) = td->td_colormap[1];
*va_arg(ap, uint16**) = td->td_colormap[2];
*va_arg(ap, const uint16**) = td->td_colormap[0];
*va_arg(ap, const uint16**) = td->td_colormap[1];
*va_arg(ap, const uint16**) = td->td_colormap[2];
break;
case TIFFTAG_STRIPOFFSETS:
case TIFFTAG_TILEOFFSETS:
_TIFFFillStriles( tif );
*va_arg(ap, uint64**) = td->td_stripoffset;
*va_arg(ap, const uint64**) = td->td_stripoffset_p;
break;
case TIFFTAG_STRIPBYTECOUNTS:
case TIFFTAG_TILEBYTECOUNTS:
_TIFFFillStriles( tif );
*va_arg(ap, uint64**) = td->td_stripbytecount;
*va_arg(ap, const uint64**) = td->td_stripbytecount_p;
break;
case TIFFTAG_MATTEING:
*va_arg(ap, uint16*) =
@ -1032,7 +1054,7 @@ _TIFFVGetField(TIFF* tif, uint32 tag, va_list ap)
break;
case TIFFTAG_EXTRASAMPLES:
*va_arg(ap, uint16*) = td->td_extrasamples;
*va_arg(ap, uint16**) = td->td_sampleinfo;
*va_arg(ap, const uint16**) = td->td_sampleinfo;
break;
case TIFFTAG_TILEWIDTH:
*va_arg(ap, uint32*) = td->td_tilewidth;
@ -1067,7 +1089,7 @@ _TIFFVGetField(TIFF* tif, uint32 tag, va_list ap)
break;
case TIFFTAG_SUBIFD:
*va_arg(ap, uint16*) = td->td_nsubifd;
*va_arg(ap, uint64**) = td->td_subifd;
*va_arg(ap, const uint64**) = td->td_subifd;
break;
case TIFFTAG_YCBCRPOSITIONING:
*va_arg(ap, uint16*) = td->td_ycbcrpositioning;
@ -1077,20 +1099,20 @@ _TIFFVGetField(TIFF* tif, uint32 tag, va_list ap)
*va_arg(ap, uint16*) = td->td_ycbcrsubsampling[1];
break;
case TIFFTAG_TRANSFERFUNCTION:
*va_arg(ap, uint16**) = td->td_transferfunction[0];
*va_arg(ap, const uint16**) = td->td_transferfunction[0];
if (td->td_samplesperpixel - td->td_extrasamples > 1) {
*va_arg(ap, uint16**) = td->td_transferfunction[1];
*va_arg(ap, uint16**) = td->td_transferfunction[2];
*va_arg(ap, const uint16**) = td->td_transferfunction[1];
*va_arg(ap, const uint16**) = td->td_transferfunction[2];
} else {
*va_arg(ap, uint16**) = NULL;
*va_arg(ap, uint16**) = NULL;
*va_arg(ap, const uint16**) = NULL;
*va_arg(ap, const uint16**) = NULL;
}
break;
case TIFFTAG_REFERENCEBLACKWHITE:
*va_arg(ap, float**) = td->td_refblackwhite;
*va_arg(ap, const float**) = td->td_refblackwhite;
break;
case TIFFTAG_INKNAMES:
*va_arg(ap, char**) = td->td_inknames;
*va_arg(ap, const char**) = td->td_inknames;
break;
default:
{
@ -1132,7 +1154,7 @@ _TIFFVGetField(TIFF* tif, uint32 tag, va_list ap)
*va_arg(ap, uint32*) = (uint32)tv->count;
else /* Assume TIFF_VARIABLE */
*va_arg(ap, uint16*) = (uint16)tv->count;
*va_arg(ap, void **) = tv->value;
*va_arg(ap, const void **) = tv->value;
ret_val = 1;
} else if (fip->field_tag == TIFFTAG_DOTRANGE
&& strcmp(fip->field_name,"DotRange") == 0) {
@ -1200,6 +1222,23 @@ _TIFFVGetField(TIFF* tif, uint32 tag, va_list ap)
break;
case TIFF_RATIONAL:
case TIFF_SRATIONAL:
{
/*-- Rational2Double: For Rationals evaluate "set_field_type" to determine internal storage size and return value size. */
int tv_size = _TIFFSetGetFieldSize(fip->set_field_type);
if (tv_size == 8) {
*va_arg(ap, double*) = *(double *)val;
ret_val = 1;
} else {
/*-- default should be tv_size == 4 */
*va_arg(ap, float*) = *(float *)val;
ret_val = 1;
/*-- ToDo: After Testing, this should be removed and tv_size==4 should be set as default. */
if (tv_size != 4) {
TIFFErrorExt(0,"TIFFLib: _TIFFVGetField()", "Rational2Double: .set_field_type in not 4 but %d", tv_size);
}
}
}
break;
case TIFF_FLOAT:
*va_arg(ap, float*) =
*(float *)val;
@ -1282,8 +1321,9 @@ TIFFFreeDirectory(TIFF* tif)
CleanupField(td_transferfunction[0]);
CleanupField(td_transferfunction[1]);
CleanupField(td_transferfunction[2]);
CleanupField(td_stripoffset);
CleanupField(td_stripbytecount);
CleanupField(td_stripoffset_p);
CleanupField(td_stripbytecount_p);
td->td_stripoffsetbyteallocsize = 0;
TIFFClrFieldBit(tif, FIELD_YCBCRSUBSAMPLING);
TIFFClrFieldBit(tif, FIELD_YCBCRPOSITIONING);
@ -1296,10 +1336,8 @@ TIFFFreeDirectory(TIFF* tif)
td->td_customValueCount = 0;
CleanupField(td_customValues);
#if defined(DEFER_STRILE_LOAD)
_TIFFmemset( &(td->td_stripoffset_entry), 0, sizeof(TIFFDirEntry));
_TIFFmemset( &(td->td_stripbytecount_entry), 0, sizeof(TIFFDirEntry));
#endif
}
#undef CleanupField
@ -1365,6 +1403,17 @@ TIFFCreateEXIFDirectory(TIFF* tif)
return TIFFCreateCustomDirectory(tif, exifFieldArray);
}
/*
* Creates the EXIF GPS custom directory
*/
int
TIFFCreateGPSDirectory(TIFF* tif)
{
const TIFFFieldArray* gpsFieldArray;
gpsFieldArray = _TIFFGetGpsFields();
return TIFFCreateCustomDirectory(tif, gpsFieldArray);
}
/*
* Setup a default directory structure.
*/
@ -1387,7 +1436,9 @@ TIFFDefaultDirectory(TIFF* tif)
td->td_tilewidth = 0;
td->td_tilelength = 0;
td->td_tiledepth = 1;
#ifdef STRIPBYTECOUNTSORTED_UNUSED
td->td_stripbytecountsorted = 1; /* Our own arrays always sorted. */
#endif
td->td_resolutionunit = RESUNIT_INCH;
td->td_sampleformat = SAMPLEFORMAT_UINT;
td->td_imagedepth = 1;

14
3rdparty/libtiff/tif_dir.h vendored
Unescape View File

@ -58,6 +58,7 @@ typedef struct {
uint32 toff_long;
uint64 toff_long8;
} tdir_offset; /* either offset or the data itself if fits */
uint8 tdir_ignore; /* flag status to ignore tag when parsing tags in tif_dirread.c */
} TIFFDirEntry;
/*
@ -97,13 +98,14 @@ typedef struct {
* number of striles */
uint32 td_stripsperimage;
uint32 td_nstrips; /* size of offset & bytecount arrays */
uint64* td_stripoffset;
uint64* td_stripbytecount;
uint64* td_stripoffset_p; /* should be accessed with TIFFGetStrileOffset */
uint64* td_stripbytecount_p; /* should be accessed with TIFFGetStrileByteCount */
uint32 td_stripoffsetbyteallocsize; /* number of elements currently allocated for td_stripoffset/td_stripbytecount. Only used if TIFF_LAZYSTRILELOAD is set */
#ifdef STRIPBYTECOUNTSORTED_UNUSED
int td_stripbytecountsorted; /* is the bytecount array sorted ascending? */
#if defined(DEFER_STRILE_LOAD)
#endif
TIFFDirEntry td_stripoffset_entry; /* for deferred loading */
TIFFDirEntry td_stripbytecount_entry; /* for deferred loading */
#endif
uint16 td_nsubifd;
uint64* td_subifd;
/* YCbCr parameters */
@ -118,6 +120,8 @@ typedef struct {
int td_customValueCount;
TIFFTagValue *td_customValues;
unsigned char td_deferstrilearraywriting; /* see TIFFDeferStrileArrayWriting() */
} TIFFDirectory;
/*
@ -257,6 +261,7 @@ extern "C" {
extern const TIFFFieldArray* _TIFFGetFields(void);
extern const TIFFFieldArray* _TIFFGetExifFields(void);
extern const TIFFFieldArray* _TIFFGetGpsFields(void);
extern void _TIFFSetupFields(TIFF* tif, const TIFFFieldArray* infoarray);
extern void _TIFFPrintFieldInfo(TIFF*, FILE*);
@ -265,6 +270,7 @@ extern int _TIFFFillStriles(TIFF*);
typedef enum {
tfiatImage,
tfiatExif,
tfiatGps, /* EXIF-GPS fields array type */
tfiatOther
} TIFFFieldArrayType;

244
3rdparty/libtiff/tif_dirinfo.c vendored
Unescape View File

@ -47,9 +47,19 @@
#endif
static const TIFFFieldArray tiffFieldArray;
static const TIFFFieldArray exifFieldArray;
static const TIFFFieldArray gpsFieldArray;
#ifdef _MSC_VER
#pragma warning( pop )
#endif
/*--: Rational2Double: --
* The Rational2Double upgraded libtiff functionality allows the definition and achievement of true double-precision accuracy
* for TIFF tags of RATIONAL type and field_bit=FIELD_CUSTOM using the set_field_type = TIFF_SETGET_DOUBLE.
* Unfortunately, that changes the old implemented interface for TIFFGetField().
* In order to keep the old TIFFGetField() interface behavior those tags have to be redefined with set_field_type = TIFF_SETGET_FLOAT!
*
* Rational custom arrays are already defined as _Cxx_FLOAT, thus can stay.
*
*/
static const TIFFField
tiffFields[] = {
@ -75,12 +85,12 @@ tiffFields[] = {
{ TIFFTAG_STRIPBYTECOUNTS, -1, -1, TIFF_LONG8, 0, TIFF_SETGET_UNDEFINED, TIFF_SETGET_UNDEFINED, FIELD_STRIPBYTECOUNTS, 0, 0, "StripByteCounts", NULL },
{ TIFFTAG_MINSAMPLEVALUE, -2, -1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_MINSAMPLEVALUE, 1, 0, "MinSampleValue", NULL },
{ TIFFTAG_MAXSAMPLEVALUE, -2, -1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_MAXSAMPLEVALUE, 1, 0, "MaxSampleValue", NULL },
{ TIFFTAG_XRESOLUTION, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_RESOLUTION, 1, 0, "XResolution", NULL },
{ TIFFTAG_YRESOLUTION, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_RESOLUTION, 1, 0, "YResolution", NULL },
{ TIFFTAG_XRESOLUTION, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_RESOLUTION, 1, 0, "XResolution", NULL },
{ TIFFTAG_YRESOLUTION, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_RESOLUTION, 1, 0, "YResolution", NULL },
{ TIFFTAG_PLANARCONFIG, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_PLANARCONFIG, 0, 0, "PlanarConfiguration", NULL },
{ TIFFTAG_PAGENAME, -1, -1, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "PageName", NULL },
{ TIFFTAG_XPOSITION, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_POSITION, 1, 0, "XPosition", NULL },
{ TIFFTAG_YPOSITION, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_POSITION, 1, 0, "YPosition", NULL },
{ TIFFTAG_XPOSITION, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_POSITION, 1, 0, "XPosition", NULL },
{ TIFFTAG_YPOSITION, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_POSITION, 1, 0, "YPosition", NULL },
{ TIFFTAG_FREEOFFSETS, -1, -1, TIFF_LONG8, 0, TIFF_SETGET_UNDEFINED, TIFF_SETGET_UNDEFINED, FIELD_IGNORE, 0, 0, "FreeOffsets", NULL },
{ TIFFTAG_FREEBYTECOUNTS, -1, -1, TIFF_LONG8, 0, TIFF_SETGET_UNDEFINED, TIFF_SETGET_UNDEFINED, FIELD_IGNORE, 0, 0, "FreeByteCounts", NULL },
{ TIFFTAG_GRAYRESPONSEUNIT, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UNDEFINED, TIFF_SETGET_UNDEFINED, FIELD_IGNORE, 1, 0, "GrayResponseUnit", NULL },
@ -135,14 +145,18 @@ tiffFields[] = {
{ TIFFTAG_PIXAR_MATRIX_WORLDTOSCREEN, 16, 16, TIFF_FLOAT, 0, TIFF_SETGET_C0_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "MatrixWorldToScreen", NULL },
{ TIFFTAG_PIXAR_MATRIX_WORLDTOCAMERA, 16, 16, TIFF_FLOAT, 0, TIFF_SETGET_C0_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "MatrixWorldToCamera", NULL },
{ TIFFTAG_CFAREPEATPATTERNDIM, 2, 2, TIFF_SHORT, 0, TIFF_SETGET_C0_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "CFARepeatPatternDim", NULL },
{ TIFFTAG_CFAPATTERN, 4, 4, TIFF_BYTE, 0, TIFF_SETGET_C0_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "CFAPattern" , NULL},
{ TIFFTAG_CFAPATTERN, -1, -1, TIFF_BYTE, 0, TIFF_SETGET_C16_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 1, "CFAPattern" , NULL},
{ TIFFTAG_COPYRIGHT, -1, -1, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "Copyright", NULL },
/* end Pixar tags */
{ TIFFTAG_RICHTIFFIPTC, -3, -3, TIFF_LONG, 0, TIFF_SETGET_C32_UINT32, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 1, "RichTIFFIPTC", NULL },
{ TIFFTAG_RICHTIFFIPTC, -3, -3, TIFF_UNDEFINED, 0, TIFF_SETGET_C32_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 1, "RichTIFFIPTC", NULL },
{ TIFFTAG_PHOTOSHOP, -3, -3, TIFF_BYTE, 0, TIFF_SETGET_C32_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 1, "Photoshop", NULL },
{ TIFFTAG_EXIFIFD, 1, 1, TIFF_IFD8, 0, TIFF_SETGET_IFD8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "EXIFIFDOffset", (TIFFFieldArray*) &exifFieldArray },
/*--: EXIFIFD and GPSIFD specified as TIFF_LONG by Aware-Systems and not TIFF_IFD8 as in original LibTiff.
* However, for IFD-like tags, libtiff uses the data type TIFF_IFD8 in tiffFields[]-tag definition combined with
* a special handling procedure in order to write either a 32-bit value and the TIFF_IFD type-id into ClassicTIFF files
* or a 64-bit value and the TIFF_IFD8 type-id into BigTIFF files. */
{ TIFFTAG_EXIFIFD, 1, 1, TIFF_IFD8, 0, TIFF_SETGET_IFD8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "EXIFIFDOffset", (TIFFFieldArray*) &exifFieldArray },
{ TIFFTAG_ICCPROFILE, -3, -3, TIFF_UNDEFINED, 0, TIFF_SETGET_C32_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 1, "ICC Profile", NULL },
{ TIFFTAG_GPSIFD, 1, 1, TIFF_IFD8, 0, TIFF_SETGET_IFD8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "GPSIFDOffset", NULL },
{ TIFFTAG_GPSIFD, 1, 1, TIFF_IFD8, 0, TIFF_SETGET_IFD8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "GPSIFDOffset", (TIFFFieldArray*) &gpsFieldArray },
{ TIFFTAG_FAXRECVPARAMS, 1, 1, TIFF_LONG, 0, TIFF_SETGET_UINT32, TIFF_SETGET_UINT32, FIELD_CUSTOM, TRUE, FALSE, "FaxRecvParams", NULL },
{ TIFFTAG_FAXSUBADDRESS, -1, -1, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_ASCII, FIELD_CUSTOM, TRUE, FALSE, "FaxSubAddress", NULL },
{ TIFFTAG_FAXRECVTIME, 1, 1, TIFF_LONG, 0, TIFF_SETGET_UINT32, TIFF_SETGET_UINT32, FIELD_CUSTOM, TRUE, FALSE, "FaxRecvTime", NULL },
@ -163,7 +177,7 @@ tiffFields[] = {
{ TIFFTAG_BLACKLEVELDELTAV, -1, -1, TIFF_SRATIONAL, 0, TIFF_SETGET_C16_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 1, "BlackLevelDeltaV", NULL },
{ TIFFTAG_WHITELEVEL, -1, -1, TIFF_LONG, 0, TIFF_SETGET_C16_UINT32, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 1, "WhiteLevel", NULL },
{ TIFFTAG_DEFAULTSCALE, 2, 2, TIFF_RATIONAL, 0, TIFF_SETGET_C0_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "DefaultScale", NULL },
{ TIFFTAG_BESTQUALITYSCALE, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "BestQualityScale", NULL },
{ TIFFTAG_BESTQUALITYSCALE, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "BestQualityScale", NULL },
{ TIFFTAG_DEFAULTCROPORIGIN, 2, 2, TIFF_RATIONAL, 0, TIFF_SETGET_C0_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "DefaultCropOrigin", NULL },
{ TIFFTAG_DEFAULTCROPSIZE, 2, 2, TIFF_RATIONAL, 0, TIFF_SETGET_C0_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "DefaultCropSize", NULL },
{ TIFFTAG_COLORMATRIX1, -1, -1, TIFF_SRATIONAL, 0, TIFF_SETGET_C16_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 1, "ColorMatrix1", NULL },
@ -175,16 +189,16 @@ tiffFields[] = {
{ TIFFTAG_ANALOGBALANCE, -1, -1, TIFF_RATIONAL, 0, TIFF_SETGET_C16_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 1, "AnalogBalance", NULL },
{ TIFFTAG_ASSHOTNEUTRAL, -1, -1, TIFF_RATIONAL, 0, TIFF_SETGET_C16_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 1, "AsShotNeutral", NULL },
{ TIFFTAG_ASSHOTWHITEXY, 2, 2, TIFF_RATIONAL, 0, TIFF_SETGET_C0_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "AsShotWhiteXY", NULL },
{ TIFFTAG_BASELINEEXPOSURE, 1, 1, TIFF_SRATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "BaselineExposure", NULL },
{ TIFFTAG_BASELINENOISE, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "BaselineNoise", NULL },
{ TIFFTAG_BASELINESHARPNESS, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "BaselineSharpness", NULL },
{ TIFFTAG_BASELINEEXPOSURE, 1, 1, TIFF_SRATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "BaselineExposure", NULL },
{ TIFFTAG_BASELINENOISE, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "BaselineNoise", NULL },
{ TIFFTAG_BASELINESHARPNESS, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "BaselineSharpness", NULL },
{ TIFFTAG_BAYERGREENSPLIT, 1, 1, TIFF_LONG, 0, TIFF_SETGET_UINT32, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "BayerGreenSplit", NULL },
{ TIFFTAG_LINEARRESPONSELIMIT, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "LinearResponseLimit", NULL },
{ TIFFTAG_LINEARRESPONSELIMIT, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "LinearResponseLimit", NULL },
{ TIFFTAG_CAMERASERIALNUMBER, -1, -1, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "CameraSerialNumber", NULL },
{ TIFFTAG_LENSINFO, 4, 4, TIFF_RATIONAL, 0, TIFF_SETGET_C0_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "LensInfo", NULL },
{ TIFFTAG_CHROMABLURRADIUS, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "ChromaBlurRadius", NULL },
{ TIFFTAG_ANTIALIASSTRENGTH, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "AntiAliasStrength", NULL },
{ TIFFTAG_SHADOWSCALE, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "ShadowScale", NULL },
{ TIFFTAG_CHROMABLURRADIUS, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "ChromaBlurRadius", NULL },
{ TIFFTAG_ANTIALIASSTRENGTH, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "AntiAliasStrength", NULL },
{ TIFFTAG_SHADOWSCALE, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "ShadowScale", NULL },
{ TIFFTAG_DNGPRIVATEDATA, -1, -1, TIFF_BYTE, 0, TIFF_SETGET_C16_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 1, "DNGPrivateData", NULL },
{ TIFFTAG_MAKERNOTESAFETY, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "MakerNoteSafety", NULL },
{ TIFFTAG_CALIBRATIONILLUMINANT1, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 0, 0, "CalibrationIlluminant1", NULL },
@ -217,47 +231,68 @@ tiffFields[] = {
/* begin pseudo tags */
};
/*
* EXIF tags (Version 2.31, July 2016 plus version 2.32 May 2019)
*/
static const TIFFField
exifFields[] = {
{ EXIFTAG_EXPOSURETIME, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ExposureTime", NULL },
{ EXIFTAG_FNUMBER, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "FNumber", NULL },
{ EXIFTAG_EXPOSURETIME, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ExposureTime", NULL },
{ EXIFTAG_FNUMBER, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "FNumber", NULL },
{ EXIFTAG_EXPOSUREPROGRAM, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ExposureProgram", NULL },
{ EXIFTAG_SPECTRALSENSITIVITY, -1, -1, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "SpectralSensitivity", NULL },
{ EXIFTAG_ISOSPEEDRATINGS, -1, -1, TIFF_SHORT, 0, TIFF_SETGET_C16_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 1, "ISOSpeedRatings", NULL },
{ EXIFTAG_OECF, -1, -1, TIFF_UNDEFINED, 0, TIFF_SETGET_C16_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 1, "OptoelectricConversionFactor", NULL },
{ EXIFTAG_SENSITIVITYTYPE, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "SensitivityType", NULL },
{ EXIFTAG_STANDARDOUTPUTSENSITIVITY, 1, 1, TIFF_LONG, 0, TIFF_SETGET_UINT32, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "StandardOutputSensitivity", NULL },
{ EXIFTAG_RECOMMENDEDEXPOSUREINDEX, 1, 1, TIFF_LONG, 0, TIFF_SETGET_UINT32, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "RecommendedExposureIndex", NULL },
{ EXIFTAG_ISOSPEED, 1, 1, TIFF_LONG, 0, TIFF_SETGET_UINT32, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ISOSpeed", NULL },
{ EXIFTAG_ISOSPEEDLATITUDEYYY, 1, 1, TIFF_LONG, 0, TIFF_SETGET_UINT32, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ISOSpeedLatitudeyyy", NULL },
{ EXIFTAG_ISOSPEEDLATITUDEZZZ, 1, 1, TIFF_LONG, 0, TIFF_SETGET_UINT32, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ISOSpeedLatitudezzz", NULL },
{ EXIFTAG_EXIFVERSION, 4, 4, TIFF_UNDEFINED, 0, TIFF_SETGET_C0_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ExifVersion", NULL },
{ EXIFTAG_DATETIMEORIGINAL, 20, 20, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "DateTimeOriginal", NULL },
{ EXIFTAG_DATETIMEDIGITIZED, 20, 20, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "DateTimeDigitized", NULL },
{ EXIFTAG_OFFSETTIME, 7, 7, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "OffsetTime", NULL },
{ EXIFTAG_OFFSETTIMEORIGINAL, 7, 7, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "OffsetTimeOriginal", NULL },
{ EXIFTAG_OFFSETTIMEDIGITIZED, 7, 7, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "OffsetTimeDigitized", NULL },
{ EXIFTAG_COMPONENTSCONFIGURATION, 4, 4, TIFF_UNDEFINED, 0, TIFF_SETGET_C0_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ComponentsConfiguration", NULL },
{ EXIFTAG_COMPRESSEDBITSPERPIXEL, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "CompressedBitsPerPixel", NULL },
{ EXIFTAG_SHUTTERSPEEDVALUE, 1, 1, TIFF_SRATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ShutterSpeedValue", NULL },
{ EXIFTAG_APERTUREVALUE, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ApertureValue", NULL },
{ EXIFTAG_BRIGHTNESSVALUE, 1, 1, TIFF_SRATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "BrightnessValue", NULL },
{ EXIFTAG_EXPOSUREBIASVALUE, 1, 1, TIFF_SRATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ExposureBiasValue", NULL },
{ EXIFTAG_MAXAPERTUREVALUE, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "MaxApertureValue", NULL },
{ EXIFTAG_SUBJECTDISTANCE, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "SubjectDistance", NULL },
{ EXIFTAG_COMPRESSEDBITSPERPIXEL, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "CompressedBitsPerPixel", NULL },
{ EXIFTAG_SHUTTERSPEEDVALUE, 1, 1, TIFF_SRATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ShutterSpeedValue", NULL },
{ EXIFTAG_APERTUREVALUE, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ApertureValue", NULL },
{ EXIFTAG_BRIGHTNESSVALUE, 1, 1, TIFF_SRATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "BrightnessValue", NULL },
{ EXIFTAG_EXPOSUREBIASVALUE, 1, 1, TIFF_SRATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ExposureBiasValue", NULL },
{ EXIFTAG_MAXAPERTUREVALUE, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "MaxApertureValue", NULL },
/*--: EXIFTAG_SUBJECTDISTANCE: LibTiff returns value of "-1" if numerator equals 4294967295 (0xFFFFFFFF) to indicate infinite distance!
* However, there are two other EXIF tags where numerator indicates a special value and six other cases where the denominator indicates special values,
* which are not treated within LibTiff!! */
{ EXIFTAG_SUBJECTDISTANCE, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "SubjectDistance", NULL },
{ EXIFTAG_METERINGMODE, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "MeteringMode", NULL },
{ EXIFTAG_LIGHTSOURCE, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "LightSource", NULL },
{ EXIFTAG_FLASH, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "Flash", NULL },
{ EXIFTAG_FOCALLENGTH, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "FocalLength", NULL },
{ EXIFTAG_FOCALLENGTH, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "FocalLength", NULL },
{ EXIFTAG_SUBJECTAREA, -1, -1, TIFF_SHORT, 0, TIFF_SETGET_C16_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 1, "SubjectArea", NULL },
{ EXIFTAG_MAKERNOTE, -1, -1, TIFF_UNDEFINED, 0, TIFF_SETGET_C16_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 1, "MakerNote", NULL },
{ EXIFTAG_USERCOMMENT, -1, -1, TIFF_UNDEFINED, 0, TIFF_SETGET_C16_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 1, "UserComment", NULL },
{ EXIFTAG_SUBSECTIME, -1, -1, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "SubSecTime", NULL },
{ EXIFTAG_SUBSECTIMEORIGINAL, -1, -1, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "SubSecTimeOriginal", NULL },
{ EXIFTAG_SUBSECTIMEDIGITIZED, -1, -1, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "SubSecTimeDigitized", NULL },
{ EXIFTAG_TEMPERATURE, 1, 1, TIFF_SRATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "Temperature", NULL },
{ EXIFTAG_HUMIDITY, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "Humidity", NULL },
{ EXIFTAG_PRESSURE, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "Pressure", NULL },
{ EXIFTAG_WATERDEPTH, 1, 1, TIFF_SRATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "WaterDepth", NULL },
{ EXIFTAG_ACCELERATION, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "Acceleration", NULL },
{ EXIFTAG_CAMERAELEVATIONANGLE, 1, 1, TIFF_SRATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "CameraElevationAngle", NULL },
{ EXIFTAG_FLASHPIXVERSION, 4, 4, TIFF_UNDEFINED, 0, TIFF_SETGET_C0_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "FlashpixVersion", NULL },
{ EXIFTAG_COLORSPACE, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ColorSpace", NULL },
{ EXIFTAG_PIXELXDIMENSION, 1, 1, TIFF_LONG, 0, TIFF_SETGET_UINT32, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "PixelXDimension", NULL },
{ EXIFTAG_PIXELYDIMENSION, 1, 1, TIFF_LONG, 0, TIFF_SETGET_UINT32, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "PixelYDimension", NULL },
{ EXIFTAG_RELATEDSOUNDFILE, 13, 13, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "RelatedSoundFile", NULL },
{ EXIFTAG_FLASHENERGY, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "FlashEnergy", NULL },
{ EXIFTAG_FLASHENERGY, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "FlashEnergy", NULL },
{ EXIFTAG_SPATIALFREQUENCYRESPONSE, -1, -1, TIFF_UNDEFINED, 0, TIFF_SETGET_C16_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 1, "SpatialFrequencyResponse", NULL },
{ EXIFTAG_FOCALPLANEXRESOLUTION, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "FocalPlaneXResolution", NULL },
{ EXIFTAG_FOCALPLANEYRESOLUTION, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "FocalPlaneYResolution", NULL },
{ EXIFTAG_FOCALPLANEXRESOLUTION, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "FocalPlaneXResolution", NULL },
{ EXIFTAG_FOCALPLANEYRESOLUTION, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "FocalPlaneYResolution", NULL },
{ EXIFTAG_FOCALPLANERESOLUTIONUNIT, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "FocalPlaneResolutionUnit", NULL },
{ EXIFTAG_SUBJECTLOCATION, 2, 2, TIFF_SHORT, 0, TIFF_SETGET_C0_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "SubjectLocation", NULL },
{ EXIFTAG_EXPOSUREINDEX, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ExposureIndex", NULL },
{ EXIFTAG_EXPOSUREINDEX, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ExposureIndex", NULL },
{ EXIFTAG_SENSINGMETHOD, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "SensingMethod", NULL },
{ EXIFTAG_FILESOURCE, 1, 1, TIFF_UNDEFINED, 0, TIFF_SETGET_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "FileSource", NULL },
{ EXIFTAG_SCENETYPE, 1, 1, TIFF_UNDEFINED, 0, TIFF_SETGET_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "SceneType", NULL },
@ -265,22 +300,79 @@ exifFields[] = {
{ EXIFTAG_CUSTOMRENDERED, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "CustomRendered", NULL },
{ EXIFTAG_EXPOSUREMODE, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ExposureMode", NULL },
{ EXIFTAG_WHITEBALANCE, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "WhiteBalance", NULL },
{ EXIFTAG_DIGITALZOOMRATIO, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "DigitalZoomRatio", NULL },
{ EXIFTAG_DIGITALZOOMRATIO, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "DigitalZoomRatio", NULL },
{ EXIFTAG_FOCALLENGTHIN35MMFILM, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "FocalLengthIn35mmFilm", NULL },
{ EXIFTAG_SCENECAPTURETYPE, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "SceneCaptureType", NULL },
{ EXIFTAG_GAINCONTROL, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_DOUBLE, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "GainControl", NULL },
{ EXIFTAG_GAINCONTROL, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "GainControl", NULL },
{ EXIFTAG_CONTRAST, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "Contrast", NULL },
{ EXIFTAG_SATURATION, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "Saturation", NULL },
{ EXIFTAG_SHARPNESS, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "Sharpness", NULL },
{ EXIFTAG_DEVICESETTINGDESCRIPTION, -1, -1, TIFF_UNDEFINED, 0, TIFF_SETGET_C16_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 1, "DeviceSettingDescription", NULL },
{ EXIFTAG_SUBJECTDISTANCERANGE, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "SubjectDistanceRange", NULL },
{ EXIFTAG_IMAGEUNIQUEID, 33, 33, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ImageUniqueID", NULL }
{ EXIFTAG_IMAGEUNIQUEID, 33, 33, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "ImageUniqueID", NULL },
{ EXIFTAG_CAMERAOWNERNAME, -1, -1, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "CameraOwnerName", NULL },
{ EXIFTAG_BODYSERIALNUMBER, -1, -1, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "BodySerialNumber", NULL },
{ EXIFTAG_LENSSPECIFICATION, 4, 4, TIFF_RATIONAL, 0, TIFF_SETGET_C0_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "LensSpecification", NULL },
{ EXIFTAG_LENSMAKE, -1, -1, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "LensMake", NULL },
{ EXIFTAG_LENSMODEL, -1, -1, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "LensModel", NULL },
{ EXIFTAG_LENSSERIALNUMBER, -1, -1, TIFF_ASCII, 0, TIFF_SETGET_ASCII, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "LensSerialNumber", NULL },
{ EXIFTAG_GAMMA, 1, 1, TIFF_RATIONAL, 0, TIFF_SETGET_FLOAT, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "Gamma", NULL },
{ EXIFTAG_COMPOSITEIMAGE, 1, 1, TIFF_SHORT, 0, TIFF_SETGET_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "CompositeImage", NULL },
{ EXIFTAG_SOURCEIMAGENUMBEROFCOMPOSITEIMAGE, 2, 2, TIFF_SHORT, 0, TIFF_SETGET_C0_UINT16, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 0, "SourceImageNumberOfCompositeImage", NULL },
{ EXIFTAG_SOURCEEXPOSURETIMESOFCOMPOSITEIMAGE, -1, -1, TIFF_UNDEFINED, 0, TIFF_SETGET_C16_UINT8, TIFF_SETGET_UNDEFINED, FIELD_CUSTOM, 1, 1, "SourceExposureTimesOfCompositeImage", NULL }
};
/*
* EXIF-GPS tags (Version 2.31, July 2016; nothing changed for version 2.32 May 2019)
*/
static TIFFField
gpsFields[] = {
/* For the GPS tag definitions in gpsFields[] the standard definition for Rationals is TIFF_SETGET_DOUBLE and TIFF_SETGET_C0_FLOAT.
*-- ATTENTION: After the upgrade with Rational2Double, the GPSTAG values can now be written and also read in double precision!
* In order to achieve double precision for GPS tags:
* Standard definitions for GPSTAG is kept to TIFF_SETGET_DOUBLE
* and TIFF_SETGET_C0_FLOAT is changed to TIFF_SETGET_C0_DOUBLE.
*/
{ GPSTAG_VERSIONID , 4, 4, TIFF_BYTE , 0, TIFF_SETGET_C0_UINT8 , TIFF_SETGET_UINT8 , FIELD_CUSTOM , 1, 0, "VersionID", NULL },
{ GPSTAG_LATITUDEREF , 2, 2, TIFF_ASCII , 0, TIFF_SETGET_ASCII , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "LatitudeRef", NULL },
{ GPSTAG_LATITUDE , 3, 3, TIFF_RATIONAL , 0, TIFF_SETGET_C0_DOUBLE , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "Latitude", NULL },
{ GPSTAG_LONGITUDEREF , 2, 2, TIFF_ASCII , 0, TIFF_SETGET_ASCII , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "LongitudeRef", NULL },
{ GPSTAG_LONGITUDE , 3, 3, TIFF_RATIONAL , 0, TIFF_SETGET_C0_DOUBLE , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "Longitude", NULL },
{ GPSTAG_ALTITUDEREF , 1, 1, TIFF_BYTE , 0, TIFF_SETGET_UINT8 , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "AltitudeRef", NULL },
{ GPSTAG_ALTITUDE , 1, 1, TIFF_RATIONAL , 0, TIFF_SETGET_DOUBLE , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "Altitude", NULL },
{ GPSTAG_TIMESTAMP , 3, 3, TIFF_RATIONAL , 0, TIFF_SETGET_C0_DOUBLE , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "TimeStamp", NULL },
{ GPSTAG_SATELLITES , -1, -1, TIFF_ASCII , 0, TIFF_SETGET_ASCII , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "Satellites", NULL },
{ GPSTAG_STATUS , 2, 2, TIFF_ASCII , 0, TIFF_SETGET_ASCII , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "Status", NULL },
{ GPSTAG_MEASUREMODE , 2, 2, TIFF_ASCII , 0, TIFF_SETGET_ASCII , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "MeasureMode", NULL },
{ GPSTAG_DOP , 1, 1, TIFF_RATIONAL , 0, TIFF_SETGET_DOUBLE , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "DOP", NULL },
{ GPSTAG_SPEEDREF , 2, 2, TIFF_ASCII , 0, TIFF_SETGET_ASCII , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "SpeedRef", NULL },
{ GPSTAG_SPEED , 1, 1, TIFF_RATIONAL , 0, TIFF_SETGET_DOUBLE , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "Speed", NULL },
{ GPSTAG_TRACKREF , 2, 2, TIFF_ASCII , 0, TIFF_SETGET_ASCII , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "TrackRef", NULL },
{ GPSTAG_TRACK , 1, 1, TIFF_RATIONAL , 0, TIFF_SETGET_DOUBLE , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "Track", NULL },
{ GPSTAG_IMGDIRECTIONREF , 2, 2, TIFF_ASCII , 0, TIFF_SETGET_ASCII , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "ImgDirectionRef", NULL },
{ GPSTAG_IMGDIRECTION , 1, 1, TIFF_RATIONAL , 0, TIFF_SETGET_DOUBLE , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "ImgDirection", NULL },
{ GPSTAG_MAPDATUM , -1, -1, TIFF_ASCII , 0, TIFF_SETGET_ASCII , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "MapDatum", NULL },
{ GPSTAG_DESTLATITUDEREF , 2, 2, TIFF_ASCII , 0, TIFF_SETGET_ASCII , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "DestLatitudeRef", NULL },
{ GPSTAG_DESTLATITUDE , 3, 3, TIFF_RATIONAL , 0, TIFF_SETGET_C0_DOUBLE , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "DestLatitude", NULL },
{ GPSTAG_DESTLONGITUDEREF , 2, 2, TIFF_ASCII , 0, TIFF_SETGET_ASCII , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "DestLongitudeRef", NULL },
{ GPSTAG_DESTLONGITUDE , 3, 3, TIFF_RATIONAL , 0, TIFF_SETGET_C0_DOUBLE , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "DestLongitude", NULL },
{ GPSTAG_DESTBEARINGREF , 2, 2, TIFF_ASCII , 0, TIFF_SETGET_ASCII , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "DestBearingRef", NULL },
{ GPSTAG_DESTBEARING , 1, 1, TIFF_RATIONAL , 0, TIFF_SETGET_DOUBLE , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "DestBearing", NULL },
{ GPSTAG_DESTDISTANCEREF , 2, 2, TIFF_ASCII , 0, TIFF_SETGET_ASCII , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "DestDistanceRef", NULL },
{ GPSTAG_DESTDISTANCE , 1, 1, TIFF_RATIONAL , 0, TIFF_SETGET_DOUBLE , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "DestDistance", NULL },
{ GPSTAG_PROCESSINGMETHOD , -1, -1, TIFF_UNDEFINED , 0, TIFF_SETGET_C16_UINT8 , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 1, "ProcessingMethod", NULL },
{ GPSTAG_AREAINFORMATION , -1, -1, TIFF_UNDEFINED , 0, TIFF_SETGET_C16_UINT8 , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 1, "AreaInformation", NULL },
{ GPSTAG_DATESTAMP , 11, 11, TIFF_ASCII , 0, TIFF_SETGET_ASCII , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "DateStamp", NULL },
{ GPSTAG_DIFFERENTIAL , 1, 1, TIFF_SHORT , 0, TIFF_SETGET_UINT16 , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "Differential", NULL },
{ GPSTAG_GPSHPOSITIONINGERROR , 1, 1, TIFF_RATIONAL , 0, TIFF_SETGET_DOUBLE , TIFF_SETGET_UNDEFINED , FIELD_CUSTOM , 1, 0, "HorizontalPositioningError", NULL }
};
static const TIFFFieldArray
tiffFieldArray = { tfiatImage, 0, TIFFArrayCount(tiffFields), (TIFFField*) tiffFields };
static const TIFFFieldArray
exifFieldArray = { tfiatExif, 0, TIFFArrayCount(exifFields), (TIFFField*) exifFields };
static const TIFFFieldArray
gpsFieldArray = { tfiatGps, 0, TIFFArrayCount(gpsFields), (TIFFField*) gpsFields };
/*
* We have our own local lfind() equivalent to avoid subtle differences
@ -313,6 +405,12 @@ _TIFFGetExifFields(void)
return(&exifFieldArray);
}
const TIFFFieldArray*
_TIFFGetGpsFields(void)
{
return(&gpsFieldArray);
}
void
_TIFFSetupFields(TIFF* tif, const TIFFFieldArray* fieldarray)
{
@ -502,6 +600,82 @@ _TIFFDataSize(TIFFDataType type)
}
}
/*
* Rational2Double:
* Return size of TIFFSetGetFieldType in bytes.
*
* XXX: TIFF_RATIONAL values for FIELD_CUSTOM are stored internally as 4-byte float.
* However, some of them should be stored internally as 8-byte double.
* This is now managed by the SetGetField of the tag-definition!
*/
int
_TIFFSetGetFieldSize(TIFFSetGetFieldType setgettype)
{
switch (setgettype)
{
case TIFF_SETGET_UNDEFINED:
case TIFF_SETGET_ASCII:
case TIFF_SETGET_C0_ASCII:
case TIFF_SETGET_C16_ASCII:
case TIFF_SETGET_C32_ASCII:
case TIFF_SETGET_OTHER:
return 0;
case TIFF_SETGET_UINT8:
case TIFF_SETGET_SINT8:
case TIFF_SETGET_C0_UINT8:
case TIFF_SETGET_C0_SINT8:
case TIFF_SETGET_C16_UINT8:
case TIFF_SETGET_C16_SINT8:
case TIFF_SETGET_C32_UINT8:
case TIFF_SETGET_C32_SINT8:
return 1;
case TIFF_SETGET_UINT16:
case TIFF_SETGET_SINT16:
case TIFF_SETGET_C0_UINT16:
case TIFF_SETGET_C0_SINT16:
case TIFF_SETGET_C16_UINT16:
case TIFF_SETGET_C16_SINT16:
case TIFF_SETGET_C32_UINT16:
case TIFF_SETGET_C32_SINT16:
return 2;
case TIFF_SETGET_INT:
case TIFF_SETGET_UINT32:
case TIFF_SETGET_SINT32:
case TIFF_SETGET_FLOAT:
case TIFF_SETGET_UINT16_PAIR:
case TIFF_SETGET_C0_UINT32:
case TIFF_SETGET_C0_SINT32:
case TIFF_SETGET_C0_FLOAT:
case TIFF_SETGET_C16_UINT32:
case TIFF_SETGET_C16_SINT32:
case TIFF_SETGET_C16_FLOAT:
case TIFF_SETGET_C32_UINT32:
case TIFF_SETGET_C32_SINT32:
case TIFF_SETGET_C32_FLOAT:
return 4;
case TIFF_SETGET_UINT64:
case TIFF_SETGET_SINT64:
case TIFF_SETGET_DOUBLE:
case TIFF_SETGET_IFD8:
case TIFF_SETGET_C0_UINT64:
case TIFF_SETGET_C0_SINT64:
case TIFF_SETGET_C0_DOUBLE:
case TIFF_SETGET_C0_IFD8:
case TIFF_SETGET_C16_UINT64:
case TIFF_SETGET_C16_SINT64:
case TIFF_SETGET_C16_DOUBLE:
case TIFF_SETGET_C16_IFD8:
case TIFF_SETGET_C32_UINT64:
case TIFF_SETGET_C32_SINT64:
case TIFF_SETGET_C32_DOUBLE:
case TIFF_SETGET_C32_IFD8:
return 8;
default:
return 0;
}
} /*-- _TIFFSetGetFieldSize --- */
const TIFFField*
TIFFFindField(TIFF* tif, uint32 tag, TIFFDataType dt)
{
@ -1062,10 +1236,6 @@ _TIFFCheckFieldIsValidForCodec(TIFF *tif, ttag_t tag)
if (tag == TIFFTAG_LERC_PARAMETERS)
return 1;
break;
case COMPRESSION_WEBP:
if (tag == TIFFTAG_PREDICTOR)
return 1;
break;
}
return 0;
}

