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Merge branch '0.2.0'

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* 0.2.0: (42 commits)
  Update ChangeLog
  dec/io.c: cosmetics
  RGBA4444: harmonize lossless/lossy alpha values
  fix RGBA4444 output w/fancy upsampling
  Alignment fix
  avoid rgb-premultiply if there's only trivial alpha values
  fix the ARGB4444 premultiply arithmetic
  Lossless decoder fix for a special transform order
  Update encoding heuristic w.r.t palette colors.
  remove unused ApplyInverseTransform()
  Update ChangeLog
  update AUTHORS
  update NEWS
  add support for ARGB -> YUVA conversion for lossless decoder
  bump version to 0.2.0
  fix alpha-plane check + add extra checks
  MODE_YUVA: set alpha to opaque if the image has none
  silence one more warning
  move some RGB->YUV functions to yuv.h
  README: sync [cd]webp help output
  ...

Change-Id: I4c4e3be2e88655d25d4dd2eae46c580d960b12ac
This commit is contained in:
James Zern 2012-08-17 14:33:50 -07:00
commit e55fbd6d2c
46 changed files with 1231 additions and 697 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

1
AUTHORS
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@ -2,6 +2,7 @@ Contributors:
- James Zern (jzern at google dot com) - James Zern (jzern at google dot com)
- Jan Engelhardt (jengelh at medozas dot de) - Jan Engelhardt (jengelh at medozas dot de)
- Johann (johannkoenig at google dot com) - Johann (johannkoenig at google dot com)
- Jyrki Alakuijala (jyrki at google dot com)
- Lou Quillio (louquillio at google dot com) - Lou Quillio (louquillio at google dot com)
- Martin Olsson (mnemo at minimum dot se) - Martin Olsson (mnemo at minimum dot se)
- Mikołaj Zalewski (mikolajz at google dot com) - Mikołaj Zalewski (mikolajz at google dot com)

3
Android.mk
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@ -47,9 +47,10 @@ LOCAL_SRC_FILES := \
src/utils/quant_levels.c \ src/utils/quant_levels.c \
src/utils/rescaler.c \ src/utils/rescaler.c \
src/utils/thread.c \ src/utils/thread.c \
src/utils/utils.c \
LOCAL_CFLAGS := -Wall -DANDROID -DHAVE_MALLOC_H -DHAVE_PTHREAD \ LOCAL_CFLAGS := -Wall -DANDROID -DHAVE_MALLOC_H -DHAVE_PTHREAD \
-DNOT_HAVE_LOG2 -DWEBP_USE_THREAD \ -DWEBP_USE_THREAD \
-finline-functions -frename-registers -ffast-math \ -finline-functions -frename-registers -ffast-math \
-s -fomit-frame-pointer -Isrc/webp -s -fomit-frame-pointer -Isrc/webp

56
ChangeLog
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@ -1,3 +1,57 @@
c655380 dec/io.c: cosmetics
fe1958f RGBA4444: harmonize lossless/lossy alpha values
681cb30 fix RGBA4444 output w/fancy upsampling
f06c1d8 Merge "Alignment fix" into 0.2.0
f56e98f Alignment fix
6fe843b avoid rgb-premultiply if there's only trivial alpha values
528a11a fix the ARGB4444 premultiply arithmetic
a0a4885 Lossless decoder fix for a special transform order
62dd9bb Update encoding heuristic w.r.t palette colors.
6f4272b remove unused ApplyInverseTransform()
93bf0fa Update ChangeLog (v0.2.0-rc1)
5934fc5 update AUTHORS
014a711 update NEWS
43b0d61 add support for ARGB -> YUVA conversion for lossless decoder
33705ca bump version to 0.2.0
c40d7ef fix alpha-plane check + add extra checks
a06f802 MODE_YUVA: set alpha to opaque if the image has none
52a87dd Merge "silence one more warning" into 0.2.0
3b02309 silence one more warning
f94b04f move some RGB->YUV functions to yuv.h
4b71ba0 README: sync [cd]webp help output
c9ae57f man/dwebp.1: add links to output file format details
292ec5c quiet a few 'uninitialized' warnings
4af3f6c fix indentation
9b261bf remove the last NOT_HAVE_LOG2 instances
323dc4d remove use of log2(). Use VP8LFastLog2() instead.
8c515d5 Merge "harness some malloc/calloc to use WebPSafeMalloc and WebPSafeCalloc" into 0.2.0
d4b4bb0 Merge changes I46090628,I1a41b2ce into 0.2.0
bff34ac harness some malloc/calloc to use WebPSafeMalloc and WebPSafeCalloc
a3c063c Merge "extra size check for security" into 0.2.0
5e79630 Merge "WebPEncode: clear stats at the start of encode" into 0.2.0
f1edf62 Merge "rationalize use of color-cache" into 0.2.0
c193331 extra size check for security
906be65 rationalize use of color-cache
dd1c387 Add image-hint for low-color images.
4eb7aa6 Merge "WebPCheckMalloc() and WebPCheckCalloc():" into 0.2.0
80cc730 WebPCheckMalloc() and WebPCheckCalloc():
183cba8 check VP8LBitWriterInit return
cbfa9ee lossless: fix crash on user abort
256afef cwebp: exit immediately on version mismatch
475d87d WebPEncode: clear stats at the start of encode
a7cc729 fix type and conversion warnings
7d853d7 add stats for lossless
d39177b make QuantizeLevels() store the sum of squared error
5955cf5 replace x*155/100 by x*101581>>16
7d732f9 make QuantizeLevels() store the sum of squared error
e45a446 replace x*155/100 by x*101581>>16
159b75d cwebp output size consistency:
cbee59e Merge commit 'v0.1.99'
1889e9b dwebp: report -alpha option
3bc3f7c Merge "dwebp: add PAM output support" into 0.2.0
d919ed0 dwebp: add PAM output support
85e215d README/manpages/configure: update website link
c3a207b Update ChangeLog (v0.1.99)
d1fd782 Merge "add extra precision about default values and behaviour" into 0.2.0 d1fd782 Merge "add extra precision about default values and behaviour" into 0.2.0
efc826e add extra precision about default values and behaviour efc826e add extra precision about default values and behaviour
9f29635 header/doc clean up 9f29635 header/doc clean up
@ -14,6 +68,7 @@ c37c23e README: cosmetics
ce90847 Merge "add some padding bytes areas for later use" into 0.2.0 ce90847 Merge "add some padding bytes areas for later use" into 0.2.0
2390dab Merge "fixing the findings by Frederic Kayser to the bitstream spec" into 0.2.0 2390dab Merge "fixing the findings by Frederic Kayser to the bitstream spec" into 0.2.0
0275159 add a very crude progress report for lossless 0275159 add a very crude progress report for lossless
a4b9b1c Remove some unused enum values.
dd10817 rename 'use_argb_input' to 'use_argb' dd10817 rename 'use_argb_input' to 'use_argb'
90516ae add some padding bytes areas for later use 90516ae add some padding bytes areas for later use
d03b250 fixing the findings by Frederic Kayser to the bitstream spec d03b250 fixing the findings by Frederic Kayser to the bitstream spec
@ -46,6 +101,7 @@ c3b014d Android.mk: add missing lossless files
8c1cc6b makefile.unix dist: explicitly name installed includes 8c1cc6b makefile.unix dist: explicitly name installed includes
7f4647e Merge "clarify the colorspace naming and byte ordering of decoded samples" into 0.2.0 7f4647e Merge "clarify the colorspace naming and byte ordering of decoded samples" into 0.2.0
cbf6972 clarify the colorspace naming and byte ordering of decoded samples cbf6972 clarify the colorspace naming and byte ordering of decoded samples
857650c Mux: Add WebPDataInit() and remove WebPImageInfo
ff771e7 don't install webp/decode_vp8.h ff771e7 don't install webp/decode_vp8.h
596dff7 VP8LFillBitWindow: use 64-bit path for msvc x64 builds 596dff7 VP8LFillBitWindow: use 64-bit path for msvc x64 builds
3ca7ce9 Merge "doc: remove non-finalized chunk references" into 0.2.0 3ca7ce9 Merge "doc: remove non-finalized chunk references" into 0.2.0