1177
3rdparty/libtiff/tif_dirread.c vendored
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837
3rdparty/libtiff/tif_dirwrite.c vendored
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114
3rdparty/libtiff/tif_fax3.c vendored
Unescape View File

@ -73,6 +73,7 @@ typedef struct {
int EOLcnt; /* count of EOL codes recognized */
TIFFFaxFillFunc fill; /* fill routine */
uint32* runs; /* b&w runs for current/previous row */
uint32 nruns; /* size of the refruns / curruns arrays */
uint32* refruns; /* runs for reference line */
uint32* curruns; /* runs for current line */
@ -160,7 +161,9 @@ Fax3PreDecode(TIFF* tif, uint16 s)
*/
sp->bitmap =
TIFFGetBitRevTable(tif->tif_dir.td_fillorder != FILLORDER_LSB2MSB);
sp->curruns = sp->runs;
if (sp->refruns) { /* init reference line to white */
sp->refruns = sp->runs + sp->nruns;
sp->refruns[0] = (uint32) sp->b.rowpixels;
sp->refruns[1] = 0;
}
@ -218,8 +221,12 @@ Fax3PrematureEOF(const char* module, TIFF* tif, uint32 line, uint32 a0)
#define Nop
/*
/**
* Decode the requested amount of G3 1D-encoded data.
* @param buf destination buffer
* @param occ available bytes in destination buffer
* @param s number of planes (ignored)
* @returns 1 for success, -1 in case of error
*/
static int
Fax3Decode1D(TIFF* tif, uint8* buf, tmsize_t occ, uint16 s)
@ -300,7 +307,9 @@ Fax3Decode2D(TIFF* tif, uint8* buf, tmsize_t occ, uint16 s)
else
EXPAND2D(EOF2Da);
(*sp->fill)(buf, thisrun, pa, lastx);
SETVALUE(0); /* imaginary change for reference */
if (pa < thisrun + sp->nruns) {
SETVALUE(0); /* imaginary change for reference */
}
SWAP(uint32*, sp->curruns, sp->refruns);
buf += sp->b.rowbytes;
occ -= sp->b.rowbytes;
@ -506,7 +515,7 @@ Fax3SetupState(TIFF* tif)
int needsRefLine;
Fax3CodecState* dsp = (Fax3CodecState*) Fax3State(tif);
tmsize_t rowbytes;
uint32 rowpixels, nruns;
uint32 rowpixels;
if (td->td_bitspersample != 1) {
TIFFErrorExt(tif->tif_clientdata, module,
@ -523,6 +532,13 @@ Fax3SetupState(TIFF* tif)
rowbytes = TIFFScanlineSize(tif);
rowpixels = td->td_imagewidth;
}
if ((uint64)rowbytes < ((uint64)rowpixels + 7) / 8)
{
TIFFErrorExt(tif->tif_clientdata, module,
"Inconsistent number of bytes per row : rowbytes=%lu rowpixels=%lu",
(unsigned long)(rowbytes), (unsigned long)(rowpixels));
return (0);
}
sp->rowbytes = rowbytes;
sp->rowpixels = rowpixels;
/*
@ -539,26 +555,26 @@ Fax3SetupState(TIFF* tif)
TIFFroundup and TIFFSafeMultiply return zero on integer overflow
*/
dsp->runs=(uint32*) NULL;
nruns = TIFFroundup_32(rowpixels,32);
dsp->nruns = TIFFroundup_32(rowpixels,32);
if (needsRefLine) {
nruns = TIFFSafeMultiply(uint32,nruns,2);
dsp->nruns = TIFFSafeMultiply(uint32,dsp->nruns,2);
}
if ((nruns == 0) || (TIFFSafeMultiply(uint32,nruns,2) == 0)) {
if ((dsp->nruns == 0) || (TIFFSafeMultiply(uint32,dsp->nruns,2) == 0)) {
TIFFErrorExt(tif->tif_clientdata, tif->tif_name,
"Row pixels integer overflow (rowpixels %u)",
rowpixels);
return (0);
}
dsp->runs = (uint32*) _TIFFCheckMalloc(tif,
TIFFSafeMultiply(uint32,nruns,2),
TIFFSafeMultiply(uint32,dsp->nruns,2),
sizeof (uint32),
"for Group 3/4 run arrays");
if (dsp->runs == NULL)
return (0);
memset( dsp->runs, 0, TIFFSafeMultiply(uint32,nruns,2)*sizeof(uint32));
memset( dsp->runs, 0, TIFFSafeMultiply(uint32,dsp->nruns,2)*sizeof(uint32));
dsp->curruns = dsp->runs;
if (needsRefLine)
dsp->refruns = dsp->runs + nruns;
dsp->refruns = dsp->runs + dsp->nruns;
else
dsp->refruns = NULL;
if (td->td_compression == COMPRESSION_CCITTFAX3
@ -594,15 +610,19 @@ Fax3SetupState(TIFF* tif)
*/
#define Fax3FlushBits(tif, sp) { \
if ((tif)->tif_rawcc >= (tif)->tif_rawdatasize) \
(void) TIFFFlushData1(tif); \
if ((tif)->tif_rawcc >= (tif)->tif_rawdatasize) { \
if( !TIFFFlushData1(tif) ) \
return 0; \
} \
*(tif)->tif_rawcp++ = (uint8) (sp)->data; \
(tif)->tif_rawcc++; \
(sp)->data = 0, (sp)->bit = 8; \
}
#define _FlushBits(tif) { \
if ((tif)->tif_rawcc >= (tif)->tif_rawdatasize) \
(void) TIFFFlushData1(tif); \
if ((tif)->tif_rawcc >= (tif)->tif_rawdatasize) { \
if( !TIFFFlushData1(tif) ) \
return 0; \
} \
*(tif)->tif_rawcp++ = (uint8) data; \
(tif)->tif_rawcc++; \
data = 0, bit = 8; \
@ -627,7 +647,7 @@ static const int _msbmask[9] =
* the output stream. Values are
* assumed to be at most 16 bits.
*/
static void
static int
Fax3PutBits(TIFF* tif, unsigned int bits, unsigned int length)
{
Fax3CodecState* sp = EncoderState(tif);
@ -638,6 +658,7 @@ Fax3PutBits(TIFF* tif, unsigned int bits, unsigned int length)
sp->data = data;
sp->bit = bit;
return 1;
}
/*
@ -662,7 +683,7 @@ Fax3PutBits(TIFF* tif, unsigned int bits, unsigned int length)
* appropriate table that holds the make-up and
* terminating codes is supplied.
*/
static void
static int
putspan(TIFF* tif, int32 span, const tableentry* tab)
{
Fax3CodecState* sp = EncoderState(tif);
@ -700,6 +721,8 @@ putspan(TIFF* tif, int32 span, const tableentry* tab)
sp->data = data;
sp->bit = bit;
return 1;
}
/*
@ -708,7 +731,7 @@ putspan(TIFF* tif, int32 span, const tableentry* tab)
* here. We also handle writing the tag bit for the next
* scanline when doing 2d encoding.
*/
static void
static int
Fax3PutEOL(TIFF* tif)
{
Fax3CodecState* sp = EncoderState(tif);
@ -742,6 +765,8 @@ Fax3PutEOL(TIFF* tif)
sp->data = data;
sp->bit = bit;
return 1;
}
/*
@ -991,12 +1016,14 @@ Fax3Encode1DRow(TIFF* tif, unsigned char* bp, uint32 bits)
for (;;) {
span = find0span(bp, bs, bits); /* white span */
putspan(tif, span, TIFFFaxWhiteCodes);
if( !putspan(tif, span, TIFFFaxWhiteCodes) )
return 0;
bs += span;
if (bs >= bits)
break;
span = find1span(bp, bs, bits); /* black span */
putspan(tif, span, TIFFFaxBlackCodes);
if( !putspan(tif, span, TIFFFaxBlackCodes) )
return 0;
bs += span;
if (bs >= bits)
break;
@ -1048,21 +1075,28 @@ Fax3Encode2DRow(TIFF* tif, unsigned char* bp, unsigned char* rp, uint32 bits)
(b1 < a1 && a1 - b1 <= 3U) ? -(int32)(a1 - b1) : 0x7FFFFFFF;
if (!(-3 <= d && d <= 3)) { /* horizontal mode */
a2 = finddiff2(bp, a1, bits, PIXEL(bp,a1));
putcode(tif, &horizcode);
if( !putcode(tif, &horizcode) )
return 0;
if (a0+a1 == 0 || PIXEL(bp, a0) == 0) {
putspan(tif, a1-a0, TIFFFaxWhiteCodes);
putspan(tif, a2-a1, TIFFFaxBlackCodes);
if( !putspan(tif, a1-a0, TIFFFaxWhiteCodes) )
return 0;
if( !putspan(tif, a2-a1, TIFFFaxBlackCodes) )
return 0;
} else {
putspan(tif, a1-a0, TIFFFaxBlackCodes);
putspan(tif, a2-a1, TIFFFaxWhiteCodes);
if( !putspan(tif, a1-a0, TIFFFaxBlackCodes) )
return 0;
if( !putspan(tif, a2-a1, TIFFFaxWhiteCodes) )
return 0;
}
a0 = a2;
} else { /* vertical mode */
putcode(tif, &vcodes[d+3]);
if( !putcode(tif, &vcodes[d+3]) )
return 0;
a0 = a1;
}
} else { /* pass mode */
putcode(tif, &passcode);
if( !putcode(tif, &passcode) )
return 0;
a0 = b2;
}
if (a0 >= bits)
@ -1091,7 +1125,10 @@ Fax3Encode(TIFF* tif, uint8* bp, tmsize_t cc, uint16 s)
}
while (cc > 0) {
if ((sp->b.mode & FAXMODE_NOEOL) == 0)
Fax3PutEOL(tif);
{
if( !Fax3PutEOL(tif) )
return 0;
}
if (is2DEncoding(sp)) {
if (sp->tag == G3_1D) {
if (!Fax3Encode1DRow(tif, bp, sp->b.rowpixels))
@ -1128,8 +1165,8 @@ Fax3PostEncode(TIFF* tif)
return (1);
}
static void
Fax3Close(TIFF* tif)
static int
_Fax3Close(TIFF* tif)
{
if ((Fax3State(tif)->mode & FAXMODE_NORTC) == 0 && tif->tif_rawcp) {
Fax3CodecState* sp = EncoderState(tif);
@ -1145,6 +1182,13 @@ Fax3Close(TIFF* tif)
Fax3PutBits(tif, code, length);
Fax3FlushBits(tif, sp);
}
return 1;
}
static void
Fax3Close(TIFF* tif)
{
_Fax3Close(tif);
}
static void
@ -1453,6 +1497,13 @@ Fax4Decode(TIFF* tif, uint8* buf, tmsize_t occ, uint16 s)
EXPAND2D(EOFG4);
if (EOLcnt)
goto EOFG4;
if (((lastx + 7) >> 3) > (int)occ) /* check for buffer overrun */
{
TIFFErrorExt(tif->tif_clientdata, module,
"Buffer overrun detected : %d bytes available, %d bits needed",
(int)occ, lastx);
return -1;
}
(*sp->fill)(buf, thisrun, pa, lastx);
SETVALUE(0); /* imaginary change for reference */
SWAP(uint32*, sp->curruns, sp->refruns);
@ -1468,6 +1519,13 @@ Fax4Decode(TIFF* tif, uint8* buf, tmsize_t occ, uint16 s)
fputs( "Bad EOFB\n", stderr );
#endif
ClrBits( 13 );
if (((lastx + 7) >> 3) > (int)occ) /* check for buffer overrun */
{
TIFFErrorExt(tif->tif_clientdata, module,
"Buffer overrun detected : %d bytes available, %d bits needed",
(int)occ, lastx);
return -1;
}
(*sp->fill)(buf, thisrun, pa, lastx);
UNCACHE_STATE(tif, sp);
return ( sp->line ? 1 : -1); /* don't error on badly-terminated strips */

39
3rdparty/libtiff/tif_fax3.h vendored
Unescape View File

@ -240,6 +240,11 @@ static const char* StateNames[] = {
* current row and reset decoding state.
*/
#define SETVALUE(x) do { \
if (pa >= thisrun + sp->nruns) { \
TIFFErrorExt(tif->tif_clientdata, module, "Buffer overflow at line %u of %s %u", \
sp->line, isTiled(tif) ? "tile" : "strip", isTiled(tif) ? tif->tif_curtile : tif->tif_curstrip); \
return (-1); \
} \
*pa++ = RunLength + (x); \
a0 += (x); \
RunLength = 0; \
@ -377,6 +382,11 @@ done1d: \
*/
#define CHECK_b1 do { \
if (pa != thisrun) while (b1 <= a0 && b1 < lastx) { \
if( pb + 1 >= sp->refruns + sp->nruns) { \
TIFFErrorExt(tif->tif_clientdata, module, "Buffer overflow at line %u of %s %u", \
sp->line, isTiled(tif) ? "tile" : "strip", isTiled(tif) ? tif->tif_curtile : tif->tif_curstrip); \
return (-1); \
} \
b1 += pb[0] + pb[1]; \
pb += 2; \
} \
@ -387,10 +397,20 @@ done1d: \
*/
#define EXPAND2D(eoflab) do { \
while (a0 < lastx) { \
if (pa >= thisrun + sp->nruns) { \
TIFFErrorExt(tif->tif_clientdata, module, "Buffer overflow at line %u of %s %u", \
sp->line, isTiled(tif) ? "tile" : "strip", isTiled(tif) ? tif->tif_curtile : tif->tif_curstrip); \
return (-1); \
} \
LOOKUP8(7, TIFFFaxMainTable, eof2d); \
switch (TabEnt->State) { \
case S_Pass: \
CHECK_b1; \
if( pb + 1 >= sp->refruns + sp->nruns) { \
TIFFErrorExt(tif->tif_clientdata, module, "Buffer overflow at line %u of %s %u", \
sp->line, isTiled(tif) ? "tile" : "strip", isTiled(tif) ? tif->tif_curtile : tif->tif_curstrip); \
return (-1); \
} \
b1 += *pb++; \
RunLength += b1 - a0; \
a0 = b1; \
@ -469,20 +489,28 @@ done1d: \
case S_V0: \
CHECK_b1; \
SETVALUE(b1 - a0); \
if( pb >= sp->refruns + sp->nruns) { \
TIFFErrorExt(tif->tif_clientdata, module, "Buffer overflow at line %u of %s %u", \
sp->line, isTiled(tif) ? "tile" : "strip", isTiled(tif) ? tif->tif_curtile : tif->tif_curstrip); \
return (-1); \
} \
b1 += *pb++; \
break; \
case S_VR: \
CHECK_b1; \
SETVALUE(b1 - a0 + TabEnt->Param); \
if( pb >= sp->refruns + sp->nruns) { \
TIFFErrorExt(tif->tif_clientdata, module, "Buffer overflow at line %u of %s %u", \
sp->line, isTiled(tif) ? "tile" : "strip", isTiled(tif) ? tif->tif_curtile : tif->tif_curstrip); \
return (-1); \
} \
b1 += *pb++; \
break; \
case S_VL: \
CHECK_b1; \
if (b1 <= (int) (a0 + TabEnt->Param)) { \
if (b1 < (int) (a0 + TabEnt->Param) || pa != thisrun) { \
unexpected("VL", a0); \
goto eol2d; \
} \
if (b1 < (int) (a0 + TabEnt->Param)) { \
unexpected("VL", a0); \
goto eol2d; \
} \
SETVALUE(b1 - a0 - TabEnt->Param); \
b1 -= *--pb; \
@ -529,6 +557,7 @@ eol2d: \
CLEANUP_RUNS(); \
} while (0)
#endif /* _FAX3_ */
/* vim: set ts=8 sts=4 sw=4 noet: */
/*
* Local Variables:
* mode: c

1
3rdparty/libtiff/tif_fax3sm.c vendored
Unescape View File

@ -1,5 +1,6 @@
/* WARNING, this file was automatically generated by the
mkg3states program */
#include <stdint.h>
#include "tiff.h"
#include "tif_fax3.h"
const TIFFFaxTabEnt TIFFFaxMainTable[128] = {

118
3rdparty/libtiff/tif_flush.c vendored
Unescape View File

@ -45,36 +45,8 @@ TIFFFlush(TIFF* tif)
&& !(tif->tif_flags & TIFF_DIRTYDIRECT)
&& tif->tif_mode == O_RDWR )
{
uint64 *offsets=NULL, *sizes=NULL;
if( TIFFIsTiled(tif) )
{
if( TIFFGetField( tif, TIFFTAG_TILEOFFSETS, &offsets )
&& TIFFGetField( tif, TIFFTAG_TILEBYTECOUNTS, &sizes )
&& _TIFFRewriteField( tif, TIFFTAG_TILEOFFSETS, TIFF_LONG8,
tif->tif_dir.td_nstrips, offsets )
&& _TIFFRewriteField( tif, TIFFTAG_TILEBYTECOUNTS, TIFF_LONG8,
tif->tif_dir.td_nstrips, sizes ) )
{
tif->tif_flags &= ~TIFF_DIRTYSTRIP;
tif->tif_flags &= ~TIFF_BEENWRITING;
return 1;
}
}
else
{
if( TIFFGetField( tif, TIFFTAG_STRIPOFFSETS, &offsets )
&& TIFFGetField( tif, TIFFTAG_STRIPBYTECOUNTS, &sizes )
&& _TIFFRewriteField( tif, TIFFTAG_STRIPOFFSETS, TIFF_LONG8,
tif->tif_dir.td_nstrips, offsets )
&& _TIFFRewriteField( tif, TIFFTAG_STRIPBYTECOUNTS, TIFF_LONG8,
tif->tif_dir.td_nstrips, sizes ) )
{
tif->tif_flags &= ~TIFF_DIRTYSTRIP;
tif->tif_flags &= ~TIFF_BEENWRITING;
return 1;
}
}
if( TIFFForceStrileArrayWriting(tif) )
return 1;
}
if ((tif->tif_flags & (TIFF_DIRTYDIRECT|TIFF_DIRTYSTRIP))
@ -84,6 +56,92 @@ TIFFFlush(TIFF* tif)
return (1);
}
/*
* This is an advanced writing function that must be used in a particular
* sequence, and together with TIFFDeferStrileArrayWriting(),
* to make its intended effect. Its aim is to force the writing of
* the [Strip/Tile][Offsets/ByteCounts] arrays at the end of the file, when
* they have not yet been rewritten.
*
* The typical sequence of calls is:
* TIFFOpen()
* [ TIFFCreateDirectory(tif) ]
* Set fields with calls to TIFFSetField(tif, ...)
* TIFFDeferStrileArrayWriting(tif)
* TIFFWriteCheck(tif, ...)
* TIFFWriteDirectory(tif)
* ... potentially create other directories and come back to the above directory
* TIFFForceStrileArrayWriting(tif)
*
* Returns 1 in case of success, 0 otherwise.
*/
int TIFFForceStrileArrayWriting(TIFF* tif)
{
static const char module[] = "TIFFForceStrileArrayWriting";
const int isTiled = TIFFIsTiled(tif);
if (tif->tif_mode == O_RDONLY)
{
TIFFErrorExt(tif->tif_clientdata, tif->tif_name,
"File opened in read-only mode");
return 0;
}
if( tif->tif_diroff == 0 )
{
TIFFErrorExt(tif->tif_clientdata, module,
"Directory has not yet been written");
return 0;
}
if( (tif->tif_flags & TIFF_DIRTYDIRECT) != 0 )
{
TIFFErrorExt(tif->tif_clientdata, module,
"Directory has changes other than the strile arrays. "
"TIFFRewriteDirectory() should be called instead");
return 0;
}
if( !(tif->tif_flags & TIFF_DIRTYSTRIP) )
{
if( !(tif->tif_dir.td_stripoffset_entry.tdir_tag != 0 &&
tif->tif_dir.td_stripoffset_entry.tdir_count == 0 &&
tif->tif_dir.td_stripoffset_entry.tdir_type == 0 &&
tif->tif_dir.td_stripoffset_entry.tdir_offset.toff_long8 == 0 &&
tif->tif_dir.td_stripbytecount_entry.tdir_tag != 0 &&
tif->tif_dir.td_stripbytecount_entry.tdir_count == 0 &&
tif->tif_dir.td_stripbytecount_entry.tdir_type == 0 &&
tif->tif_dir.td_stripbytecount_entry.tdir_offset.toff_long8 == 0) )
{
TIFFErrorExt(tif->tif_clientdata, module,
"Function not called together with "
"TIFFDeferStrileArrayWriting()");
return 0;
}
if (tif->tif_dir.td_stripoffset_p == NULL && !TIFFSetupStrips(tif))
return 0;
}
if( _TIFFRewriteField( tif,
isTiled ? TIFFTAG_TILEOFFSETS :
TIFFTAG_STRIPOFFSETS,
TIFF_LONG8,
tif->tif_dir.td_nstrips,
tif->tif_dir.td_stripoffset_p )
&& _TIFFRewriteField( tif,
isTiled ? TIFFTAG_TILEBYTECOUNTS :
TIFFTAG_STRIPBYTECOUNTS,
TIFF_LONG8,
tif->tif_dir.td_nstrips,
tif->tif_dir.td_stripbytecount_p ) )
{
tif->tif_flags &= ~TIFF_DIRTYSTRIP;
tif->tif_flags &= ~TIFF_BEENWRITING;
return 1;
}
return 0;
}
/*
* Flush buffered data to the file.
*

67
3rdparty/libtiff/tif_getimage.c vendored
Unescape View File

@ -29,6 +29,7 @@
*/
#include "tiffiop.h"
#include <stdio.h>
#include <limits.h>
static int gtTileContig(TIFFRGBAImage*, uint32*, uint32, uint32);
static int gtTileSeparate(TIFFRGBAImage*, uint32*, uint32, uint32);
@ -645,12 +646,20 @@ gtTileContig(TIFFRGBAImage* img, uint32* raster, uint32 w, uint32 h)
flip = setorientation(img);
if (flip & FLIP_VERTICALLY) {
y = h - 1;
toskew = -(int32)(tw + w);
if ((tw + w) > INT_MAX) {
TIFFErrorExt(tif->tif_clientdata, TIFFFileName(tif), "%s", "unsupported tile size (too wide)");
return (0);
}
y = h - 1;
toskew = -(int32)(tw + w);
}
else {
y = 0;
toskew = -(int32)(tw - w);
if (tw > (INT_MAX + w)) {
TIFFErrorExt(tif->tif_clientdata, TIFFFileName(tif), "%s", "unsupported tile size (too wide)");
return (0);
}
y = 0;
toskew = -(int32)(tw - w);
}
/*
@ -755,9 +764,8 @@ gtTileSeparate(TIFFRGBAImage* img, uint32* raster, uint32 w, uint32 h)
uint32 leftmost_tw;
tilesize = TIFFTileSize(tif);
bufsize = TIFFSafeMultiply(tmsize_t,alpha?4:3,tilesize);
bufsize = _TIFFMultiplySSize(tif, alpha?4:3,tilesize, "gtTileSeparate");
if (bufsize == 0) {
TIFFErrorExt(tif->tif_clientdata, TIFFFileName(tif), "Integer overflow in %s", "gtTileSeparate");
return (0);
}
@ -766,10 +774,18 @@ gtTileSeparate(TIFFRGBAImage* img, uint32* raster, uint32 w, uint32 h)
flip = setorientation(img);
if (flip & FLIP_VERTICALLY) {
if ((tw + w) > INT_MAX) {
TIFFErrorExt(tif->tif_clientdata, TIFFFileName(tif), "%s", "unsupported tile size (too wide)");
return (0);
}
y = h - 1;
toskew = -(int32)(tw + w);
}
else {
if (tw > (INT_MAX + w)) {
TIFFErrorExt(tif->tif_clientdata, TIFFFileName(tif), "%s", "unsupported tile size (too wide)");
return (0);
}
y = 0;
toskew = -(int32)(tw - w);
}
@ -937,6 +953,10 @@ gtStripContig(TIFFRGBAImage* img, uint32* raster, uint32 w, uint32 h)
flip = setorientation(img);
if (flip & FLIP_VERTICALLY) {
if ( w > INT_MAX ) {
TIFFErrorExt(tif->tif_clientdata, TIFFFileName(tif), "Width overflow");
return (0);
}
y = h - 1;
toskew = -(int32)(w + w);
} else {
@ -950,16 +970,23 @@ gtStripContig(TIFFRGBAImage* img, uint32* raster, uint32 w, uint32 h)
fromskew = (w < imagewidth ? imagewidth - w : 0);
for (row = 0; row < h; row += nrow)
{
uint32 temp;
rowstoread = rowsperstrip - (row + img->row_offset) % rowsperstrip;
nrow = (row + rowstoread > h ? h - row : rowstoread);
nrowsub = nrow;
if ((nrowsub%subsamplingver)!=0)
nrowsub+=subsamplingver-nrowsub%subsamplingver;
temp = (row + img->row_offset)%rowsperstrip + nrowsub;
if( scanline > 0 && temp > (size_t)(TIFF_TMSIZE_T_MAX / scanline) )
{
TIFFErrorExt(tif->tif_clientdata, TIFFFileName(tif), "Integer overflow in gtStripContig");
return 0;
}
if (_TIFFReadEncodedStripAndAllocBuffer(tif,
TIFFComputeStrip(tif,row+img->row_offset, 0),
(void**)(&buf),
maxstripsize,
((row + img->row_offset)%rowsperstrip + nrowsub) * scanline)==(tmsize_t)(-1)
temp * scanline)==(tmsize_t)(-1)
&& (buf == NULL || img->stoponerr))
{
ret = 0;
@ -1019,14 +1046,17 @@ gtStripSeparate(TIFFRGBAImage* img, uint32* raster, uint32 w, uint32 h)
uint16 colorchannels;
stripsize = TIFFStripSize(tif);
bufsize = TIFFSafeMultiply(tmsize_t,alpha?4:3,stripsize);
bufsize = _TIFFMultiplySSize(tif,alpha?4:3,stripsize, "gtStripSeparate");
if (bufsize == 0) {
TIFFErrorExt(tif->tif_clientdata, TIFFFileName(tif), "Integer overflow in %s", "gtStripSeparate");
return (0);
}
flip = setorientation(img);
if (flip & FLIP_VERTICALLY) {
if ( w > INT_MAX ) {
TIFFErrorExt(tif->tif_clientdata, TIFFFileName(tif), "Width overflow");
return (0);
}
y = h - 1;
toskew = -(int32)(w + w);
}
@ -1053,15 +1083,22 @@ gtStripSeparate(TIFFRGBAImage* img, uint32* raster, uint32 w, uint32 h)
fromskew = (w < imagewidth ? imagewidth - w : 0);
for (row = 0; row < h; row += nrow)
{
uint32 temp;
rowstoread = rowsperstrip - (row + img->row_offset) % rowsperstrip;
nrow = (row + rowstoread > h ? h - row : rowstoread);
offset_row = row + img->row_offset;
temp = (row + img->row_offset)%rowsperstrip + nrow;
if( scanline > 0 && temp > (size_t)(TIFF_TMSIZE_T_MAX / scanline) )
{
TIFFErrorExt(tif->tif_clientdata, TIFFFileName(tif), "Integer overflow in gtStripSeparate");
return 0;
}
if( buf == NULL )
{
if (_TIFFReadEncodedStripAndAllocBuffer(
tif, TIFFComputeStrip(tif, offset_row, 0),
(void**) &buf, bufsize,
((row + img->row_offset)%rowsperstrip + nrow) * scanline)==(tmsize_t)(-1)
temp * scanline)==(tmsize_t)(-1)
&& (buf == NULL || img->stoponerr))
{
ret = 0;
@ -1081,7 +1118,7 @@ gtStripSeparate(TIFFRGBAImage* img, uint32* raster, uint32 w, uint32 h)
}
}
else if (TIFFReadEncodedStrip(tif, TIFFComputeStrip(tif, offset_row, 0),
p0, ((row + img->row_offset)%rowsperstrip + nrow) * scanline)==(tmsize_t)(-1)
p0, temp * scanline)==(tmsize_t)(-1)
&& img->stoponerr)
{
ret = 0;
@ -1089,7 +1126,7 @@ gtStripSeparate(TIFFRGBAImage* img, uint32* raster, uint32 w, uint32 h)
}
if (colorchannels > 1
&& TIFFReadEncodedStrip(tif, TIFFComputeStrip(tif, offset_row, 1),
p1, ((row + img->row_offset)%rowsperstrip + nrow) * scanline) == (tmsize_t)(-1)
p1, temp * scanline) == (tmsize_t)(-1)
&& img->stoponerr)
{
ret = 0;
@ -1097,7 +1134,7 @@ gtStripSeparate(TIFFRGBAImage* img, uint32* raster, uint32 w, uint32 h)
}
if (colorchannels > 1
&& TIFFReadEncodedStrip(tif, TIFFComputeStrip(tif, offset_row, 2),
p2, ((row + img->row_offset)%rowsperstrip + nrow) * scanline) == (tmsize_t)(-1)
p2, temp * scanline) == (tmsize_t)(-1)
&& img->stoponerr)
{
ret = 0;
@ -1106,7 +1143,7 @@ gtStripSeparate(TIFFRGBAImage* img, uint32* raster, uint32 w, uint32 h)
if (alpha)
{
if (TIFFReadEncodedStrip(tif, TIFFComputeStrip(tif, offset_row, colorchannels),
pa, ((row + img->row_offset)%rowsperstrip + nrow) * scanline)==(tmsize_t)(-1)
pa, temp * scanline)==(tmsize_t)(-1)
&& img->stoponerr)
{
ret = 0;
@ -2957,7 +2994,7 @@ TIFFReadRGBATileExt(TIFF* tif, uint32 col, uint32 row, uint32 * raster, int stop
if( !TIFFIsTiled( tif ) )
{
TIFFErrorExt(tif->tif_clientdata, TIFFFileName(tif),
"Can't use TIFFReadRGBATile() with stripped file.");
"Can't use TIFFReadRGBATile() with striped file.");
return (0);
}

1
3rdparty/libtiff/tif_jbig.c vendored
Unescape View File

@ -199,6 +199,7 @@ static int JBIGEncode(TIFF* tif, uint8* buffer, tmsize_t size, uint16 s)
int TIFFInitJBIG(TIFF* tif, int scheme)
{
(void)scheme;
assert(scheme == COMPRESSION_JBIG);
/*

82
3rdparty/libtiff/tif_jpeg.c vendored
Unescape View File

@ -466,7 +466,8 @@ std_empty_output_buffer(j_compress_ptr cinfo)
}
#endif
TIFFFlushData1(tif);
if( !TIFFFlushData1(tif) )
return FALSE;
sp->dest.next_output_byte = (JOCTET*) tif->tif_rawdata;
sp->dest.free_in_buffer = (size_t) tif->tif_rawdatasize;
@ -780,12 +781,9 @@ JPEGFixupTagsSubsampling(TIFF* tif)
*/
static const char module[] = "JPEGFixupTagsSubsampling";
struct JPEGFixupTagsSubsamplingData m;
uint64 fileoffset = TIFFGetStrileOffset(tif, 0);
_TIFFFillStriles( tif );
if( tif->tif_dir.td_stripbytecount == NULL
|| tif->tif_dir.td_stripoffset == NULL
|| tif->tif_dir.td_stripbytecount[0] == 0 )
if( fileoffset == 0 )
{
/* Do not even try to check if the first strip/tile does not
yet exist, as occurs when GDAL has created a new NULL file
@ -804,9 +802,9 @@ JPEGFixupTagsSubsampling(TIFF* tif)
}
m.buffercurrentbyte=NULL;
m.bufferbytesleft=0;
m.fileoffset=tif->tif_dir.td_stripoffset[0];
m.fileoffset=fileoffset;
m.filepositioned=0;
m.filebytesleft=tif->tif_dir.td_stripbytecount[0];
m.filebytesleft=TIFFGetStrileByteCount(tif, 0);
if (!JPEGFixupTagsSubsamplingSec(&m))
TIFFWarningExt(tif->tif_clientdata,module,
"Unable to auto-correct subsampling values, likely corrupt JPEG compressed data in first strip/tile; auto-correcting skipped");
@ -940,7 +938,10 @@ JPEGFixupTagsSubsamplingReadByte(struct JPEGFixupTagsSubsamplingData* data, uint
return(0);
if (!data->filepositioned)
{
TIFFSeekFile(data->tif,data->fileoffset,SEEK_SET);
if (TIFFSeekFile(data->tif,data->fileoffset,SEEK_SET) == (toff_t)-1)
{
return 0;
}
data->filepositioned=1;
}
m=data->buffersize;
@ -1209,35 +1210,37 @@ JPEGPreDecode(TIFF* tif, uint16 s)
/* store for all coefficients */
/* See call to jinit_d_coef_controller() from master_selection() */
/* in libjpeg */
toff_t nRequiredMemory = (toff_t)sp->cinfo.d.image_width *
sp->cinfo.d.image_height *
sp->cinfo.d.num_components *
((td->td_bitspersample+7)/8);
/* BLOCK_SMOOTHING_SUPPORTED is generally defined, so we need */
/* to replicate the logic of jinit_d_coef_controller() */
if( sp->cinfo.d.progressive_mode )
nRequiredMemory *= 3;
#ifndef TIFF_LIBJPEG_LARGEST_MEM_ALLOC
#define TIFF_LIBJPEG_LARGEST_MEM_ALLOC (100 * 1024 * 1024)
#endif
if( nRequiredMemory > TIFF_LIBJPEG_LARGEST_MEM_ALLOC &&
/* 1 MB for regular libjpeg usage */
toff_t nRequiredMemory = 1024 * 1024;
for (ci = 0; ci < sp->cinfo.d.num_components; ci++) {
const jpeg_component_info *compptr = &(sp->cinfo.d.comp_info[ci]);
if( compptr->h_samp_factor > 0 && compptr->v_samp_factor > 0 )
{
nRequiredMemory += (toff_t)(
((compptr->width_in_blocks + compptr->h_samp_factor - 1) / compptr->h_samp_factor)) *
((compptr->height_in_blocks + compptr->v_samp_factor - 1) / compptr->v_samp_factor) *
sizeof(JBLOCK);
}
}
if( sp->cinfo.d.mem->max_memory_to_use > 0 &&
nRequiredMemory > (toff_t)(sp->cinfo.d.mem->max_memory_to_use) &&
getenv("LIBTIFF_ALLOW_LARGE_LIBJPEG_MEM_ALLOC") == NULL )
{
TIFFErrorExt(tif->tif_clientdata, module,
"Reading this strip would require libjpeg to allocate "
"at least %u bytes. "
"This is disabled since above the %u threshold. "
"You may override this restriction by defining the "
"LIBTIFF_ALLOW_LARGE_LIBJPEG_MEM_ALLOC environment variable, "
"or recompile libtiff by defining the "
"TIFF_LIBJPEG_LARGEST_MEM_ALLOC macro to a value greater "
"than %u",
(unsigned)nRequiredMemory,
(unsigned)TIFF_LIBJPEG_LARGEST_MEM_ALLOC,
(unsigned)TIFF_LIBJPEG_LARGEST_MEM_ALLOC);
return (0);
TIFFErrorExt(tif->tif_clientdata, module,
"Reading this image would require libjpeg to allocate "
"at least %u bytes. "
"This is disabled since above the %u threshold. "
"You may override this restriction by defining the "
"LIBTIFF_ALLOW_LARGE_LIBJPEG_MEM_ALLOC environment variable, "
"or setting the JPEGMEM environment variable to a value greater "
"or equal to '%uM'",
(unsigned)(nRequiredMemory),
(unsigned)(sp->cinfo.d.mem->max_memory_to_use),
(unsigned)((nRequiredMemory + 1000000 - 1) / 1000000));
return 0;
}
}
@ -1566,7 +1569,7 @@ JPEGDecodeRaw(TIFF* tif, uint8* buf, tmsize_t cc, uint16 s)
JSAMPLE *outptr = (JSAMPLE*)tmpbuf + clumpoffset;
#else
JSAMPLE *outptr = (JSAMPLE*)buf + clumpoffset;
if (cc < (tmsize_t) (clumpoffset + samples_per_clump*(clumps_per_line-1) + hsamp)) {
if (cc < (tmsize_t)(clumpoffset + (tmsize_t)samples_per_clump*(clumps_per_line-1) + hsamp)) {
TIFFErrorExt(tif->tif_clientdata, "JPEGDecodeRaw",
"application buffer not large enough for all data, possible subsampling issue");
return 0;
@ -2126,8 +2129,8 @@ JPEGEncodeRaw(TIFF* tif, uint8* buf, tmsize_t cc, uint16 s)
/* data is expected to be supplied in multiples of a clumpline */
/* a clumpline is equivalent to v_sampling desubsampled scanlines */
/* TODO: the following calculation of bytesperclumpline, should substitute calculation of sp->bytesperline, except that it is per v_sampling lines */
bytesperclumpline = (((sp->cinfo.c.image_width+sp->h_sampling-1)/sp->h_sampling)
*(sp->h_sampling*sp->v_sampling+2)*sp->cinfo.c.data_precision+7)
bytesperclumpline = ((((tmsize_t)sp->cinfo.c.image_width+sp->h_sampling-1)/sp->h_sampling)
*((tmsize_t)sp->h_sampling*sp->v_sampling+2)*sp->cinfo.c.data_precision+7)
/8;
nrows = ( cc / bytesperclumpline ) * sp->v_sampling;
@ -2347,7 +2350,7 @@ JPEGVGetField(TIFF* tif, uint32 tag, va_list ap)
switch (tag) {
case TIFFTAG_JPEGTABLES:
*va_arg(ap, uint32*) = sp->jpegtables_length;
*va_arg(ap, void**) = sp->jpegtables;
*va_arg(ap, const void**) = sp->jpegtables;
break;
case TIFFTAG_JPEGQUALITY:
*va_arg(ap, int*) = sp->jpegquality;
@ -2482,6 +2485,7 @@ TIFFInitJPEG(TIFF* tif, int scheme)
{
JPEGState* sp;
(void)scheme;
assert(scheme == COMPRESSION_JPEG);
/*

42
3rdparty/libtiff/tif_luv.c vendored
Unescape View File

@ -193,6 +193,7 @@ LogL16Decode(TIFF* tif, uint8* op, tmsize_t occ, uint16 s)
tmsize_t cc;
int rc;
(void)s;
assert(s == 0);
assert(sp != NULL);
@ -266,6 +267,7 @@ LogLuvDecode24(TIFF* tif, uint8* op, tmsize_t occ, uint16 s)
unsigned char* bp;
uint32* tp;
(void)s;
assert(s == 0);
assert(sp != NULL);
@ -326,6 +328,7 @@ LogLuvDecode32(TIFF* tif, uint8* op, tmsize_t occ, uint16 s)
tmsize_t cc;
int rc;
(void)s;
assert(s == 0);
sp = DecoderState(tif);
assert(sp != NULL);
@ -447,6 +450,7 @@ LogL16Encode(TIFF* tif, uint8* bp, tmsize_t cc, uint16 s)
int rc=0, mask;
tmsize_t beg;
(void)s;
assert(s == 0);
assert(sp != NULL);
npixels = cc / sp->pixel_size;
@ -541,6 +545,7 @@ LogLuvEncode24(TIFF* tif, uint8* bp, tmsize_t cc, uint16 s)
uint8* op;
uint32* tp;
(void)s;
assert(s == 0);
assert(sp != NULL);
npixels = cc / sp->pixel_size;
@ -598,6 +603,7 @@ LogLuvEncode32(TIFF* tif, uint8* bp, tmsize_t cc, uint16 s)
int rc=0, mask;
tmsize_t beg;
(void)s;
assert(s == 0);
assert(sp != NULL);
@ -742,7 +748,7 @@ LogLuvEncodeTile(TIFF* tif, uint8* bp, tmsize_t cc, uint16 s)
#undef exp2 /* Conflict with C'99 function */
#define exp2(x) exp(M_LN2*(x))
static int itrunc(double x, int m)
static int tiff_itrunc(double x, int m)
{
if( m == SGILOGENCODE_NODITHER )
return (int)x;
@ -777,9 +783,9 @@ LogL16fromY(double Y, int em) /* get 16-bit LogL from Y */
if (Y <= -1.8371976e19)
return (0xffff);
if (Y > 5.4136769e-20)
return itrunc(256.*(log2(Y) + 64.), em);
return tiff_itrunc(256.*(log2(Y) + 64.), em);
if (Y < -5.4136769e-20)
return (~0x7fff | itrunc(256.*(log2(-Y) + 64.), em));
return (~0x7fff | tiff_itrunc(256.*(log2(-Y) + 64.), em));
return (0);
}
@ -855,7 +861,7 @@ LogL10fromY(double Y, int em) /* get 10-bit LogL from Y */
else if (Y <= .00024283)
return (0);
else
return itrunc(64.*(log2(Y) + 12.), em);
return tiff_itrunc(64.*(log2(Y) + 12.), em);
}
#define NANGLES 100
@ -925,12 +931,12 @@ uv_encode(double u, double v, int em) /* encode (u',v') coordinates */
if (v < UV_VSTART)
return oog_encode(u, v);
vi = itrunc((v - UV_VSTART)*(1./UV_SQSIZ), em);
vi = tiff_itrunc((v - UV_VSTART)*(1./UV_SQSIZ), em);
if (vi >= UV_NVS)
return oog_encode(u, v);
if (u < uv_row[vi].ustart)
return oog_encode(u, v);
ui = itrunc((u - uv_row[vi].ustart)*(1./UV_SQSIZ), em);
ui = tiff_itrunc((u - uv_row[vi].ustart)*(1./UV_SQSIZ), em);
if (ui >= uv_row[vi].nus)
return oog_encode(u, v);
@ -1099,7 +1105,7 @@ Luv24fromLuv48(LogLuvState* sp, uint8* op, tmsize_t n)
else if (sp->encode_meth == SGILOGENCODE_NODITHER)
Le = (luv3[0]-3314) >> 2;
else
Le = itrunc(.25*(luv3[0]-3314.), sp->encode_meth);
Le = tiff_itrunc(.25*(luv3[0]-3314.), sp->encode_meth);
Ce = uv_encode((luv3[1]+.5)/(1<<15), (luv3[2]+.5)/(1<<15),
sp->encode_meth);
@ -1155,10 +1161,10 @@ LogLuv32fromXYZ(float XYZ[3], int em)
v = 9.*XYZ[1] / s;
}
if (u <= 0.) ue = 0;
else ue = itrunc(UVSCALE*u, em);
else ue = tiff_itrunc(UVSCALE*u, em);
if (ue > 255) ue = 255;
if (v <= 0.) ve = 0;
else ve = itrunc(UVSCALE*v, em);
else ve = tiff_itrunc(UVSCALE*v, em);
if (ve > 255) ve = 255;
/* combine encodings */
return (Le << 16 | ue << 8 | ve);
@ -1238,8 +1244,8 @@ Luv32fromLuv48(LogLuvState* sp, uint8* op, tmsize_t n)
}
while (n-- > 0) {
*luv++ = (uint32)luv3[0] << 16 |
(itrunc(luv3[1]*(UVSCALE/(1<<15)), sp->encode_meth) << 8 & 0xff00) |
(itrunc(luv3[2]*(UVSCALE/(1<<15)), sp->encode_meth) & 0xff);
(tiff_itrunc(luv3[1]*(UVSCALE/(1<<15)), sp->encode_meth) << 8 & 0xff00) |
(tiff_itrunc(luv3[2]*(UVSCALE/(1<<15)), sp->encode_meth) & 0xff);
luv3 += 3;
}
}
@ -1269,16 +1275,10 @@ LogL16GuessDataFmt(TIFFDirectory *td)
return (SGILOGDATAFMT_UNKNOWN);
}
#define TIFF_SIZE_T_MAX ((size_t) ~ ((size_t)0))
#define TIFF_TMSIZE_T_MAX (tmsize_t)(TIFF_SIZE_T_MAX >> 1)
static tmsize_t
multiply_ms(tmsize_t m1, tmsize_t m2)
{
if( m1 == 0 || m2 > TIFF_TMSIZE_T_MAX / m1 )
return 0;
return m1 * m2;
return _TIFFMultiplySSize(NULL, m1, m2, NULL);
}
static int
@ -1512,7 +1512,7 @@ LogLuvSetupEncode(TIFF* tif)
switch (td->td_photometric) {
case PHOTOMETRIC_LOGLUV:
if (!LogLuvInitState(tif))
break;
return (0);
if (td->td_compression == COMPRESSION_SGILOG24) {
tif->tif_encoderow = LogLuvEncode24;
switch (sp->user_datafmt) {
@ -1545,7 +1545,7 @@ LogLuvSetupEncode(TIFF* tif)
break;
case PHOTOMETRIC_LOGL:
if (!LogL16InitState(tif))
break;
return (0);
tif->tif_encoderow = LogL16Encode;
switch (sp->user_datafmt) {
case SGILOGDATAFMT_FLOAT:
@ -1561,7 +1561,7 @@ LogLuvSetupEncode(TIFF* tif)
TIFFErrorExt(tif->tif_clientdata, module,
"Inappropriate photometric interpretation %d for SGILog compression; %s",
td->td_photometric, "must be either LogLUV or LogL");
break;
return (0);
}
sp->encoder_state = 1;
return (1);

7
3rdparty/libtiff/tif_lzma.c vendored
Unescape View File

@ -300,7 +300,8 @@ LZMAEncode(TIFF* tif, uint8* bp, tmsize_t cc, uint16 s)
}
if (sp->stream.avail_out == 0) {
tif->tif_rawcc = tif->tif_rawdatasize;
TIFFFlushData1(tif);
if (!TIFFFlushData1(tif))
return 0;
sp->stream.next_out = tif->tif_rawdata;
sp->stream.avail_out = (size_t)tif->tif_rawdatasize; /* this is a safe typecast, as check is made already in LZMAPreEncode */
}
@ -328,7 +329,8 @@ LZMAPostEncode(TIFF* tif)
if ((tmsize_t)sp->stream.avail_out != tif->tif_rawdatasize) {
tif->tif_rawcc =
tif->tif_rawdatasize - sp->stream.avail_out;
TIFFFlushData1(tif);
if (!TIFFFlushData1(tif))
return 0;
sp->stream.next_out = tif->tif_rawdata;
sp->stream.avail_out = (size_t)tif->tif_rawdatasize; /* this is a safe typecast, as check is made already in ZIPPreEncode */
}
@ -418,6 +420,7 @@ TIFFInitLZMA(TIFF* tif, int scheme)
LZMAState* sp;
lzma_stream tmp_stream = LZMA_STREAM_INIT;
(void)scheme;
assert( scheme == COMPRESSION_LZMA );
/*

12
3rdparty/libtiff/tif_lzw.c vendored
Unescape View File

@ -214,19 +214,16 @@ LZWSetupDecode(TIFF* tif)
return (0);
}
DecoderState(tif)->dec_codetab = NULL;
DecoderState(tif)->dec_decode = NULL;
sp = DecoderState(tif);
sp->dec_codetab = NULL;
sp->dec_decode = NULL;
/*
* Setup predictor setup.
*/
(void) TIFFPredictorInit(tif);
sp = DecoderState(tif);
}
assert(sp != NULL);
if (sp->dec_codetab == NULL) {
sp->dec_codetab = (code_t*)_TIFFmalloc(CSIZE*sizeof (code_t));
if (sp->dec_codetab == NULL) {
@ -1161,6 +1158,7 @@ int
TIFFInitLZW(TIFF* tif, int scheme)
{
static const char module[] = "TIFFInitLZW";
(void)scheme;
assert(scheme == COMPRESSION_LZW);
/*
* Allocate state block so tag methods have storage to record values.
@ -1218,7 +1216,7 @@ bad:
* from this software without specific prior written permission.
* THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED
* WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE.
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
*/
#endif /* LZW_SUPPORT */

94
3rdparty/libtiff/tif_ojpeg.c vendored
Unescape View File

@ -74,7 +74,7 @@
or errors, up to the point where either these values are read, or it's clear they
aren't there. This means that some of the data is read twice, but we feel speed
in correcting these values is important enough to warrant this sacrifice. Although
there is currently no define or other configuration mechanism to disable this behaviour,
there is currently no define or other configuration mechanism to disable this behavior,
the actual header scanning is build to robustly respond with error report if it
should encounter an uncorrected mismatch of subsampling values. See
OJPEGReadHeaderInfoSecStreamSof.
@ -243,6 +243,7 @@ typedef enum {
typedef struct {
TIFF* tif;
int decoder_ok;
int error_in_raw_data_decoding;
#ifndef LIBJPEG_ENCAP_EXTERNAL
JMP_BUF exit_jmpbuf;
#endif
@ -420,6 +421,7 @@ TIFFInitOJPEG(TIFF* tif, int scheme)
static const char module[]="TIFFInitOJPEG";
OJPEGState* sp;
(void)scheme;
assert(scheme==COMPRESSION_OJPEG);
/*
@ -497,15 +499,15 @@ OJPEGVGetField(TIFF* tif, uint32 tag, va_list ap)
break;
case TIFFTAG_JPEGQTABLES:
*va_arg(ap,uint32*)=(uint32)sp->qtable_offset_count;
*va_arg(ap,void**)=(void*)sp->qtable_offset;
*va_arg(ap,const void**)=(const void*)sp->qtable_offset;
break;
case TIFFTAG_JPEGDCTABLES:
*va_arg(ap,uint32*)=(uint32)sp->dctable_offset_count;
*va_arg(ap,void**)=(void*)sp->dctable_offset;
*va_arg(ap,const void**)=(const void*)sp->dctable_offset;
break;
case TIFFTAG_JPEGACTABLES:
*va_arg(ap,uint32*)=(uint32)sp->actable_offset_count;
*va_arg(ap,void**)=(void*)sp->actable_offset;
*va_arg(ap,const void**)=(const void*)sp->actable_offset;
break;
case TIFFTAG_JPEGPROC:
*va_arg(ap,uint16*)=(uint16)sp->jpeg_proc;
@ -657,7 +659,7 @@ static int
OJPEGSetupDecode(TIFF* tif)
{
static const char module[]="OJPEGSetupDecode";
TIFFWarningExt(tif->tif_clientdata,module,"Depreciated and troublesome old-style JPEG compression mode, please convert to new-style JPEG compression and notify vendor of writing software");
TIFFWarningExt(tif->tif_clientdata,module,"Deprecated and troublesome old-style JPEG compression mode, please convert to new-style JPEG compression and notify vendor of writing software");
return(1);
}
@ -678,7 +680,7 @@ OJPEGPreDecode(TIFF* tif, uint16 s)
if (OJPEGReadSecondarySos(tif,s)==0)
return(0);
}
if isTiled(tif)
if (isTiled(tif))
m=tif->tif_curtile;
else
m=tif->tif_curstrip;
@ -742,6 +744,7 @@ OJPEGPreDecodeSkipRaw(TIFF* tif)
}
m-=sp->subsampling_convert_clines-sp->subsampling_convert_state;
sp->subsampling_convert_state=0;
sp->error_in_raw_data_decoding=0;
}
while (m>=sp->subsampling_convert_clines)
{
@ -792,6 +795,10 @@ OJPEGDecode(TIFF* tif, uint8* buf, tmsize_t cc, uint16 s)
TIFFErrorExt(tif->tif_clientdata,module,"Cannot decode: decoder not correctly initialized");
return 0;
}
if( sp->error_in_raw_data_decoding )
{
return 0;
}
if (sp->libjpeg_jpeg_query_style==0)
{
if (OJPEGDecodeRaw(tif,buf,cc)==0)
@ -832,7 +839,10 @@ OJPEGDecodeRaw(TIFF* tif, uint8* buf, tmsize_t cc)
if (sp->subsampling_convert_state==0)
{
if (jpeg_read_raw_data_encap(sp,&(sp->libjpeg_jpeg_decompress_struct),sp->subsampling_convert_ycbcrimage,sp->subsampling_ver*8)==0)
{
sp->error_in_raw_data_decoding = 1;
return(0);
}
}
oy=sp->subsampling_convert_ybuf+sp->subsampling_convert_state*sp->subsampling_ver*sp->subsampling_convert_ylinelen;
ocb=sp->subsampling_convert_cbbuf+sp->subsampling_convert_state*sp->subsampling_convert_clinelen;
@ -990,7 +1000,6 @@ OJPEGSubsamplingCorrect(TIFF* tif)
OJPEGState* sp=(OJPEGState*)tif->tif_data;
uint8 mh;
uint8 mv;
_TIFFFillStriles( tif );
assert(sp->subsamplingcorrect_done==0);
if ((tif->tif_dir.td_samplesperpixel!=3) || ((tif->tif_dir.td_photometric!=PHOTOMETRIC_YCBCR) &&
@ -1046,7 +1055,7 @@ OJPEGReadHeaderInfo(TIFF* tif)
assert(sp->readheader_done==0);
sp->image_width=tif->tif_dir.td_imagewidth;
sp->image_length=tif->tif_dir.td_imagelength;
if isTiled(tif)
if (isTiled(tif))
{
sp->strile_width=tif->tif_dir.td_tilewidth;
sp->strile_length=tif->tif_dir.td_tilelength;
@ -1056,6 +1065,8 @@ OJPEGReadHeaderInfo(TIFF* tif)
{
sp->strile_width=sp->image_width;
sp->strile_length=tif->tif_dir.td_rowsperstrip;
if( sp->strile_length == (uint32)-1 )
sp->strile_length = sp->image_length;
sp->strile_length_total=sp->image_length;
}
if (tif->tif_dir.td_samplesperpixel==1)
@ -1082,6 +1093,12 @@ OJPEGReadHeaderInfo(TIFF* tif)
}
if (sp->strile_length<sp->image_length)
{
if (((sp->subsampling_hor!=1) && (sp->subsampling_hor!=2) && (sp->subsampling_hor!=4)) ||
((sp->subsampling_ver!=1) && (sp->subsampling_ver!=2) && (sp->subsampling_ver!=4)))
{
TIFFErrorExt(tif->tif_clientdata,module,"Invalid subsampling values");
return(0);
}
if (sp->strile_length%(sp->subsampling_ver*8)!=0)
{
TIFFErrorExt(tif->tif_clientdata,module,"Incompatible vertical subsampling and image strip/tile length");
@ -1197,7 +1214,13 @@ OJPEGWriteHeaderInfo(TIFF* tif)
sp->subsampling_convert_ybuflen=sp->subsampling_convert_ylinelen*sp->subsampling_convert_ylines;
sp->subsampling_convert_cbuflen=sp->subsampling_convert_clinelen*sp->subsampling_convert_clines;
sp->subsampling_convert_ycbcrbuflen=sp->subsampling_convert_ybuflen+2*sp->subsampling_convert_cbuflen;
sp->subsampling_convert_ycbcrbuf=_TIFFmalloc(sp->subsampling_convert_ycbcrbuflen);
/* The calloc is not normally necessary, except in some edge/broken cases */
/* for example for a tiled image of height 1 with a tile height of 1 and subsampling_hor=subsampling_ver=2 */
/* In that case, libjpeg will only fill the 8 first lines of the 16 lines */
/* See https://bugs.chromium.org/p/oss-fuzz/issues/detail?id=16844 */
/* Even if this case is allowed (?), its handling is broken because OJPEGPreDecode() should also likely */
/* reset subsampling_convert_state to 0 when changing tile. */
sp->subsampling_convert_ycbcrbuf=_TIFFcalloc(1, sp->subsampling_convert_ycbcrbuflen);
if (sp->subsampling_convert_ycbcrbuf==0)
{
TIFFErrorExt(tif->tif_clientdata,module,"Out of memory");
@ -1223,10 +1246,11 @@ OJPEGWriteHeaderInfo(TIFF* tif)
*m++=sp->subsampling_convert_cbbuf+n*sp->subsampling_convert_clinelen;
for (n=0; n<sp->subsampling_convert_clines; n++)
*m++=sp->subsampling_convert_crbuf+n*sp->subsampling_convert_clinelen;
sp->subsampling_convert_clinelenout=((sp->strile_width+sp->subsampling_hor-1)/sp->subsampling_hor);
sp->subsampling_convert_clinelenout=sp->strile_width/sp->subsampling_hor + ((sp->strile_width % sp->subsampling_hor) != 0 ? 1 : 0);
sp->subsampling_convert_state=0;
sp->error_in_raw_data_decoding=0;
sp->bytes_per_line=sp->subsampling_convert_clinelenout*(sp->subsampling_ver*sp->subsampling_hor+2);
sp->lines_per_strile=((sp->strile_length+sp->subsampling_ver-1)/sp->subsampling_ver);
sp->lines_per_strile=sp->strile_length/sp->subsampling_ver + ((sp->strile_length % sp->subsampling_ver) != 0 ? 1 : 0);
sp->subsampling_convert_log=1;
}
}
@ -1240,6 +1264,26 @@ OJPEGWriteHeaderInfo(TIFF* tif)
}
if (jpeg_start_decompress_encap(sp,&(sp->libjpeg_jpeg_decompress_struct))==0)
return(0);
if(sp->libjpeg_jpeg_decompress_struct.image_width != sp->strile_width ) {
TIFFErrorExt(tif->tif_clientdata,module,
"jpeg_start_decompress() returned image_width = %d, "
"expected %d",
sp->libjpeg_jpeg_decompress_struct.image_width,
sp->strile_width);
return 0;
}
if(sp->libjpeg_jpeg_decompress_struct.max_h_samp_factor != sp->subsampling_hor ||
sp->libjpeg_jpeg_decompress_struct.max_v_samp_factor != sp->subsampling_ver) {
TIFFErrorExt(tif->tif_clientdata,module,
"jpeg_start_decompress() returned max_h_samp_factor = %d "
"and max_v_samp_factor = %d, expected %d and %d",
sp->libjpeg_jpeg_decompress_struct.max_h_samp_factor,
sp->libjpeg_jpeg_decompress_struct.max_v_samp_factor,
sp->subsampling_hor,
sp->subsampling_ver);
return 0;
}
sp->writeheader_done=1;
return(1);
}
@ -1272,7 +1316,9 @@ OJPEGReadHeaderInfoSec(TIFF* tif)
}
else
{
if ((sp->jpeg_interchange_format_length==0) || (sp->jpeg_interchange_format+sp->jpeg_interchange_format_length>sp->file_size))
if ((sp->jpeg_interchange_format_length==0) ||
(sp->jpeg_interchange_format > TIFF_UINT64_MAX - sp->jpeg_interchange_format_length) ||
(sp->jpeg_interchange_format+sp->jpeg_interchange_format_length>sp->file_size))
sp->jpeg_interchange_format_length=sp->file_size-sp->jpeg_interchange_format;
}
}
@ -1989,32 +2035,30 @@ OJPEGReadBufferFill(OJPEGState* sp)
sp->in_buffer_source=osibsStrile;
break;
case osibsStrile:
if (!_TIFFFillStriles( sp->tif )
|| sp->tif->tif_dir.td_stripoffset == NULL
|| sp->tif->tif_dir.td_stripbytecount == NULL)
return 0;
if (sp->in_buffer_next_strile==sp->in_buffer_strile_count)
sp->in_buffer_source=osibsEof;
else
{
sp->in_buffer_file_pos=sp->tif->tif_dir.td_stripoffset[sp->in_buffer_next_strile];
int err = 0;
sp->in_buffer_file_pos=TIFFGetStrileOffsetWithErr(sp->tif, sp->in_buffer_next_strile, &err);
if( err )
return 0;
if (sp->in_buffer_file_pos!=0)
{
uint64 bytecount = TIFFGetStrileByteCountWithErr(sp->tif, sp->in_buffer_next_strile, &err);
if( err )
return 0;
if (sp->in_buffer_file_pos>=sp->file_size)
sp->in_buffer_file_pos=0;
else if (sp->tif->tif_dir.td_stripbytecount==NULL)
else if (bytecount==0)
sp->in_buffer_file_togo=sp->file_size-sp->in_buffer_file_pos;
else
{
if (sp->tif->tif_dir.td_stripbytecount == 0) {
TIFFErrorExt(sp->tif->tif_clientdata,sp->tif->tif_name,"Strip byte counts are missing");
return(0);
}
sp->in_buffer_file_togo=sp->tif->tif_dir.td_stripbytecount[sp->in_buffer_next_strile];
sp->in_buffer_file_togo=bytecount;
if (sp->in_buffer_file_togo==0)
sp->in_buffer_file_pos=0;
else if (sp->in_buffer_file_pos+sp->in_buffer_file_togo>sp->file_size)
else if (sp->in_buffer_file_pos > TIFF_UINT64_MAX - sp->in_buffer_file_togo ||
sp->in_buffer_file_pos+sp->in_buffer_file_togo>sp->file_size)
sp->in_buffer_file_togo=sp->file_size-sp->in_buffer_file_pos;
}
}

23
3rdparty/libtiff/tif_open.c vendored
Unescape View File

@ -104,6 +104,7 @@ TIFFClientOpen(
} n;
n.a8[0]=1;
n.a8[1]=0;
(void)n;
#ifdef WORDS_BIGENDIAN
assert(n.a16==256);
#else
@ -131,6 +132,7 @@ TIFFClientOpen(
if (!readproc || !writeproc || !seekproc || !closeproc || !sizeproc) {
TIFFErrorExt(clientdata, module,
"One of the client procedures is NULL pointer.");
_TIFFfree(tif);
goto bad2;
}
tif->tif_readproc = readproc;
@ -164,7 +166,7 @@ TIFFClientOpen(
/*
* Process library-specific flags in the open mode string.
* The following flags may be used to control intrinsic library
* behaviour that may or may not be desirable (usually for
* behavior that may or may not be desirable (usually for
* compatibility with some application that claims to support
* TIFF but only supports some brain dead idea of what the
* vendor thinks TIFF is):
@ -181,6 +183,8 @@ TIFFClientOpen(
* 'h' read TIFF header only, do not load the first IFD
* '4' ClassicTIFF for creating a file (default)
* '8' BigTIFF for creating a file
* 'D' enable use of deferred strip/tile offset/bytecount array loading.
* 'O' on-demand loading of values instead of whole array loading (implies D)
*
* The use of the 'l' and 'b' flags is strongly discouraged.
* These flags are provided solely because numerous vendors,
@ -203,7 +207,7 @@ TIFFClientOpen(
* not do right now.
*
* The 'M' and 'm' flags are provided because some virtual memory
* systems exhibit poor behaviour when large images are mapped.
* systems exhibit poor behavior when large images are mapped.
* These options permit clients to control the use of memory-mapped
* files on a per-file basis.
*
@ -262,7 +266,22 @@ TIFFClientOpen(
if (m&O_CREAT)
tif->tif_flags |= TIFF_BIGTIFF;
break;
case 'D':
tif->tif_flags |= TIFF_DEFERSTRILELOAD;
break;
case 'O':
if( m == O_RDONLY )
tif->tif_flags |= (TIFF_LAZYSTRILELOAD | TIFF_DEFERSTRILELOAD);
break;
}
#ifdef DEFER_STRILE_LOAD
/* Compatibility with old DEFER_STRILE_LOAD compilation flag */
/* Probably unneeded, since to the best of my knowledge (E. Rouault) */
/* GDAL was the only user of this, and will now use the new 'D' flag */
tif->tif_flags |= TIFF_DEFERSTRILELOAD;
#endif
/*
* Read in TIFF header.
*/

17
3rdparty/libtiff/tif_pixarlog.c vendored
Unescape View File

@ -634,16 +634,10 @@ PixarLogGuessDataFmt(TIFFDirectory *td)
return guess;
}
#define TIFF_SIZE_T_MAX ((size_t) ~ ((size_t)0))
#define TIFF_TMSIZE_T_MAX (tmsize_t)(TIFF_SIZE_T_MAX >> 1)
static tmsize_t
multiply_ms(tmsize_t m1, tmsize_t m2)
{
assert(m1 >= 0 && m2 >= 0);
if( m1 == 0 || m2 > TIFF_TMSIZE_T_MAX / m1 )
return 0;
return m1 * m2;
return _TIFFMultiplySSize(NULL, m1, m2, NULL);
}
static tmsize_t
@ -1153,7 +1147,7 @@ PixarLogEncode(TIFF* tif, uint8* bp, tmsize_t cc, uint16 s)
llen = sp->stride * td->td_imagewidth;
/* Check against the number of elements (of size uint16) of sp->tbuf */
if( n > (tmsize_t)(td->td_rowsperstrip * llen) )
if( n > ((tmsize_t)td->td_rowsperstrip * llen) )
{
TIFFErrorExt(tif->tif_clientdata, module,
"Too many input bytes provided");
@ -1206,7 +1200,8 @@ PixarLogEncode(TIFF* tif, uint8* bp, tmsize_t cc, uint16 s)
}
if (sp->stream.avail_out == 0) {
tif->tif_rawcc = tif->tif_rawdatasize;
TIFFFlushData1(tif);
if (!TIFFFlushData1(tif))
return 0;
sp->stream.next_out = tif->tif_rawdata;
sp->stream.avail_out = (uInt) tif->tif_rawdatasize; /* this is a safe typecast, as check is made already in PixarLogPreEncode */
}
@ -1236,7 +1231,8 @@ PixarLogPostEncode(TIFF* tif)
if ((tmsize_t)sp->stream.avail_out != tif->tif_rawdatasize) {
tif->tif_rawcc =
tif->tif_rawdatasize - sp->stream.avail_out;
TIFFFlushData1(tif);
if (!TIFFFlushData1(tif))
return 0;
sp->stream.next_out = tif->tif_rawdata;
sp->stream.avail_out = (uInt) tif->tif_rawdatasize; /* this is a safe typecast, as check is made already in PixarLogPreEncode */
}
@ -1404,6 +1400,7 @@ TIFFInitPixarLog(TIFF* tif, int scheme)
PixarLogState* sp;
(void)scheme;
assert(scheme == COMPRESSION_PIXARLOG);
/*

6
3rdparty/libtiff/tif_predict.c vendored
Unescape View File

@ -116,7 +116,7 @@ PredictorSetupDecode(TIFF* tif)
TIFFDirectory* td = &tif->tif_dir;
/* Note: when PredictorSetup() fails, the effets of setupdecode() */
/* will not be "cancelled" so setupdecode() might be robust to */
/* will not be "canceled" so setupdecode() might be robust to */
/* be called several times. */
if (!(*sp->setupdecode)(tif) || !PredictorSetup(tif))
return 0;
@ -270,8 +270,8 @@ PredictorSetupEncode(TIFF* tif)
}
/* Remarks related to C standard compliance in all below functions : */
/* - to avoid any undefined behaviour, we only operate on unsigned types */
/* since the behaviour of "overflows" is defined (wrap over) */
/* - to avoid any undefined behavior, we only operate on unsigned types */
/* since the behavior of "overflows" is defined (wrap over) */
/* - when storing into the byte stream, we explicitly mask with 0xff so */
/* as to make icc -check=conversions happy (not necessary by the standard) */

10
3rdparty/libtiff/tif_print.c vendored
Unescape View File

@ -652,8 +652,6 @@ TIFFPrintDirectory(TIFF* tif, FILE* fd, long flags)
if (tif->tif_tagmethods.printdir)
(*tif->tif_tagmethods.printdir)(tif, fd, flags);
_TIFFFillStriles( tif );
if ((flags & TIFFPRINT_STRIPS) &&
TIFFFieldSet(tif,FIELD_STRIPOFFSETS)) {
uint32 s;
@ -665,13 +663,13 @@ TIFFPrintDirectory(TIFF* tif, FILE* fd, long flags)
#if defined(__WIN32__) && (defined(_MSC_VER) || defined(__MINGW32__))
fprintf(fd, " %3lu: [%8I64u, %8I64u]\n",
(unsigned long) s,
td->td_stripoffset ? (unsigned __int64) td->td_stripoffset[s] : 0,
td->td_stripbytecount ? (unsigned __int64) td->td_stripbytecount[s] : 0);
(unsigned __int64) TIFFGetStrileOffset(tif, s),
(unsigned __int64) TIFFGetStrileByteCount(tif, s));
#else
fprintf(fd, " %3lu: [%8llu, %8llu]\n",
(unsigned long) s,
td->td_stripoffset ? (unsigned long long) td->td_stripoffset[s] : 0,
td->td_stripbytecount ? (unsigned long long) td->td_stripbytecount[s] : 0);
(unsigned long long) TIFFGetStrileOffset(tif, s),
(unsigned long long) TIFFGetStrileByteCount(tif, s));
#endif
}
}