3
Makefile.vc
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@ -27,7 +27,7 @@ CCNODBG = cl.exe /nologo /O2 /DNDEBUG
CCDEBUG = cl.exe /nologo /Od /Gm /Zi /D_DEBUG /RTC1 CCDEBUG = cl.exe /nologo /Od /Gm /Zi /D_DEBUG /RTC1
CFLAGS = /Isrc /nologo /W3 /EHsc /FD /c /GS CFLAGS = /Isrc /nologo /W3 /EHsc /FD /c /GS
CFLAGS = $(CFLAGS) /DWIN32 /D_CRT_SECURE_NO_WARNINGS /DWIN32_LEAN_AND_MEAN CFLAGS = $(CFLAGS) /DWIN32 /D_CRT_SECURE_NO_WARNINGS /DWIN32_LEAN_AND_MEAN
CFLAGS = $(CFLAGS) /DHAVE_WINCODEC_H /DWEBP_USE_THREAD /DNOT_HAVE_LOG2 CFLAGS = $(CFLAGS) /DHAVE_WINCODEC_H /DWEBP_USE_THREAD
LDFLAGS = /LARGEADDRESSAWARE /MANIFEST /NXCOMPAT /DYNAMICBASE LDFLAGS = /LARGEADDRESSAWARE /MANIFEST /NXCOMPAT /DYNAMICBASE
LDFLAGS = $(LDFLAGS) $(PLATFORM_LDFLAGS) LDFLAGS = $(LDFLAGS) $(PLATFORM_LDFLAGS)
LNKDLL = link.exe /DLL LNKDLL = link.exe /DLL
@ -199,6 +199,7 @@ UTILS_OBJS = \
$(DIROBJ)\utils\quant_levels.obj \ $(DIROBJ)\utils\quant_levels.obj \
$(DIROBJ)\utils\rescaler.obj \ $(DIROBJ)\utils\rescaler.obj \
$(DIROBJ)\utils\thread.obj \ $(DIROBJ)\utils\thread.obj \
$(DIROBJ)\utils\utils.obj \
LIBWEBP_OBJS = $(DEC_OBJS) $(DSP_OBJS) $(ENC_OBJS) $(UTILS_OBJS) $(LIBWEBP_OBJS) LIBWEBP_OBJS = $(DEC_OBJS) $(DSP_OBJS) $(ENC_OBJS) $(UTILS_OBJS) $(LIBWEBP_OBJS)
LIBWEBPMUX_OBJS = $(MUX_OBJS) $(LIBWEBPMUX_OBJS) LIBWEBPMUX_OBJS = $(MUX_OBJS) $(LIBWEBPMUX_OBJS)

7
NEWS
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@ -1,3 +1,10 @@
- 8/3/12: version 0.2.0
* Add support for ARGB -> YUVA conversion for lossless decoder
New functions: WebPINewYUVA, WebPIDecGetYUVA
* Add stats for lossless and alpha encoding
* Security related hardening: allocation and size checks
* Add PAM output support to dwebp
- 7/19/12: version 0.1.99 - 7/19/12: version 0.1.99
* This is a pre-release of 0.2.0, not an rc to allow for further * This is a pre-release of 0.2.0, not an rc to allow for further
incompatible changes based on user feedback. incompatible changes based on user feedback.

14
README
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@ -4,7 +4,7 @@
\__\__/\____/\_____/__/ ____ ___ \__\__/\____/\_____/__/ ____ ___
/ _/ / \ \ / _ \/ _/ / _/ / \ \ / _ \/ _/
/ \_/ / / \ \ __/ \__ / \_/ / / \ \ __/ \__
\____/____/\_____/_____/____/v0.1.99 \____/____/\_____/_____/____/v0.2.0
Description: Description:
============ ============
@ -13,7 +13,7 @@ WebP codec: library to encode and decode images in WebP format. This package
contains the library that can be used in other programs to add WebP support, contains the library that can be used in other programs to add WebP support,
as well as the command line tools 'cwebp' and 'dwebp'. as well as the command line tools 'cwebp' and 'dwebp'.
See http://code.google.com/speed/webp See http://developers.google.com/speed/webp
Latest sources are available from http://www.webmproject.org/code/ Latest sources are available from http://www.webmproject.org/code/
@ -168,7 +168,7 @@ options:
-noalpha ............... discard any transparency information. -noalpha ............... discard any transparency information.
-lossless .............. Encode image losslessly. -lossless .............. Encode image losslessly.
-hint <string> ......... Specify image characteristics hint. -hint <string> ......... Specify image characteristics hint.
One of: photo or picture One of: photo, picture or graph
-short ................. condense printed message -short ................. condense printed message
-quiet ................. don't print anything. -quiet ................. don't print anything.
@ -231,7 +231,8 @@ Usage: dwebp in_file [options] [-o out_file]
Decodes the WebP image file to PNG format [Default] Decodes the WebP image file to PNG format [Default]
Use following options to convert into alternate image formats: Use following options to convert into alternate image formats:
-ppm ......... save the raw RGB samples as color PPM -pam ......... save the raw RGBA samples as a color PAM
-ppm ......... save the raw RGB samples as a color PPM
-pgm ......... save the raw YUV samples as a grayscale PGM -pgm ......... save the raw YUV samples as a grayscale PGM
file with IMC4 layout. file with IMC4 layout.
Other options are: Other options are:
@ -241,6 +242,7 @@ Use following options to convert into alternate image formats:
-mt .......... use multi-threading -mt .......... use multi-threading
-crop <x> <y> <w> <h> ... crop output with the given rectangle -crop <x> <y> <w> <h> ... crop output with the given rectangle
-scale <w> <h> .......... scale the output (*after* any cropping) -scale <w> <h> .......... scale the output (*after* any cropping)
-alpha ....... only save the alpha plane.
-h ....... this help message. -h ....... this help message.
-v ....... verbose (e.g. print encoding/decoding times) -v ....... verbose (e.g. print encoding/decoding times)
-noasm ....... disable all assembly optimizations. -noasm ....... disable all assembly optimizations.
@ -403,12 +405,12 @@ The 'idec' object must always be released (even upon an error condition) by
calling: WebPDelete(idec). calling: WebPDelete(idec).
To retrieve partially decoded picture samples, one must use the corresponding To retrieve partially decoded picture samples, one must use the corresponding
method: WebPIDecGetRGB or WebPIDecGetYUV. method: WebPIDecGetRGB or WebPIDecGetYUVA.
It will return the last displayable pixel row. It will return the last displayable pixel row.
Lastly, note that decoding can also be performed into a pre-allocated pixel Lastly, note that decoding can also be performed into a pre-allocated pixel
buffer. This buffer must be passed when creating a WebPIDecoder, calling buffer. This buffer must be passed when creating a WebPIDecoder, calling
WebPINewRGB() or WebPINewYUV(). WebPINewRGB() or WebPINewYUVA().
Please have a look at the src/webp/decode.h header for further details. Please have a look at the src/webp/decode.h header for further details.