260
3rdparty/libtiff/tif_read.c vendored
Unescape View File

@ -29,9 +29,6 @@
#include "tiffiop.h"
#include <stdio.h>
#define TIFF_SIZE_T_MAX ((size_t) ~ ((size_t)0))
#define TIFF_TMSIZE_T_MAX (tmsize_t)(TIFF_SIZE_T_MAX >> 1)
int TIFFFillStrip(TIFF* tif, uint32 strip);
int TIFFFillTile(TIFF* tif, uint32 tile);
static int TIFFStartStrip(TIFF* tif, uint32 strip);
@ -49,6 +46,8 @@ TIFFReadRawTile1(TIFF* tif, uint32 tile, void* buf, tmsize_t size, const char* m
#define THRESHOLD_MULTIPLIER 10
#define MAX_THRESHOLD (THRESHOLD_MULTIPLIER * THRESHOLD_MULTIPLIER * THRESHOLD_MULTIPLIER * INITIAL_THRESHOLD)
#define TIFF_INT64_MAX ((((int64)0x7FFFFFFF) << 32) | 0xFFFFFFFF)
/* Read 'size' bytes in tif_rawdata buffer starting at offset 'rawdata_offset'
* Returns 1 in case of success, 0 otherwise. */
static int TIFFReadAndRealloc( TIFF* tif, tmsize_t size,
@ -61,6 +60,22 @@ static int TIFFReadAndRealloc( TIFF* tif, tmsize_t size,
#endif
tmsize_t already_read = 0;
#if SIZEOF_SIZE_T != 8
/* On 32 bit processes, if the request is large enough, check against */
/* file size */
if( size > 1000 * 1000 * 1000 )
{
uint64 filesize = TIFFGetFileSize(tif);
if( (uint64)size >= filesize )
{
TIFFErrorExt(tif->tif_clientdata, module,
"Chunk size requested is larger than file size.");
return 0;
}
}
#endif
/* On 64 bit processes, read first a maximum of 1 MB, then 10 MB, etc */
/* so as to avoid allocating too much memory in case the file is too */
/* short. We could ask for the file size, but this might be */
@ -175,17 +190,14 @@ TIFFFillStripPartial( TIFF *tif, int strip, tmsize_t read_ahead, int restart )
tmsize_t to_read;
tmsize_t read_ahead_mod;
/* tmsize_t bytecountm; */
if (!_TIFFFillStriles( tif ) || !tif->tif_dir.td_stripbytecount)
return 0;
/*
* Expand raw data buffer, if needed, to hold data
* strip coming from file (perhaps should set upper
* bound on the size of a buffer we'll use?).
*/
/* bytecountm=(tmsize_t) td->td_stripbytecount[strip]; */
/* bytecountm=(tmsize_t) TIFFGetStrileByteCount(tif, strip); */
/* Not completely sure where the * 2 comes from, but probably for */
/* an exponentional growth strategy of tif_rawdatasize */
@ -229,7 +241,7 @@ TIFFFillStripPartial( TIFF *tif, int strip, tmsize_t read_ahead, int restart )
/*
** Seek to the point in the file where more data should be read.
*/
read_offset = td->td_stripoffset[strip]
read_offset = TIFFGetStrileOffset(tif, strip)
+ tif->tif_rawdataoff + tif->tif_rawdataloaded;
if (!SeekOK(tif, read_offset)) {
@ -246,10 +258,10 @@ TIFFFillStripPartial( TIFF *tif, int strip, tmsize_t read_ahead, int restart )
to_read = read_ahead_mod - unused_data;
else
to_read = tif->tif_rawdatasize - unused_data;
if( (uint64) to_read > td->td_stripbytecount[strip]
if( (uint64) to_read > TIFFGetStrileByteCount(tif, strip)
- tif->tif_rawdataoff - tif->tif_rawdataloaded )
{
to_read = (tmsize_t) td->td_stripbytecount[strip]
to_read = (tmsize_t) TIFFGetStrileByteCount(tif, strip)
- tif->tif_rawdataoff - tif->tif_rawdataloaded;
}
@ -288,7 +300,7 @@ TIFFFillStripPartial( TIFF *tif, int strip, tmsize_t read_ahead, int restart )
/* For JPEG, if there are multiple scans (can generally be known */
/* with the read_ahead used), we need to read the whole strip */
if( tif->tif_dir.td_compression==COMPRESSION_JPEG &&
(uint64)tif->tif_rawcc < td->td_stripbytecount[strip] )
(uint64)tif->tif_rawcc < TIFFGetStrileByteCount(tif, strip) )
{
if( TIFFJPEGIsFullStripRequired(tif) )
{
@ -347,9 +359,7 @@ TIFFSeek(TIFF* tif, uint32 row, uint16 sample )
* read it a few lines at a time?
*/
#if defined(CHUNKY_STRIP_READ_SUPPORT)
if (!_TIFFFillStriles( tif ) || !tif->tif_dir.td_stripbytecount)
return 0;
whole_strip = tif->tif_dir.td_stripbytecount[strip] < 10
whole_strip = TIFFGetStrileByteCount(tif, strip) < 10
|| isMapped(tif);
if( td->td_compression == COMPRESSION_LERC ||
td->td_compression == COMPRESSION_JBIG )
@ -402,7 +412,7 @@ TIFFSeek(TIFF* tif, uint32 row, uint16 sample )
else if( !whole_strip )
{
if( ((tif->tif_rawdata + tif->tif_rawdataloaded) - tif->tif_rawcp) < read_ahead
&& (uint64) tif->tif_rawdataoff+tif->tif_rawdataloaded < td->td_stripbytecount[strip] )
&& (uint64) tif->tif_rawdataoff+tif->tif_rawdataloaded < TIFFGetStrileByteCount(tif, strip) )
{
if( !TIFFFillStripPartial(tif,strip,read_ahead,0) )
return 0;
@ -599,16 +609,11 @@ static tmsize_t
TIFFReadRawStrip1(TIFF* tif, uint32 strip, void* buf, tmsize_t size,
const char* module)
{
TIFFDirectory *td = &tif->tif_dir;
if (!_TIFFFillStriles( tif ))
return ((tmsize_t)(-1));
assert((tif->tif_flags&TIFF_NOREADRAW)==0);
if (!isMapped(tif)) {
tmsize_t cc;
if (!SeekOK(tif, td->td_stripoffset[strip])) {
if (!SeekOK(tif, TIFFGetStrileOffset(tif, strip))) {
TIFFErrorExt(tif->tif_clientdata, module,
"Seek error at scanline %lu, strip %lu",
(unsigned long) tif->tif_row, (unsigned long) strip);
@ -634,8 +639,8 @@ TIFFReadRawStrip1(TIFF* tif, uint32 strip, void* buf, tmsize_t size,
} else {
tmsize_t ma = 0;
tmsize_t n;
if ((td->td_stripoffset[strip] > (uint64)TIFF_TMSIZE_T_MAX)||
((ma=(tmsize_t)td->td_stripoffset[strip])>tif->tif_size))
if ((TIFFGetStrileOffset(tif, strip) > (uint64)TIFF_TMSIZE_T_MAX)||
((ma=(tmsize_t)TIFFGetStrileOffset(tif, strip))>tif->tif_size))
{
n=0;
}
@ -679,12 +684,10 @@ static tmsize_t
TIFFReadRawStripOrTile2(TIFF* tif, uint32 strip_or_tile, int is_strip,
tmsize_t size, const char* module)
{
TIFFDirectory *td = &tif->tif_dir;
assert( !isMapped(tif) );
assert((tif->tif_flags&TIFF_NOREADRAW)==0);
if (!SeekOK(tif, td->td_stripoffset[strip_or_tile])) {
if (!SeekOK(tif, TIFFGetStrileOffset(tif, strip_or_tile))) {
if( is_strip )
{
TIFFErrorExt(tif->tif_clientdata, module,
@ -720,7 +723,7 @@ TIFFReadRawStrip(TIFF* tif, uint32 strip, void* buf, tmsize_t size)
{
static const char module[] = "TIFFReadRawStrip";
TIFFDirectory *td = &tif->tif_dir;
uint64 bytecount;
uint64 bytecount64;
tmsize_t bytecountm;
if (!TIFFCheckRead(tif, 0))
@ -738,31 +741,23 @@ TIFFReadRawStrip(TIFF* tif, uint32 strip, void* buf, tmsize_t size)
"Compression scheme does not support access to raw uncompressed data");
return ((tmsize_t)(-1));
}
bytecount = td->td_stripbytecount[strip];
if ((int64)bytecount <= 0) {
#if defined(__WIN32__) && (defined(_MSC_VER) || defined(__MINGW32__))
TIFFErrorExt(tif->tif_clientdata, module,
"%I64u: Invalid strip byte count, strip %lu",
(unsigned __int64) bytecount,
(unsigned long) strip);
#else
TIFFErrorExt(tif->tif_clientdata, module,
"%llu: Invalid strip byte count, strip %lu",
(unsigned long long) bytecount,
(unsigned long) strip);
#endif
return ((tmsize_t)(-1));
}
bytecountm = (tmsize_t)bytecount;
if ((uint64)bytecountm!=bytecount) {
TIFFErrorExt(tif->tif_clientdata, module, "Integer overflow");
bytecount64 = TIFFGetStrileByteCount(tif, strip);
if (size != (tmsize_t)(-1) && (uint64)size <= bytecount64)
bytecountm = size;
else
bytecountm = _TIFFCastUInt64ToSSize(tif, bytecount64, module);
if( bytecountm == 0 ) {
return ((tmsize_t)(-1));
}
if (size != (tmsize_t)(-1) && size < bytecountm)
bytecountm = size;
return (TIFFReadRawStrip1(tif, strip, buf, bytecountm, module));
}
TIFF_NOSANITIZE_UNSIGNED_INT_OVERFLOW
static uint64 NoSanitizeSubUInt64(uint64 a, uint64 b)
{
return a - b;
}
/*
* Read the specified strip and setup for decoding. The data buffer is
* expanded, as necessary, to hold the strip's data.
@ -773,13 +768,10 @@ TIFFFillStrip(TIFF* tif, uint32 strip)
static const char module[] = "TIFFFillStrip";
TIFFDirectory *td = &tif->tif_dir;
if (!_TIFFFillStriles( tif ) || !tif->tif_dir.td_stripbytecount)
return 0;
if ((tif->tif_flags&TIFF_NOREADRAW)==0)
{
uint64 bytecount = td->td_stripbytecount[strip];
if ((int64)bytecount <= 0) {
uint64 bytecount = TIFFGetStrileByteCount(tif, strip);
if( bytecount == 0 || bytecount > (uint64)TIFF_INT64_MAX ) {
#if defined(__WIN32__) && (defined(_MSC_VER) || defined(__MINGW32__))
TIFFErrorExt(tif->tif_clientdata, module,
"Invalid strip byte count %I64u, strip %lu",
@ -806,7 +798,7 @@ TIFFFillStrip(TIFF* tif, uint32 strip)
(bytecount - 4096) / 10 > (uint64)stripsize )
{
uint64 newbytecount = (uint64)stripsize * 10 + 4096;
if( (int64)newbytecount >= 0 )
if( newbytecount == 0 || newbytecount > (uint64)TIFF_INT64_MAX )
{
#if defined(__WIN32__) && (defined(_MSC_VER) || defined(__MINGW32__))
TIFFWarningExt(tif->tif_clientdata, module,
@ -831,13 +823,13 @@ TIFFFillStrip(TIFF* tif, uint32 strip)
* We must check for overflow, potentially causing
* an OOB read. Instead of simple
*
* td->td_stripoffset[strip]+bytecount > tif->tif_size
* TIFFGetStrileOffset(tif, strip)+bytecount > tif->tif_size
*
* comparison (which can overflow) we do the following
* two comparisons:
*/
if (bytecount > (uint64)tif->tif_size ||
td->td_stripoffset[strip] > (uint64)tif->tif_size - bytecount) {
TIFFGetStrileOffset(tif, strip) > (uint64)tif->tif_size - bytecount) {
/*
* This error message might seem strange, but
* it's what would happen if a read were done
@ -849,7 +841,7 @@ TIFFFillStrip(TIFF* tif, uint32 strip)
"Read error on strip %lu; "
"got %I64u bytes, expected %I64u",
(unsigned long) strip,
(unsigned __int64) tif->tif_size - td->td_stripoffset[strip],
(unsigned __int64) NoSanitizeSubUInt64(tif->tif_size, TIFFGetStrileOffset(tif, strip)),
(unsigned __int64) bytecount);
#else
TIFFErrorExt(tif->tif_clientdata, module,
@ -857,7 +849,7 @@ TIFFFillStrip(TIFF* tif, uint32 strip)
"Read error on strip %lu; "
"got %llu bytes, expected %llu",
(unsigned long) strip,
(unsigned long long) tif->tif_size - td->td_stripoffset[strip],
(unsigned long long) NoSanitizeSubUInt64(tif->tif_size, TIFFGetStrileOffset(tif, strip)),
(unsigned long long) bytecount);
#endif
tif->tif_curstrip = NOSTRIP;
@ -886,7 +878,7 @@ TIFFFillStrip(TIFF* tif, uint32 strip)
}
tif->tif_flags &= ~TIFF_MYBUFFER;
tif->tif_rawdatasize = (tmsize_t)bytecount;
tif->tif_rawdata = tif->tif_base + (tmsize_t)td->td_stripoffset[strip];
tif->tif_rawdata = tif->tif_base + (tmsize_t)TIFFGetStrileOffset(tif, strip);
tif->tif_rawdataoff = 0;
tif->tif_rawdataloaded = (tmsize_t) bytecount;
@ -1101,16 +1093,11 @@ _TIFFReadEncodedTileAndAllocBuffer(TIFF* tif, uint32 tile,
static tmsize_t
TIFFReadRawTile1(TIFF* tif, uint32 tile, void* buf, tmsize_t size, const char* module)
{
TIFFDirectory *td = &tif->tif_dir;
if (!_TIFFFillStriles( tif ))
return ((tmsize_t)(-1));
assert((tif->tif_flags&TIFF_NOREADRAW)==0);
if (!isMapped(tif)) {
tmsize_t cc;
if (!SeekOK(tif, td->td_stripoffset[tile])) {
if (!SeekOK(tif, TIFFGetStrileOffset(tif, tile))) {
TIFFErrorExt(tif->tif_clientdata, module,
"Seek error at row %lu, col %lu, tile %lu",
(unsigned long) tif->tif_row,
@ -1140,9 +1127,9 @@ TIFFReadRawTile1(TIFF* tif, uint32 tile, void* buf, tmsize_t size, const char* m
} else {
tmsize_t ma,mb;
tmsize_t n;
ma=(tmsize_t)td->td_stripoffset[tile];
ma=(tmsize_t)TIFFGetStrileOffset(tif, tile);
mb=ma+size;
if ((td->td_stripoffset[tile] > (uint64)TIFF_TMSIZE_T_MAX)||(ma>tif->tif_size))
if ((TIFFGetStrileOffset(tif, tile) > (uint64)TIFF_TMSIZE_T_MAX)||(ma>tif->tif_size))
n=0;
else if ((mb<ma)||(mb<size)||(mb>tif->tif_size))
n=tif->tif_size-ma;
@ -1198,13 +1185,12 @@ TIFFReadRawTile(TIFF* tif, uint32 tile, void* buf, tmsize_t size)
"Compression scheme does not support access to raw uncompressed data");
return ((tmsize_t)(-1));
}
bytecount64 = td->td_stripbytecount[tile];
if (size != (tmsize_t)(-1) && (uint64)size < bytecount64)
bytecount64 = (uint64)size;
bytecountm = (tmsize_t)bytecount64;
if ((uint64)bytecountm!=bytecount64)
{
TIFFErrorExt(tif->tif_clientdata,module,"Integer overflow");
bytecount64 = TIFFGetStrileByteCount(tif, tile);
if (size != (tmsize_t)(-1) && (uint64)size <= bytecount64)
bytecountm = size;
else
bytecountm = _TIFFCastUInt64ToSSize(tif, bytecount64, module);
if( bytecountm == 0 ) {
return ((tmsize_t)(-1));
}
return (TIFFReadRawTile1(tif, tile, buf, bytecountm, module));
@ -1220,13 +1206,10 @@ TIFFFillTile(TIFF* tif, uint32 tile)
static const char module[] = "TIFFFillTile";
TIFFDirectory *td = &tif->tif_dir;
if (!_TIFFFillStriles( tif ) || !tif->tif_dir.td_stripbytecount)
return 0;
if ((tif->tif_flags&TIFF_NOREADRAW)==0)
{
uint64 bytecount = td->td_stripbytecount[tile];
if ((int64)bytecount <= 0) {
uint64 bytecount = TIFFGetStrileByteCount(tif, tile);
if( bytecount == 0 || bytecount > (uint64)TIFF_INT64_MAX ) {
#if defined(__WIN32__) && (defined(_MSC_VER) || defined(__MINGW32__))
TIFFErrorExt(tif->tif_clientdata, module,
"%I64u: Invalid tile byte count, tile %lu",
@ -1253,7 +1236,7 @@ TIFFFillTile(TIFF* tif, uint32 tile)
(bytecount - 4096) / 10 > (uint64)stripsize )
{
uint64 newbytecount = (uint64)stripsize * 10 + 4096;
if( (int64)newbytecount >= 0 )
if( newbytecount == 0 || newbytecount > (uint64)TIFF_INT64_MAX )
{
#if defined(__WIN32__) && (defined(_MSC_VER) || defined(__MINGW32__))
TIFFWarningExt(tif->tif_clientdata, module,
@ -1278,13 +1261,13 @@ TIFFFillTile(TIFF* tif, uint32 tile)
* We must check for overflow, potentially causing
* an OOB read. Instead of simple
*
* td->td_stripoffset[tile]+bytecount > tif->tif_size
* TIFFGetStrileOffset(tif, tile)+bytecount > tif->tif_size
*
* comparison (which can overflow) we do the following
* two comparisons:
*/
if (bytecount > (uint64)tif->tif_size ||
td->td_stripoffset[tile] > (uint64)tif->tif_size - bytecount) {
TIFFGetStrileOffset(tif, tile) > (uint64)tif->tif_size - bytecount) {
tif->tif_curtile = NOTILE;
return (0);
}
@ -1313,7 +1296,7 @@ TIFFFillTile(TIFF* tif, uint32 tile)
tif->tif_rawdatasize = (tmsize_t)bytecount;
tif->tif_rawdata =
tif->tif_base + (tmsize_t)td->td_stripoffset[tile];
tif->tif_base + (tmsize_t)TIFFGetStrileOffset(tif, tile);
tif->tif_rawdataoff = 0;
tif->tif_rawdataloaded = (tmsize_t) bytecount;
tif->tif_flags |= TIFF_BUFFERMMAP;
@ -1440,9 +1423,6 @@ TIFFStartStrip(TIFF* tif, uint32 strip)
{
TIFFDirectory *td = &tif->tif_dir;
if (!_TIFFFillStriles( tif ) || !tif->tif_dir.td_stripbytecount)
return 0;
if ((tif->tif_flags & TIFF_CODERSETUP) == 0) {
if (!(*tif->tif_setupdecode)(tif))
return (0);
@ -1463,10 +1443,18 @@ TIFFStartStrip(TIFF* tif, uint32 strip)
if( tif->tif_rawdataloaded > 0 )
tif->tif_rawcc = tif->tif_rawdataloaded;
else
tif->tif_rawcc = (tmsize_t)td->td_stripbytecount[strip];
tif->tif_rawcc = (tmsize_t)TIFFGetStrileByteCount(tif, strip);
}
return ((*tif->tif_predecode)(tif,
(uint16)(strip / td->td_stripsperimage)));
if ((*tif->tif_predecode)(tif,
(uint16)(strip / td->td_stripsperimage)) == 0 ) {
/* Needed for example for scanline access, if tif_predecode */
/* fails, and we try to read the same strip again. Without invalidating */
/* tif_curstrip, we'd call tif_decoderow() on a possibly invalid */
/* codec state. */
tif->tif_curstrip = NOSTRIP;
return 0;
}
return 1;
}
/*
@ -1480,9 +1468,6 @@ TIFFStartTile(TIFF* tif, uint32 tile)
TIFFDirectory *td = &tif->tif_dir;
uint32 howmany32;
if (!_TIFFFillStriles( tif ) || !tif->tif_dir.td_stripbytecount)
return 0;
if ((tif->tif_flags & TIFF_CODERSETUP) == 0) {
if (!(*tif->tif_setupdecode)(tif))
return (0);
@ -1513,7 +1498,7 @@ TIFFStartTile(TIFF* tif, uint32 tile)
if( tif->tif_rawdataloaded > 0 )
tif->tif_rawcc = tif->tif_rawdataloaded;
else
tif->tif_rawcc = (tmsize_t)td->td_stripbytecount[tile];
tif->tif_rawcc = (tmsize_t)TIFFGetStrileByteCount(tif, tile);
}
return ((*tif->tif_predecode)(tif,
(uint16)(tile/td->td_stripsperimage)));
@ -1528,13 +1513,100 @@ TIFFCheckRead(TIFF* tif, int tiles)
}
if (tiles ^ isTiled(tif)) {
TIFFErrorExt(tif->tif_clientdata, tif->tif_name, tiles ?
"Can not read tiles from a stripped image" :
"Can not read tiles from a striped image" :
"Can not read scanlines from a tiled image");
return (0);
}
return (1);
}
/* Use the provided input buffer (inbuf, insize) and decompress it into
* (outbuf, outsize).
* This function replaces the use of TIFFReadEncodedStrip()/TIFFReadEncodedTile()
* when the user can provide the buffer for the input data, for example when
* he wants to avoid libtiff to read the strile offset/count values from the
* [Strip|Tile][Offsets/ByteCounts] array.
* inbuf content must be writable (if bit reversal is needed)
* Returns 1 in case of success, 0 otherwise.
*/
int TIFFReadFromUserBuffer(TIFF* tif, uint32 strile,
void* inbuf, tmsize_t insize,
void* outbuf, tmsize_t outsize)
{
static const char module[] = "TIFFReadFromUserBuffer";
TIFFDirectory *td = &tif->tif_dir;
int ret = 1;
uint32 old_tif_flags = tif->tif_flags;
tmsize_t old_rawdatasize = tif->tif_rawdatasize;
void* old_rawdata = tif->tif_rawdata;
if (tif->tif_mode == O_WRONLY) {
TIFFErrorExt(tif->tif_clientdata, tif->tif_name, "File not open for reading");
return 0;
}
if (tif->tif_flags&TIFF_NOREADRAW)
{
TIFFErrorExt(tif->tif_clientdata, module,
"Compression scheme does not support access to raw uncompressed data");
return 0;
}
tif->tif_flags &= ~TIFF_MYBUFFER;
tif->tif_flags |= TIFF_BUFFERMMAP;
tif->tif_rawdatasize = insize;
tif->tif_rawdata = inbuf;
tif->tif_rawdataoff = 0;
tif->tif_rawdataloaded = insize;
if (!isFillOrder(tif, td->td_fillorder) &&
(tif->tif_flags & TIFF_NOBITREV) == 0)
{
TIFFReverseBits(inbuf, insize);
}
if( TIFFIsTiled(tif) )
{
if( !TIFFStartTile(tif, strile) ||
!(*tif->tif_decodetile)(tif, (uint8*) outbuf, outsize,
(uint16)(strile/td->td_stripsperimage)) )
{
ret = 0;
}
}
else
{
uint32 rowsperstrip=td->td_rowsperstrip;
uint32 stripsperplane;
if (rowsperstrip>td->td_imagelength)
rowsperstrip=td->td_imagelength;
stripsperplane= TIFFhowmany_32_maxuint_compat(td->td_imagelength, rowsperstrip);
if( !TIFFStartStrip(tif, strile) ||
!(*tif->tif_decodestrip)(tif, (uint8*) outbuf, outsize,
(uint16)(strile/stripsperplane)) )
{
ret = 0;
}
}
if( ret )
{
(*tif->tif_postdecode)(tif, (uint8*) outbuf, outsize);
}
if (!isFillOrder(tif, td->td_fillorder) &&
(tif->tif_flags & TIFF_NOBITREV) == 0)
{
TIFFReverseBits(inbuf, insize);
}
tif->tif_flags = old_tif_flags;
tif->tif_rawdatasize = old_rawdatasize;
tif->tif_rawdata = old_rawdata;
tif->tif_rawdataoff = 0;
tif->tif_rawdataloaded = 0;
return ret;
}
void
_TIFFNoPostDecode(TIFF* tif, uint8* buf, tmsize_t cc)
{

38
3rdparty/libtiff/tif_strip.c vendored
Unescape View File

@ -129,15 +129,8 @@ TIFFVStripSize(TIFF* tif, uint32 nrows)
{
static const char module[] = "TIFFVStripSize";
uint64 m;
tmsize_t n;
m=TIFFVStripSize64(tif,nrows);
n=(tmsize_t)m;
if ((uint64)n!=m)
{
TIFFErrorExt(tif->tif_clientdata,module,"Integer overflow");
n=0;
}
return(n);
return _TIFFCastUInt64ToSSize(tif, m, module);
}
/*
@ -147,8 +140,7 @@ uint64
TIFFRawStripSize64(TIFF* tif, uint32 strip)
{
static const char module[] = "TIFFRawStripSize64";
TIFFDirectory* td = &tif->tif_dir;
uint64 bytecount = td->td_stripbytecount[strip];
uint64 bytecount = TIFFGetStrileByteCount(tif, strip);
if (bytecount == 0)
{
@ -211,15 +203,8 @@ TIFFStripSize(TIFF* tif)
{
static const char module[] = "TIFFStripSize";
uint64 m;
tmsize_t n;
m=TIFFStripSize64(tif);
n=(tmsize_t)m;
if ((uint64)n!=m)
{
TIFFErrorExt(tif->tif_clientdata,module,"Integer overflow");
n=0;
}
return(n);
return _TIFFCastUInt64ToSSize(tif, m, module);
}
/*
@ -330,14 +315,8 @@ TIFFScanlineSize(TIFF* tif)
{
static const char module[] = "TIFFScanlineSize";
uint64 m;
tmsize_t n;
m=TIFFScanlineSize64(tif);
n=(tmsize_t)m;
if ((uint64)n!=m) {
TIFFErrorExt(tif->tif_clientdata,module,"Integer arithmetic overflow");
n=0;
}
return(n);
return _TIFFCastUInt64ToSSize(tif, m, module);
}
/*
@ -366,15 +345,8 @@ TIFFRasterScanlineSize(TIFF* tif)
{
static const char module[] = "TIFFRasterScanlineSize";
uint64 m;
tmsize_t n;
m=TIFFRasterScanlineSize64(tif);
n=(tmsize_t)m;
if ((uint64)n!=m)
{
TIFFErrorExt(tif->tif_clientdata,module,"Integer arithmetic overflow");
n=0;
}
return(n);
return _TIFFCastUInt64ToSSize(tif, m, module);
}
/* vim: set ts=8 sts=8 sw=8 noet: */

10
3rdparty/libtiff/tif_thunder.c vendored
Unescape View File

@ -122,17 +122,17 @@ ThunderDecode(TIFF* tif, uint8* op, tmsize_t maxpixels)
break;
case THUNDER_2BITDELTAS: /* 2-bit deltas */
if ((delta = ((n >> 4) & 3)) != DELTA2_SKIP)
SETPIXEL(op, lastpixel + twobitdeltas[delta]);
SETPIXEL(op, (unsigned)((int)lastpixel + twobitdeltas[delta]));
if ((delta = ((n >> 2) & 3)) != DELTA2_SKIP)
SETPIXEL(op, lastpixel + twobitdeltas[delta]);
SETPIXEL(op, (unsigned)((int)lastpixel + twobitdeltas[delta]));
if ((delta = (n & 3)) != DELTA2_SKIP)
SETPIXEL(op, lastpixel + twobitdeltas[delta]);
SETPIXEL(op, (unsigned)((int)lastpixel + twobitdeltas[delta]));
break;
case THUNDER_3BITDELTAS: /* 3-bit deltas */
if ((delta = ((n >> 3) & 7)) != DELTA3_SKIP)
SETPIXEL(op, lastpixel + threebitdeltas[delta]);
SETPIXEL(op, (unsigned)((int)lastpixel + threebitdeltas[delta]));
if ((delta = (n & 7)) != DELTA3_SKIP)
SETPIXEL(op, lastpixel + threebitdeltas[delta]);
SETPIXEL(op, (unsigned)((int)lastpixel + threebitdeltas[delta]));
break;
case THUNDER_RAW: /* raw data */
SETPIXEL(op, n);

27
3rdparty/libtiff/tif_tile.c vendored
Unescape View File

@ -181,15 +181,8 @@ TIFFTileRowSize(TIFF* tif)
{
static const char module[] = "TIFFTileRowSize";
uint64 m;
tmsize_t n;
m=TIFFTileRowSize64(tif);
n=(tmsize_t)m;
if ((uint64)n!=m)
{
TIFFErrorExt(tif->tif_clientdata,module,"Integer overflow");
n=0;
}
return(n);
return _TIFFCastUInt64ToSSize(tif, m, module);
}
/*
@ -248,15 +241,8 @@ TIFFVTileSize(TIFF* tif, uint32 nrows)
{
static const char module[] = "TIFFVTileSize";
uint64 m;
tmsize_t n;
m=TIFFVTileSize64(tif,nrows);
n=(tmsize_t)m;
if ((uint64)n!=m)
{
TIFFErrorExt(tif->tif_clientdata,module,"Integer overflow");
n=0;
}
return(n);
return _TIFFCastUInt64ToSSize(tif, m, module);
}
/*
@ -272,15 +258,8 @@ TIFFTileSize(TIFF* tif)
{
static const char module[] = "TIFFTileSize";
uint64 m;
tmsize_t n;
m=TIFFTileSize64(tif);
n=(tmsize_t)m;
if ((uint64)n!=m)
{
TIFFErrorExt(tif->tif_clientdata,module,"Integer overflow");
n=0;
}
return(n);
return _TIFFCastUInt64ToSSize(tif, m, module);
}
/*

2
3rdparty/libtiff/tif_unix.c vendored
Unescape View File

@ -162,7 +162,7 @@ _tiffMapProc(thandle_t fd, void** pbase, toff_t* psize)
{
uint64 size64 = _tiffSizeProc(fd);
tmsize_t sizem = (tmsize_t)size64;
if ((uint64)sizem==size64) {
if (size64 && (uint64)sizem==size64) {
fd_as_handle_union_t fdh;
fdh.h = fd;
*pbase = (void*)

15
3rdparty/libtiff/tif_webp.c vendored
Unescape View File

@ -267,6 +267,12 @@ TWebPPreDecode(TIFF* tif, uint16 s)
segment_height = td->td_rowsperstrip;
}
if( segment_width > 16383 || segment_height > 16383 ) {
TIFFErrorExt(tif->tif_clientdata, module,
"WEBP maximum image dimensions are 16383 x 16383.");
return 0;
}
if( (sp->state & LSTATE_INIT_DECODE) == 0 )
tif->tif_setupdecode(tif);
@ -333,7 +339,7 @@ TWebPSetupEncode(TIFF* tif)
}
/* check bits per sample and data type */
if ((nBitsPerSample != 8) && (sampleFormat != 1)) {
if ((nBitsPerSample != 8) || (sampleFormat != SAMPLEFORMAT_UINT)) {
TIFFErrorExt(tif->tif_clientdata, module,
"WEBP driver requires 8 bit unsigned data");
return 0;
@ -356,7 +362,7 @@ TWebPSetupEncode(TIFF* tif)
}
if (!WebPConfigInitInternal(&sp->sEncoderConfig, WEBP_PRESET_DEFAULT,
sp->quality_level,
(float)sp->quality_level,
WEBP_ENCODER_ABI_VERSION)) {
TIFFErrorExt(tif->tif_clientdata, module,
"Error creating WebP encoder configuration.");
@ -579,7 +585,7 @@ TWebPVSetField(TIFF* tif, uint32 tag, va_list ap)
#if WEBP_ENCODER_ABI_VERSION >= 0x0100
sp->lossless = va_arg(ap, int);
if (sp->lossless){
sp->quality_level = 100.0f;
sp->quality_level = 100;
}
return 1;
#else
@ -628,6 +634,7 @@ TIFFInitWebP(TIFF* tif, int scheme)
static const char module[] = "TIFFInitWebP";
WebPState* sp;
(void)scheme;
assert( scheme == COMPRESSION_WEBP );
/*
@ -656,7 +663,7 @@ TIFFInitWebP(TIFF* tif, int scheme)
tif->tif_tagmethods.vsetfield = TWebPVSetField; /* hook for codec tags */
/* Default values for codec-specific fields */
sp->quality_level = 75.0f; /* default comp. level */
sp->quality_level = 75; /* default comp. level */
sp->lossless = 0; /* default to false */
sp->state = 0;
sp->nSamples = 0;

60
3rdparty/libtiff/tif_win32.c vendored
Unescape View File

@ -27,33 +27,37 @@
* Scott Wagner (wagner@itek.com), Itek Graphix, Rochester, NY USA
*/
/*
CreateFileA/CreateFileW return type 'HANDLE'.
thandle_t is declared like
DECLARE_HANDLE(thandle_t);
#include "tiffiop.h"
in tiffio.h.
#include <windows.h>
Windows (from winnt.h) DECLARE_HANDLE logic looks like
/*
CreateFileA/CreateFileW return type 'HANDLE' while TIFFFdOpen() takes 'int',
which is formally incompatible and can even seemingly be of different size:
HANDLE is 64 bit under Win64, while int is still 32 bits there.
#ifdef STRICT
typedef void *HANDLE;
#define DECLARE_HANDLE(name) struct name##__ { int unused; }; typedef struct name##__ *name
#else
typedef PVOID HANDLE;
#define DECLARE_HANDLE(name) typedef HANDLE name
#endif
However, only the lower 32 bits of a HANDLE are significant under Win64 as,
for interoperability reasons, they must have the same values in 32- and
64-bit programs running on the same system, see
See http://bugzilla.maptools.org/show_bug.cgi?id=1941 for problems in WIN64
builds resulting from this. Unfortunately, the proposed patch was lost.
https://docs.microsoft.com/en-us/windows/win32/winprog64/interprocess-communication
Because of this, it is safe to define the following trivial functions for
casting between ints and HANDLEs, which are only really needed to avoid
compiler warnings (and, perhaps, to make the code slightly more clear).
Note that using the intermediate cast to "intptr_t" is crucial for warning
avoidance, as this integer type has the same size as HANDLE in all builds.
*/
#include "tiffiop.h"
#include <windows.h>
static inline thandle_t thandle_from_int(int ifd)
{
return (thandle_t)(intptr_t)ifd;
}
static inline int thandle_to_int(thandle_t fd)
{
return (int)(intptr_t)fd;
}
static tmsize_t
_tiffReadProc(thandle_t fd, void* buf, tmsize_t size)
@ -151,9 +155,11 @@ _tiffCloseProc(thandle_t fd)
static uint64
_tiffSizeProc(thandle_t fd)
{
ULARGE_INTEGER m;
m.LowPart=GetFileSize(fd,&m.HighPart);
return(m.QuadPart);
LARGE_INTEGER m;
if (GetFileSizeEx(fd,&m))
return(m.QuadPart);
else
return(0);
}
static int
@ -185,7 +191,7 @@ _tiffMapProc(thandle_t fd, void** pbase, toff_t* psize)
size = _tiffSizeProc(fd);
sizem = (tmsize_t)size;
if ((uint64)sizem!=size)
if (!size || (uint64)sizem!=size)
return (0);
/* By passing in 0 for the maximum file size, it specifies that we
@ -237,7 +243,7 @@ TIFFFdOpen(int ifd, const char* name, const char* mode)
break;
}
}
tif = TIFFClientOpen(name, mode, (thandle_t)ifd, /* FIXME: WIN64 cast to pointer warning */
tif = TIFFClientOpen(name, mode, thandle_from_int(ifd),
_tiffReadProc, _tiffWriteProc,
_tiffSeekProc, _tiffCloseProc, _tiffSizeProc,
fSuppressMap ? _tiffDummyMapProc : _tiffMapProc,
@ -282,7 +288,7 @@ TIFFOpen(const char* name, const char* mode)
return ((TIFF *)0);
}
tif = TIFFFdOpen((int)fd, name, mode); /* FIXME: WIN64 cast from pointer to int warning */
tif = TIFFFdOpen(thandle_to_int(fd), name, mode);
if(!tif)
CloseHandle(fd);
return tif;
@ -337,7 +343,7 @@ TIFFOpenW(const wchar_t* name, const char* mode)
NULL, NULL);
}
tif = TIFFFdOpen((int)fd, /* FIXME: WIN64 cast from pointer to int warning */
tif = TIFFFdOpen(thandle_to_int(fd),
(mbname != NULL) ? mbname : "<unknown>", mode);
if(!tif)
CloseHandle(fd);

149
3rdparty/libtiff/tif_write.c vendored
Unescape View File

@ -128,10 +128,10 @@ TIFFWriteScanline(TIFF* tif, void* buf, uint32 row, uint16 sample)
tif->tif_rawcc = 0;
tif->tif_rawcp = tif->tif_rawdata;
if( td->td_stripbytecount[strip] > 0 )
if( td->td_stripbytecount_p[strip] > 0 )
{
/* if we are writing over existing tiles, zero length */
td->td_stripbytecount[strip] = 0;
td->td_stripbytecount_p[strip] = 0;
/* this forces TIFFAppendToStrip() to do a seek */
tif->tif_curoff = 0;
@ -176,6 +176,32 @@ TIFFWriteScanline(TIFF* tif, void* buf, uint32 row, uint16 sample)
return (status);
}
/* Make sure that at the first attempt of rewriting a tile/strip, we will have */
/* more bytes available in the output buffer than the previous byte count, */
/* so that TIFFAppendToStrip() will detect the overflow when it is called the first */
/* time if the new compressed tile is bigger than the older one. (GDAL #4771) */
static int _TIFFReserveLargeEnoughWriteBuffer(TIFF* tif, uint32 strip_or_tile)
{
TIFFDirectory *td = &tif->tif_dir;
if( td->td_stripbytecount_p[strip_or_tile] > 0 )
{
/* The +1 is to ensure at least one extra bytes */
/* The +4 is because the LZW encoder flushes 4 bytes before the limit */
uint64 safe_buffer_size = (uint64)(td->td_stripbytecount_p[strip_or_tile] + 1 + 4);
if( tif->tif_rawdatasize <= (tmsize_t)safe_buffer_size )
{
if( !(TIFFWriteBufferSetup(tif, NULL,
(tmsize_t)TIFFroundup_64(safe_buffer_size, 1024))) )
return 0;
}
/* Force TIFFAppendToStrip() to consider placing data at end
of file. */
tif->tif_curoff = 0;
}
return 1;
}
/*
* Encode the supplied data and write it to the
* specified strip.
@ -222,6 +248,13 @@ TIFFWriteEncodedStrip(TIFF* tif, uint32 strip, void* data, tmsize_t cc)
tif->tif_flags |= TIFF_BUF4WRITE;
tif->tif_curstrip = strip;
if( !_TIFFReserveLargeEnoughWriteBuffer(tif, strip) ) {
return ((tmsize_t)(-1));
}
tif->tif_rawcc = 0;
tif->tif_rawcp = tif->tif_rawdata;
if (td->td_stripsperimage == 0) {
TIFFErrorExt(tif->tif_clientdata, module, "Zero strips per image");
return ((tmsize_t) -1);
@ -234,27 +267,6 @@ TIFFWriteEncodedStrip(TIFF* tif, uint32 strip, void* data, tmsize_t cc)
tif->tif_flags |= TIFF_CODERSETUP;
}
if( td->td_stripbytecount[strip] > 0 )
{
/* Make sure that at the first attempt of rewriting the tile, we will have */
/* more bytes available in the output buffer than the previous byte count, */
/* so that TIFFAppendToStrip() will detect the overflow when it is called the first */
/* time if the new compressed tile is bigger than the older one. (GDAL #4771) */
if( tif->tif_rawdatasize <= (tmsize_t)td->td_stripbytecount[strip] )
{
if( !(TIFFWriteBufferSetup(tif, NULL,
(tmsize_t)TIFFroundup_64((uint64)(td->td_stripbytecount[strip] + 1), 1024))) )
return ((tmsize_t)(-1));
}
/* Force TIFFAppendToStrip() to consider placing data at end
of file. */
tif->tif_curoff = 0;
}
tif->tif_rawcc = 0;
tif->tif_rawcp = tif->tif_rawdata;
tif->tif_flags &= ~TIFF_POSTENCODE;
/* shortcut to avoid an extra memcpy() */
@ -402,22 +414,8 @@ TIFFWriteEncodedTile(TIFF* tif, uint32 tile, void* data, tmsize_t cc)
tif->tif_flags |= TIFF_BUF4WRITE;
tif->tif_curtile = tile;
if( td->td_stripbytecount[tile] > 0 )
{
/* Make sure that at the first attempt of rewriting the tile, we will have */
/* more bytes available in the output buffer than the previous byte count, */
/* so that TIFFAppendToStrip() will detect the overflow when it is called the first */
/* time if the new compressed tile is bigger than the older one. (GDAL #4771) */
if( tif->tif_rawdatasize <= (tmsize_t) td->td_stripbytecount[tile] )
{
if( !(TIFFWriteBufferSetup(tif, NULL,
(tmsize_t)TIFFroundup_64((uint64)(td->td_stripbytecount[tile] + 1), 1024))) )
return ((tmsize_t)(-1));
}
/* Force TIFFAppendToStrip() to consider placing data at end
of file. */
tif->tif_curoff = 0;
if( !_TIFFReserveLargeEnoughWriteBuffer(tif, tile) ) {
return ((tmsize_t)(-1));
}
tif->tif_rawcc = 0;
@ -535,22 +533,29 @@ TIFFSetupStrips(TIFF* tif)
isUnspecified(tif, FIELD_ROWSPERSTRIP) ?
td->td_samplesperpixel : TIFFNumberOfStrips(tif);
td->td_nstrips = td->td_stripsperimage;
/* TIFFWriteDirectoryTagData has a limitation to 0x80000000U bytes */
if( td->td_nstrips >= 0x80000000U / ((tif->tif_flags&TIFF_BIGTIFF)?0x8U:0x4U) )
{
TIFFErrorExt(tif->tif_clientdata, "TIFFSetupStrips",
"Too large Strip/Tile Offsets/ByteCounts arrays");
return 0;
}
if (td->td_planarconfig == PLANARCONFIG_SEPARATE)
td->td_stripsperimage /= td->td_samplesperpixel;
td->td_stripoffset = (uint64 *)
td->td_stripoffset_p = (uint64 *)
_TIFFCheckMalloc(tif, td->td_nstrips, sizeof (uint64),
"for \"StripOffsets\" array");
td->td_stripbytecount = (uint64 *)
td->td_stripbytecount_p = (uint64 *)
_TIFFCheckMalloc(tif, td->td_nstrips, sizeof (uint64),
"for \"StripByteCounts\" array");
if (td->td_stripoffset == NULL || td->td_stripbytecount == NULL)
if (td->td_stripoffset_p == NULL || td->td_stripbytecount_p == NULL)
return (0);
/*
* Place data at the end-of-file
* (by setting offsets to zero).
*/
_TIFFmemset(td->td_stripoffset, 0, td->td_nstrips*sizeof (uint64));
_TIFFmemset(td->td_stripbytecount, 0, td->td_nstrips*sizeof (uint64));
_TIFFmemset(td->td_stripoffset_p, 0, td->td_nstrips*sizeof (uint64));
_TIFFmemset(td->td_stripbytecount_p, 0, td->td_nstrips*sizeof (uint64));
TIFFSetFieldBit(tif, FIELD_STRIPOFFSETS);
TIFFSetFieldBit(tif, FIELD_STRIPBYTECOUNTS);
return (1);
@ -572,7 +577,7 @@ TIFFWriteCheck(TIFF* tif, int tiles, const char* module)
}
if (tiles ^ isTiled(tif)) {
TIFFErrorExt(tif->tif_clientdata, module, tiles ?
"Can not write tiles to a stripped image" :
"Can not write tiles to a striped image" :
"Can not write scanlines to a tiled image");
return (0);
}
@ -610,7 +615,7 @@ TIFFWriteCheck(TIFF* tif, int tiles, const char* module)
return (0);
}
}
if (tif->tif_dir.td_stripoffset == NULL && !TIFFSetupStrips(tif)) {
if (tif->tif_dir.td_stripoffset_p == NULL && !TIFFSetupStrips(tif)) {
tif->tif_dir.td_nstrips = 0;
TIFFErrorExt(tif->tif_clientdata, module, "No space for %s arrays",
isTiled(tif) ? "tile" : "strip");
@ -628,6 +633,20 @@ TIFFWriteCheck(TIFF* tif, int tiles, const char* module)
if (tif->tif_scanlinesize == 0)
return (0);
tif->tif_flags |= TIFF_BEENWRITING;
if( tif->tif_dir.td_stripoffset_entry.tdir_tag != 0 &&
tif->tif_dir.td_stripoffset_entry.tdir_count == 0 &&
tif->tif_dir.td_stripoffset_entry.tdir_type == 0 &&
tif->tif_dir.td_stripoffset_entry.tdir_offset.toff_long8 == 0 &&
tif->tif_dir.td_stripbytecount_entry.tdir_tag != 0 &&
tif->tif_dir.td_stripbytecount_entry.tdir_count == 0 &&
tif->tif_dir.td_stripbytecount_entry.tdir_type == 0 &&
tif->tif_dir.td_stripbytecount_entry.tdir_offset.toff_long8 == 0 &&
!(tif->tif_flags & TIFF_DIRTYDIRECT) )
{
TIFFForceStrileArrayWriting(tif);
}
return (1);
}
@ -649,6 +668,10 @@ TIFFWriteBufferSetup(TIFF* tif, void* bp, tmsize_t size)
if (size == (tmsize_t)(-1)) {
size = (isTiled(tif) ?
tif->tif_tilesize : TIFFStripSize(tif));
/* Adds 10% margin for cases where compression would expand a bit */
if( size < TIFF_TMSIZE_T_MAX - size / 10 )
size += size / 10;
/*
* Make raw data buffer at least 8K
*/
@ -684,9 +707,9 @@ TIFFGrowStrips(TIFF* tif, uint32 delta, const char* module)
uint64* new_stripbytecount;
assert(td->td_planarconfig == PLANARCONFIG_CONTIG);
new_stripoffset = (uint64*)_TIFFrealloc(td->td_stripoffset,
new_stripoffset = (uint64*)_TIFFrealloc(td->td_stripoffset_p,
(td->td_nstrips + delta) * sizeof (uint64));
new_stripbytecount = (uint64*)_TIFFrealloc(td->td_stripbytecount,
new_stripbytecount = (uint64*)_TIFFrealloc(td->td_stripbytecount_p,
(td->td_nstrips + delta) * sizeof (uint64));
if (new_stripoffset == NULL || new_stripbytecount == NULL) {
if (new_stripoffset)
@ -697,11 +720,11 @@ TIFFGrowStrips(TIFF* tif, uint32 delta, const char* module)
TIFFErrorExt(tif->tif_clientdata, module, "No space to expand strip arrays");
return (0);
}
td->td_stripoffset = new_stripoffset;
td->td_stripbytecount = new_stripbytecount;
_TIFFmemset(td->td_stripoffset + td->td_nstrips,
td->td_stripoffset_p = new_stripoffset;
td->td_stripbytecount_p = new_stripbytecount;
_TIFFmemset(td->td_stripoffset_p + td->td_nstrips,
0, delta*sizeof (uint64));
_TIFFmemset(td->td_stripbytecount + td->td_nstrips,
_TIFFmemset(td->td_stripbytecount_p + td->td_nstrips,
0, delta*sizeof (uint64));
td->td_nstrips += delta;
tif->tif_flags |= TIFF_DIRTYDIRECT;
@ -720,12 +743,12 @@ TIFFAppendToStrip(TIFF* tif, uint32 strip, uint8* data, tmsize_t cc)
uint64 m;
int64 old_byte_count = -1;
if (td->td_stripoffset[strip] == 0 || tif->tif_curoff == 0) {
if (td->td_stripoffset_p[strip] == 0 || tif->tif_curoff == 0) {
assert(td->td_nstrips > 0);
if( td->td_stripbytecount[strip] != 0
&& td->td_stripoffset[strip] != 0
&& td->td_stripbytecount[strip] >= (uint64) cc )
if( td->td_stripbytecount_p[strip] != 0
&& td->td_stripoffset_p[strip] != 0
&& td->td_stripbytecount_p[strip] >= (uint64) cc )
{
/*
* There is already tile data on disk, and the new tile
@ -734,7 +757,7 @@ TIFFAppendToStrip(TIFF* tif, uint32 strip, uint8* data, tmsize_t cc)
* more data to append to this strip before we are done
* depending on how we are getting called.
*/
if (!SeekOK(tif, td->td_stripoffset[strip])) {
if (!SeekOK(tif, td->td_stripoffset_p[strip])) {
TIFFErrorExt(tif->tif_clientdata, module,
"Seek error at scanline %lu",
(unsigned long)tif->tif_row);
@ -747,17 +770,17 @@ TIFFAppendToStrip(TIFF* tif, uint32 strip, uint8* data, tmsize_t cc)
* Seek to end of file, and set that as our location to
* write this strip.
*/
td->td_stripoffset[strip] = TIFFSeekFile(tif, 0, SEEK_END);
td->td_stripoffset_p[strip] = TIFFSeekFile(tif, 0, SEEK_END);
tif->tif_flags |= TIFF_DIRTYSTRIP;
}
tif->tif_curoff = td->td_stripoffset[strip];
tif->tif_curoff = td->td_stripoffset_p[strip];
/*
* We are starting a fresh strip/tile, so set the size to zero.
*/
old_byte_count = td->td_stripbytecount[strip];
td->td_stripbytecount[strip] = 0;
old_byte_count = td->td_stripbytecount_p[strip];
td->td_stripbytecount_p[strip] = 0;
}
m = tif->tif_curoff+cc;
@ -774,9 +797,9 @@ TIFFAppendToStrip(TIFF* tif, uint32 strip, uint8* data, tmsize_t cc)
return (0);
}
tif->tif_curoff = m;
td->td_stripbytecount[strip] += cc;
td->td_stripbytecount_p[strip] += cc;
if( (int64) td->td_stripbytecount[strip] != old_byte_count )
if( (int64) td->td_stripbytecount_p[strip] != old_byte_count )
tif->tif_flags |= TIFF_DIRTYSTRIP;
return (1);