9
configure.ac
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@ -1,6 +1,6 @@
AC_INIT([libwebp], [0.1.99], AC_INIT([libwebp], [0.2.0],
[http://code.google.com/p/webp/issues],, [http://code.google.com/p/webp/issues],,
[http://code.google.com/speed/webp]) [http://developers.google.com/speed/webp])
AC_CANONICAL_TARGET AC_CANONICAL_TARGET
AM_INIT_AUTOMAKE([-Wall foreign subdir-objects]) AM_INIT_AUTOMAKE([-Wall foreign subdir-objects])
AC_PROG_LIBTOOL AC_PROG_LIBTOOL
@ -29,11 +29,6 @@ AC_DEFUN([WITHLIB_OPTION],
[use $2 libraries from DIR]), [use $2 libraries from DIR]),
[$2_LIBS="-L$withval"])]) [$2_LIBS="-L$withval"])])
dnl === Check for native log2
AC_SEARCH_LIBS([log2], [m],,
[AC_DEFINE([NOT_HAVE_LOG2], [1],
[Undefine this if you have log2().])])
dnl === Check for pthread support dnl === Check for pthread support
AC_ARG_ENABLE([threading], AC_ARG_ENABLE([threading],
AS_HELP_STRING([--disable-threading], AS_HELP_STRING([--disable-threading],

45
examples/cwebp.c
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@ -132,7 +132,7 @@ static HRESULT ReadPictureWithWIC(const char* filename,
IWICBitmapDecoder* pDecoder = NULL; IWICBitmapDecoder* pDecoder = NULL;
IStream* pStream = NULL; IStream* pStream = NULL;
UINT frameCount = 0; UINT frameCount = 0;
UINT width, height = 0; UINT width = 0, height = 0;
BYTE* rgb = NULL; BYTE* rgb = NULL;
WICPixelFormatGUID srcPixelFormat = { 0 }; WICPixelFormatGUID srcPixelFormat = { 0 };
GUID srcContainerFormat = { 0 }; GUID srcContainerFormat = { 0 };
@ -614,6 +614,25 @@ static void PrintValues(const int values[4]) {
fprintf(stderr, "|\n"); fprintf(stderr, "|\n");
} }
static void PrintFullLosslessInfo(const WebPAuxStats* const stats,
const char* const description) {
fprintf(stderr, "Lossless-%s compressed size: %d bytes\n",
description, stats->lossless_size);
if (stats->lossless_features) {
fprintf(stderr, " * Lossless features used:");
if (stats->lossless_features & 1) fprintf(stderr, " PREDICTION");
if (stats->lossless_features & 2) fprintf(stderr, " CROSS-COLOR-TRANSFORM");
if (stats->lossless_features & 4) fprintf(stderr, " SUBTRACT-GREEN");
if (stats->lossless_features & 8) fprintf(stderr, " PALETTE");
fprintf(stderr, "\n");
}
fprintf(stderr, " * Precision Bits: histogram=%d transform=%d cache=%d\n",
stats->histogram_bits, stats->transform_bits, stats->cache_bits);
if (stats->palette_size > 0) {
fprintf(stderr, " * Palette size: %d\n", stats->palette_size);
}
}
static void PrintExtraInfoLossless(const WebPPicture* const pic, static void PrintExtraInfoLossless(const WebPPicture* const pic,
int short_output, int short_output,
const char* const file_name) { const char* const file_name) {
@ -624,6 +643,7 @@ static void PrintExtraInfoLossless(const WebPPicture* const pic,
fprintf(stderr, "File: %s\n", file_name); fprintf(stderr, "File: %s\n", file_name);
fprintf(stderr, "Dimension: %d x %d\n", pic->width, pic->height); fprintf(stderr, "Dimension: %d x %d\n", pic->width, pic->height);
fprintf(stderr, "Output: %d bytes\n", stats->coded_size); fprintf(stderr, "Output: %d bytes\n", stats->coded_size);
PrintFullLosslessInfo(stats, "ARGB");
} }
} }
@ -658,9 +678,9 @@ static void PrintExtraInfoLossy(const WebPPicture* const pic, int short_output,
100.f * stats->header_bytes[0] / stats->coded_size, 100.f * stats->header_bytes[0] / stats->coded_size,
stats->header_bytes[1], stats->header_bytes[1],
100.f * stats->header_bytes[1] / stats->coded_size); 100.f * stats->header_bytes[1] / stats->coded_size);
if (stats->alpha_data_size) { if (stats->alpha_data_size > 0) {
fprintf(stderr, " transparency: %6d\n", fprintf(stderr, " transparency: %6d (%.1f dB)\n",
stats->alpha_data_size); stats->alpha_data_size, stats->PSNR[4]);
} }
if (stats->layer_data_size) { if (stats->layer_data_size) {
fprintf(stderr, " enhancement: %6d\n", fprintf(stderr, " enhancement: %6d\n",
@ -686,8 +706,11 @@ static void PrintExtraInfoLossy(const WebPPicture* const pic, int short_output,
fprintf(stderr, " segments total: "); fprintf(stderr, " segments total: ");
PrintByteCount(totals, stats->coded_size, NULL); PrintByteCount(totals, stats->coded_size, NULL);
} }
if (stats->lossless_size > 0) {
PrintFullLosslessInfo(stats, "alpha");
} }
if (pic->extra_info) { }
if (pic->extra_info != NULL) {
const int mb_w = (pic->width + 15) / 16; const int mb_w = (pic->width + 15) / 16;
const int mb_h = (pic->height + 15) / 16; const int mb_h = (pic->height + 15) / 16;
const int type = pic->extra_info_type; const int type = pic->extra_info_type;
@ -756,7 +779,7 @@ static int DumpPicture(const WebPPicture* const picture, const char* PGM_name) {
static int ProgressReport(int percent, const WebPPicture* const picture) { static int ProgressReport(int percent, const WebPPicture* const picture) {
printf("[%s]: %3d %% \r", printf("[%s]: %3d %% \r",
(char*)picture->stats->user_data, percent); (char*)picture->user_data, percent);
fflush(stdout); fflush(stdout);
return 1; // all ok return 1; // all ok
} }
@ -821,7 +844,7 @@ static void HelpLong(void) {
printf(" -noalpha ............... discard any transparency information.\n"); printf(" -noalpha ............... discard any transparency information.\n");
printf(" -lossless .............. Encode image losslessly.\n"); printf(" -lossless .............. Encode image losslessly.\n");
printf(" -hint <string> ......... Specify image characteristics hint.\n"); printf(" -hint <string> ......... Specify image characteristics hint.\n");
printf(" One of: photo or picture\n"); printf(" One of: photo, picture or graph\n");
printf("\n"); printf("\n");
printf(" -short ................. condense printed message\n"); printf(" -short ................. condense printed message\n");
@ -886,7 +909,7 @@ int main(int argc, const char *argv[]) {
!WebPPictureInit(&original_picture) || !WebPPictureInit(&original_picture) ||
!WebPConfigInit(&config)) { !WebPConfigInit(&config)) {
fprintf(stderr, "Error! Version mismatch!\n"); fprintf(stderr, "Error! Version mismatch!\n");
goto Error; return -1;
} }
if (argc == 1) { if (argc == 1) {
@ -950,6 +973,8 @@ int main(int argc, const char *argv[]) {
config.image_hint = WEBP_HINT_PHOTO; config.image_hint = WEBP_HINT_PHOTO;
} else if (!strcmp(argv[c], "picture")) { } else if (!strcmp(argv[c], "picture")) {
config.image_hint = WEBP_HINT_PICTURE; config.image_hint = WEBP_HINT_PICTURE;
} else if (!strcmp(argv[c], "graph")) {
config.image_hint = WEBP_HINT_GRAPH;
} else { } else {
fprintf(stderr, "Error! Unrecognized image hint: %s\n", argv[c]); fprintf(stderr, "Error! Unrecognized image hint: %s\n", argv[c]);
goto Error; goto Error;
@ -1100,8 +1125,10 @@ int main(int argc, const char *argv[]) {
fprintf(stderr, "be performed, but its results discarded.\n\n"); fprintf(stderr, "be performed, but its results discarded.\n\n");
} }
} }
if (!quiet) {
picture.stats = &stats; picture.stats = &stats;
stats.user_data = (void*)in_file; picture.user_data = (void*)in_file;
}
// Compress // Compress
if (verbose) { if (verbose) {