280
3rdparty/libtiff/tif_zip.c vendored
Unescape View File

@ -29,24 +29,22 @@
*
* ZIP (aka Deflate) Compression Support
*
* This file is simply an interface to the zlib library written by
* This file is an interface to the zlib library written by
* Jean-loup Gailly and Mark Adler. You must use version 1.0 or later
* of the library: this code assumes the 1.0 API and also depends on
* the ability to write the zlib header multiple times (one per strip)
* which was not possible with versions prior to 0.95. Note also that
* older versions of this codec avoided this bug by suppressing the header
* entirely. This means that files written with the old library cannot
* be read; they should be converted to a different compression scheme
* and then reconverted.
* of the library.
*
* The data format used by the zlib library is described in the files
* zlib-3.1.doc, deflate-1.1.doc and gzip-4.1.doc, available in the
* directory ftp://ftp.uu.net/pub/archiving/zip/doc. The library was
* last found at ftp://ftp.uu.net/pub/archiving/zip/zlib/zlib-0.99.tar.gz.
* Optionally, libdeflate (https://github.com/ebiggers/libdeflate) may be used
* to do the compression and decompression, but only for whole strips and tiles.
* For scanline access, zlib will be sued as a fallback.
*/
#include "tif_predict.h"
#include "zlib.h"
#if LIBDEFLATE_SUPPORT
#include "libdeflate.h"
#endif
#define LIBDEFLATE_MAX_COMPRESSION_LEVEL 12
#include <stdio.h>
/*
@ -70,6 +68,12 @@ typedef struct {
z_stream stream;
int zipquality; /* compression level */
int state; /* state flags */
int subcodec; /* DEFLATE_SUBCODEC_ZLIB or DEFLATE_SUBCODEC_LIBDEFLATE */
#if LIBDEFLATE_SUPPORT
int libdeflate_state; /* -1 = until first time ZIPEncode() / ZIPDecode() is called, 0 = use zlib, 1 = use libdeflate */
struct libdeflate_decompressor* libdeflate_dec;
struct libdeflate_compressor* libdeflate_enc;
#endif
#define ZSTATE_INIT_DECODE 0x01
#define ZSTATE_INIT_ENCODE 0x02
@ -132,6 +136,9 @@ ZIPPreDecode(TIFF* tif, uint16 s)
if( (sp->state & ZSTATE_INIT_DECODE) == 0 )
tif->tif_setupdecode( tif );
#if LIBDEFLATE_SUPPORT
sp->libdeflate_state = -1;
#endif
sp->stream.next_in = tif->tif_rawdata;
assert(sizeof(sp->stream.avail_in)==4); /* if this assert gets raised,
we need to simplify this code to reflect a ZLib that is likely updated
@ -151,6 +158,77 @@ ZIPDecode(TIFF* tif, uint8* op, tmsize_t occ, uint16 s)
assert(sp != NULL);
assert(sp->state == ZSTATE_INIT_DECODE);
#if LIBDEFLATE_SUPPORT
if( sp->libdeflate_state == 1 )
return 0;
/* If we have libdeflate support and we are asked to read a whole */
/* strip/tile, then go for using it */
do {
TIFFDirectory *td = &tif->tif_dir;
if( sp->libdeflate_state == 0 )
break;
if( sp->subcodec == DEFLATE_SUBCODEC_ZLIB )
break;
/* Check if we are in the situation where we can use libdeflate */
if (isTiled(tif)) {
if( TIFFTileSize64(tif) != (uint64)occ )
break;
} else {
uint32 strip_height = td->td_imagelength - tif->tif_row;
if (strip_height > td->td_rowsperstrip)
strip_height = td->td_rowsperstrip;
if( TIFFVStripSize64(tif, strip_height) != (uint64)occ )
break;
}
/* Check for overflow */
if( (size_t)tif->tif_rawcc != (uint64)tif->tif_rawcc )
break;
if( (size_t)occ != (uint64)occ )
break;
/* Go for decompression using libdeflate */
{
enum libdeflate_result res;
if( sp->libdeflate_dec == NULL )
{
sp->libdeflate_dec = libdeflate_alloc_decompressor();
if( sp->libdeflate_dec == NULL )
{
break;
}
}
sp->libdeflate_state = 1;
res = libdeflate_zlib_decompress(
sp->libdeflate_dec, tif->tif_rawcp, (size_t)tif->tif_rawcc, op, (size_t)occ, NULL);
tif->tif_rawcp += tif->tif_rawcc;
tif->tif_rawcc = 0;
/* We accept LIBDEFLATE_INSUFFICIENT_SPACE has a return */
/* There are odd files in the wild where the last strip, when */
/* it is smaller in height than td_rowsperstrip, actually contains */
/* data for td_rowsperstrip lines. Just ignore that silently. */
if( res != LIBDEFLATE_SUCCESS &&
res != LIBDEFLATE_INSUFFICIENT_SPACE )
{
TIFFErrorExt(tif->tif_clientdata, module,
"Decoding error at scanline %lu",
(unsigned long) tif->tif_row);
return 0;
}
return 1;
}
} while(0);
sp->libdeflate_state = 0;
#endif /* LIBDEFLATE_SUPPORT */
sp->stream.next_in = tif->tif_rawcp;
sp->stream.next_out = op;
@ -198,6 +276,7 @@ ZIPSetupEncode(TIFF* tif)
{
static const char module[] = "ZIPSetupEncode";
ZIPState* sp = EncoderState(tif);
int cappedQuality;
assert(sp != NULL);
if (sp->state & ZSTATE_INIT_DECODE) {
@ -205,7 +284,11 @@ ZIPSetupEncode(TIFF* tif)
sp->state = 0;
}
if (deflateInit(&sp->stream, sp->zipquality) != Z_OK) {
cappedQuality = sp->zipquality;
if( cappedQuality > Z_BEST_COMPRESSION )
cappedQuality = Z_BEST_COMPRESSION;
if (deflateInit(&sp->stream, cappedQuality) != Z_OK) {
TIFFErrorExt(tif->tif_clientdata, module, "%s", SAFE_MSG(sp));
return (0);
} else {
@ -227,6 +310,9 @@ ZIPPreEncode(TIFF* tif, uint16 s)
if( sp->state != ZSTATE_INIT_ENCODE )
tif->tif_setupencode( tif );
#if LIBDEFLATE_SUPPORT
sp->libdeflate_state = -1;
#endif
sp->stream.next_out = tif->tif_rawdata;
assert(sizeof(sp->stream.avail_out)==4); /* if this assert gets raised,
we need to simplify this code to reflect a ZLib that is likely updated
@ -249,6 +335,95 @@ ZIPEncode(TIFF* tif, uint8* bp, tmsize_t cc, uint16 s)
assert(sp->state == ZSTATE_INIT_ENCODE);
(void) s;
#if LIBDEFLATE_SUPPORT
if( sp->libdeflate_state == 1 )
return 0;
/* If we have libdeflate support and we are asked to write a whole */
/* strip/tile, then go for using it */
do {
TIFFDirectory *td = &tif->tif_dir;
if( sp->libdeflate_state == 0 )
break;
if( sp->subcodec == DEFLATE_SUBCODEC_ZLIB )
break;
/* Libdeflate does not support the 0-compression level */
if( sp->zipquality == Z_NO_COMPRESSION )
break;
/* Check if we are in the situation where we can use libdeflate */
if (isTiled(tif)) {
if( TIFFTileSize64(tif) != (uint64)cc )
break;
} else {
uint32 strip_height = td->td_imagelength - tif->tif_row;
if (strip_height > td->td_rowsperstrip)
strip_height = td->td_rowsperstrip;
if( TIFFVStripSize64(tif, strip_height) != (uint64)cc )
break;
}
/* Check for overflow */
if( (size_t)tif->tif_rawdatasize != (uint64)tif->tif_rawdatasize )
break;
if( (size_t)cc != (uint64)cc )
break;
/* Go for compression using libdeflate */
{
size_t nCompressedBytes;
if( sp->libdeflate_enc == NULL )
{
/* To get results as good as zlib, we asked for an extra */
/* level of compression */
sp->libdeflate_enc = libdeflate_alloc_compressor(
sp->zipquality == Z_DEFAULT_COMPRESSION ? 7 :
sp->zipquality >= 6 && sp->zipquality <= 9 ? sp->zipquality + 1 :
sp->zipquality);
if( sp->libdeflate_enc == NULL )
{
TIFFErrorExt(tif->tif_clientdata, module,
"Cannot allocate compressor");
break;
}
}
/* Make sure the output buffer is large enough for the worse case. */
/* In TIFFWriteBufferSetup(), when libtiff allocates the buffer */
/* we've taken a 10% margin over the uncompressed size, which should */
/* be large enough even for the the worse case scenario. */
if( libdeflate_zlib_compress_bound(sp->libdeflate_enc, (size_t)cc) >
(size_t)tif->tif_rawdatasize)
{
break;
}
sp->libdeflate_state = 1;
nCompressedBytes = libdeflate_zlib_compress(
sp->libdeflate_enc, bp, (size_t)cc, tif->tif_rawdata, (size_t)tif->tif_rawdatasize);
if( nCompressedBytes == 0 )
{
TIFFErrorExt(tif->tif_clientdata, module,
"Encoder error at scanline %lu",
(unsigned long) tif->tif_row);
return 0;
}
tif->tif_rawcc = nCompressedBytes;
if( !TIFFFlushData1(tif) )
return 0;
return 1;
}
} while(0);
sp->libdeflate_state = 0;
#endif /* LIBDEFLATE_SUPPORT */
sp->stream.next_in = bp;
assert(sizeof(sp->stream.avail_in)==4); /* if this assert gets raised,
we need to simplify this code to reflect a ZLib that is likely updated
@ -265,7 +440,8 @@ ZIPEncode(TIFF* tif, uint8* bp, tmsize_t cc, uint16 s)
}
if (sp->stream.avail_out == 0) {
tif->tif_rawcc = tif->tif_rawdatasize;
TIFFFlushData1(tif);
if (!TIFFFlushData1(tif))
return 0;
sp->stream.next_out = tif->tif_rawdata;
sp->stream.avail_out = (uint64)tif->tif_rawdatasize <= 0xFFFFFFFFU ? (uInt)tif->tif_rawdatasize : 0xFFFFFFFFU;
}
@ -285,6 +461,11 @@ ZIPPostEncode(TIFF* tif)
ZIPState *sp = EncoderState(tif);
int state;
#if LIBDEFLATE_SUPPORT
if( sp->libdeflate_state == 1 )
return 1;
#endif
sp->stream.avail_in = 0;
do {
state = deflate(&sp->stream, Z_FINISH);
@ -294,7 +475,8 @@ ZIPPostEncode(TIFF* tif)
if ((tmsize_t)sp->stream.avail_out != tif->tif_rawdatasize)
{
tif->tif_rawcc = tif->tif_rawdatasize - sp->stream.avail_out;
TIFFFlushData1(tif);
if (!TIFFFlushData1(tif))
return 0;
sp->stream.next_out = tif->tif_rawdata;
sp->stream.avail_out = (uint64)tif->tif_rawdatasize <= 0xFFFFFFFFU ? (uInt)tif->tif_rawdatasize : 0xFFFFFFFFU;
}
@ -327,6 +509,14 @@ ZIPCleanup(TIFF* tif)
inflateEnd(&sp->stream);
sp->state = 0;
}
#if LIBDEFLATE_SUPPORT
if( sp->libdeflate_dec )
libdeflate_free_decompressor(sp->libdeflate_dec);
if( sp->libdeflate_enc )
libdeflate_free_compressor(sp->libdeflate_enc);
#endif
_TIFFfree(sp);
tif->tif_data = NULL;
@ -342,15 +532,55 @@ ZIPVSetField(TIFF* tif, uint32 tag, va_list ap)
switch (tag) {
case TIFFTAG_ZIPQUALITY:
sp->zipquality = (int) va_arg(ap, int);
if ( sp->state&ZSTATE_INIT_ENCODE ) {
if( sp->zipquality < Z_DEFAULT_COMPRESSION ||
sp->zipquality > LIBDEFLATE_MAX_COMPRESSION_LEVEL ) {
TIFFErrorExt(tif->tif_clientdata, module,
"Invalid ZipQuality value. Should be in [-1,%d] range",
LIBDEFLATE_MAX_COMPRESSION_LEVEL);
return 0;
}
if ( sp->state&ZSTATE_INIT_ENCODE ) {
int cappedQuality = sp->zipquality;
if( cappedQuality > Z_BEST_COMPRESSION )
cappedQuality = Z_BEST_COMPRESSION;
if (deflateParams(&sp->stream,
sp->zipquality, Z_DEFAULT_STRATEGY) != Z_OK) {
cappedQuality, Z_DEFAULT_STRATEGY) != Z_OK) {
TIFFErrorExt(tif->tif_clientdata, module, "ZLib error: %s",
SAFE_MSG(sp));
return (0);
}
}
#if LIBDEFLATE_SUPPORT
if( sp->libdeflate_enc )
{
libdeflate_free_compressor(sp->libdeflate_enc);
sp->libdeflate_enc = NULL;
}
#endif
return (1);
case TIFFTAG_DEFLATE_SUBCODEC:
sp->subcodec = (int) va_arg(ap, int);
if( sp->subcodec != DEFLATE_SUBCODEC_ZLIB &&
sp->subcodec != DEFLATE_SUBCODEC_LIBDEFLATE )
{
TIFFErrorExt(tif->tif_clientdata, module,
"Invalid DeflateCodec value.");
return 0;
}
#if !LIBDEFLATE_SUPPORT
if( sp->subcodec == DEFLATE_SUBCODEC_LIBDEFLATE )
{
TIFFErrorExt(tif->tif_clientdata, module,
"DeflateCodec = DEFLATE_SUBCODEC_LIBDEFLATE unsupported in this build");
return 0;
}
#endif
return 1;
default:
return (*sp->vsetparent)(tif, tag, ap);
}
@ -366,6 +596,11 @@ ZIPVGetField(TIFF* tif, uint32 tag, va_list ap)
case TIFFTAG_ZIPQUALITY:
*va_arg(ap, int*) = sp->zipquality;
break;
case TIFFTAG_DEFLATE_SUBCODEC:
*va_arg(ap, int*) = sp->subcodec;
break;
default:
return (*sp->vgetparent)(tif, tag, ap);
}
@ -374,6 +609,7 @@ ZIPVGetField(TIFF* tif, uint32 tag, va_list ap)
static const TIFFField zipFields[] = {
{ TIFFTAG_ZIPQUALITY, 0, 0, TIFF_ANY, 0, TIFF_SETGET_INT, TIFF_SETGET_UNDEFINED, FIELD_PSEUDO, TRUE, FALSE, "", NULL },
{ TIFFTAG_DEFLATE_SUBCODEC, 0, 0, TIFF_ANY, 0, TIFF_SETGET_INT, TIFF_SETGET_UNDEFINED, FIELD_PSEUDO, TRUE, FALSE, "", NULL },
};
int
@ -384,6 +620,9 @@ TIFFInitZIP(TIFF* tif, int scheme)
assert( (scheme == COMPRESSION_DEFLATE)
|| (scheme == COMPRESSION_ADOBE_DEFLATE));
#ifdef NDEBUG
(void)scheme;
#endif
/*
* Merge codec-specific tag information.
@ -397,7 +636,7 @@ TIFFInitZIP(TIFF* tif, int scheme)
/*
* Allocate state block so tag methods have storage to record values.
*/
tif->tif_data = (uint8*) _TIFFmalloc(sizeof (ZIPState));
tif->tif_data = (uint8*) _TIFFcalloc(sizeof (ZIPState), 1);
if (tif->tif_data == NULL)
goto bad;
sp = ZState(tif);
@ -417,6 +656,11 @@ TIFFInitZIP(TIFF* tif, int scheme)
/* Default values for codec-specific fields */
sp->zipquality = Z_DEFAULT_COMPRESSION; /* default comp. level */
sp->state = 0;
#if LIBDEFLATE_SUPPORT
sp->subcodec = DEFLATE_SUBCODEC_LIBDEFLATE;
#else
sp->subcodec = DEFLATE_SUBCODEC_ZLIB;
#endif
/*
* Install codec methods.

6
3rdparty/libtiff/tif_zstd.c vendored
Unescape View File

@ -260,7 +260,8 @@ ZSTDEncode(TIFF* tif, uint8* bp, tmsize_t cc, uint16 s)
}
if( sp->out_buffer.pos == sp->out_buffer.size ) {
tif->tif_rawcc = tif->tif_rawdatasize;
TIFFFlushData1(tif);
if (!TIFFFlushData1(tif))
return 0;
sp->out_buffer.dst = tif->tif_rawcp;
sp->out_buffer.pos = 0;
}
@ -289,7 +290,8 @@ ZSTDPostEncode(TIFF* tif)
}
if( sp->out_buffer.pos > 0 ) {
tif->tif_rawcc = sp->out_buffer.pos;
TIFFFlushData1(tif);
if (!TIFFFlushData1(tif))
return 0;
sp->out_buffer.dst = tif->tif_rawcp;
sp->out_buffer.pos = 0;
}

117
3rdparty/libtiff/tiff.h vendored
Unescape View File

@ -119,6 +119,11 @@ typedef struct {
* Tag data type information.
*
* Note: RATIONALs are the ratio of two 32-bit integer values.
*--:
* Note2: TIFF_IFD8 data type is used in tiffFields[]-tag definition in order to distinguish the write-handling
of those tags between ClassicTIFF and BigTiff:
For ClassicTIFF libtiff writes a 32-bit value and the TIFF_IFD type-id into the file
For BigTIFF libtiff writes a 64-bit value and the TIFF_IFD8 type-id into the file
*/
typedef enum {
TIFF_NOTYPE = 0, /* placeholder */
@ -375,6 +380,7 @@ typedef enum {
January 2004 */
#define TIFFTAG_OPIIMAGEID 32781 /* %OPI ImageID
[Adobe TIFF technote] */
#define TIFFTAG_TIFFANNOTATIONDATA 32932 /* http://web.archive.org/web/20050309141348/http://www.kofile.com/support%20pro/faqs/annospec.htm */
/* tags 32952-32956 are private tags registered to Island Graphics */
#define TIFFTAG_REFPTS 32953 /* image reference points */
#define TIFFTAG_REGIONTACKPOINT 32954 /* region-xform tack point */
@ -409,8 +415,23 @@ typedef enum {
#define TIFFTAG_CFAPATTERN 33422 /* color filter array pattern */
/* tag 33432 is listed in the 6.0 spec w/ unknown ownership */
#define TIFFTAG_COPYRIGHT 33432 /* copyright string */
/* Tags 33445-33452 are used for GEL fileformat, see
* http://research.stowers-institute.org/mcm/efg/ScientificSoftware/Utility/TiffTags/GEL-FileFormat.pdf
*/
#define TIFFTAG_MD_FILETAG 33445 /* http://research.stowers-institute.org/mcm/efg/ScientificSoftware/Utility/TiffTags/GEL-FileFormat.pdf */
#define TIFFTAG_MD_SCALEPIXEL 33446 /* http://research.stowers-institute.org/mcm/efg/ScientificSoftware/Utility/TiffTags/GEL-FileFormat.pdf */
#define TIFFTAG_MD_COLORTABLE 33447 /* http://research.stowers-institute.org/mcm/efg/ScientificSoftware/Utility/TiffTags/GEL-FileFormat.pdf */
#define TIFFTAG_MD_LABNAME 33448 /* http://research.stowers-institute.org/mcm/efg/ScientificSoftware/Utility/TiffTags/GEL-FileFormat.pdf */
#define TIFFTAG_MD_SAMPLEINFO 33449 /* http://research.stowers-institute.org/mcm/efg/ScientificSoftware/Utility/TiffTags/GEL-FileFormat.pdf */
#define TIFFTAG_MD_PREPDATE 33450 /* http://research.stowers-institute.org/mcm/efg/ScientificSoftware/Utility/TiffTags/GEL-FileFormat.pdf */
#define TIFFTAG_MD_PREPTIME 33451 /* http://research.stowers-institute.org/mcm/efg/ScientificSoftware/Utility/TiffTags/GEL-FileFormat.pdf */
#define TIFFTAG_MD_FILEUNITS 33452 /* http://research.stowers-institute.org/mcm/efg/ScientificSoftware/Utility/TiffTags/GEL-FileFormat.pdf */
/* IPTC TAG from RichTIFF specifications */
#define TIFFTAG_RICHTIFFIPTC 33723
#define TIFFTAG_INGR_PACKET_DATA_TAG 33918 /* Intergraph Application specific storage. */
#define TIFFTAG_INGR_FLAG_REGISTERS 33919 /* Intergraph Application specific flags. */
#define TIFFTAG_IRASB_TRANSORMATION_MATRIX 33920 /* Originally part of Intergraph's GeoTIFF tags, but likely understood by IrasB only. */
#define TIFFTAG_MODELTIEPOINTTAG 33922 /* GeoTIFF */
/* 34016-34029 are reserved for ANSI IT8 TIFF/IT <dkelly@apago.com) */
#define TIFFTAG_IT8SITE 34016 /* site name */
#define TIFFTAG_IT8COLORSEQUENCE 34017 /* color seq. [RGB,CMYK,etc] */
@ -432,6 +453,7 @@ typedef enum {
#define TIFFTAG_IT8CMYKEQUIVALENT 34032 /* CMYK color equivalents */
/* tags 34232-34236 are private tags registered to Texas Instruments */
#define TIFFTAG_FRAMECOUNT 34232 /* Sequence Frame Count */
#define TIFFTAG_MODELTRANSFORMATIONTAG 34264 /* Used in interchangeable GeoTIFF files */
/* tag 34377 is private tag registered to Adobe for PhotoShop */
#define TIFFTAG_PHOTOSHOP 34377
/* tags 34665, 34853 and 40965 are documented in EXIF specification */
@ -451,7 +473,15 @@ typedef enum {
#define TIFFTAG_STONITS 37439 /* Sample value to Nits */
/* tag 34929 is a private tag registered to FedEx */
#define TIFFTAG_FEDEX_EDR 34929 /* unknown use */
#define TIFFTAG_IMAGESOURCEDATA 37724 /* http://justsolve.archiveteam.org/wiki/PSD, http://www.adobe.com/devnet-apps/photoshop/fileformatashtml/ */
#define TIFFTAG_INTEROPERABILITYIFD 40965 /* Pointer to Interoperability private directory */
#define TIFFTAG_GDAL_METADATA 42112 /* Used by the GDAL library */
#define TIFFTAG_GDAL_NODATA 42113 /* Used by the GDAL library */
#define TIFFTAG_OCE_SCANJOB_DESCRIPTION 50215 /* Used in the Oce scanning process */
#define TIFFTAG_OCE_APPLICATION_SELECTOR 50216 /* Used in the Oce scanning process. */
#define TIFFTAG_OCE_IDENTIFICATION_NUMBER 50217
#define TIFFTAG_OCE_IMAGELOGIC_CHARACTERISTICS 50218
/* tags 50674 to 50677 are reserved for ESRI */
#define TIFFTAG_LERC_PARAMETERS 50674 /* Stores LERC version and additional compression method */
/* Adobe Digital Negative (DNG) format tags */
@ -535,6 +565,17 @@ typedef enum {
into ICC profile space */
#define TIFFTAG_CURRENTICCPROFILE 50833 /* & */
#define TIFFTAG_CURRENTPREPROFILEMATRIX 50834 /* & */
#define TIFFTAG_RPCCOEFFICIENT 50844 /* Define by GDAL for geospatial georeferencing through RPC: http://geotiff.maptools.org/rpc_prop.html */
#define TIFFTAG_ALIAS_LAYER_METADATA 50784 /* Alias Sketchbook Pro layer usage description. */
/* GeoTIFF DGIWG */
#define TIFFTAG_TIFF_RSID 50908 /* https://www.awaresystems.be/imaging/tiff/tifftags/tiff_rsid.html */
#define TIFFTAG_GEO_METADATA 50909 /* https://www.awaresystems.be/imaging/tiff/tifftags/geo_metadata.html */
#define TIFFTAG_EXTRACAMERAPROFILES 50933 /* http://wwwimages.adobe.com/www.adobe.com/content/dam/Adobe/en/products/photoshop/pdfs/dng_spec_1.4.0.0.pdf */
/* tag 65535 is an undefined tag used by Eastman Kodak */
#define TIFFTAG_DCSHUESHIFTVALUES 65535 /* hue shift correction data */
@ -615,8 +656,11 @@ typedef enum {
#define LERC_ADD_COMPRESSION_DEFLATE 1
#define LERC_ADD_COMPRESSION_ZSTD 2
#define TIFFTAG_LERC_MAXZERROR 65567 /* LERC maximum error */
#define TIFFTAG_WEBP_LEVEL 65568 /* WebP compression level: WARNING not registered in Adobe-maintained registry */
#define TIFFTAG_WEBP_LOSSLESS 65569 /* WebP lossless/lossy : WARNING not registered in Adobe-maintained registry */
#define TIFFTAG_WEBP_LEVEL 65568 /* WebP compression level */
#define TIFFTAG_WEBP_LOSSLESS 65569 /* WebP lossless/lossy */
#define TIFFTAG_DEFLATE_SUBCODEC 65570 /* ZIP codec: to get/set the sub-codec to use. Will default to libdeflate when available */
#define DEFLATE_SUBCODEC_ZLIB 0
#define DEFLATE_SUBCODEC_LIBDEFLATE 1
/*
* EXIF tags
@ -626,8 +670,8 @@ typedef enum {
#define EXIFTAG_EXPOSUREPROGRAM 34850 /* Exposure program */
#define EXIFTAG_SPECTRALSENSITIVITY 34852 /* Spectral sensitivity */
#define EXIFTAG_ISOSPEEDRATINGS 34855 /* ISO speed rating */
#define EXIFTAG_OECF 34856 /* Optoelectric conversion
factor */
#define EXIFTAG_PHOTOGRAPHICSENSITIVITY 34855 /* Photographic Sensitivity (new name for tag 34855) */
#define EXIFTAG_OECF 34856 /* Optoelectric conversion factor */
#define EXIFTAG_EXIFVERSION 36864 /* Exif version */
#define EXIFTAG_DATETIMEORIGINAL 36867 /* Date and time of original
data generation */
@ -679,10 +723,71 @@ typedef enum {
#define EXIFTAG_SHARPNESS 41994 /* Sharpness */
#define EXIFTAG_DEVICESETTINGDESCRIPTION 41995 /* Device settings description */
#define EXIFTAG_SUBJECTDISTANCERANGE 41996 /* Subject distance range */
#define EXIFTAG_GAINCONTROL 41991 /* Gain control */
#define EXIFTAG_GAINCONTROL 41991 /* Gain control */
#define EXIFTAG_IMAGEUNIQUEID 42016 /* Unique image ID */
/*--: New for EXIF-Version 2.32, May 2019 ... */
#define EXIFTAG_SENSITIVITYTYPE 34864 /* The SensitivityType tag indicates which one of the parameters of ISO12232 is the PhotographicSensitivity tag. */
#define EXIFTAG_STANDARDOUTPUTSENSITIVITY 34865 /* This tag indicates the standard output sensitivity value of a camera or input device defined in ISO 12232. */
#define EXIFTAG_RECOMMENDEDEXPOSUREINDEX 34866 /* recommended exposure index */
#define EXIFTAG_ISOSPEED 34867 /* ISO speed value */
#define EXIFTAG_ISOSPEEDLATITUDEYYY 34868 /* ISO speed latitude yyy */
#define EXIFTAG_ISOSPEEDLATITUDEZZZ 34869 /* ISO speed latitude zzz */
#define EXIFTAG_OFFSETTIME 36880 /* offset from UTC of the time of DateTime tag. */
#define EXIFTAG_OFFSETTIMEORIGINAL 36881 /* offset from UTC of the time of DateTimeOriginal tag. */
#define EXIFTAG_OFFSETTIMEDIGITIZED 36882 /* offset from UTC of the time of DateTimeDigitized tag. */
#define EXIFTAG_TEMPERATURE 37888 /* Temperature as the ambient situation at the shot in dergee Celsius */
#define EXIFTAG_HUMIDITY 37889 /* Humidity as the ambient situation at the shot in percent */
#define EXIFTAG_PRESSURE 37890 /* Pressure as the ambient situation at the shot hecto-Pascal (hPa) */
#define EXIFTAG_WATERDEPTH 37891 /* WaterDepth as the ambient situation at the shot in meter (m) */
#define EXIFTAG_ACCELERATION 37892 /* Acceleration (a scalar regardless of direction) as the ambient situation at the shot in units of mGal (10-5 m/s^2) */
#define EXIFTAG_CAMERAELEVATIONANGLE 37893 /* Elevation/depression. angle of the orientation of the camera(imaging optical axis) as the ambient situation at the shot in degree from -180deg to +180deg. */
#define EXIFTAG_CAMERAOWNERNAME 42032 /* owner of a camera */
#define EXIFTAG_BODYSERIALNUMBER 42033 /* serial number of the body of the camera */
#define EXIFTAG_LENSSPECIFICATION 42034 /* minimum focal length (in mm), maximum focal length (in mm), minimum F number in the minimum focal length, and minimum F number in the maximum focal length, */
#define EXIFTAG_LENSMAKE 42035 /* the lens manufacturer */
#define EXIFTAG_LENSMODEL 42036 /* the lens model name and model number */
#define EXIFTAG_LENSSERIALNUMBER 42037 /* the serial number of the interchangeable lens */
#define EXIFTAG_GAMMA 42240 /* value of coefficient gamma */
#define EXIFTAG_COMPOSITEIMAGE 42080 /* composite image */
#define EXIFTAG_SOURCEIMAGENUMBEROFCOMPOSITEIMAGE 42081 /* source image number of composite image */
#define EXIFTAG_SOURCEEXPOSURETIMESOFCOMPOSITEIMAGE 42082 /* source exposure times of composite image */
/*
* EXIF-GPS tags (Version 2.31, July 2016)
*/
#define GPSTAG_VERSIONID 0 /* Indicates the version of GPSInfoIFD. */
#define GPSTAG_LATITUDEREF 1 /* Indicates whether the latitude is north or south latitude. */
#define GPSTAG_LATITUDE 2 /* Indicates the latitude. */
#define GPSTAG_LONGITUDEREF 3 /* Indicates whether the longitude is east or west longitude. */
#define GPSTAG_LONGITUDE 4 /* Indicates the longitude. */
#define GPSTAG_ALTITUDEREF 5 /* Indicates the altitude used as the reference altitude. */
#define GPSTAG_ALTITUDE 6 /* Indicates the altitude based on the reference in GPSAltitudeRef. */
#define GPSTAG_TIMESTAMP 7 /* Indicates the time as UTC (Coordinated Universal Time). */
#define GPSTAG_SATELLITES 8 /* Indicates the GPS satellites used for measurements. */
#define GPSTAG_STATUS 9 /* Indicates the status of the GPS receiver when the image is recorded. */
#define GPSTAG_MEASUREMODE 10 /* Indicates the GPS measurement mode. */
#define GPSTAG_DOP 11 /* Indicates the GPS DOP (data degree of precision). */
#define GPSTAG_SPEEDREF 12 /* Indicates the unit used to express the GPS receiver speed of movement. */
#define GPSTAG_SPEED 13 /* Indicates the speed of GPS receiver movement. */
#define GPSTAG_TRACKREF 14 /* Indicates the reference for giving the direction of GPS receiver movement. */
#define GPSTAG_TRACK 15 /* Indicates the direction of GPS receiver movement. */
#define GPSTAG_IMGDIRECTIONREF 16 /* Indicates the reference for giving the direction of the image when it is captured. */
#define GPSTAG_IMGDIRECTION 17 /* Indicates the direction of the image when it was captured. */
#define GPSTAG_MAPDATUM 18 /* Indicates the geodetic survey data used by the GPS receiver. (e.g. WGS-84) */
#define GPSTAG_DESTLATITUDEREF 19 /* Indicates whether the latitude of the destination point is north or south latitude. */
#define GPSTAG_DESTLATITUDE 20 /* Indicates the latitude of the destination point. */
#define GPSTAG_DESTLONGITUDEREF 21 /* Indicates whether the longitude of the destination point is east or west longitude. */
#define GPSTAG_DESTLONGITUDE 22 /* Indicates the longitude of the destination point. */
#define GPSTAG_DESTBEARINGREF 23 /* Indicates the reference used for giving the bearing to the destination point. */
#define GPSTAG_DESTBEARING 24 /* Indicates the bearing to the destination point. */
#define GPSTAG_DESTDISTANCEREF 25 /* Indicates the unit used to express the distance to the destination point. */
#define GPSTAG_DESTDISTANCE 26 /* Indicates the distance to the destination point. */
#define GPSTAG_PROCESSINGMETHOD 27 /* A character string recording the name of the method used for location finding. */
#define GPSTAG_AREAINFORMATION 28 /* A character string recording the name of the GPS area. */
#define GPSTAG_DATESTAMP 29 /* A character string recording date and time information relative to UTC (Coordinated Universal Time). */
#define GPSTAG_DIFFERENTIAL 30 /* Indicates whether differential correction is applied to the GPS receiver. */
#define GPSTAG_GPSHPOSITIONINGERROR 31 /* Indicates horizontal positioning errors in meters. */
#endif /* _TIFF_ */
/* vim: set ts=8 sts=8 sw=8 noet: */

3
3rdparty/libtiff/tiffconf.h.cmake.in vendored
Unescape View File

@ -87,6 +87,9 @@
/* Support Deflate compression */
#cmakedefine ZIP_SUPPORT 1
/* Support libdeflate enhanced compression */
#cmakedefine LIBDEFLATE_SUPPORT 1
/* Support strip chopping (whether or not to convert single-strip uncompressed
images to mutiple strips of ~8Kb to reduce memory usage) */
#cmakedefine STRIPCHOP_DEFAULT 1

26
3rdparty/libtiff/tiffio.h vendored
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@ -261,8 +261,10 @@ typedef struct {
#define LOGLUV_PUBLIC 1
#endif
#if !defined(__GNUC__) && !defined(__attribute__)
# define __attribute__(x) /*nothing*/
#if defined(__GNUC__) || defined(__attribute__)
# define TIFF_ATTRIBUTE(x) __attribute__(x)
#else
# define TIFF_ATTRIBUTE(x) /*nothing*/
#endif
#if defined(c_plusplus) || defined(__cplusplus)
@ -350,6 +352,7 @@ extern int TIFFVGetFieldDefaulted(TIFF* tif, uint32 tag, va_list ap);
extern int TIFFReadDirectory(TIFF* tif);
extern int TIFFReadCustomDirectory(TIFF* tif, toff_t diroff, const TIFFFieldArray* infoarray);
extern int TIFFReadEXIFDirectory(TIFF* tif, toff_t diroff);
extern int TIFFReadGPSDirectory(TIFF* tif, toff_t diroff);
extern uint64 TIFFScanlineSize64(TIFF* tif);
extern tmsize_t TIFFScanlineSize(TIFF* tif);
extern uint64 TIFFRasterScanlineSize64(TIFF* tif);
@ -400,6 +403,7 @@ extern void TIFFFreeDirectory(TIFF*);
extern int TIFFCreateDirectory(TIFF*);
extern int TIFFCreateCustomDirectory(TIFF*,const TIFFFieldArray*);
extern int TIFFCreateEXIFDirectory(TIFF*);
extern int TIFFCreateGPSDirectory(TIFF*);
extern int TIFFLastDirectory(TIFF*);
extern int TIFFSetDirectory(TIFF*, uint16);
extern int TIFFSetSubDirectory(TIFF*, uint64);
@ -411,6 +415,8 @@ extern int TIFFWriteDirectory(TIFF *);
extern int TIFFWriteCustomDirectory(TIFF *, uint64 *);
extern int TIFFCheckpointDirectory(TIFF *);
extern int TIFFRewriteDirectory(TIFF *);
extern int TIFFDeferStrileArrayWriting(TIFF *);
extern int TIFFForceStrileArrayWriting(TIFF* );
#if defined(c_plusplus) || defined(__cplusplus)
extern void TIFFPrintDirectory(TIFF*, FILE*, long = 0);
@ -448,10 +454,10 @@ extern TIFF* TIFFClientOpen(const char*, const char*,
TIFFMapFileProc, TIFFUnmapFileProc);
extern const char* TIFFFileName(TIFF*);
extern const char* TIFFSetFileName(TIFF*, const char *);
extern void TIFFError(const char*, const char*, ...) __attribute__((__format__ (__printf__,2,3)));
extern void TIFFErrorExt(thandle_t, const char*, const char*, ...) __attribute__((__format__ (__printf__,3,4)));
extern void TIFFWarning(const char*, const char*, ...) __attribute__((__format__ (__printf__,2,3)));
extern void TIFFWarningExt(thandle_t, const char*, const char*, ...) __attribute__((__format__ (__printf__,3,4)));
extern void TIFFError(const char*, const char*, ...) TIFF_ATTRIBUTE((__format__ (__printf__,2,3)));
extern void TIFFErrorExt(thandle_t, const char*, const char*, ...) TIFF_ATTRIBUTE((__format__ (__printf__,3,4)));
extern void TIFFWarning(const char*, const char*, ...) TIFF_ATTRIBUTE((__format__ (__printf__,2,3)));
extern void TIFFWarningExt(thandle_t, const char*, const char*, ...) TIFF_ATTRIBUTE((__format__ (__printf__,3,4)));
extern TIFFErrorHandler TIFFSetErrorHandler(TIFFErrorHandler);
extern TIFFErrorHandlerExt TIFFSetErrorHandlerExt(TIFFErrorHandlerExt);
extern TIFFErrorHandler TIFFSetWarningHandler(TIFFErrorHandler);
@ -468,6 +474,9 @@ extern tmsize_t TIFFReadEncodedStrip(TIFF* tif, uint32 strip, void* buf, tmsize_
extern tmsize_t TIFFReadRawStrip(TIFF* tif, uint32 strip, void* buf, tmsize_t size);
extern tmsize_t TIFFReadEncodedTile(TIFF* tif, uint32 tile, void* buf, tmsize_t size);
extern tmsize_t TIFFReadRawTile(TIFF* tif, uint32 tile, void* buf, tmsize_t size);
extern int TIFFReadFromUserBuffer(TIFF* tif, uint32 strile,
void* inbuf, tmsize_t insize,
void* outbuf, tmsize_t outsize);
extern tmsize_t TIFFWriteEncodedStrip(TIFF* tif, uint32 strip, void* data, tmsize_t cc);
extern tmsize_t TIFFWriteRawStrip(TIFF* tif, uint32 strip, void* data, tmsize_t cc);
extern tmsize_t TIFFWriteEncodedTile(TIFF* tif, uint32 tile, void* data, tmsize_t cc);
@ -488,6 +497,11 @@ extern void TIFFSwabArrayOfDouble(double* dp, tmsize_t n);
extern void TIFFReverseBits(uint8* cp, tmsize_t n);
extern const unsigned char* TIFFGetBitRevTable(int);
extern uint64 TIFFGetStrileOffset(TIFF *tif, uint32 strile);
extern uint64 TIFFGetStrileByteCount(TIFF *tif, uint32 strile);
extern uint64 TIFFGetStrileOffsetWithErr(TIFF *tif, uint32 strile, int *pbErr);
extern uint64 TIFFGetStrileByteCountWithErr(TIFF *tif, uint32 strile, int *pbErr);
#ifdef LOGLUV_PUBLIC
#define U_NEU 0.210526316
#define V_NEU 0.473684211

23
3rdparty/libtiff/tiffiop.h vendored
Unescape View File

@ -77,6 +77,19 @@ extern int snprintf(char* str, size_t size, const char* format, ...);
#define FALSE 0
#endif
#define TIFF_SIZE_T_MAX ((size_t) ~ ((size_t)0))
#define TIFF_TMSIZE_T_MAX (tmsize_t)(TIFF_SIZE_T_MAX >> 1)
/*
* Largest 32-bit unsigned integer value.
*/
#define TIFF_UINT32_MAX 0xFFFFFFFFU
/*
* Largest 64-bit unsigned integer value.
*/
#define TIFF_UINT64_MAX (((uint64)(TIFF_UINT32_MAX)) << 32 | TIFF_UINT32_MAX)
typedef struct client_info {
struct client_info *next;
void *data;
@ -127,6 +140,9 @@ struct tiff {
#define TIFF_DIRTYSTRIP 0x200000U /* stripoffsets/stripbytecount dirty*/
#define TIFF_PERSAMPLE 0x400000U /* get/set per sample tags as arrays */
#define TIFF_BUFFERMMAP 0x800000U /* read buffer (tif_rawdata) points into mmap() memory */
#define TIFF_DEFERSTRILELOAD 0x1000000U /* defer strip/tile offset/bytecount array loading. */
#define TIFF_LAZYSTRILELOAD 0x2000000U /* lazy/ondemand loading of strip/tile offset/bytecount values. Only used if TIFF_DEFERSTRILELOAD is set and in read-only mode */
#define TIFF_CHOPPEDUPARRAYS 0x4000000U /* set when allocChoppedUpStripArrays() has modified strip array */
uint64 tif_diroff; /* file offset of current directory */
uint64 tif_nextdiroff; /* file offset of following directory */
uint64* tif_dirlist; /* list of offsets to already seen directories to prevent IFD looping */
@ -258,7 +274,7 @@ struct tiff {
#define TIFFhowmany8_64(x) (((x)&0x07)?((uint64)(x)>>3)+1:(uint64)(x)>>3)
#define TIFFroundup_64(x, y) (TIFFhowmany_64(x,y)*(y))
/* Safe multiply which returns zero if there is an integer overflow */
/* Safe multiply which returns zero if there is an *unsigned* integer overflow. This macro is not safe for *signed* integer types */
#define TIFFSafeMultiply(t,v,m) ((((t)(m) != (t)0) && (((t)(((v)*(m))/(m))) == (t)(v))) ? (t)((v)*(m)) : (t)0)
#define TIFFmax(A,B) ((A)>(B)?(A):(B))
@ -351,6 +367,9 @@ extern uint32 _TIFFDefaultStripSize(TIFF* tif, uint32 s);
extern void _TIFFDefaultTileSize(TIFF* tif, uint32* tw, uint32* th);
extern int _TIFFDataSize(TIFFDataType type);
/*--: Rational2Double: Return size of TIFFSetGetFieldType in bytes. */
extern int _TIFFSetGetFieldSize(TIFFSetGetFieldType setgettype);
extern void _TIFFsetByteArray(void**, void*, uint32);
extern void _TIFFsetString(char**, char*);
extern void _TIFFsetShortArray(uint16**, uint16*, uint32);
@ -368,6 +387,8 @@ extern TIFFErrorHandlerExt _TIFFerrorHandlerExt;
extern uint32 _TIFFMultiply32(TIFF*, uint32, uint32, const char*);
extern uint64 _TIFFMultiply64(TIFF*, uint64, uint64, const char*);
extern tmsize_t _TIFFMultiplySSize(TIFF*, tmsize_t, tmsize_t, const char*);
extern tmsize_t _TIFFCastUInt64ToSSize(TIFF*, uint64, const char*);
extern void* _TIFFCheckMalloc(TIFF*, tmsize_t, tmsize_t, const char*);
extern void* _TIFFCheckRealloc(TIFF*, void*, tmsize_t, tmsize_t, const char*);

4
3rdparty/libtiff/tiffvers.h vendored
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@ -1,4 +1,4 @@
#define TIFFLIB_VERSION_STR "LIBTIFF, Version 4.0.10\nCopyright (c) 1988-1996 Sam Leffler\nCopyright (c) 1991-1996 Silicon Graphics, Inc."
#define TIFFLIB_VERSION_STR "LIBTIFF, Version 4.2.0\nCopyright (c) 1988-1996 Sam Leffler\nCopyright (c) 1991-1996 Silicon Graphics, Inc."
/*
* This define can be used in code that requires
* compilation-related definitions specific to a
@ -6,4 +6,4 @@
* version checking should be done based on the
* string returned by TIFFGetVersion.
*/
#define TIFFLIB_VERSION 20181110
#define TIFFLIB_VERSION 20201219

53
3rdparty/libwebp/src/dec/io_dec.c vendored
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@ -25,21 +25,16 @@
static int EmitYUV(const VP8Io* const io, WebPDecParams* const p) {
WebPDecBuffer* output = p->output;
const WebPYUVABuffer* const buf = &output->u.YUVA;
uint8_t* const y_dst = buf->y + io->mb_y * buf->y_stride;
uint8_t* const u_dst = buf->u + (io->mb_y >> 1) * buf->u_stride;
uint8_t* const v_dst = buf->v + (io->mb_y >> 1) * buf->v_stride;
uint8_t* const y_dst = buf->y + (size_t)io->mb_y * buf->y_stride;
uint8_t* const u_dst = buf->u + (size_t)(io->mb_y >> 1) * buf->u_stride;
uint8_t* const v_dst = buf->v + (size_t)(io->mb_y >> 1) * buf->v_stride;
const int mb_w = io->mb_w;
const int mb_h = io->mb_h;
const int uv_w = (mb_w + 1) / 2;
const int uv_h = (mb_h + 1) / 2;
int j;
for (j = 0; j < mb_h; ++j) {
memcpy(y_dst + j * buf->y_stride, io->y + j * io->y_stride, mb_w);
}
for (j = 0; j < uv_h; ++j) {
memcpy(u_dst + j * buf->u_stride, io->u + j * io->uv_stride, uv_w);
memcpy(v_dst + j * buf->v_stride, io->v + j * io->uv_stride, uv_w);
}
WebPCopyPlane(io->y, io->y_stride, y_dst, buf->y_stride, mb_w, mb_h);
WebPCopyPlane(io->u, io->uv_stride, u_dst, buf->u_stride, uv_w, uv_h);
WebPCopyPlane(io->v, io->uv_stride, v_dst, buf->v_stride, uv_w, uv_h);
return io->mb_h;
}
@ -47,7 +42,7 @@ static int EmitYUV(const VP8Io* const io, WebPDecParams* const p) {
static int EmitSampledRGB(const VP8Io* const io, WebPDecParams* const p) {
WebPDecBuffer* const output = p->output;
WebPRGBABuffer* const buf = &output->u.RGBA;
uint8_t* const dst = buf->rgba + io->mb_y * buf->stride;
uint8_t* const dst = buf->rgba + (size_t)io->mb_y * buf->stride;
WebPSamplerProcessPlane(io->y, io->y_stride,
io->u, io->v, io->uv_stride,
dst, buf->stride, io->mb_w, io->mb_h,
@ -62,7 +57,7 @@ static int EmitSampledRGB(const VP8Io* const io, WebPDecParams* const p) {
static int EmitFancyRGB(const VP8Io* const io, WebPDecParams* const p) {
int num_lines_out = io->mb_h; // a priori guess
const WebPRGBABuffer* const buf = &p->output->u.RGBA;
uint8_t* dst = buf->rgba + io->mb_y * buf->stride;
uint8_t* dst = buf->rgba + (size_t)io->mb_y * buf->stride;
WebPUpsampleLinePairFunc upsample = WebPUpsamplers[p->output->colorspace];
const uint8_t* cur_y = io->y;
const uint8_t* cur_u = io->u;
@ -133,7 +128,7 @@ static int EmitAlphaYUV(const VP8Io* const io, WebPDecParams* const p,
const WebPYUVABuffer* const buf = &p->output->u.YUVA;
const int mb_w = io->mb_w;
const int mb_h = io->mb_h;
uint8_t* dst = buf->a + io->mb_y * buf->a_stride;
uint8_t* dst = buf->a + (size_t)io->mb_y * buf->a_stride;
int j;
(void)expected_num_lines_out;
assert(expected_num_lines_out == mb_h);
@ -186,7 +181,7 @@ static int EmitAlphaRGB(const VP8Io* const io, WebPDecParams* const p,
(colorspace == MODE_ARGB || colorspace == MODE_Argb);
const WebPRGBABuffer* const buf = &p->output->u.RGBA;
int num_rows;
const int start_y = GetAlphaSourceRow(io, &alpha, &num_rows);
const size_t start_y = GetAlphaSourceRow(io, &alpha, &num_rows);
uint8_t* const base_rgba = buf->rgba + start_y * buf->stride;
uint8_t* const dst = base_rgba + (alpha_first ? 0 : 3);
const int has_alpha = WebPDispatchAlpha(alpha, io->width, mb_w,
@ -210,7 +205,7 @@ static int EmitAlphaRGBA4444(const VP8Io* const io, WebPDecParams* const p,
const WEBP_CSP_MODE colorspace = p->output->colorspace;
const WebPRGBABuffer* const buf = &p->output->u.RGBA;
int num_rows;
const int start_y = GetAlphaSourceRow(io, &alpha, &num_rows);
const size_t start_y = GetAlphaSourceRow(io, &alpha, &num_rows);
uint8_t* const base_rgba = buf->rgba + start_y * buf->stride;
#if (WEBP_SWAP_16BIT_CSP == 1)
uint8_t* alpha_dst = base_rgba;
@ -276,9 +271,9 @@ static int EmitRescaledYUV(const VP8Io* const io, WebPDecParams* const p) {
static int EmitRescaledAlphaYUV(const VP8Io* const io, WebPDecParams* const p,
int expected_num_lines_out) {
const WebPYUVABuffer* const buf = &p->output->u.YUVA;
uint8_t* const dst_a = buf->a + p->last_y * buf->a_stride;
uint8_t* const dst_a = buf->a + (size_t)p->last_y * buf->a_stride;
if (io->a != NULL) {
uint8_t* const dst_y = buf->y + p->last_y * buf->y_stride;
uint8_t* const dst_y = buf->y + (size_t)p->last_y * buf->y_stride;
const int num_lines_out = Rescale(io->a, io->width, io->mb_h, p->scaler_a);
assert(expected_num_lines_out == num_lines_out);
if (num_lines_out > 0) { // unmultiply the Y
@ -356,7 +351,7 @@ static int ExportRGB(WebPDecParams* const p, int y_pos) {
const WebPYUV444Converter convert =
WebPYUV444Converters[p->output->colorspace];
const WebPRGBABuffer* const buf = &p->output->u.RGBA;
uint8_t* dst = buf->rgba + y_pos * buf->stride;
uint8_t* dst = buf->rgba + (size_t)y_pos * buf->stride;
int num_lines_out = 0;
// For RGB rescaling, because of the YUV420, current scan position
// U/V can be +1/-1 line from the Y one. Hence the double test.
@ -383,15 +378,15 @@ static int EmitRescaledRGB(const VP8Io* const io, WebPDecParams* const p) {
while (j < mb_h) {
const int y_lines_in =
WebPRescalerImport(p->scaler_y, mb_h - j,
io->y + j * io->y_stride, io->y_stride);
io->y + (size_t)j * io->y_stride, io->y_stride);
j += y_lines_in;
if (WebPRescaleNeededLines(p->scaler_u, uv_mb_h - uv_j)) {
const int u_lines_in =
WebPRescalerImport(p->scaler_u, uv_mb_h - uv_j,
io->u + uv_j * io->uv_stride, io->uv_stride);
const int v_lines_in =
WebPRescalerImport(p->scaler_v, uv_mb_h - uv_j,
io->v + uv_j * io->uv_stride, io->uv_stride);
const int u_lines_in = WebPRescalerImport(
p->scaler_u, uv_mb_h - uv_j, io->u + (size_t)uv_j * io->uv_stride,
io->uv_stride);
const int v_lines_in = WebPRescalerImport(
p->scaler_v, uv_mb_h - uv_j, io->v + (size_t)uv_j * io->uv_stride,
io->uv_stride);
(void)v_lines_in; // remove a gcc warning
assert(u_lines_in == v_lines_in);
uv_j += u_lines_in;
@ -403,7 +398,7 @@ static int EmitRescaledRGB(const VP8Io* const io, WebPDecParams* const p) {
static int ExportAlpha(WebPDecParams* const p, int y_pos, int max_lines_out) {
const WebPRGBABuffer* const buf = &p->output->u.RGBA;
uint8_t* const base_rgba = buf->rgba + y_pos * buf->stride;
uint8_t* const base_rgba = buf->rgba + (size_t)y_pos * buf->stride;
const WEBP_CSP_MODE colorspace = p->output->colorspace;
const int alpha_first =
(colorspace == MODE_ARGB || colorspace == MODE_Argb);
@ -431,7 +426,7 @@ static int ExportAlpha(WebPDecParams* const p, int y_pos, int max_lines_out) {
static int ExportAlphaRGBA4444(WebPDecParams* const p, int y_pos,
int max_lines_out) {
const WebPRGBABuffer* const buf = &p->output->u.RGBA;
uint8_t* const base_rgba = buf->rgba + y_pos * buf->stride;
uint8_t* const base_rgba = buf->rgba + (size_t)y_pos * buf->stride;
#if (WEBP_SWAP_16BIT_CSP == 1)
uint8_t* alpha_dst = base_rgba;
#else
@ -470,7 +465,7 @@ static int EmitRescaledAlphaRGB(const VP8Io* const io, WebPDecParams* const p,
int lines_left = expected_num_out_lines;
const int y_end = p->last_y + lines_left;
while (lines_left > 0) {
const int row_offset = scaler->src_y - io->mb_y;
const int64_t row_offset = (int64_t)scaler->src_y - io->mb_y;
WebPRescalerImport(scaler, io->mb_h + io->mb_y - scaler->src_y,
io->a + row_offset * io->width, io->width);
lines_left -= p->emit_alpha_row(p, y_end - lines_left, lines_left);

12
3rdparty/libwebp/src/dec/vp8_dec.c vendored
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@ -494,13 +494,11 @@ static int GetCoeffsAlt(VP8BitReader* const br,
return 16;
}
static WEBP_TSAN_IGNORE_FUNCTION void InitGetCoeffs(void) {
if (GetCoeffs == NULL) {
if (VP8GetCPUInfo != NULL && VP8GetCPUInfo(kSlowSSSE3)) {
GetCoeffs = GetCoeffsAlt;
} else {
GetCoeffs = GetCoeffsFast;
}
WEBP_DSP_INIT_FUNC(InitGetCoeffs) {
if (VP8GetCPUInfo != NULL && VP8GetCPUInfo(kSlowSSSE3)) {
GetCoeffs = GetCoeffsAlt;
} else {
GetCoeffs = GetCoeffsFast;
}
}

2
3rdparty/libwebp/src/dec/vp8i_dec.h vendored
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@ -31,7 +31,7 @@ extern "C" {
// version numbers
#define DEC_MAJ_VERSION 1
#define DEC_MIN_VERSION 1
#define DEC_MIN_VERSION 2
#define DEC_REV_VERSION 0
// YUV-cache parameters. Cache is 32-bytes wide (= one cacheline).

1
3rdparty/libwebp/src/dec/vp8l_dec.c vendored
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@ -947,7 +947,6 @@ static WEBP_INLINE void CopyBlock8b(uint8_t* const dst, int dist, int length) {
break;
default:
goto Copy;
break;
}
CopySmallPattern8b(src, dst, length, pattern);
return;

11
3rdparty/libwebp/src/demux/anim_decode.c vendored
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@ -346,12 +346,15 @@ int WebPAnimDecoderGetNext(WebPAnimDecoder* dec,
{
const uint8_t* in = iter.fragment.bytes;
const size_t in_size = iter.fragment.size;
const size_t out_offset =
(iter.y_offset * width + iter.x_offset) * NUM_CHANNELS;
const uint32_t stride = width * NUM_CHANNELS; // at most 25 + 2 bits
const uint64_t out_offset = (uint64_t)iter.y_offset * stride +
(uint64_t)iter.x_offset * NUM_CHANNELS; // 53b
const uint64_t size = (uint64_t)iter.height * stride; // at most 25 + 27b
WebPDecoderConfig* const config = &dec->config_;
WebPRGBABuffer* const buf = &config->output.u.RGBA;
buf->stride = NUM_CHANNELS * width;
buf->size = buf->stride * iter.height;
if ((size_t)size != size) goto Error;
buf->stride = (int)stride;
buf->size = (size_t)size;
buf->rgba = dec->curr_frame_ + out_offset;
if (WebPDecode(in, in_size, config) != VP8_STATUS_OK) {

7
3rdparty/libwebp/src/demux/demux.c vendored
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@ -24,7 +24,7 @@
#include "src/webp/format_constants.h"
#define DMUX_MAJ_VERSION 1
#define DMUX_MIN_VERSION 1
#define DMUX_MIN_VERSION 2
#define DMUX_REV_VERSION 0
typedef struct {
@ -312,6 +312,7 @@ static ParseStatus ParseAnimationFrame(
int bits;
MemBuffer* const mem = &dmux->mem_;
Frame* frame;
size_t start_offset;
ParseStatus status =
NewFrame(mem, ANMF_CHUNK_SIZE, frame_chunk_size, &frame);
if (status != PARSE_OK) return status;
@ -332,7 +333,11 @@ static ParseStatus ParseAnimationFrame(
// Store a frame only if the animation flag is set there is some data for
// this frame is available.
start_offset = mem->start_;
status = StoreFrame(dmux->num_frames_ + 1, anmf_payload_size, mem, frame);
if (status != PARSE_ERROR && mem->start_ - start_offset > anmf_payload_size) {
status = PARSE_ERROR;
}
if (status != PARSE_ERROR && is_animation && frame->frame_num_ > 0) {
added_frame = AddFrame(dmux, frame);
if (added_frame) {

8
3rdparty/libwebp/src/dsp/alpha_processing.c vendored
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@ -359,6 +359,11 @@ static int HasAlpha32b_C(const uint8_t* src, int length) {
return 0;
}
static void AlphaReplace_C(uint32_t* src, int length, uint32_t color) {
int x;
for (x = 0; x < length; ++x) if ((src[x] >> 24) == 0) src[x] = color;
}
//------------------------------------------------------------------------------
// Simple channel manipulations.
@ -400,6 +405,7 @@ void (*WebPPackRGB)(const uint8_t* r, const uint8_t* g, const uint8_t* b,
int (*WebPHasAlpha8b)(const uint8_t* src, int length);
int (*WebPHasAlpha32b)(const uint8_t* src, int length);
void (*WebPAlphaReplace)(uint32_t* src, int length, uint32_t color);
//------------------------------------------------------------------------------
// Init function
@ -428,6 +434,7 @@ WEBP_DSP_INIT_FUNC(WebPInitAlphaProcessing) {
WebPHasAlpha8b = HasAlpha8b_C;
WebPHasAlpha32b = HasAlpha32b_C;
WebPAlphaReplace = AlphaReplace_C;
// If defined, use CPUInfo() to overwrite some pointers with faster versions.
if (VP8GetCPUInfo != NULL) {
@ -469,4 +476,5 @@ WEBP_DSP_INIT_FUNC(WebPInitAlphaProcessing) {
assert(WebPPackRGB != NULL);
assert(WebPHasAlpha8b != NULL);
assert(WebPHasAlpha32b != NULL);
assert(WebPAlphaReplace != NULL);
}

22
3rdparty/libwebp/src/dsp/alpha_processing_sse2.c vendored
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@ -265,6 +265,27 @@ static int HasAlpha32b_SSE2(const uint8_t* src, int length) {
return 0;
}
static void AlphaReplace_SSE2(uint32_t* src, int length, uint32_t color) {
const __m128i m_color = _mm_set1_epi32(color);
const __m128i zero = _mm_setzero_si128();
int i = 0;
for (; i + 8 <= length; i += 8) {
const __m128i a0 = _mm_loadu_si128((const __m128i*)(src + i + 0));
const __m128i a1 = _mm_loadu_si128((const __m128i*)(src + i + 4));
const __m128i b0 = _mm_srai_epi32(a0, 24);
const __m128i b1 = _mm_srai_epi32(a1, 24);
const __m128i c0 = _mm_cmpeq_epi32(b0, zero);
const __m128i c1 = _mm_cmpeq_epi32(b1, zero);
const __m128i d0 = _mm_and_si128(c0, m_color);
const __m128i d1 = _mm_and_si128(c1, m_color);
const __m128i e0 = _mm_andnot_si128(c0, a0);
const __m128i e1 = _mm_andnot_si128(c1, a1);
_mm_storeu_si128((__m128i*)(src + i + 0), _mm_or_si128(d0, e0));
_mm_storeu_si128((__m128i*)(src + i + 4), _mm_or_si128(d1, e1));
}
for (; i < length; ++i) if ((src[i] >> 24) == 0) src[i] = color;
}
// -----------------------------------------------------------------------------
// Apply alpha value to rows
@ -334,6 +355,7 @@ WEBP_TSAN_IGNORE_FUNCTION void WebPInitAlphaProcessingSSE2(void) {
WebPHasAlpha8b = HasAlpha8b_SSE2;
WebPHasAlpha32b = HasAlpha32b_SSE2;
WebPAlphaReplace = AlphaReplace_SSE2;
}
#else // !WEBP_USE_SSE2

38
3rdparty/libwebp/src/dsp/cpu.c vendored
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@ -55,12 +55,18 @@ static WEBP_INLINE void GetCPUInfo(int cpu_info[4], int info_type) {
: "=a"(cpu_info[0]), "=b"(cpu_info[1]), "=c"(cpu_info[2]), "=d"(cpu_info[3])
: "a"(info_type), "c"(0));
}
#elif (defined(_M_X64) || defined(_M_IX86)) && \
defined(_MSC_FULL_VER) && _MSC_FULL_VER >= 150030729 // >= VS2008 SP1
#elif defined(_MSC_VER) && (defined(_M_X64) || defined(_M_IX86))
#if defined(_MSC_FULL_VER) && _MSC_FULL_VER >= 150030729 // >= VS2008 SP1
#include <intrin.h>
#define GetCPUInfo(info, type) __cpuidex(info, type, 0) // set ecx=0
#elif defined(WEBP_MSC_SSE2)
#define WEBP_HAVE_MSC_CPUID
#elif _MSC_VER > 1310
#include <intrin.h>
#define GetCPUInfo __cpuid
#define WEBP_HAVE_MSC_CPUID
#endif
#endif
// NaCl has no support for xgetbv or the raw opcode.
@ -94,7 +100,7 @@ static WEBP_INLINE uint64_t xgetbv(void) {
#define xgetbv() 0U // no AVX for older x64 or unrecognized toolchains.
#endif
#if defined(__i386__) || defined(__x86_64__) || defined(WEBP_MSC_SSE2)
#if defined(__i386__) || defined(__x86_64__) || defined(WEBP_HAVE_MSC_CPUID)
// helper function for run-time detection of slow SSSE3 platforms
static int CheckSlowModel(int info) {
@ -179,6 +185,30 @@ static int AndroidCPUInfo(CPUFeature feature) {
return 0;
}
VP8CPUInfo VP8GetCPUInfo = AndroidCPUInfo;
#elif defined(EMSCRIPTEN) // also needs to be before generic NEON test
// Use compile flags as an indicator of SIMD support instead of a runtime check.
static int wasmCPUInfo(CPUFeature feature) {
switch (feature) {
#ifdef WEBP_USE_SSE2
case kSSE2:
return 1;
#endif
#ifdef WEBP_USE_SSE41
case kSSE3:
case kSlowSSSE3:
case kSSE4_1:
return 1;
#endif
#ifdef WEBP_USE_NEON
case kNEON:
return 1;
#endif
default:
break;
}
return 0;
}
VP8CPUInfo VP8GetCPUInfo = wasmCPUInfo;
#elif defined(WEBP_USE_NEON)
// define a dummy function to enable turning off NEON at runtime by setting
// VP8DecGetCPUInfo = NULL

68
3rdparty/libwebp/src/dsp/dec_neon.c vendored
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@ -1283,12 +1283,12 @@ static void DC4_NEON(uint8_t* dst) { // DC
const uint8x8_t A = vld1_u8(dst - BPS); // top row
const uint16x4_t p0 = vpaddl_u8(A); // cascading summation of the top
const uint16x4_t p1 = vpadd_u16(p0, p0);
const uint16x8_t L0 = vmovl_u8(vld1_u8(dst + 0 * BPS - 1));
const uint16x8_t L1 = vmovl_u8(vld1_u8(dst + 1 * BPS - 1));
const uint16x8_t L2 = vmovl_u8(vld1_u8(dst + 2 * BPS - 1));
const uint16x8_t L3 = vmovl_u8(vld1_u8(dst + 3 * BPS - 1));
const uint16x8_t s0 = vaddq_u16(L0, L1);
const uint16x8_t s1 = vaddq_u16(L2, L3);
const uint8x8_t L0 = vld1_u8(dst + 0 * BPS - 1);
const uint8x8_t L1 = vld1_u8(dst + 1 * BPS - 1);
const uint8x8_t L2 = vld1_u8(dst + 2 * BPS - 1);
const uint8x8_t L3 = vld1_u8(dst + 3 * BPS - 1);
const uint16x8_t s0 = vaddl_u8(L0, L1);
const uint16x8_t s1 = vaddl_u8(L2, L3);
const uint16x8_t s01 = vaddq_u16(s0, s1);
const uint16x8_t sum = vaddq_u16(s01, vcombine_u16(p1, p1));
const uint8x8_t dc0 = vrshrn_n_u16(sum, 3); // (sum + 4) >> 3
@ -1429,8 +1429,7 @@ static WEBP_INLINE void DC8_NEON(uint8_t* dst, int do_top, int do_left) {
if (do_top) {
const uint8x8_t A = vld1_u8(dst - BPS); // top row
#if defined(__aarch64__)
const uint16x8_t B = vmovl_u8(A);
const uint16_t p2 = vaddvq_u16(B);
const uint16_t p2 = vaddlv_u8(A);
sum_top = vdupq_n_u16(p2);
#else
const uint16x4_t p0 = vpaddl_u8(A); // cascading summation of the top
@ -1441,18 +1440,18 @@ static WEBP_INLINE void DC8_NEON(uint8_t* dst, int do_top, int do_left) {
}
if (do_left) {
const uint16x8_t L0 = vmovl_u8(vld1_u8(dst + 0 * BPS - 1));
const uint16x8_t L1 = vmovl_u8(vld1_u8(dst + 1 * BPS - 1));
const uint16x8_t L2 = vmovl_u8(vld1_u8(dst + 2 * BPS - 1));
const uint16x8_t L3 = vmovl_u8(vld1_u8(dst + 3 * BPS - 1));
const uint16x8_t L4 = vmovl_u8(vld1_u8(dst + 4 * BPS - 1));
const uint16x8_t L5 = vmovl_u8(vld1_u8(dst + 5 * BPS - 1));
const uint16x8_t L6 = vmovl_u8(vld1_u8(dst + 6 * BPS - 1));
const uint16x8_t L7 = vmovl_u8(vld1_u8(dst + 7 * BPS - 1));
const uint16x8_t s0 = vaddq_u16(L0, L1);
const uint16x8_t s1 = vaddq_u16(L2, L3);
const uint16x8_t s2 = vaddq_u16(L4, L5);
const uint16x8_t s3 = vaddq_u16(L6, L7);
const uint8x8_t L0 = vld1_u8(dst + 0 * BPS - 1);
const uint8x8_t L1 = vld1_u8(dst + 1 * BPS - 1);
const uint8x8_t L2 = vld1_u8(dst + 2 * BPS - 1);
const uint8x8_t L3 = vld1_u8(dst + 3 * BPS - 1);
const uint8x8_t L4 = vld1_u8(dst + 4 * BPS - 1);
const uint8x8_t L5 = vld1_u8(dst + 5 * BPS - 1);
const uint8x8_t L6 = vld1_u8(dst + 6 * BPS - 1);
const uint8x8_t L7 = vld1_u8(dst + 7 * BPS - 1);
const uint16x8_t s0 = vaddl_u8(L0, L1);
const uint16x8_t s1 = vaddl_u8(L2, L3);
const uint16x8_t s2 = vaddl_u8(L4, L5);
const uint16x8_t s3 = vaddl_u8(L6, L7);
const uint16x8_t s01 = vaddq_u16(s0, s1);
const uint16x8_t s23 = vaddq_u16(s2, s3);
sum_left = vaddq_u16(s01, s23);
@ -1512,29 +1511,34 @@ static WEBP_INLINE void DC16_NEON(uint8_t* dst, int do_top, int do_left) {
if (do_top) {
const uint8x16_t A = vld1q_u8(dst - BPS); // top row
#if defined(__aarch64__)
const uint16_t p3 = vaddlvq_u8(A);
sum_top = vdupq_n_u16(p3);
#else
const uint16x8_t p0 = vpaddlq_u8(A); // cascading summation of the top
const uint16x4_t p1 = vadd_u16(vget_low_u16(p0), vget_high_u16(p0));
const uint16x4_t p2 = vpadd_u16(p1, p1);
const uint16x4_t p3 = vpadd_u16(p2, p2);
sum_top = vcombine_u16(p3, p3);
#endif
}
if (do_left) {
int i;
sum_left = vdupq_n_u16(0);
for (i = 0; i < 16; i += 8) {
const uint16x8_t L0 = vmovl_u8(vld1_u8(dst + (i + 0) * BPS - 1));
const uint16x8_t L1 = vmovl_u8(vld1_u8(dst + (i + 1) * BPS - 1));
const uint16x8_t L2 = vmovl_u8(vld1_u8(dst + (i + 2) * BPS - 1));
const uint16x8_t L3 = vmovl_u8(vld1_u8(dst + (i + 3) * BPS - 1));
const uint16x8_t L4 = vmovl_u8(vld1_u8(dst + (i + 4) * BPS - 1));
const uint16x8_t L5 = vmovl_u8(vld1_u8(dst + (i + 5) * BPS - 1));
const uint16x8_t L6 = vmovl_u8(vld1_u8(dst + (i + 6) * BPS - 1));
const uint16x8_t L7 = vmovl_u8(vld1_u8(dst + (i + 7) * BPS - 1));
const uint16x8_t s0 = vaddq_u16(L0, L1);
const uint16x8_t s1 = vaddq_u16(L2, L3);
const uint16x8_t s2 = vaddq_u16(L4, L5);
const uint16x8_t s3 = vaddq_u16(L6, L7);
const uint8x8_t L0 = vld1_u8(dst + (i + 0) * BPS - 1);
const uint8x8_t L1 = vld1_u8(dst + (i + 1) * BPS - 1);
const uint8x8_t L2 = vld1_u8(dst + (i + 2) * BPS - 1);
const uint8x8_t L3 = vld1_u8(dst + (i + 3) * BPS - 1);
const uint8x8_t L4 = vld1_u8(dst + (i + 4) * BPS - 1);
const uint8x8_t L5 = vld1_u8(dst + (i + 5) * BPS - 1);
const uint8x8_t L6 = vld1_u8(dst + (i + 6) * BPS - 1);
const uint8x8_t L7 = vld1_u8(dst + (i + 7) * BPS - 1);
const uint16x8_t s0 = vaddl_u8(L0, L1);
const uint16x8_t s1 = vaddl_u8(L2, L3);
const uint16x8_t s2 = vaddl_u8(L4, L5);
const uint16x8_t s3 = vaddl_u8(L6, L7);
const uint16x8_t s01 = vaddq_u16(s0, s1);
const uint16x8_t s23 = vaddq_u16(s2, s3);
const uint16x8_t sum = vaddq_u16(s01, s23);

18
3rdparty/libwebp/src/dsp/dsp.h vendored
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@ -51,9 +51,7 @@ extern "C" {
# define __has_builtin(x) 0
#endif
// for now, none of the optimizations below are available in emscripten
#if !defined(EMSCRIPTEN)
#if !defined(HAVE_CONFIG_H)
#if defined(_MSC_VER) && _MSC_VER > 1310 && \
(defined(_M_X64) || defined(_M_IX86))
#define WEBP_MSC_SSE2 // Visual C++ SSE2 targets
@ -63,6 +61,7 @@ extern "C" {
(defined(_M_X64) || defined(_M_IX86))
#define WEBP_MSC_SSE41 // Visual C++ SSE4.1 targets
#endif
#endif
// WEBP_HAVE_* are used to indicate the presence of the instruction set in dsp
// files without intrinsics, allowing the corresponding Init() to be called.
@ -76,6 +75,9 @@ extern "C" {
#define WEBP_USE_SSE41
#endif
#undef WEBP_MSC_SSE41
#undef WEBP_MSC_SSE2
// The intrinsics currently cause compiler errors with arm-nacl-gcc and the
// inline assembly would need to be modified for use with Native Client.
#if (defined(__ARM_NEON__) || \
@ -110,8 +112,6 @@ extern "C" {
#define WEBP_USE_MSA
#endif
#endif /* EMSCRIPTEN */
#ifndef WEBP_DSP_OMIT_C_CODE
#define WEBP_DSP_OMIT_C_CODE 1
#endif
@ -193,6 +193,12 @@ extern "C" {
#endif
#endif
// If 'ptr' is NULL, returns NULL. Otherwise returns 'ptr + off'.
// Prevents undefined behavior sanitizer nullptr-with-nonzero-offset warning.
#if !defined(WEBP_OFFSET_PTR)
#define WEBP_OFFSET_PTR(ptr, off) (((ptr) == NULL) ? NULL : ((ptr) + (off)))
#endif
// Regularize the definition of WEBP_SWAP_16BIT_CSP (backward compatibility)
#if !defined(WEBP_SWAP_16BIT_CSP)
#define WEBP_SWAP_16BIT_CSP 0
@ -632,6 +638,8 @@ extern void (*WebPPackRGB)(const uint8_t* r, const uint8_t* g, const uint8_t* b,
extern int (*WebPHasAlpha8b)(const uint8_t* src, int length);
// This function returns true if src[4*i] contains a value different from 0xff.
extern int (*WebPHasAlpha32b)(const uint8_t* src, int length);
// replaces transparent values in src[] by 'color'.
extern void (*WebPAlphaReplace)(uint32_t* src, int length, uint32_t color);
// To be called first before using the above.
void WebPInitAlphaProcessing(void);