26
examples/dwebp.c
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@ -59,6 +59,7 @@ extern void* VP8GetCPUInfo; // opaque forward declaration.
// Output types // Output types
typedef enum { typedef enum {
PNG = 0, PNG = 0,
PAM,
PPM, PPM,
PGM, PGM,
ALPHA_PLANE_ONLY // this is for experimenting only ALPHA_PLANE_ONLY // this is for experimenting only
@ -201,15 +202,22 @@ static int WritePNG(FILE* out_file, const WebPDecBuffer* const buffer) {
} }
#endif #endif
static int WritePPM(FILE* fout, const WebPDecBuffer* const buffer) { static int WritePPM(FILE* fout, const WebPDecBuffer* const buffer, int alpha) {
const uint32_t width = buffer->width; const uint32_t width = buffer->width;
const uint32_t height = buffer->height; const uint32_t height = buffer->height;
const unsigned char* const rgb = buffer->u.RGBA.rgba; const unsigned char* const rgb = buffer->u.RGBA.rgba;
const int stride = buffer->u.RGBA.stride; const int stride = buffer->u.RGBA.stride;
const size_t bytes_per_px = alpha ? 4 : 3;
uint32_t y; uint32_t y;
if (alpha) {
fprintf(fout, "P7\nWIDTH %d\nHEIGHT %d\nDEPTH 4\nMAXVAL 255\n"
"TUPLTYPE RGB_ALPHA\nENDHDR\n", width, height);
} else {
fprintf(fout, "P6\n%d %d\n255\n", width, height); fprintf(fout, "P6\n%d %d\n255\n", width, height);
}
for (y = 0; y < height; ++y) { for (y = 0; y < height; ++y) {
if (fwrite(rgb + y * stride, width, 3, fout) != 3) { if (fwrite(rgb + y * stride, width, bytes_per_px, fout) != bytes_per_px) {
return 0; return 0;
} }
} }
@ -289,8 +297,10 @@ static void SaveOutput(const WebPDecBuffer* const buffer,
#else #else
ok &= WritePNG(fout, buffer); ok &= WritePNG(fout, buffer);
#endif #endif
} else if (format == PAM) {
ok &= WritePPM(fout, buffer, 1);
} else if (format == PPM) { } else if (format == PPM) {
ok &= WritePPM(fout, buffer); ok &= WritePPM(fout, buffer, 0);
} else if (format == PGM) { } else if (format == PGM) {
ok &= WritePGM(fout, buffer); ok &= WritePGM(fout, buffer);
} else if (format == ALPHA_PLANE_ONLY) { } else if (format == ALPHA_PLANE_ONLY) {
@ -314,7 +324,8 @@ static void Help(void) {
printf("Usage: dwebp in_file [options] [-o out_file]\n\n" printf("Usage: dwebp in_file [options] [-o out_file]\n\n"
"Decodes the WebP image file to PNG format [Default]\n" "Decodes the WebP image file to PNG format [Default]\n"
"Use following options to convert into alternate image formats:\n" "Use following options to convert into alternate image formats:\n"
" -ppm ......... save the raw RGB samples as color PPM\n" " -pam ......... save the raw RGBA samples as a color PAM\n"
" -ppm ......... save the raw RGB samples as a color PPM\n"
" -pgm ......... save the raw YUV samples as a grayscale PGM\n" " -pgm ......... save the raw YUV samples as a grayscale PGM\n"
" file with IMC4 layout.\n" " file with IMC4 layout.\n"
" Other options are:\n" " Other options are:\n"
@ -324,9 +335,7 @@ static void Help(void) {
" -mt .......... use multi-threading\n" " -mt .......... use multi-threading\n"
" -crop <x> <y> <w> <h> ... crop output with the given rectangle\n" " -crop <x> <y> <w> <h> ... crop output with the given rectangle\n"
" -scale <w> <h> .......... scale the output (*after* any cropping)\n" " -scale <w> <h> .......... scale the output (*after* any cropping)\n"
#ifdef WEBP_EXPERIMENTAL_FEATURES
" -alpha ....... only save the alpha plane.\n" " -alpha ....... only save the alpha plane.\n"
#endif
" -h ....... this help message.\n" " -h ....... this help message.\n"
" -v ....... verbose (e.g. print encoding/decoding times)\n" " -v ....... verbose (e.g. print encoding/decoding times)\n"
#ifndef WEBP_DLL #ifndef WEBP_DLL
@ -367,6 +376,8 @@ int main(int argc, const char *argv[]) {
config.options.no_fancy_upsampling = 1; config.options.no_fancy_upsampling = 1;
} else if (!strcmp(argv[c], "-nofilter")) { } else if (!strcmp(argv[c], "-nofilter")) {
config.options.bypass_filtering = 1; config.options.bypass_filtering = 1;
} else if (!strcmp(argv[c], "-pam")) {
format = PAM;
} else if (!strcmp(argv[c], "-ppm")) { } else if (!strcmp(argv[c], "-ppm")) {
format = PPM; format = PPM;
} else if (!strcmp(argv[c], "-version")) { } else if (!strcmp(argv[c], "-version")) {
@ -434,6 +445,9 @@ int main(int argc, const char *argv[]) {
output_buffer->colorspace = bitstream->has_alpha ? MODE_RGBA : MODE_RGB; output_buffer->colorspace = bitstream->has_alpha ? MODE_RGBA : MODE_RGB;
#endif #endif
break; break;
case PAM:
output_buffer->colorspace = MODE_RGBA;
break;
case PPM: case PPM:
output_buffer->colorspace = MODE_RGB; // drops alpha for PPM output_buffer->colorspace = MODE_RGB; // drops alpha for PPM
break; break;