56
3rdparty/libwebp/src/dsp/lossless.c vendored
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@ -107,62 +107,62 @@ static WEBP_INLINE uint32_t Select(uint32_t a, uint32_t b, uint32_t c) {
//------------------------------------------------------------------------------
// Predictors
static uint32_t Predictor0_C(uint32_t left, const uint32_t* const top) {
uint32_t VP8LPredictor0_C(uint32_t left, const uint32_t* const top) {
(void)top;
(void)left;
return ARGB_BLACK;
}
static uint32_t Predictor1_C(uint32_t left, const uint32_t* const top) {
uint32_t VP8LPredictor1_C(uint32_t left, const uint32_t* const top) {
(void)top;
return left;
}
static uint32_t Predictor2_C(uint32_t left, const uint32_t* const top) {
uint32_t VP8LPredictor2_C(uint32_t left, const uint32_t* const top) {
(void)left;
return top[0];
}
static uint32_t Predictor3_C(uint32_t left, const uint32_t* const top) {
uint32_t VP8LPredictor3_C(uint32_t left, const uint32_t* const top) {
(void)left;
return top[1];
}
static uint32_t Predictor4_C(uint32_t left, const uint32_t* const top) {
uint32_t VP8LPredictor4_C(uint32_t left, const uint32_t* const top) {
(void)left;
return top[-1];
}
static uint32_t Predictor5_C(uint32_t left, const uint32_t* const top) {
uint32_t VP8LPredictor5_C(uint32_t left, const uint32_t* const top) {
const uint32_t pred = Average3(left, top[0], top[1]);
return pred;
}
static uint32_t Predictor6_C(uint32_t left, const uint32_t* const top) {
uint32_t VP8LPredictor6_C(uint32_t left, const uint32_t* const top) {
const uint32_t pred = Average2(left, top[-1]);
return pred;
}
static uint32_t Predictor7_C(uint32_t left, const uint32_t* const top) {
uint32_t VP8LPredictor7_C(uint32_t left, const uint32_t* const top) {
const uint32_t pred = Average2(left, top[0]);
return pred;
}
static uint32_t Predictor8_C(uint32_t left, const uint32_t* const top) {
uint32_t VP8LPredictor8_C(uint32_t left, const uint32_t* const top) {
const uint32_t pred = Average2(top[-1], top[0]);
(void)left;
return pred;
}
static uint32_t Predictor9_C(uint32_t left, const uint32_t* const top) {
uint32_t VP8LPredictor9_C(uint32_t left, const uint32_t* const top) {
const uint32_t pred = Average2(top[0], top[1]);
(void)left;
return pred;
}
static uint32_t Predictor10_C(uint32_t left, const uint32_t* const top) {
uint32_t VP8LPredictor10_C(uint32_t left, const uint32_t* const top) {
const uint32_t pred = Average4(left, top[-1], top[0], top[1]);
return pred;
}
static uint32_t Predictor11_C(uint32_t left, const uint32_t* const top) {
uint32_t VP8LPredictor11_C(uint32_t left, const uint32_t* const top) {
const uint32_t pred = Select(top[0], left, top[-1]);
return pred;
}
static uint32_t Predictor12_C(uint32_t left, const uint32_t* const top) {
uint32_t VP8LPredictor12_C(uint32_t left, const uint32_t* const top) {
const uint32_t pred = ClampedAddSubtractFull(left, top[0], top[-1]);
return pred;
}
static uint32_t Predictor13_C(uint32_t left, const uint32_t* const top) {
uint32_t VP8LPredictor13_C(uint32_t left, const uint32_t* const top) {
const uint32_t pred = ClampedAddSubtractHalf(left, top[0], top[-1]);
return pred;
}
@ -182,18 +182,18 @@ static void PredictorAdd1_C(const uint32_t* in, const uint32_t* upper,
out[i] = left = VP8LAddPixels(in[i], left);
}
}
GENERATE_PREDICTOR_ADD(Predictor2_C, PredictorAdd2_C)
GENERATE_PREDICTOR_ADD(Predictor3_C, PredictorAdd3_C)
GENERATE_PREDICTOR_ADD(Predictor4_C, PredictorAdd4_C)
GENERATE_PREDICTOR_ADD(Predictor5_C, PredictorAdd5_C)
GENERATE_PREDICTOR_ADD(Predictor6_C, PredictorAdd6_C)
GENERATE_PREDICTOR_ADD(Predictor7_C, PredictorAdd7_C)
GENERATE_PREDICTOR_ADD(Predictor8_C, PredictorAdd8_C)
GENERATE_PREDICTOR_ADD(Predictor9_C, PredictorAdd9_C)
GENERATE_PREDICTOR_ADD(Predictor10_C, PredictorAdd10_C)
GENERATE_PREDICTOR_ADD(Predictor11_C, PredictorAdd11_C)
GENERATE_PREDICTOR_ADD(Predictor12_C, PredictorAdd12_C)
GENERATE_PREDICTOR_ADD(Predictor13_C, PredictorAdd13_C)
GENERATE_PREDICTOR_ADD(VP8LPredictor2_C, PredictorAdd2_C)
GENERATE_PREDICTOR_ADD(VP8LPredictor3_C, PredictorAdd3_C)
GENERATE_PREDICTOR_ADD(VP8LPredictor4_C, PredictorAdd4_C)
GENERATE_PREDICTOR_ADD(VP8LPredictor5_C, PredictorAdd5_C)
GENERATE_PREDICTOR_ADD(VP8LPredictor6_C, PredictorAdd6_C)
GENERATE_PREDICTOR_ADD(VP8LPredictor7_C, PredictorAdd7_C)
GENERATE_PREDICTOR_ADD(VP8LPredictor8_C, PredictorAdd8_C)
GENERATE_PREDICTOR_ADD(VP8LPredictor9_C, PredictorAdd9_C)
GENERATE_PREDICTOR_ADD(VP8LPredictor10_C, PredictorAdd10_C)
GENERATE_PREDICTOR_ADD(VP8LPredictor11_C, PredictorAdd11_C)
GENERATE_PREDICTOR_ADD(VP8LPredictor12_C, PredictorAdd12_C)
GENERATE_PREDICTOR_ADD(VP8LPredictor13_C, PredictorAdd13_C)
//------------------------------------------------------------------------------
@ -562,7 +562,6 @@ VP8LPredictorFunc VP8LPredictors[16];
// exposed plain-C implementations
VP8LPredictorAddSubFunc VP8LPredictorsAdd_C[16];
VP8LPredictorFunc VP8LPredictors_C[16];
VP8LTransformColorInverseFunc VP8LTransformColorInverse;
@ -600,8 +599,7 @@ extern void VP8LDspInitMSA(void);
} while (0);
WEBP_DSP_INIT_FUNC(VP8LDspInit) {
COPY_PREDICTOR_ARRAY(Predictor, VP8LPredictors)
COPY_PREDICTOR_ARRAY(Predictor, VP8LPredictors_C)
COPY_PREDICTOR_ARRAY(VP8LPredictor, VP8LPredictors)
COPY_PREDICTOR_ARRAY(PredictorAdd, VP8LPredictorsAdd)
COPY_PREDICTOR_ARRAY(PredictorAdd, VP8LPredictorsAdd_C)

17
3rdparty/libwebp/src/dsp/lossless.h vendored
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@ -30,7 +30,22 @@ extern "C" {
typedef uint32_t (*VP8LPredictorFunc)(uint32_t left, const uint32_t* const top);
extern VP8LPredictorFunc VP8LPredictors[16];
extern VP8LPredictorFunc VP8LPredictors_C[16];
uint32_t VP8LPredictor0_C(uint32_t left, const uint32_t* const top);
uint32_t VP8LPredictor1_C(uint32_t left, const uint32_t* const top);
uint32_t VP8LPredictor2_C(uint32_t left, const uint32_t* const top);
uint32_t VP8LPredictor3_C(uint32_t left, const uint32_t* const top);
uint32_t VP8LPredictor4_C(uint32_t left, const uint32_t* const top);
uint32_t VP8LPredictor5_C(uint32_t left, const uint32_t* const top);
uint32_t VP8LPredictor6_C(uint32_t left, const uint32_t* const top);
uint32_t VP8LPredictor7_C(uint32_t left, const uint32_t* const top);
uint32_t VP8LPredictor8_C(uint32_t left, const uint32_t* const top);
uint32_t VP8LPredictor9_C(uint32_t left, const uint32_t* const top);
uint32_t VP8LPredictor10_C(uint32_t left, const uint32_t* const top);
uint32_t VP8LPredictor11_C(uint32_t left, const uint32_t* const top);
uint32_t VP8LPredictor12_C(uint32_t left, const uint32_t* const top);
uint32_t VP8LPredictor13_C(uint32_t left, const uint32_t* const top);
// These Add/Sub function expects upper[-1] and out[-1] to be readable.
typedef void (*VP8LPredictorAddSubFunc)(const uint32_t* in,
const uint32_t* upper, int num_pixels,

13
3rdparty/libwebp/src/dsp/lossless_common.h vendored
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@ -184,19 +184,6 @@ static void PREDICTOR_ADD(const uint32_t* in, const uint32_t* upper, \
} \
}
// It subtracts the prediction from the input pixel and stores the residual
// in the output pixel.
#define GENERATE_PREDICTOR_SUB(PREDICTOR, PREDICTOR_SUB) \
static void PREDICTOR_SUB(const uint32_t* in, const uint32_t* upper, \
int num_pixels, uint32_t* out) { \
int x; \
assert(upper != NULL); \
for (x = 0; x < num_pixels; ++x) { \
const uint32_t pred = (PREDICTOR)(in[x - 1], upper + x); \
out[x] = VP8LSubPixels(in[x], pred); \
} \
}
#ifdef __cplusplus
} // extern "C"
#endif

173
3rdparty/libwebp/src/dsp/lossless_enc.c vendored
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@ -702,140 +702,6 @@ void VP8LHistogramAdd(const VP8LHistogram* const a,
//------------------------------------------------------------------------------
// Image transforms.
static WEBP_INLINE uint32_t Average2(uint32_t a0, uint32_t a1) {
return (((a0 ^ a1) & 0xfefefefeu) >> 1) + (a0 & a1);
}
static WEBP_INLINE uint32_t Average3(uint32_t a0, uint32_t a1, uint32_t a2) {
return Average2(Average2(a0, a2), a1);
}
static WEBP_INLINE uint32_t Average4(uint32_t a0, uint32_t a1,
uint32_t a2, uint32_t a3) {
return Average2(Average2(a0, a1), Average2(a2, a3));
}
static WEBP_INLINE uint32_t Clip255(uint32_t a) {
if (a < 256) {
return a;
}
// return 0, when a is a negative integer.
// return 255, when a is positive.
return ~a >> 24;
}
static WEBP_INLINE int AddSubtractComponentFull(int a, int b, int c) {
return Clip255(a + b - c);
}
static WEBP_INLINE uint32_t ClampedAddSubtractFull(uint32_t c0, uint32_t c1,
uint32_t c2) {
const int a = AddSubtractComponentFull(c0 >> 24, c1 >> 24, c2 >> 24);
const int r = AddSubtractComponentFull((c0 >> 16) & 0xff,
(c1 >> 16) & 0xff,
(c2 >> 16) & 0xff);
const int g = AddSubtractComponentFull((c0 >> 8) & 0xff,
(c1 >> 8) & 0xff,
(c2 >> 8) & 0xff);
const int b = AddSubtractComponentFull(c0 & 0xff, c1 & 0xff, c2 & 0xff);
return ((uint32_t)a << 24) | (r << 16) | (g << 8) | b;
}
static WEBP_INLINE int AddSubtractComponentHalf(int a, int b) {
return Clip255(a + (a - b) / 2);
}
static WEBP_INLINE uint32_t ClampedAddSubtractHalf(uint32_t c0, uint32_t c1,
uint32_t c2) {
const uint32_t ave = Average2(c0, c1);
const int a = AddSubtractComponentHalf(ave >> 24, c2 >> 24);
const int r = AddSubtractComponentHalf((ave >> 16) & 0xff, (c2 >> 16) & 0xff);
const int g = AddSubtractComponentHalf((ave >> 8) & 0xff, (c2 >> 8) & 0xff);
const int b = AddSubtractComponentHalf((ave >> 0) & 0xff, (c2 >> 0) & 0xff);
return ((uint32_t)a << 24) | (r << 16) | (g << 8) | b;
}
// gcc-4.9 on ARM generates incorrect code in Select() when Sub3() is inlined.
#if defined(__arm__) && \
(LOCAL_GCC_VERSION == 0x409 || LOCAL_GCC_VERSION == 0x408)
# define LOCAL_INLINE __attribute__ ((noinline))
#else
# define LOCAL_INLINE WEBP_INLINE
#endif
static LOCAL_INLINE int Sub3(int a, int b, int c) {
const int pb = b - c;
const int pa = a - c;
return abs(pb) - abs(pa);
}
#undef LOCAL_INLINE
static WEBP_INLINE uint32_t Select(uint32_t a, uint32_t b, uint32_t c) {
const int pa_minus_pb =
Sub3((a >> 24) , (b >> 24) , (c >> 24) ) +
Sub3((a >> 16) & 0xff, (b >> 16) & 0xff, (c >> 16) & 0xff) +
Sub3((a >> 8) & 0xff, (b >> 8) & 0xff, (c >> 8) & 0xff) +
Sub3((a ) & 0xff, (b ) & 0xff, (c ) & 0xff);
return (pa_minus_pb <= 0) ? a : b;
}
//------------------------------------------------------------------------------
// Predictors
static uint32_t Predictor2(uint32_t left, const uint32_t* const top) {
(void)left;
return top[0];
}
static uint32_t Predictor3(uint32_t left, const uint32_t* const top) {
(void)left;
return top[1];
}
static uint32_t Predictor4(uint32_t left, const uint32_t* const top) {
(void)left;
return top[-1];
}
static uint32_t Predictor5(uint32_t left, const uint32_t* const top) {
const uint32_t pred = Average3(left, top[0], top[1]);
return pred;
}
static uint32_t Predictor6(uint32_t left, const uint32_t* const top) {
const uint32_t pred = Average2(left, top[-1]);
return pred;
}
static uint32_t Predictor7(uint32_t left, const uint32_t* const top) {
const uint32_t pred = Average2(left, top[0]);
return pred;
}
static uint32_t Predictor8(uint32_t left, const uint32_t* const top) {
const uint32_t pred = Average2(top[-1], top[0]);
(void)left;
return pred;
}
static uint32_t Predictor9(uint32_t left, const uint32_t* const top) {
const uint32_t pred = Average2(top[0], top[1]);
(void)left;
return pred;
}
static uint32_t Predictor10(uint32_t left, const uint32_t* const top) {
const uint32_t pred = Average4(left, top[-1], top[0], top[1]);
return pred;
}
static uint32_t Predictor11(uint32_t left, const uint32_t* const top) {
const uint32_t pred = Select(top[0], left, top[-1]);
return pred;
}
static uint32_t Predictor12(uint32_t left, const uint32_t* const top) {
const uint32_t pred = ClampedAddSubtractFull(left, top[0], top[-1]);
return pred;
}
static uint32_t Predictor13(uint32_t left, const uint32_t* const top) {
const uint32_t pred = ClampedAddSubtractHalf(left, top[0], top[-1]);
return pred;
}
//------------------------------------------------------------------------------
static void PredictorSub0_C(const uint32_t* in, const uint32_t* upper,
int num_pixels, uint32_t* out) {
int i;
@ -850,18 +716,33 @@ static void PredictorSub1_C(const uint32_t* in, const uint32_t* upper,
(void)upper;
}
GENERATE_PREDICTOR_SUB(Predictor2, PredictorSub2_C)
GENERATE_PREDICTOR_SUB(Predictor3, PredictorSub3_C)
GENERATE_PREDICTOR_SUB(Predictor4, PredictorSub4_C)
GENERATE_PREDICTOR_SUB(Predictor5, PredictorSub5_C)
GENERATE_PREDICTOR_SUB(Predictor6, PredictorSub6_C)
GENERATE_PREDICTOR_SUB(Predictor7, PredictorSub7_C)
GENERATE_PREDICTOR_SUB(Predictor8, PredictorSub8_C)
GENERATE_PREDICTOR_SUB(Predictor9, PredictorSub9_C)
GENERATE_PREDICTOR_SUB(Predictor10, PredictorSub10_C)
GENERATE_PREDICTOR_SUB(Predictor11, PredictorSub11_C)
GENERATE_PREDICTOR_SUB(Predictor12, PredictorSub12_C)
GENERATE_PREDICTOR_SUB(Predictor13, PredictorSub13_C)
// It subtracts the prediction from the input pixel and stores the residual
// in the output pixel.
#define GENERATE_PREDICTOR_SUB(PREDICTOR_I) \
static void PredictorSub##PREDICTOR_I##_C(const uint32_t* in, \
const uint32_t* upper, \
int num_pixels, uint32_t* out) { \
int x; \
assert(upper != NULL); \
for (x = 0; x < num_pixels; ++x) { \
const uint32_t pred = \
VP8LPredictor##PREDICTOR_I##_C(in[x - 1], upper + x); \
out[x] = VP8LSubPixels(in[x], pred); \
} \
}
GENERATE_PREDICTOR_SUB(2)
GENERATE_PREDICTOR_SUB(3)
GENERATE_PREDICTOR_SUB(4)
GENERATE_PREDICTOR_SUB(5)
GENERATE_PREDICTOR_SUB(6)
GENERATE_PREDICTOR_SUB(7)
GENERATE_PREDICTOR_SUB(8)
GENERATE_PREDICTOR_SUB(9)
GENERATE_PREDICTOR_SUB(10)
GENERATE_PREDICTOR_SUB(11)
GENERATE_PREDICTOR_SUB(12)
GENERATE_PREDICTOR_SUB(13)
//------------------------------------------------------------------------------

38
3rdparty/libwebp/src/dsp/lossless_enc_sse2.c vendored
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@ -249,6 +249,7 @@ static void AddVectorEq_SSE2(const uint32_t* a, uint32_t* out, int size) {
} \
} while (0)
#if !(defined(__i386__) || defined(_M_IX86))
static float CombinedShannonEntropy_SSE2(const int X[256], const int Y[256]) {
int i;
double retval = 0.;
@ -300,6 +301,8 @@ static float CombinedShannonEntropy_SSE2(const int X[256], const int Y[256]) {
retval += VP8LFastSLog2(sumX) + VP8LFastSLog2(sumXY);
return (float)retval;
}
#endif // !(defined(__i386__) || defined(_M_IX86))
#undef ANALYZE_X_OR_Y
#undef ANALYZE_XY
@ -460,20 +463,22 @@ static void PredictorSub0_SSE2(const uint32_t* in, const uint32_t* upper,
(void)upper;
}
#define GENERATE_PREDICTOR_1(X, IN) \
static void PredictorSub##X##_SSE2(const uint32_t* in, const uint32_t* upper, \
int num_pixels, uint32_t* out) { \
int i; \
for (i = 0; i + 4 <= num_pixels; i += 4) { \
const __m128i src = _mm_loadu_si128((const __m128i*)&in[i]); \
const __m128i pred = _mm_loadu_si128((const __m128i*)&(IN)); \
const __m128i res = _mm_sub_epi8(src, pred); \
_mm_storeu_si128((__m128i*)&out[i], res); \
} \
if (i != num_pixels) { \
VP8LPredictorsSub_C[(X)](in + i, upper + i, num_pixels - i, out + i); \
} \
}
#define GENERATE_PREDICTOR_1(X, IN) \
static void PredictorSub##X##_SSE2(const uint32_t* const in, \
const uint32_t* const upper, \
int num_pixels, uint32_t* const out) { \
int i; \
for (i = 0; i + 4 <= num_pixels; i += 4) { \
const __m128i src = _mm_loadu_si128((const __m128i*)&in[i]); \
const __m128i pred = _mm_loadu_si128((const __m128i*)&(IN)); \
const __m128i res = _mm_sub_epi8(src, pred); \
_mm_storeu_si128((__m128i*)&out[i], res); \
} \
if (i != num_pixels) { \
VP8LPredictorsSub_C[(X)](in + i, WEBP_OFFSET_PTR(upper, i), \
num_pixels - i, out + i); \
} \
}
GENERATE_PREDICTOR_1(1, in[i - 1]) // Predictor1: L
GENERATE_PREDICTOR_1(2, upper[i]) // Predictor2: T
@ -657,7 +662,12 @@ WEBP_TSAN_IGNORE_FUNCTION void VP8LEncDspInitSSE2(void) {
VP8LCollectColorRedTransforms = CollectColorRedTransforms_SSE2;
VP8LAddVector = AddVector_SSE2;
VP8LAddVectorEq = AddVectorEq_SSE2;
// TODO(https://crbug.com/webp/499): this function produces different results
// from the C code due to use of double/float resulting in output differences
// when compared to -noasm.
#if !(defined(__i386__) || defined(_M_IX86))
VP8LCombinedShannonEntropy = CombinedShannonEntropy_SSE2;
#endif
VP8LVectorMismatch = VectorMismatch_SSE2;
VP8LBundleColorMap = BundleColorMap_SSE2;

60
3rdparty/libwebp/src/enc/analysis_enc.c vendored
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@ -126,16 +126,6 @@ static void InitHistogram(VP8Histogram* const histo) {
histo->last_non_zero = 1;
}
static void MergeHistograms(const VP8Histogram* const in,
VP8Histogram* const out) {
if (in->max_value > out->max_value) {
out->max_value = in->max_value;
}
if (in->last_non_zero > out->last_non_zero) {
out->last_non_zero = in->last_non_zero;
}
}
//------------------------------------------------------------------------------
// Simplified k-Means, to assign Nb segments based on alpha-histogram
@ -285,49 +275,6 @@ static int FastMBAnalyze(VP8EncIterator* const it) {
return 0;
}
static int MBAnalyzeBestIntra4Mode(VP8EncIterator* const it,
int best_alpha) {
uint8_t modes[16];
const int max_mode = MAX_INTRA4_MODE;
int i4_alpha;
VP8Histogram total_histo;
int cur_histo = 0;
InitHistogram(&total_histo);
VP8IteratorStartI4(it);
do {
int mode;
int best_mode_alpha = DEFAULT_ALPHA;
VP8Histogram histos[2];
const uint8_t* const src = it->yuv_in_ + Y_OFF_ENC + VP8Scan[it->i4_];
VP8MakeIntra4Preds(it);
for (mode = 0; mode < max_mode; ++mode) {
int alpha;
InitHistogram(&histos[cur_histo]);
VP8CollectHistogram(src, it->yuv_p_ + VP8I4ModeOffsets[mode],
0, 1, &histos[cur_histo]);
alpha = GetAlpha(&histos[cur_histo]);
if (IS_BETTER_ALPHA(alpha, best_mode_alpha)) {
best_mode_alpha = alpha;
modes[it->i4_] = mode;
cur_histo ^= 1; // keep track of best histo so far.
}
}
// accumulate best histogram
MergeHistograms(&histos[cur_histo ^ 1], &total_histo);
// Note: we reuse the original samples for predictors
} while (VP8IteratorRotateI4(it, it->yuv_in_ + Y_OFF_ENC));
i4_alpha = GetAlpha(&total_histo);
if (IS_BETTER_ALPHA(i4_alpha, best_alpha)) {
VP8SetIntra4Mode(it, modes);
best_alpha = i4_alpha;
}
return best_alpha;
}
static int MBAnalyzeBestUVMode(VP8EncIterator* const it) {
int best_alpha = DEFAULT_ALPHA;
int smallest_alpha = 0;
@ -371,13 +318,6 @@ static void MBAnalyze(VP8EncIterator* const it,
best_alpha = FastMBAnalyze(it);
} else {
best_alpha = MBAnalyzeBestIntra16Mode(it);
if (enc->method_ >= 5) {
// We go and make a fast decision for intra4/intra16.
// It's usually not a good and definitive pick, but helps seeding the
// stats about level bit-cost.
// TODO(skal): improve criterion.
best_alpha = MBAnalyzeBestIntra4Mode(it, best_alpha);
}
}
best_uv_alpha = MBAnalyzeBestUVMode(it);

201
3rdparty/libwebp/src/enc/backward_references_enc.c vendored
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@ -11,13 +11,14 @@
//
#include <assert.h>
#include <float.h>
#include <math.h>
#include "src/enc/backward_references_enc.h"
#include "src/enc/histogram_enc.h"
#include "src/dsp/dsp.h"
#include "src/dsp/lossless.h"
#include "src/dsp/lossless_common.h"
#include "src/dsp/dsp.h"
#include "src/enc/backward_references_enc.h"
#include "src/enc/histogram_enc.h"
#include "src/utils/color_cache_utils.h"
#include "src/utils/utils.h"
@ -103,6 +104,20 @@ void VP8LBackwardRefsClear(VP8LBackwardRefs* const refs) {
}
}
// Swaps the content of two VP8LBackwardRefs.
static void BackwardRefsSwap(VP8LBackwardRefs* const refs1,
VP8LBackwardRefs* const refs2) {
const int point_to_refs1 =
(refs1->tail_ != NULL && refs1->tail_ == &refs1->refs_);
const int point_to_refs2 =
(refs2->tail_ != NULL && refs2->tail_ == &refs2->refs_);
const VP8LBackwardRefs tmp = *refs1;
*refs1 = *refs2;
*refs2 = tmp;
if (point_to_refs2) refs1->tail_ = &refs1->refs_;
if (point_to_refs1) refs2->tail_ = &refs2->refs_;
}
void VP8LBackwardRefsInit(VP8LBackwardRefs* const refs, int block_size) {
assert(refs != NULL);
memset(refs, 0, sizeof(*refs));
@ -154,6 +169,22 @@ static PixOrCopyBlock* BackwardRefsNewBlock(VP8LBackwardRefs* const refs) {
return b;
}
// Return 1 on success, 0 on error.
static int BackwardRefsClone(const VP8LBackwardRefs* const from,
VP8LBackwardRefs* const to) {
const PixOrCopyBlock* block_from = from->refs_;
VP8LClearBackwardRefs(to);
while (block_from != NULL) {
PixOrCopyBlock* const block_to = BackwardRefsNewBlock(to);
if (block_to == NULL) return 0;
memcpy(block_to->start_, block_from->start_,
block_from->size_ * sizeof(PixOrCopy));
block_to->size_ = block_from->size_;
block_from = block_from->next_;
}
return 1;
}
extern void VP8LBackwardRefsCursorAdd(VP8LBackwardRefs* const refs,
const PixOrCopy v);
void VP8LBackwardRefsCursorAdd(VP8LBackwardRefs* const refs,
@ -753,12 +784,18 @@ static int CalculateBestCacheSize(const uint32_t* argb, int quality,
}
}
} else {
int code, extra_bits, extra_bits_value;
// We should compute the contribution of the (distance,length)
// histograms but those are the same independently from the cache size.
// As those constant contributions are in the end added to the other
// histogram contributions, we can safely ignore them.
// histogram contributions, we can ignore them, except for the length
// prefix that is part of the literal_ histogram.
int len = PixOrCopyLength(v);
uint32_t argb_prev = *argb ^ 0xffffffffu;
VP8LPrefixEncode(len, &code, &extra_bits, &extra_bits_value);
for (i = 0; i <= cache_bits_max; ++i) {
++histos[i]->literal_[NUM_LITERAL_CODES + code];
}
// Update the color caches.
do {
if (*argb != argb_prev) {
@ -842,16 +879,21 @@ extern int VP8LBackwardReferencesTraceBackwards(
int xsize, int ysize, const uint32_t* const argb, int cache_bits,
const VP8LHashChain* const hash_chain,
const VP8LBackwardRefs* const refs_src, VP8LBackwardRefs* const refs_dst);
static VP8LBackwardRefs* GetBackwardReferences(
int width, int height, const uint32_t* const argb, int quality,
int lz77_types_to_try, int* const cache_bits,
const VP8LHashChain* const hash_chain, VP8LBackwardRefs* best,
VP8LBackwardRefs* worst) {
const int cache_bits_initial = *cache_bits;
double bit_cost_best = -1;
static int GetBackwardReferences(int width, int height,
const uint32_t* const argb, int quality,
int lz77_types_to_try, int cache_bits_max,
int do_no_cache,
const VP8LHashChain* const hash_chain,
VP8LBackwardRefs* const refs,
int* const cache_bits_best) {
VP8LHistogram* histo = NULL;
int lz77_type, lz77_type_best = 0;
int i, lz77_type;
// Index 0 is for a color cache, index 1 for no cache (if needed).
int lz77_types_best[2] = {0, 0};
double bit_costs_best[2] = {DBL_MAX, DBL_MAX};
VP8LHashChain hash_chain_box;
VP8LBackwardRefs* const refs_tmp = &refs[do_no_cache ? 2 : 1];
int status = 0;
memset(&hash_chain_box, 0, sizeof(hash_chain_box));
histo = VP8LAllocateHistogram(MAX_COLOR_CACHE_BITS);
@ -860,86 +902,129 @@ static VP8LBackwardRefs* GetBackwardReferences(
for (lz77_type = 1; lz77_types_to_try;
lz77_types_to_try &= ~lz77_type, lz77_type <<= 1) {
int res = 0;
double bit_cost;
int cache_bits_tmp = cache_bits_initial;
double bit_cost = 0.;
if ((lz77_types_to_try & lz77_type) == 0) continue;
switch (lz77_type) {
case kLZ77RLE:
res = BackwardReferencesRle(width, height, argb, 0, worst);
res = BackwardReferencesRle(width, height, argb, 0, refs_tmp);
break;
case kLZ77Standard:
// Compute LZ77 with no cache (0 bits), as the ideal LZ77 with a color
// cache is not that different in practice.
res = BackwardReferencesLz77(width, height, argb, 0, hash_chain, worst);
res = BackwardReferencesLz77(width, height, argb, 0, hash_chain,
refs_tmp);
break;
case kLZ77Box:
if (!VP8LHashChainInit(&hash_chain_box, width * height)) goto Error;
res = BackwardReferencesLz77Box(width, height, argb, 0, hash_chain,
&hash_chain_box, worst);
&hash_chain_box, refs_tmp);
break;
default:
assert(0);
}
if (!res) goto Error;
// Next, try with a color cache and update the references.
if (!CalculateBestCacheSize(argb, quality, worst, &cache_bits_tmp)) {
goto Error;
}
if (cache_bits_tmp > 0) {
if (!BackwardRefsWithLocalCache(argb, cache_bits_tmp, worst)) {
goto Error;
// Start with the no color cache case.
for (i = 1; i >= 0; --i) {
int cache_bits = (i == 1) ? 0 : cache_bits_max;
if (i == 1 && !do_no_cache) continue;
if (i == 0) {
// Try with a color cache.
if (!CalculateBestCacheSize(argb, quality, refs_tmp, &cache_bits)) {
goto Error;
}
if (cache_bits > 0) {
if (!BackwardRefsWithLocalCache(argb, cache_bits, refs_tmp)) {
goto Error;
}
}
}
}
// Keep the best backward references.
VP8LHistogramCreate(histo, worst, cache_bits_tmp);
bit_cost = VP8LHistogramEstimateBits(histo);
if (lz77_type_best == 0 || bit_cost < bit_cost_best) {
VP8LBackwardRefs* const tmp = worst;
worst = best;
best = tmp;
bit_cost_best = bit_cost;
*cache_bits = cache_bits_tmp;
lz77_type_best = lz77_type;
if (i == 0 && do_no_cache && cache_bits == 0) {
// No need to re-compute bit_cost as it was computed at i == 1.
} else {
VP8LHistogramCreate(histo, refs_tmp, cache_bits);
bit_cost = VP8LHistogramEstimateBits(histo);
}
if (bit_cost < bit_costs_best[i]) {
if (i == 1) {
// Do not swap as the full cache analysis would have the wrong
// VP8LBackwardRefs to start with.
if (!BackwardRefsClone(refs_tmp, &refs[1])) goto Error;
} else {
BackwardRefsSwap(refs_tmp, &refs[0]);
}
bit_costs_best[i] = bit_cost;
lz77_types_best[i] = lz77_type;
if (i == 0) *cache_bits_best = cache_bits;
}
}
}
assert(lz77_type_best > 0);
assert(lz77_types_best[0] > 0);
assert(!do_no_cache || lz77_types_best[1] > 0);
// Improve on simple LZ77 but only for high quality (TraceBackwards is
// costly).
if ((lz77_type_best == kLZ77Standard || lz77_type_best == kLZ77Box) &&
quality >= 25) {
const VP8LHashChain* const hash_chain_tmp =
(lz77_type_best == kLZ77Standard) ? hash_chain : &hash_chain_box;
if (VP8LBackwardReferencesTraceBackwards(width, height, argb, *cache_bits,
hash_chain_tmp, best, worst)) {
double bit_cost_trace;
VP8LHistogramCreate(histo, worst, *cache_bits);
bit_cost_trace = VP8LHistogramEstimateBits(histo);
if (bit_cost_trace < bit_cost_best) best = worst;
for (i = 1; i >= 0; --i) {
if (i == 1 && !do_no_cache) continue;
if ((lz77_types_best[i] == kLZ77Standard ||
lz77_types_best[i] == kLZ77Box) &&
quality >= 25) {
const VP8LHashChain* const hash_chain_tmp =
(lz77_types_best[i] == kLZ77Standard) ? hash_chain : &hash_chain_box;
const int cache_bits = (i == 1) ? 0 : *cache_bits_best;
if (VP8LBackwardReferencesTraceBackwards(width, height, argb, cache_bits,
hash_chain_tmp, &refs[i],
refs_tmp)) {
double bit_cost_trace;
VP8LHistogramCreate(histo, refs_tmp, cache_bits);
bit_cost_trace = VP8LHistogramEstimateBits(histo);
if (bit_cost_trace < bit_costs_best[i]) {
BackwardRefsSwap(refs_tmp, &refs[i]);
}
}
}
}
BackwardReferences2DLocality(width, best);
BackwardReferences2DLocality(width, &refs[i]);
if (i == 1 && lz77_types_best[0] == lz77_types_best[1] &&
*cache_bits_best == 0) {
// If the best cache size is 0 and we have the same best LZ77, just copy
// the data over and stop here.
if (!BackwardRefsClone(&refs[1], &refs[0])) goto Error;
break;
}
}
status = 1;
Error:
VP8LHashChainClear(&hash_chain_box);
VP8LFreeHistogram(histo);
return best;
return status;
}
VP8LBackwardRefs* VP8LGetBackwardReferences(
WebPEncodingError VP8LGetBackwardReferences(
int width, int height, const uint32_t* const argb, int quality,
int low_effort, int lz77_types_to_try, int* const cache_bits,
const VP8LHashChain* const hash_chain, VP8LBackwardRefs* const refs_tmp1,
VP8LBackwardRefs* const refs_tmp2) {
int low_effort, int lz77_types_to_try, int cache_bits_max, int do_no_cache,
const VP8LHashChain* const hash_chain, VP8LBackwardRefs* const refs,
int* const cache_bits_best) {
if (low_effort) {
return GetBackwardReferencesLowEffort(width, height, argb, cache_bits,
hash_chain, refs_tmp1);
VP8LBackwardRefs* refs_best;
*cache_bits_best = cache_bits_max;
refs_best = GetBackwardReferencesLowEffort(
width, height, argb, cache_bits_best, hash_chain, refs);
if (refs_best == NULL) return VP8_ENC_ERROR_OUT_OF_MEMORY;
// Set it in first position.
BackwardRefsSwap(refs_best, &refs[0]);
} else {
return GetBackwardReferences(width, height, argb, quality,
lz77_types_to_try, cache_bits, hash_chain,
refs_tmp1, refs_tmp2);
if (!GetBackwardReferences(width, height, argb, quality, lz77_types_to_try,
cache_bits_max, do_no_cache, hash_chain, refs,
cache_bits_best)) {
return VP8_ENC_ERROR_OUT_OF_MEMORY;
}
}
return VP8_ENC_OK;
}

20
3rdparty/libwebp/src/enc/backward_references_enc.h vendored
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@ -16,6 +16,7 @@
#include <assert.h>
#include <stdlib.h>
#include "src/webp/types.h"
#include "src/webp/encode.h"
#include "src/webp/format_constants.h"
#ifdef __cplusplus
@ -218,14 +219,19 @@ enum VP8LLZ77Type {
// Evaluates best possible backward references for specified quality.
// The input cache_bits to 'VP8LGetBackwardReferences' sets the maximum cache
// bits to use (passing 0 implies disabling the local color cache).
// The optimal cache bits is evaluated and set for the *cache_bits parameter.
// The return value is the pointer to the best of the two backward refs viz,
// refs[0] or refs[1].
VP8LBackwardRefs* VP8LGetBackwardReferences(
// The optimal cache bits is evaluated and set for the *cache_bits_best
// parameter with the matching refs_best.
// If do_no_cache == 0, refs is an array of 2 values and the best
// VP8LBackwardRefs is put in the first element.
// If do_no_cache != 0, refs is an array of 3 values and the best
// VP8LBackwardRefs is put in the first element, the best value with no-cache in
// the second element.
// In both cases, the last element is used as temporary internally.
WebPEncodingError VP8LGetBackwardReferences(
int width, int height, const uint32_t* const argb, int quality,
int low_effort, int lz77_types_to_try, int* const cache_bits,
const VP8LHashChain* const hash_chain, VP8LBackwardRefs* const refs_tmp1,
VP8LBackwardRefs* const refs_tmp2);
int low_effort, int lz77_types_to_try, int cache_bits_max, int do_no_cache,
const VP8LHashChain* const hash_chain, VP8LBackwardRefs* const refs,
int* const cache_bits_best);
#ifdef __cplusplus
}

5
3rdparty/libwebp/src/enc/config_enc.c vendored
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@ -39,6 +39,8 @@ int WebPConfigInitInternal(WebPConfig* config,
config->partitions = 0;
config->segments = 4;
config->pass = 1;
config->qmin = 0;
config->qmax = 100;
config->show_compressed = 0;
config->preprocessing = 0;
config->autofilter = 0;
@ -106,6 +108,9 @@ int WebPValidateConfig(const WebPConfig* config) {
if (config->filter_type < 0 || config->filter_type > 1) return 0;
if (config->autofilter < 0 || config->autofilter > 1) return 0;
if (config->pass < 1 || config->pass > 10) return 0;
if (config->qmin < 0 || config->qmax > 100 || config->qmin > config->qmax) {
return 0;
}
if (config->show_compressed < 0 || config->show_compressed > 1) return 0;
if (config->preprocessing < 0 || config->preprocessing > 7) return 0;
if (config->partitions < 0 || config->partitions > 3) return 0;

20
3rdparty/libwebp/src/enc/frame_enc.c vendored
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@ -31,10 +31,15 @@
// we allow 2k of extra head-room in PARTITION0 limit.
#define PARTITION0_SIZE_LIMIT ((VP8_MAX_PARTITION0_SIZE - 2048ULL) << 11)
static float Clamp(float v, float min, float max) {
return (v < min) ? min : (v > max) ? max : v;
}
typedef struct { // struct for organizing convergence in either size or PSNR
int is_first;
float dq;
float q, last_q;
float qmin, qmax;
double value, last_value; // PSNR or size
double target;
int do_size_search;
@ -47,7 +52,9 @@ static int InitPassStats(const VP8Encoder* const enc, PassStats* const s) {
s->is_first = 1;
s->dq = 10.f;
s->q = s->last_q = enc->config_->quality;
s->qmin = 1.f * enc->config_->qmin;
s->qmax = 1.f * enc->config_->qmax;
s->q = s->last_q = Clamp(enc->config_->quality, s->qmin, s->qmax);
s->target = do_size_search ? (double)target_size
: (target_PSNR > 0.) ? target_PSNR
: 40.; // default, just in case
@ -56,10 +63,6 @@ static int InitPassStats(const VP8Encoder* const enc, PassStats* const s) {
return do_size_search;
}
static float Clamp(float v, float min, float max) {
return (v < min) ? min : (v > max) ? max : v;
}
static float ComputeNextQ(PassStats* const s) {
float dq;
if (s->is_first) {
@ -75,7 +78,7 @@ static float ComputeNextQ(PassStats* const s) {
s->dq = Clamp(dq, -30.f, 30.f);
s->last_q = s->q;
s->last_value = s->value;
s->q = Clamp(s->q + s->dq, 0.f, 100.f);
s->q = Clamp(s->q + s->dq, s->qmin, s->qmax);
return s->q;
}
@ -848,9 +851,10 @@ int VP8EncTokenLoop(VP8Encoder* const enc) {
}
#if (DEBUG_SEARCH > 0)
printf("#%2d metric:%.1lf -> %.1lf last_q=%.2lf q=%.2lf dq=%.2lf\n",
printf("#%2d metric:%.1lf -> %.1lf last_q=%.2lf q=%.2lf dq=%.2lf "
" range:[%.1f, %.1f]\n",
num_pass_left, stats.last_value, stats.value,
stats.last_q, stats.q, stats.dq);
stats.last_q, stats.q, stats.dq, stats.qmin, stats.qmax);
#endif
if (enc->max_i4_header_bits_ > 0 && size_p0 > PARTITION0_SIZE_LIMIT) {
++num_pass_left;

1
3rdparty/libwebp/src/enc/histogram_enc.c vendored
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@ -208,6 +208,7 @@ void VP8LHistogramAddSinglePixOrCopy(VP8LHistogram* const histo,
} else if (PixOrCopyIsCacheIdx(v)) {
const int literal_ix =
NUM_LITERAL_CODES + NUM_LENGTH_CODES + PixOrCopyCacheIdx(v);
assert(histo->palette_code_bits_ != 0);
++histo->literal_[literal_ix];
} else {
int code, extra_bits;

14
3rdparty/libwebp/src/enc/picture_csp_enc.c vendored
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@ -61,16 +61,14 @@ static int CheckNonOpaque(const uint8_t* alpha, int width, int height,
// Checking for the presence of non-opaque alpha.
int WebPPictureHasTransparency(const WebPPicture* picture) {
if (picture == NULL) return 0;
if (!picture->use_argb) {
return CheckNonOpaque(picture->a, picture->width, picture->height,
1, picture->a_stride);
} else {
if (picture->use_argb) {
const int alpha_offset = ALPHA_OFFSET;
return CheckNonOpaque((const uint8_t*)picture->argb + alpha_offset,
picture->width, picture->height,
4, picture->argb_stride * sizeof(*picture->argb));
}
return 0;
return CheckNonOpaque(picture->a, picture->width, picture->height,
1, picture->a_stride);
}
//------------------------------------------------------------------------------
@ -90,8 +88,9 @@ int WebPPictureHasTransparency(const WebPPicture* picture) {
static int kLinearToGammaTab[kGammaTabSize + 1];
static uint16_t kGammaToLinearTab[256];
static volatile int kGammaTablesOk = 0;
static void InitGammaTables(void);
static WEBP_TSAN_IGNORE_FUNCTION void InitGammaTables(void) {
WEBP_DSP_INIT_FUNC(InitGammaTables) {
if (!kGammaTablesOk) {
int v;
const double scale = (double)(1 << kGammaTabFix) / kGammaScale;
@ -181,8 +180,9 @@ static uint32_t kLinearToGammaTabS[kGammaTabSize + 2];
#define GAMMA_TO_LINEAR_BITS 14
static uint32_t kGammaToLinearTabS[MAX_Y_T + 1]; // size scales with Y_FIX
static volatile int kGammaTablesSOk = 0;
static void InitGammaTablesS(void);
static WEBP_TSAN_IGNORE_FUNCTION void InitGammaTablesS(void) {
WEBP_DSP_INIT_FUNC(InitGammaTablesS) {
assert(2 * GAMMA_TO_LINEAR_BITS < 32); // we use uint32_t intermediate values
if (!kGammaTablesSOk) {
int v;

31
3rdparty/libwebp/src/enc/picture_tools_enc.c vendored
Unescape View File

@ -83,6 +83,19 @@ static int SmoothenBlock(const uint8_t* a_ptr, int a_stride, uint8_t* y_ptr,
return (count == 0);
}
void WebPReplaceTransparentPixels(WebPPicture* const pic, uint32_t color) {
if (pic != NULL && pic->use_argb) {
int y = pic->height;
uint32_t* argb = pic->argb;
color &= 0xffffffu; // force alpha=0
WebPInitAlphaProcessing();
while (y-- > 0) {
WebPAlphaReplace(argb, pic->width, color);
argb += pic->argb_stride;
}
}
}
void WebPCleanupTransparentArea(WebPPicture* pic) {
int x, y, w, h;
if (pic == NULL) return;
@ -165,24 +178,6 @@ void WebPCleanupTransparentArea(WebPPicture* pic) {
#undef SIZE
#undef SIZE2
void WebPCleanupTransparentAreaLossless(WebPPicture* const pic) {
int x, y, w, h;
uint32_t* argb;
assert(pic != NULL && pic->use_argb);
w = pic->width;
h = pic->height;
argb = pic->argb;
for (y = 0; y < h; ++y) {
for (x = 0; x < w; ++x) {
if ((argb[x] & 0xff000000) == 0) {
argb[x] = 0x00000000;
}
}
argb += pic->argb_stride;
}
}
//------------------------------------------------------------------------------
// Blend color and remove transparency info

8
3rdparty/libwebp/src/enc/vp8i_enc.h vendored
Unescape View File

@ -31,7 +31,7 @@ extern "C" {
// version numbers
#define ENC_MAJ_VERSION 1
#define ENC_MIN_VERSION 1
#define ENC_MIN_VERSION 2
#define ENC_REV_VERSION 0
enum { MAX_LF_LEVELS = 64, // Maximum loop filter level
@ -505,9 +505,9 @@ int WebPPictureAllocARGB(WebPPicture* const picture, int width, int height);
// Returns false in case of error (invalid param, out-of-memory).
int WebPPictureAllocYUVA(WebPPicture* const picture, int width, int height);
// Clean-up the RGB samples under fully transparent area, to help lossless
// compressibility (no guarantee, though). Assumes that pic->use_argb is true.
void WebPCleanupTransparentAreaLossless(WebPPicture* const pic);
// Replace samples that are fully transparent by 'color' to help compressibility
// (no guarantee, though). Assumes pic->use_argb is true.
void WebPReplaceTransparentPixels(WebPPicture* const pic, uint32_t color);
//------------------------------------------------------------------------------

327
3rdparty/libwebp/src/enc/vp8l_enc.c vendored
Unescape View File

@ -144,7 +144,8 @@ typedef enum {
kSubGreen = 2,
kSpatialSubGreen = 3,
kPalette = 4,
kNumEntropyIx = 5
kPaletteAndSpatial = 5,
kNumEntropyIx = 6
} EntropyIx;
typedef enum {
@ -354,11 +355,15 @@ static int GetTransformBits(int method, int histo_bits) {
}
// Set of parameters to be used in each iteration of the cruncher.
#define CRUNCH_CONFIGS_LZ77_MAX 2
#define CRUNCH_SUBCONFIGS_MAX 2
typedef struct {
int lz77_;
int do_no_cache_;
} CrunchSubConfig;
typedef struct {
int entropy_idx_;
int lz77s_types_to_try_[CRUNCH_CONFIGS_LZ77_MAX];
int lz77s_types_to_try_size_;
CrunchSubConfig sub_configs_[CRUNCH_SUBCONFIGS_MAX];
int sub_configs_size_;
} CrunchConfig;
#define CRUNCH_CONFIGS_MAX kNumEntropyIx
@ -376,6 +381,9 @@ static int EncoderAnalyze(VP8LEncoder* const enc,
int i;
int use_palette;
int n_lz77s;
// If set to 0, analyze the cache with the computed cache value. If 1, also
// analyze with no-cache.
int do_no_cache = 0;
assert(pic != NULL && pic->argb != NULL);
use_palette =
@ -402,10 +410,13 @@ static int EncoderAnalyze(VP8LEncoder* const enc,
return 0;
}
if (method == 6 && config->quality == 100) {
do_no_cache = 1;
// Go brute force on all transforms.
*crunch_configs_size = 0;
for (i = 0; i < kNumEntropyIx; ++i) {
if (i != kPalette || use_palette) {
// We can only apply kPalette or kPaletteAndSpatial if we can indeed use
// a palette.
if ((i != kPalette && i != kPaletteAndSpatial) || use_palette) {
assert(*crunch_configs_size < CRUNCH_CONFIGS_MAX);
crunch_configs[(*crunch_configs_size)++].entropy_idx_ = i;
}
@ -414,17 +425,28 @@ static int EncoderAnalyze(VP8LEncoder* const enc,
// Only choose the guessed best transform.
*crunch_configs_size = 1;
crunch_configs[0].entropy_idx_ = min_entropy_ix;
if (config->quality >= 75 && method == 5) {
// Test with and without color cache.
do_no_cache = 1;
// If we have a palette, also check in combination with spatial.
if (min_entropy_ix == kPalette) {
*crunch_configs_size = 2;
crunch_configs[1].entropy_idx_ = kPaletteAndSpatial;
}
}
}
}
// Fill in the different LZ77s.
assert(n_lz77s <= CRUNCH_CONFIGS_LZ77_MAX);
assert(n_lz77s <= CRUNCH_SUBCONFIGS_MAX);
for (i = 0; i < *crunch_configs_size; ++i) {
int j;
for (j = 0; j < n_lz77s; ++j) {
crunch_configs[i].lz77s_types_to_try_[j] =
assert(j < CRUNCH_SUBCONFIGS_MAX);
crunch_configs[i].sub_configs_[j].lz77_ =
(j == 0) ? kLZ77Standard | kLZ77RLE : kLZ77Box;
crunch_configs[i].sub_configs_[j].do_no_cache_ = do_no_cache;
}
crunch_configs[i].lz77s_types_to_try_size_ = n_lz77s;
crunch_configs[i].sub_configs_size_ = n_lz77s;
}
return 1;
}
@ -440,7 +462,7 @@ static int EncoderInit(VP8LEncoder* const enc) {
int i;
if (!VP8LHashChainInit(&enc->hash_chain_, pix_cnt)) return 0;
for (i = 0; i < 3; ++i) VP8LBackwardRefsInit(&enc->refs_[i], refs_block_size);
for (i = 0; i < 4; ++i) VP8LBackwardRefsInit(&enc->refs_[i], refs_block_size);
return 1;
}
@ -769,13 +791,10 @@ static WebPEncodingError StoreImageToBitMask(
}
// Special case of EncodeImageInternal() for cache-bits=0, histo_bits=31
static WebPEncodingError EncodeImageNoHuffman(VP8LBitWriter* const bw,
const uint32_t* const argb,
VP8LHashChain* const hash_chain,
VP8LBackwardRefs* const refs_tmp1,
VP8LBackwardRefs* const refs_tmp2,
int width, int height,
int quality, int low_effort) {
static WebPEncodingError EncodeImageNoHuffman(
VP8LBitWriter* const bw, const uint32_t* const argb,
VP8LHashChain* const hash_chain, VP8LBackwardRefs* const refs_array,
int width, int height, int quality, int low_effort) {
int i;
int max_tokens = 0;
WebPEncodingError err = VP8_ENC_OK;
@ -798,13 +817,11 @@ static WebPEncodingError EncodeImageNoHuffman(VP8LBitWriter* const bw,
err = VP8_ENC_ERROR_OUT_OF_MEMORY;
goto Error;
}
refs = VP8LGetBackwardReferences(width, height, argb, quality, 0,
kLZ77Standard | kLZ77RLE, &cache_bits,
hash_chain, refs_tmp1, refs_tmp2);
if (refs == NULL) {
err = VP8_ENC_ERROR_OUT_OF_MEMORY;
goto Error;
}
err = VP8LGetBackwardReferences(
width, height, argb, quality, /*low_effort=*/0, kLZ77Standard | kLZ77RLE,
cache_bits, /*do_no_cache=*/0, hash_chain, refs_array, &cache_bits);
if (err != VP8_ENC_OK) goto Error;
refs = &refs_array[0];
histogram_image = VP8LAllocateHistogramSet(1, cache_bits);
if (histogram_image == NULL) {
err = VP8_ENC_ERROR_OUT_OF_MEMORY;
@ -860,11 +877,11 @@ static WebPEncodingError EncodeImageNoHuffman(VP8LBitWriter* const bw,
static WebPEncodingError EncodeImageInternal(
VP8LBitWriter* const bw, const uint32_t* const argb,
VP8LHashChain* const hash_chain, VP8LBackwardRefs refs_array[3], int width,
VP8LHashChain* const hash_chain, VP8LBackwardRefs refs_array[4], int width,
int height, int quality, int low_effort, int use_cache,
const CrunchConfig* const config, int* cache_bits, int histogram_bits,
size_t init_byte_position, int* const hdr_size, int* const data_size) {
WebPEncodingError err = VP8_ENC_OK;
WebPEncodingError err = VP8_ENC_ERROR_OUT_OF_MEMORY;
const uint32_t histogram_image_xysize =
VP8LSubSampleSize(width, histogram_bits) *
VP8LSubSampleSize(height, histogram_bits);
@ -876,103 +893,103 @@ static WebPEncodingError EncodeImageInternal(
3ULL * CODE_LENGTH_CODES, sizeof(*huff_tree));
HuffmanTreeToken* tokens = NULL;
HuffmanTreeCode* huffman_codes = NULL;
VP8LBackwardRefs* refs_best;
VP8LBackwardRefs* refs_tmp;
uint16_t* const histogram_symbols =
(uint16_t*)WebPSafeMalloc(histogram_image_xysize,
sizeof(*histogram_symbols));
int lz77s_idx;
int sub_configs_idx;
int cache_bits_init, write_histogram_image;
VP8LBitWriter bw_init = *bw, bw_best;
int hdr_size_tmp;
VP8LHashChain hash_chain_histogram; // histogram image hash chain
size_t bw_size_best = ~(size_t)0;
assert(histogram_bits >= MIN_HUFFMAN_BITS);
assert(histogram_bits <= MAX_HUFFMAN_BITS);
assert(hdr_size != NULL);
assert(data_size != NULL);
if (histogram_symbols == NULL) {
err = VP8_ENC_ERROR_OUT_OF_MEMORY;
// Make sure we can allocate the different objects.
memset(&hash_chain_histogram, 0, sizeof(hash_chain_histogram));
if (huff_tree == NULL || histogram_symbols == NULL ||
!VP8LHashChainInit(&hash_chain_histogram, histogram_image_xysize) ||
!VP8LHashChainFill(hash_chain, quality, argb, width, height,
low_effort)) {
goto Error;
}
if (use_cache) {
// If the value is different from zero, it has been set during the
// palette analysis.
if (*cache_bits == 0) *cache_bits = MAX_COLOR_CACHE_BITS;
cache_bits_init = (*cache_bits == 0) ? MAX_COLOR_CACHE_BITS : *cache_bits;
} else {
*cache_bits = 0;
cache_bits_init = 0;
}
// 'best_refs' is the reference to the best backward refs and points to one
// of refs_array[0] or refs_array[1].
// Calculate backward references from ARGB image.
if (huff_tree == NULL ||
!VP8LHashChainFill(hash_chain, quality, argb, width, height,
low_effort) ||
!VP8LBitWriterInit(&bw_best, 0) ||
(config->lz77s_types_to_try_size_ > 1 &&
// If several iterations will happen, clone into bw_best.
if (!VP8LBitWriterInit(&bw_best, 0) ||
((config->sub_configs_size_ > 1 ||
config->sub_configs_[0].do_no_cache_) &&
!VP8LBitWriterClone(bw, &bw_best))) {
err = VP8_ENC_ERROR_OUT_OF_MEMORY;
goto Error;
}
for (lz77s_idx = 0; lz77s_idx < config->lz77s_types_to_try_size_;
++lz77s_idx) {
refs_best = VP8LGetBackwardReferences(
width, height, argb, quality, low_effort,
config->lz77s_types_to_try_[lz77s_idx], cache_bits, hash_chain,
&refs_array[0], &refs_array[1]);
if (refs_best == NULL) {
err = VP8_ENC_ERROR_OUT_OF_MEMORY;
goto Error;
}
// Keep the best references aside and use the other element from the first
// two as a temporary for later usage.
refs_tmp = &refs_array[refs_best == &refs_array[0] ? 1 : 0];
histogram_image =
VP8LAllocateHistogramSet(histogram_image_xysize, *cache_bits);
tmp_histo = VP8LAllocateHistogram(*cache_bits);
if (histogram_image == NULL || tmp_histo == NULL) {
err = VP8_ENC_ERROR_OUT_OF_MEMORY;
goto Error;
}
// Build histogram image and symbols from backward references.
if (!VP8LGetHistoImageSymbols(width, height, refs_best, quality, low_effort,
histogram_bits, *cache_bits, histogram_image,
tmp_histo, histogram_symbols)) {
err = VP8_ENC_ERROR_OUT_OF_MEMORY;
goto Error;
}
// Create Huffman bit lengths and codes for each histogram image.
histogram_image_size = histogram_image->size;
bit_array_size = 5 * histogram_image_size;
huffman_codes = (HuffmanTreeCode*)WebPSafeCalloc(bit_array_size,
sizeof(*huffman_codes));
// Note: some histogram_image entries may point to tmp_histos[], so the
// latter need to outlive the following call to GetHuffBitLengthsAndCodes().
if (huffman_codes == NULL ||
!GetHuffBitLengthsAndCodes(histogram_image, huffman_codes)) {
err = VP8_ENC_ERROR_OUT_OF_MEMORY;
goto Error;
}
// Free combined histograms.
VP8LFreeHistogramSet(histogram_image);
histogram_image = NULL;
// Free scratch histograms.
VP8LFreeHistogram(tmp_histo);
tmp_histo = NULL;
for (sub_configs_idx = 0; sub_configs_idx < config->sub_configs_size_;
++sub_configs_idx) {
const CrunchSubConfig* const sub_config =
&config->sub_configs_[sub_configs_idx];
int cache_bits_best, i_cache;
err = VP8LGetBackwardReferences(width, height, argb, quality, low_effort,
sub_config->lz77_, cache_bits_init,
sub_config->do_no_cache_, hash_chain,
&refs_array[0], &cache_bits_best);
if (err != VP8_ENC_OK) goto Error;
// Color Cache parameters.
if (*cache_bits > 0) {
VP8LPutBits(bw, 1, 1);
VP8LPutBits(bw, *cache_bits, 4);
} else {
VP8LPutBits(bw, 0, 1);
}
for (i_cache = 0; i_cache < (sub_config->do_no_cache_ ? 2 : 1); ++i_cache) {
const int cache_bits_tmp = (i_cache == 0) ? cache_bits_best : 0;
// Speed-up: no need to study the no-cache case if it was already studied
// in i_cache == 0.
if (i_cache == 1 && cache_bits_best == 0) break;
// Reset the bit writer for this iteration.
VP8LBitWriterReset(&bw_init, bw);
// Build histogram image and symbols from backward references.
histogram_image =
VP8LAllocateHistogramSet(histogram_image_xysize, cache_bits_tmp);
tmp_histo = VP8LAllocateHistogram(cache_bits_tmp);
if (histogram_image == NULL || tmp_histo == NULL ||
!VP8LGetHistoImageSymbols(width, height, &refs_array[i_cache],
quality, low_effort, histogram_bits,
cache_bits_tmp, histogram_image, tmp_histo,
histogram_symbols)) {
goto Error;
}
// Create Huffman bit lengths and codes for each histogram image.
histogram_image_size = histogram_image->size;
bit_array_size = 5 * histogram_image_size;
huffman_codes = (HuffmanTreeCode*)WebPSafeCalloc(bit_array_size,
sizeof(*huffman_codes));
// Note: some histogram_image entries may point to tmp_histos[], so the
// latter need to outlive the following call to
// GetHuffBitLengthsAndCodes().
if (huffman_codes == NULL ||
!GetHuffBitLengthsAndCodes(histogram_image, huffman_codes)) {
goto Error;
}
// Free combined histograms.
VP8LFreeHistogramSet(histogram_image);
histogram_image = NULL;
// Free scratch histograms.
VP8LFreeHistogram(tmp_histo);
tmp_histo = NULL;
// Color Cache parameters.
if (cache_bits_tmp > 0) {
VP8LPutBits(bw, 1, 1);
VP8LPutBits(bw, cache_bits_tmp, 4);
} else {
VP8LPutBits(bw, 0, 1);
}
// Huffman image + meta huffman.
{
const int write_histogram_image = (histogram_image_size > 1);
// Huffman image + meta huffman.
write_histogram_image = (histogram_image_size > 1);
VP8LPutBits(bw, write_histogram_image, 1);
if (write_histogram_image) {
uint32_t* const histogram_argb =
@ -980,10 +997,7 @@ static WebPEncodingError EncodeImageInternal(
sizeof(*histogram_argb));
int max_index = 0;
uint32_t i;
if (histogram_argb == NULL) {
err = VP8_ENC_ERROR_OUT_OF_MEMORY;
goto Error;
}
if (histogram_argb == NULL) goto Error;
for (i = 0; i < histogram_image_xysize; ++i) {
const int symbol_index = histogram_symbols[i] & 0xffff;
histogram_argb[i] = (symbol_index << 8);
@ -995,65 +1009,64 @@ static WebPEncodingError EncodeImageInternal(
VP8LPutBits(bw, histogram_bits - 2, 3);
err = EncodeImageNoHuffman(
bw, histogram_argb, hash_chain, refs_tmp, &refs_array[2],
bw, histogram_argb, &hash_chain_histogram, &refs_array[2],
VP8LSubSampleSize(width, histogram_bits),
VP8LSubSampleSize(height, histogram_bits), quality, low_effort);
WebPSafeFree(histogram_argb);
if (err != VP8_ENC_OK) goto Error;
}
}
// Store Huffman codes.
{
int i;
int max_tokens = 0;
// Find maximum number of symbols for the huffman tree-set.
for (i = 0; i < 5 * histogram_image_size; ++i) {
HuffmanTreeCode* const codes = &huffman_codes[i];
if (max_tokens < codes->num_symbols) {
max_tokens = codes->num_symbols;
// Store Huffman codes.
{
int i;
int max_tokens = 0;
// Find maximum number of symbols for the huffman tree-set.
for (i = 0; i < 5 * histogram_image_size; ++i) {
HuffmanTreeCode* const codes = &huffman_codes[i];
if (max_tokens < codes->num_symbols) {
max_tokens = codes->num_symbols;
}
}
tokens = (HuffmanTreeToken*)WebPSafeMalloc(max_tokens, sizeof(*tokens));
if (tokens == NULL) goto Error;
for (i = 0; i < 5 * histogram_image_size; ++i) {
HuffmanTreeCode* const codes = &huffman_codes[i];
StoreHuffmanCode(bw, huff_tree, tokens, codes);
ClearHuffmanTreeIfOnlyOneSymbol(codes);
}
}
tokens = (HuffmanTreeToken*)WebPSafeMalloc(max_tokens, sizeof(*tokens));
if (tokens == NULL) {
err = VP8_ENC_ERROR_OUT_OF_MEMORY;
goto Error;
// Store actual literals.
hdr_size_tmp = (int)(VP8LBitWriterNumBytes(bw) - init_byte_position);
err = StoreImageToBitMask(bw, width, histogram_bits, &refs_array[i_cache],
histogram_symbols, huffman_codes);
if (err != VP8_ENC_OK) goto Error;
// Keep track of the smallest image so far.
if (VP8LBitWriterNumBytes(bw) < bw_size_best) {
bw_size_best = VP8LBitWriterNumBytes(bw);
*cache_bits = cache_bits_tmp;
*hdr_size = hdr_size_tmp;
*data_size =
(int)(VP8LBitWriterNumBytes(bw) - init_byte_position - *hdr_size);
VP8LBitWriterSwap(bw, &bw_best);
}
for (i = 0; i < 5 * histogram_image_size; ++i) {
HuffmanTreeCode* const codes = &huffman_codes[i];
StoreHuffmanCode(bw, huff_tree, tokens, codes);
ClearHuffmanTreeIfOnlyOneSymbol(codes);
WebPSafeFree(tokens);
tokens = NULL;
if (huffman_codes != NULL) {
WebPSafeFree(huffman_codes->codes);
WebPSafeFree(huffman_codes);
huffman_codes = NULL;
}
}
// Store actual literals.
hdr_size_tmp = (int)(VP8LBitWriterNumBytes(bw) - init_byte_position);
err = StoreImageToBitMask(bw, width, histogram_bits, refs_best,
histogram_symbols, huffman_codes);
// Keep track of the smallest image so far.
if (lz77s_idx == 0 ||
VP8LBitWriterNumBytes(bw) < VP8LBitWriterNumBytes(&bw_best)) {
*hdr_size = hdr_size_tmp;
*data_size =
(int)(VP8LBitWriterNumBytes(bw) - init_byte_position - *hdr_size);
VP8LBitWriterSwap(bw, &bw_best);
}
// Reset the bit writer for the following iteration if any.
if (config->lz77s_types_to_try_size_ > 1) VP8LBitWriterReset(&bw_init, bw);
WebPSafeFree(tokens);
tokens = NULL;
if (huffman_codes != NULL) {
WebPSafeFree(huffman_codes->codes);
WebPSafeFree(huffman_codes);
huffman_codes = NULL;
}
}
VP8LBitWriterSwap(bw, &bw_best);
err = VP8_ENC_OK;
Error:
WebPSafeFree(tokens);
WebPSafeFree(huff_tree);
VP8LFreeHistogramSet(histogram_image);
VP8LFreeHistogram(tmp_histo);
VP8LHashChainClear(&hash_chain_histogram);
if (huffman_codes != NULL) {
WebPSafeFree(huffman_codes->codes);
WebPSafeFree(huffman_codes);
@ -1095,8 +1108,7 @@ static WebPEncodingError ApplyPredictFilter(const VP8LEncoder* const enc,
VP8LPutBits(bw, pred_bits - 2, 3);
return EncodeImageNoHuffman(
bw, enc->transform_data_, (VP8LHashChain*)&enc->hash_chain_,
(VP8LBackwardRefs*)&enc->refs_[0], // cast const away
(VP8LBackwardRefs*)&enc->refs_[1], transform_width, transform_height,
(VP8LBackwardRefs*)&enc->refs_[0], transform_width, transform_height,
quality, low_effort);
}
@ -1116,8 +1128,7 @@ static WebPEncodingError ApplyCrossColorFilter(const VP8LEncoder* const enc,
VP8LPutBits(bw, ccolor_transform_bits - 2, 3);
return EncodeImageNoHuffman(
bw, enc->transform_data_, (VP8LHashChain*)&enc->hash_chain_,
(VP8LBackwardRefs*)&enc->refs_[0], // cast const away
(VP8LBackwardRefs*)&enc->refs_[1], transform_width, transform_height,
(VP8LBackwardRefs*)&enc->refs_[0], transform_width, transform_height,
quality, low_effort);
}
@ -1464,8 +1475,8 @@ static WebPEncodingError EncodePalette(VP8LBitWriter* const bw, int low_effort,
}
tmp_palette[0] = palette[0];
return EncodeImageNoHuffman(bw, tmp_palette, &enc->hash_chain_,
&enc->refs_[0], &enc->refs_[1], palette_size, 1,
20 /* quality */, low_effort);
&enc->refs_[0], palette_size, 1, /*quality=*/20,
low_effort);
}
// -----------------------------------------------------------------------------
@ -1491,7 +1502,7 @@ static void VP8LEncoderDelete(VP8LEncoder* enc) {
if (enc != NULL) {
int i;
VP8LHashChainClear(&enc->hash_chain_);
for (i = 0; i < 3; ++i) VP8LBackwardRefsClear(&enc->refs_[i]);
for (i = 0; i < 4; ++i) VP8LBackwardRefsClear(&enc->refs_[i]);
ClearTransformBuffer(enc);
WebPSafeFree(enc);
}
@ -1541,7 +1552,7 @@ static int EncodeStreamHook(void* input, void* data2) {
int data_size = 0;
int use_delta_palette = 0;
int idx;
size_t best_size = 0;
size_t best_size = ~(size_t)0;
VP8LBitWriter bw_init = *bw, bw_best;
(void)data2;
@ -1553,11 +1564,13 @@ static int EncodeStreamHook(void* input, void* data2) {
for (idx = 0; idx < num_crunch_configs; ++idx) {
const int entropy_idx = crunch_configs[idx].entropy_idx_;
enc->use_palette_ = (entropy_idx == kPalette);
enc->use_palette_ =
(entropy_idx == kPalette) || (entropy_idx == kPaletteAndSpatial);
enc->use_subtract_green_ =
(entropy_idx == kSubGreen) || (entropy_idx == kSpatialSubGreen);
enc->use_predict_ =
(entropy_idx == kSpatial) || (entropy_idx == kSpatialSubGreen);
enc->use_predict_ = (entropy_idx == kSpatial) ||
(entropy_idx == kSpatialSubGreen) ||
(entropy_idx == kPaletteAndSpatial);
if (low_effort) {
enc->use_cross_color_ = 0;
} else {
@ -1640,7 +1653,7 @@ static int EncodeStreamHook(void* input, void* data2) {
if (err != VP8_ENC_OK) goto Error;
// If we are better than what we already have.
if (idx == 0 || VP8LBitWriterNumBytes(bw) < best_size) {
if (VP8LBitWriterNumBytes(bw) < best_size) {
best_size = VP8LBitWriterNumBytes(bw);
// Store the BitWriter.
VP8LBitWriterSwap(bw, &bw_best);
@ -1816,7 +1829,7 @@ Error:
}
#undef CRUNCH_CONFIGS_MAX
#undef CRUNCH_CONFIGS_LZ77_MAX
#undef CRUNCH_SUBCONFIGS_MAX
int VP8LEncodeImage(const WebPConfig* const config,
const WebPPicture* const picture) {

2
3rdparty/libwebp/src/enc/vp8li_enc.h vendored
Unescape View File

@ -71,7 +71,7 @@ typedef struct {
uint32_t palette_[MAX_PALETTE_SIZE];
// Some 'scratch' (potentially large) objects.
struct VP8LBackwardRefs refs_[3]; // Backward Refs array for temporaries.
struct VP8LBackwardRefs refs_[4]; // Backward Refs array for temporaries.
VP8LHashChain hash_chain_; // HashChain data for constructing
// backward references.
} VP8LEncoder;

2
3rdparty/libwebp/src/enc/webp_enc.c vendored
Unescape View File

@ -400,7 +400,7 @@ int WebPEncode(const WebPConfig* config, WebPPicture* pic) {
}
if (!config->exact) {
WebPCleanupTransparentAreaLossless(pic);
WebPReplaceTransparentPixels(pic, 0x000000);
}
ok = VP8LEncodeImage(config, pic); // Sets pic->error in case of problem.

2
3rdparty/libwebp/src/mux/muxi.h vendored
Unescape View File

@ -28,7 +28,7 @@ extern "C" {
// Defines and constants.
#define MUX_MAJ_VERSION 1
#define MUX_MIN_VERSION 1
#define MUX_MIN_VERSION 2
#define MUX_REV_VERSION 0
// Chunk object.

2
3rdparty/libwebp/src/mux/muxread.c vendored
Unescape View File

@ -155,7 +155,6 @@ static int MuxImageParse(const WebPChunk* const chunk, int copy_data,
break;
default:
goto Fail;
break;
}
subchunk_size = ChunkDiskSize(&subchunk);
bytes += subchunk_size;
@ -264,7 +263,6 @@ WebPMux* WebPMuxCreateInternal(const WebPData* bitstream, int copy_data,
if (!MuxImageParse(&chunk, copy_data, wpi)) goto Err;
ChunkRelease(&chunk);
goto PushImage;
break;
default: // A non-image chunk.
if (wpi->is_partial_) goto Err; // Encountered a non-image chunk before
// getting all chunks of an image.

2
3rdparty/libwebp/src/utils/utils.c vendored
Unescape View File

@ -231,7 +231,7 @@ void WebPFree(void* ptr) {
void WebPCopyPlane(const uint8_t* src, int src_stride,
uint8_t* dst, int dst_stride, int width, int height) {
assert(src != NULL && dst != NULL);
assert(src_stride >= width && dst_stride >= width);
assert(abs(src_stride) >= width && abs(dst_stride) >= width);
while (height-- > 0) {
memcpy(dst, src, width);
src += src_stride;

2
3rdparty/libwebp/src/webp/decode.h vendored
Unescape View File

@ -453,7 +453,7 @@ struct WebPDecoderOptions {
int scaled_width, scaled_height; // final resolution
int use_threads; // if true, use multi-threaded decoding
int dithering_strength; // dithering strength (0=Off, 100=full)
int flip; // flip output vertically
int flip; // if true, flip output vertically
int alpha_dithering_strength; // alpha dithering strength in [0..100]
uint32_t pad[5]; // padding for later use

8
3rdparty/libwebp/src/webp/encode.h vendored
Unescape View File

@ -148,7 +148,8 @@ struct WebPConfig {
int use_delta_palette; // reserved for future lossless feature
int use_sharp_yuv; // if needed, use sharp (and slow) RGB->YUV conversion
uint32_t pad[2]; // padding for later use
int qmin; // minimum permissible quality factor
int qmax; // maximum permissible quality factor
};
// Enumerate some predefined settings for WebPConfig, depending on the type
@ -291,6 +292,11 @@ typedef enum WebPEncodingError {
#define WEBP_MAX_DIMENSION 16383
// Main exchange structure (input samples, output bytes, statistics)
//
// Once WebPPictureInit() has been called, it's ok to make all the INPUT fields
// (use_argb, y/u/v, argb, ...) point to user-owned data, even if
// WebPPictureAlloc() has been called. Depending on the value use_argb,
// it's guaranteed that either *argb or *y/*u/*v content will be kept untouched.
struct WebPPicture {
// INPUT
//////////////

47
modules/videoio/src/cap_ffmpeg_impl.hpp
Unescape View File

@ -703,16 +703,6 @@ struct ImplMutex::Impl
int refcount;
};
#ifndef __GNUC__
static int _interlockedExchangeAdd(int* addr, int delta)
{
#if defined _MSC_VER && _MSC_VER >= 1500
return (int)_InterlockedExchangeAdd((long volatile*)addr, delta);
#else
return (int)InterlockedExchangeAdd((long volatile*)addr, delta);
#endif
}
#endif // __GNUC__
#elif defined __APPLE__
@ -844,17 +834,10 @@ public:
{
AutoLock lock(_mutex);
static InternalFFMpegRegister instance;
initLogger_(); // update logger setup unconditionally (GStreamer's libav plugin may override these settings)
}
InternalFFMpegRegister()
static void initLogger_()
{
avformat_network_init();
/* register all codecs, demux and protocols */
av_register_all();
/* register a callback function for synchronization */
av_lockmgr_register(&LockCallBack);
#ifndef NO_GETENV
char* debug_option = getenv("OPENCV_FFMPEG_DEBUG");
if (debug_option != NULL)
@ -868,16 +851,31 @@ public:
av_log_set_level(AV_LOG_ERROR);
}
}
public:
InternalFFMpegRegister()
{
avformat_network_init();
/* register all codecs, demux and protocols */
av_register_all();
/* register a callback function for synchronization */
av_lockmgr_register(&LockCallBack);
}
~InternalFFMpegRegister()
{
av_lockmgr_register(NULL);
av_log_set_callback(NULL);
}
};
bool CvCapture_FFMPEG::open(const char* _filename, const VideoCaptureParameters& params)
{
InternalFFMpegRegister::init();
AutoLock lock(_mutex);
unsigned i;
bool valid = false;
@ -1501,9 +1499,9 @@ double CvCapture_FFMPEG::getProperty( int property_id ) const
case CAP_PROP_FRAME_COUNT:
return (double)get_total_frames();
case CAP_PROP_FRAME_WIDTH:
return (double)((rotation_auto && rotation_angle%180) ? frame.height : frame.width);
return (double)((rotation_auto && ((rotation_angle%180) != 0)) ? frame.height : frame.width);
case CAP_PROP_FRAME_HEIGHT:
return (double)((rotation_auto && rotation_angle%180) ? frame.width : frame.height);
return (double)((rotation_auto && ((rotation_angle%180) != 0)) ? frame.width : frame.height);
case CAP_PROP_FPS:
return get_fps();
case CAP_PROP_FOURCC:
@ -1733,10 +1731,10 @@ bool CvCapture_FFMPEG::setProperty( int property_id, double value )
return false;
case CAP_PROP_ORIENTATION_AUTO:
#if LIBAVUTIL_BUILD >= CALC_FFMPEG_VERSION(52, 94, 100)
rotation_auto = value ? true : false;
rotation_auto = value != 0 ? true : false;
return true;
#else
rotation_auto = 0;
rotation_auto = false;
return false;
#endif
default:
@ -2342,6 +2340,9 @@ bool CvVideoWriter_FFMPEG::open( const char * filename, int fourcc,
double fps, int width, int height, const VideoWriterParameters& params)
{
InternalFFMpegRegister::init();
AutoLock lock(_mutex);
CV_CODEC_ID codec_id = CV_CODEC(CODEC_ID_NONE);
AVPixelFormat codec_pix_fmt;
double bitrate_scale = 1;

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