1
makefile.unix
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@ -130,6 +130,7 @@ UTILS_OBJS = \
src/utils/quant_levels.o \ src/utils/quant_levels.o \
src/utils/rescaler.o \ src/utils/rescaler.o \
src/utils/thread.o \ src/utils/thread.o \
src/utils/utils.o \
LIBWEBP_OBJS = $(DEC_OBJS) $(DSP_OBJS) $(ENC_OBJS) $(UTILS_OBJS) LIBWEBP_OBJS = $(DEC_OBJS) $(DSP_OBJS) $(ENC_OBJS) $(UTILS_OBJS)
LIBWEBPMUX_OBJS = $(MUX_OBJS) LIBWEBPMUX_OBJS = $(MUX_OBJS)

5
man/cwebp.1
View File

@ -164,7 +164,7 @@ Encode the image without any loss.
.TP .TP
.B \-hint string .B \-hint string
Specify the hint about input image type. Possible values are: Specify the hint about input image type. Possible values are:
\fBphoto\fP, and \fBpicture\fP. \fBphoto\fP, \fBpicture\fP or \fBgraph\fP.
.TP .TP
.B \-noasm .B \-noasm
Disable all assembly optimizations. Disable all assembly optimizations.
@ -212,4 +212,5 @@ for the Debian project (and may be used by others).
.SH SEE ALSO .SH SEE ALSO
.BR dwebp (1). .BR dwebp (1).
.br .br
Please refer to http://code.google.com/speed/webp/ for additional information. Please refer to http://developers.google.com/speed/webp/ for additional
information.

20
man/dwebp.1
View File

@ -1,5 +1,5 @@
.\" Hey, EMACS: -*- nroff -*- .\" Hey, EMACS: -*- nroff -*-
.TH DWEBP 1 "January 24, 2012" .TH DWEBP 1 "August 2, 2012"
.SH NAME .SH NAME
dwebp \- decompress a WebP file to an image file dwebp \- decompress a WebP file to an image file
.SH SYNOPSIS .SH SYNOPSIS
@ -11,7 +11,7 @@ This manual page documents the
.B dwebp .B dwebp
command. command.
.PP .PP
\fBdwebp\fP decompresses WebP files into PNG, PPM or PGM images. \fBdwebp\fP decompresses WebP files into PNG, PAM, PPM or PGM images.
.SH OPTIONS .SH OPTIONS
The basic options are: The basic options are:
.TP .TP
@ -24,8 +24,11 @@ Print the version number (as major.minor.revision) and exit.
.B \-o string .B \-o string
Specify the name of the output file (as PNG format by default). Specify the name of the output file (as PNG format by default).
.TP .TP
.B \-pam
Change the output format to PAM (retains alpha).
.TP
.B \-ppm .B \-ppm
Change the output format to PPM. Change the output format to PPM (discards alpha).
.TP .TP
.B \-pgm .B \-pgm
Change the output format to PGM. The output consist of luma/chroma Change the output format to PGM. The output consist of luma/chroma
@ -87,4 +90,13 @@ for the Debian project (and may be used by others).
.SH SEE ALSO .SH SEE ALSO
.BR cwebp (1). .BR cwebp (1).
.br .br
Please refer to http://code.google.com/speed/webp/ for additional information. Please refer to http://developers.google.com/speed/webp/ for additional
information.
.SS Output file format details
PAM: http://netpbm.sourceforge.net/doc/pam.html
.br
PGM: http://netpbm.sourceforge.net/doc/pgm.html
.br
PPM: http://netpbm.sourceforge.net/doc/ppm.html
.br
PNG: http://www.libpng.org/pub/png/png-sitemap.html#info

3
man/webpmux.1
View File

@ -131,4 +131,5 @@ for the Debian project (and may be used by others).
.BR dwebp (1), .BR dwebp (1),
.BR cwebp (1). .BR cwebp (1).
.br .br
Please refer to http://code.google.com/speed/webp/ for additional information. Please refer to http://developers.google.com/speed/webp/ for additional
information.

2
src/Makefile.am
View File

@ -20,7 +20,7 @@ libwebp_la_LIBADD += dsp/libwebpdsp.la
libwebp_la_LIBADD += enc/libwebpencode.la libwebp_la_LIBADD += enc/libwebpencode.la
libwebp_la_LIBADD += utils/libwebputils.la libwebp_la_LIBADD += utils/libwebputils.la
libwebp_la_LDFLAGS = -version-info 3:0:0 libwebp_la_LDFLAGS = -version-info 4:0:0
libwebpincludedir = $(includedir)/webp libwebpincludedir = $(includedir)/webp
pkgconfig_DATA = libwebp.pc pkgconfig_DATA = libwebp.pc

17
src/dec/buffer.c
View File

@ -13,6 +13,7 @@
#include "./vp8i.h" #include "./vp8i.h"
#include "./webpi.h" #include "./webpi.h"
#include "../utils/utils.h"
#if defined(__cplusplus) || defined(c_plusplus) #if defined(__cplusplus) || defined(c_plusplus)
extern "C" { extern "C" {
@ -50,18 +51,23 @@ static VP8StatusCode CheckDecBuffer(const WebPDecBuffer* const buffer) {
ok &= (y_size <= buf->y_size); ok &= (y_size <= buf->y_size);
ok &= (u_size <= buf->u_size); ok &= (u_size <= buf->u_size);
ok &= (v_size <= buf->v_size); ok &= (v_size <= buf->v_size);
ok &= (a_size <= buf->a_size);
ok &= (buf->y_stride >= width); ok &= (buf->y_stride >= width);
ok &= (buf->u_stride >= (width + 1) / 2); ok &= (buf->u_stride >= (width + 1) / 2);
ok &= (buf->v_stride >= (width + 1) / 2); ok &= (buf->v_stride >= (width + 1) / 2);
if (buf->a) { ok &= (buf->y != NULL);
ok &= (buf->u != NULL);
ok &= (buf->v != NULL);
if (mode == MODE_YUVA) {
ok &= (buf->a_stride >= width); ok &= (buf->a_stride >= width);
ok &= (a_size <= buf->a_size);
ok &= (buf->a != NULL);
} }
} else { // RGB checks } else { // RGB checks
const WebPRGBABuffer* const buf = &buffer->u.RGBA; const WebPRGBABuffer* const buf = &buffer->u.RGBA;
const uint64_t size = (uint64_t)buf->stride * height; const uint64_t size = (uint64_t)buf->stride * height;
ok &= (size <= buf->size); ok &= (size <= buf->size);
ok &= (buf->stride >= width * kModeBpp[mode]); ok &= (buf->stride >= width * kModeBpp[mode]);
ok &= (buf->rgba != NULL);
} }
return ok ? VP8_STATUS_OK : VP8_STATUS_INVALID_PARAM; return ok ? VP8_STATUS_OK : VP8_STATUS_INVALID_PARAM;
} }
@ -95,14 +101,11 @@ static VP8StatusCode AllocateBuffer(WebPDecBuffer* const buffer) {
total_size = size + 2 * uv_size + a_size; total_size = size + 2 * uv_size + a_size;
// Security/sanity checks // Security/sanity checks
if (((size_t)total_size != total_size) || (total_size >= (1ULL << 40))) { output = (uint8_t*)WebPSafeMalloc(total_size, sizeof(*output));
return VP8_STATUS_INVALID_PARAM;
}
buffer->private_memory = output = (uint8_t*)malloc((size_t)total_size);
if (output == NULL) { if (output == NULL) {
return VP8_STATUS_OUT_OF_MEMORY; return VP8_STATUS_OUT_OF_MEMORY;
} }
buffer->private_memory = output;
if (!WebPIsRGBMode(mode)) { // YUVA initialization if (!WebPIsRGBMode(mode)) { // YUVA initialization
WebPYUVABuffer* const buf = &buffer->u.YUVA; WebPYUVABuffer* const buf = &buffer->u.YUVA;

4
src/dec/frame.c
View File

@ -11,6 +11,7 @@
#include <stdlib.h> #include <stdlib.h>
#include "./vp8i.h" #include "./vp8i.h"
#include "../utils/utils.h"
#if defined(__cplusplus) || defined(c_plusplus) #if defined(__cplusplus) || defined(c_plusplus)
extern "C" { extern "C" {
@ -435,11 +436,12 @@ static int AllocateMemory(VP8Decoder* const dec) {
if (needed > dec->mem_size_) { if (needed > dec->mem_size_) {
free(dec->mem_); free(dec->mem_);
dec->mem_size_ = 0; dec->mem_size_ = 0;
dec->mem_ = (uint8_t*)malloc((size_t)needed); dec->mem_ = WebPSafeMalloc(needed, sizeof(uint8_t));
if (dec->mem_ == NULL) { if (dec->mem_ == NULL) {
return VP8SetError(dec, VP8_STATUS_OUT_OF_MEMORY, return VP8SetError(dec, VP8_STATUS_OUT_OF_MEMORY,
"no memory during frame initialization."); "no memory during frame initialization.");
} }
// down-cast is ok, thanks to WebPSafeAlloc() above.
dec->mem_size_ = (size_t)needed; dec->mem_size_ = (size_t)needed;
} }

84
src/dec/idec.c
View File

@ -15,6 +15,7 @@
#include "./webpi.h" #include "./webpi.h"
#include "./vp8i.h" #include "./vp8i.h"
#include "../utils/utils.h"
#if defined(__cplusplus) || defined(c_plusplus) #if defined(__cplusplus) || defined(c_plusplus)
extern "C" { extern "C" {
@ -143,14 +144,15 @@ static int AppendToMemBuffer(WebPIDecoder* const idec,
if (mem->end_ + data_size > mem->buf_size_) { // Need some free memory if (mem->end_ + data_size > mem->buf_size_) { // Need some free memory
const size_t current_size = MemDataSize(mem); const size_t current_size = MemDataSize(mem);
const size_t new_size = current_size + data_size; const uint64_t new_size = (uint64_t)current_size + data_size;
const size_t extra_size = (new_size + CHUNK_SIZE - 1) & ~(CHUNK_SIZE - 1); const uint64_t extra_size = (new_size + CHUNK_SIZE - 1) & ~(CHUNK_SIZE - 1);
uint8_t* const new_buf = (uint8_t*)malloc(extra_size); uint8_t* const new_buf =
(uint8_t*)WebPSafeMalloc(extra_size, sizeof(*new_buf));
if (new_buf == NULL) return 0; if (new_buf == NULL) return 0;
memcpy(new_buf, old_base, current_size); memcpy(new_buf, old_base, current_size);
free(mem->buf_); free(mem->buf_);
mem->buf_ = new_buf; mem->buf_ = new_buf;
mem->buf_size_ = extra_size; mem->buf_size_ = (size_t)extra_size;
mem->start_ = 0; mem->start_ = 0;
mem->end_ = current_size; mem->end_ = current_size;
} }
@ -534,7 +536,7 @@ static VP8StatusCode IDecode(WebPIDecoder* idec) {
// Public functions // Public functions
WebPIDecoder* WebPINewDecoder(WebPDecBuffer* output_buffer) { WebPIDecoder* WebPINewDecoder(WebPDecBuffer* output_buffer) {
WebPIDecoder* idec = (WebPIDecoder*)calloc(1, sizeof(WebPIDecoder)); WebPIDecoder* idec = (WebPIDecoder*)calloc(1, sizeof(*idec));
if (idec == NULL) { if (idec == NULL) {
return NULL; return NULL;
} }
@ -565,7 +567,7 @@ WebPIDecoder* WebPIDecode(const uint8_t* data, size_t data_size,
} }
// Create an instance of the incremental decoder // Create an instance of the incremental decoder
idec = WebPINewDecoder(config ? &config->output : NULL); idec = WebPINewDecoder(config ? &config->output : NULL);
if (!idec) { if (idec == NULL) {
return NULL; return NULL;
} }
// Finish initialization // Finish initialization
@ -597,7 +599,7 @@ WebPIDecoder* WebPINewRGB(WEBP_CSP_MODE mode, uint8_t* output_buffer,
WebPIDecoder* idec; WebPIDecoder* idec;
if (mode >= MODE_YUV) return NULL; if (mode >= MODE_YUV) return NULL;
idec = WebPINewDecoder(NULL); idec = WebPINewDecoder(NULL);
if (!idec) return NULL; if (idec == NULL) return NULL;
idec->output_.colorspace = mode; idec->output_.colorspace = mode;
idec->output_.is_external_memory = 1; idec->output_.is_external_memory = 1;
idec->output_.u.RGBA.rgba = output_buffer; idec->output_.u.RGBA.rgba = output_buffer;
@ -606,12 +608,13 @@ WebPIDecoder* WebPINewRGB(WEBP_CSP_MODE mode, uint8_t* output_buffer,
return idec; return idec;
} }
WebPIDecoder* WebPINewYUV(uint8_t* luma, size_t luma_size, int luma_stride, WebPIDecoder* WebPINewYUVA(uint8_t* luma, size_t luma_size, int luma_stride,
uint8_t* u, size_t u_size, int u_stride, uint8_t* u, size_t u_size, int u_stride,
uint8_t* v, size_t v_size, int v_stride) { uint8_t* v, size_t v_size, int v_stride,
uint8_t* a, size_t a_size, int a_stride) {
WebPIDecoder* const idec = WebPINewDecoder(NULL); WebPIDecoder* const idec = WebPINewDecoder(NULL);
if (!idec) return NULL; if (idec == NULL) return NULL;
idec->output_.colorspace = MODE_YUV; idec->output_.colorspace = (a == NULL) ? MODE_YUV : MODE_YUVA;
idec->output_.is_external_memory = 1; idec->output_.is_external_memory = 1;
idec->output_.u.YUVA.y = luma; idec->output_.u.YUVA.y = luma;
idec->output_.u.YUVA.y_stride = luma_stride; idec->output_.u.YUVA.y_stride = luma_stride;
@ -622,9 +625,21 @@ WebPIDecoder* WebPINewYUV(uint8_t* luma, size_t luma_size, int luma_stride,
idec->output_.u.YUVA.v = v; idec->output_.u.YUVA.v = v;
idec->output_.u.YUVA.v_stride = v_stride; idec->output_.u.YUVA.v_stride = v_stride;
idec->output_.u.YUVA.v_size = v_size; idec->output_.u.YUVA.v_size = v_size;
idec->output_.u.YUVA.a = a;
idec->output_.u.YUVA.a_stride = a_stride;
idec->output_.u.YUVA.a_size = a_size;
return idec; return idec;
} }
WebPIDecoder* WebPINewYUV(uint8_t* luma, size_t luma_size, int luma_stride,
uint8_t* u, size_t u_size, int u_stride,
uint8_t* v, size_t v_size, int v_stride) {
return WebPINewYUVA(luma, luma_size, luma_stride,
u, u_size, u_stride,
v, v_size, v_stride,
NULL, 0, 0);
}
//------------------------------------------------------------------------------ //------------------------------------------------------------------------------
static VP8StatusCode IDecCheckStatus(const WebPIDecoder* const idec) { static VP8StatusCode IDecCheckStatus(const WebPIDecoder* const idec) {
@ -696,15 +711,15 @@ const WebPDecBuffer* WebPIDecodedArea(const WebPIDecoder* idec,
int* left, int* top, int* left, int* top,
int* width, int* height) { int* width, int* height) {
const WebPDecBuffer* const src = GetOutputBuffer(idec); const WebPDecBuffer* const src = GetOutputBuffer(idec);
if (left) *left = 0; if (left != NULL) *left = 0;
if (top) *top = 0; if (top != NULL) *top = 0;
// TODO(skal): later include handling of rotations. // TODO(skal): later include handling of rotations.
if (src) { if (src) {
if (width) *width = src->width; if (width != NULL) *width = src->width;
if (height) *height = idec->params_.last_y; if (height != NULL) *height = idec->params_.last_y;
} else { } else {
if (width) *width = 0; if (width != NULL) *width = 0;
if (height) *height = 0; if (height != NULL) *height = 0;
} }
return src; return src;
} }
@ -712,35 +727,38 @@ const WebPDecBuffer* WebPIDecodedArea(const WebPIDecoder* idec,
uint8_t* WebPIDecGetRGB(const WebPIDecoder* idec, int* last_y, uint8_t* WebPIDecGetRGB(const WebPIDecoder* idec, int* last_y,
int* width, int* height, int* stride) { int* width, int* height, int* stride) {
const WebPDecBuffer* const src = GetOutputBuffer(idec); const WebPDecBuffer* const src = GetOutputBuffer(idec);
if (!src) return NULL; if (src == NULL) return NULL;
if (src->colorspace >= MODE_YUV) { if (src->colorspace >= MODE_YUV) {
return NULL; return NULL;
} }
if (last_y) *last_y = idec->params_.last_y; if (last_y != NULL) *last_y = idec->params_.last_y;
if (width) *width = src->width; if (width != NULL) *width = src->width;
if (height) *height = src->height; if (height != NULL) *height = src->height;
if (stride) *stride = src->u.RGBA.stride; if (stride != NULL) *stride = src->u.RGBA.stride;
return src->u.RGBA.rgba; return src->u.RGBA.rgba;
} }
uint8_t* WebPIDecGetYUV(const WebPIDecoder* idec, int* last_y, uint8_t* WebPIDecGetYUVA(const WebPIDecoder* idec, int* last_y,
uint8_t** u, uint8_t** v, uint8_t** u, uint8_t** v, uint8_t** a,
int* width, int* height, int *stride, int* uv_stride) { int* width, int* height,
int* stride, int* uv_stride, int* a_stride) {
const WebPDecBuffer* const src = GetOutputBuffer(idec); const WebPDecBuffer* const src = GetOutputBuffer(idec);
if (!src) return NULL; if (src == NULL) return NULL;
if (src->colorspace < MODE_YUV) { if (src->colorspace < MODE_YUV) {
return NULL; return NULL;
} }
if (last_y) *last_y = idec->params_.last_y; if (last_y != NULL) *last_y = idec->params_.last_y;
if (u) *u = src->u.YUVA.u; if (u != NULL) *u = src->u.YUVA.u;
if (v) *v = src->u.YUVA.v; if (v != NULL) *v = src->u.YUVA.v;
if (width) *width = src->width; if (a != NULL) *a = src->u.YUVA.a;
if (height) *height = src->height; if (width != NULL) *width = src->width;
if (stride) *stride = src->u.YUVA.y_stride; if (height != NULL) *height = src->height;
if (uv_stride) *uv_stride = src->u.YUVA.u_stride; if (stride != NULL) *stride = src->u.YUVA.y_stride;
if (uv_stride != NULL) *uv_stride = src->u.YUVA.u_stride;
if (a_stride != NULL) *a_stride = src->u.YUVA.a_stride;
return src->u.YUVA.y; return src->u.YUVA.y;
} }

113
src/dec/io.c
View File

@ -111,7 +111,7 @@ static int EmitFancyRGB(const VP8Io* const io, WebPDecParams* const p) {
const uint8_t* top_u = p->tmp_u; const uint8_t* top_u = p->tmp_u;
const uint8_t* top_v = p->tmp_v; const uint8_t* top_v = p->tmp_v;
int y = io->mb_y; int y = io->mb_y;
int y_end = io->mb_y + io->mb_h; const int y_end = io->mb_y + io->mb_h;
const int mb_w = io->mb_w; const int mb_w = io->mb_w;
const int uv_w = (mb_w + 1) / 2; const int uv_w = (mb_w + 1) / 2;
@ -162,66 +162,84 @@ static int EmitFancyRGB(const VP8Io* const io, WebPDecParams* const p) {
static int EmitAlphaYUV(const VP8Io* const io, WebPDecParams* const p) { static int EmitAlphaYUV(const VP8Io* const io, WebPDecParams* const p) {
const uint8_t* alpha = io->a; const uint8_t* alpha = io->a;
if (alpha != NULL) { const WebPYUVABuffer* const buf = &p->output->u.YUVA;
int j;
const int mb_w = io->mb_w; const int mb_w = io->mb_w;
const int mb_h = io->mb_h; const int mb_h = io->mb_h;
const WebPYUVABuffer* const buf = &p->output->u.YUVA;
uint8_t* dst = buf->a + io->mb_y * buf->a_stride; uint8_t* dst = buf->a + io->mb_y * buf->a_stride;
int j;
if (alpha != NULL) {
for (j = 0; j < mb_h; ++j) { for (j = 0; j < mb_h; ++j) {
memcpy(dst, alpha, mb_w * sizeof(*dst)); memcpy(dst, alpha, mb_w * sizeof(*dst));
alpha += io->width; alpha += io->width;
dst += buf->a_stride; dst += buf->a_stride;
} }
} else if (buf->a != NULL) {
// the user requested alpha, but there is none, set it to opaque.
for (j = 0; j < mb_h; ++j) {
memset(dst, 0xff, mb_w * sizeof(*dst));
dst += buf->a_stride;
}
} }
return 0; return 0;
} }
static int EmitAlphaRGB(const VP8Io* const io, WebPDecParams* const p) { static int GetAlphaSourceRow(const VP8Io* const io,
const uint8_t* alpha = io->a; const uint8_t** alpha, int* const num_rows) {
if (alpha != NULL) {
const int mb_w = io->mb_w;
const int mb_h = io->mb_h;
int i, j;
const WEBP_CSP_MODE colorspace = p->output->colorspace;
const int alpha_first =
(colorspace == MODE_ARGB || colorspace == MODE_Argb);
const WebPRGBABuffer* const buf = &p->output->u.RGBA;
int start_y = io->mb_y; int start_y = io->mb_y;
int num_rows = mb_h; *num_rows = io->mb_h;
// We compensate for the 1-line delay of fancy upscaler. // Compensate for the 1-line delay of the fancy upscaler.
// This is similar to EmitFancyRGB(). // This is similar to EmitFancyRGB().
if (io->fancy_upsampling) { if (io->fancy_upsampling) {
if (start_y == 0) { if (start_y == 0) {
// We don't process the last row yet. It'll be done during next call. // We don't process the last row yet. It'll be done during the next call.
--num_rows; --*num_rows;
} else { } else {
--start_y; --start_y;
// Fortunately, *alpha data is persistent, so we can go back // Fortunately, *alpha data is persistent, so we can go back
// one row and finish alpha blending, now that the fancy upscaler // one row and finish alpha blending, now that the fancy upscaler
// completed the YUV->RGB interpolation. // completed the YUV->RGB interpolation.
alpha -= io->width; *alpha -= io->width;
} }
if (io->crop_top + io->mb_y + mb_h == io->crop_bottom) { if (io->crop_top + io->mb_y + io->mb_h == io->crop_bottom) {
// If it's the very last call, we process all the remaing rows! // If it's the very last call, we process all the remaining rows!
num_rows = io->crop_bottom - io->crop_top - start_y; *num_rows = io->crop_bottom - io->crop_top - start_y;
} }
} }
{ return start_y;
}
static int EmitAlphaRGB(const VP8Io* const io, WebPDecParams* const p) {
const uint8_t* alpha = io->a;
if (alpha != NULL) {
const int mb_w = io->mb_w;
const WEBP_CSP_MODE colorspace = p->output->colorspace;
const int alpha_first =
(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);
uint8_t* const base_rgba = buf->rgba + start_y * buf->stride; uint8_t* const base_rgba = buf->rgba + start_y * buf->stride;
uint8_t* dst = base_rgba + (alpha_first ? 0 : 3); uint8_t* dst = base_rgba + (alpha_first ? 0 : 3);
uint32_t alpha_mask = 0xff;
int i, j;
for (j = 0; j < num_rows; ++j) { for (j = 0; j < num_rows; ++j) {
for (i = 0; i < mb_w; ++i) dst[4 * i] = alpha[i]; for (i = 0; i < mb_w; ++i) {
const uint32_t alpha_value = alpha[i];
dst[4 * i] = alpha_value;
alpha_mask &= alpha_value;
}
alpha += io->width; alpha += io->width;
dst += buf->stride; dst += buf->stride;
} }
if (WebPIsPremultipliedMode(colorspace)) { // alpha_mask is < 0xff if there's non-trivial alpha to premultiply with.
if (alpha_mask != 0xff && WebPIsPremultipliedMode(colorspace)) {
WebPApplyAlphaMultiply(base_rgba, alpha_first, WebPApplyAlphaMultiply(base_rgba, alpha_first,
mb_w, num_rows, buf->stride); mb_w, num_rows, buf->stride);
} }
} }
}
return 0; return 0;
} }
@ -229,22 +247,27 @@ static int EmitAlphaRGBA4444(const VP8Io* const io, WebPDecParams* const p) {
const uint8_t* alpha = io->a; const uint8_t* alpha = io->a;
if (alpha != NULL) { if (alpha != NULL) {
const int mb_w = io->mb_w; const int mb_w = io->mb_w;
const int mb_h = io->mb_h; const WEBP_CSP_MODE colorspace = p->output->colorspace;
int i, j;
const WebPRGBABuffer* const buf = &p->output->u.RGBA; const WebPRGBABuffer* const buf = &p->output->u.RGBA;
uint8_t* const base_rgba = buf->rgba + io->mb_y * buf->stride; int num_rows;
const int start_y = GetAlphaSourceRow(io, &alpha, &num_rows);
uint8_t* const base_rgba = buf->rgba + start_y * buf->stride;
uint8_t* alpha_dst = base_rgba + 1; uint8_t* alpha_dst = base_rgba + 1;
for (j = 0; j < mb_h; ++j) { uint32_t alpha_mask = 0x0f;
int i, j;
for (j = 0; j < num_rows; ++j) {
for (i = 0; i < mb_w; ++i) { for (i = 0; i < mb_w; ++i) {
// Fill in the alpha value (converted to 4 bits). // Fill in the alpha value (converted to 4 bits).
const uint32_t alpha_val = VP8Clip4Bits(alpha[i]); const uint32_t alpha_value = alpha[i] >> 4;
alpha_dst[2 * i] = (alpha_dst[2 * i] & 0xf0) | alpha_val; alpha_dst[2 * i] = (alpha_dst[2 * i] & 0xf0) | alpha_value;
alpha_mask &= alpha_value;
} }
alpha += io->width; alpha += io->width;
alpha_dst += buf->stride; alpha_dst += buf->stride;
} }
if (p->output->colorspace == MODE_rgbA_4444) { if (alpha_mask != 0x0f && WebPIsPremultipliedMode(colorspace)) {
WebPApplyAlphaMultiply4444(base_rgba, mb_w, mb_h, buf->stride); WebPApplyAlphaMultiply4444(base_rgba, mb_w, num_rows, buf->stride);
} }
} }
return 0; return 0;
@ -389,17 +412,22 @@ static int ExportAlpha(WebPDecParams* const p, int y_pos) {
uint8_t* dst = base_rgba + (alpha_first ? 0 : 3); uint8_t* dst = base_rgba + (alpha_first ? 0 : 3);
int num_lines_out = 0; int num_lines_out = 0;
const int is_premult_alpha = WebPIsPremultipliedMode(colorspace); const int is_premult_alpha = WebPIsPremultipliedMode(colorspace);
uint32_t alpha_mask = 0xff;
const int width = p->scaler_a.dst_width; const int width = p->scaler_a.dst_width;
while (WebPRescalerHasPendingOutput(&p->scaler_a)) { while (WebPRescalerHasPendingOutput(&p->scaler_a)) {
int i; int i;
assert(p->last_y + y_pos + num_lines_out < p->output->height); assert(p->last_y + y_pos + num_lines_out < p->output->height);
WebPRescalerExportRow(&p->scaler_a); WebPRescalerExportRow(&p->scaler_a);
for (i = 0; i < width; ++i) dst[4 * i] = p->scaler_a.dst[i]; for (i = 0; i < width; ++i) {
const uint32_t alpha_value = p->scaler_a.dst[i];
dst[4 * i] = alpha_value;
alpha_mask &= alpha_value;
}
dst += buf->stride; dst += buf->stride;
++num_lines_out; ++num_lines_out;
} }
if (is_premult_alpha) { if (is_premult_alpha && alpha_mask != 0xff) {
WebPApplyAlphaMultiply(base_rgba, alpha_first, WebPApplyAlphaMultiply(base_rgba, alpha_first,
width, num_lines_out, buf->stride); width, num_lines_out, buf->stride);
} }
@ -414,6 +442,7 @@ static int ExportAlphaRGBA4444(WebPDecParams* const p, int y_pos) {
const WEBP_CSP_MODE colorspace = p->output->colorspace; const WEBP_CSP_MODE colorspace = p->output->colorspace;
const int width = p->scaler_a.dst_width; const int width = p->scaler_a.dst_width;
const int is_premult_alpha = WebPIsPremultipliedMode(colorspace); const int is_premult_alpha = WebPIsPremultipliedMode(colorspace);
uint32_t alpha_mask = 0x0f;
while (WebPRescalerHasPendingOutput(&p->scaler_a)) { while (WebPRescalerHasPendingOutput(&p->scaler_a)) {
int i; int i;
@ -421,13 +450,14 @@ static int ExportAlphaRGBA4444(WebPDecParams* const p, int y_pos) {
WebPRescalerExportRow(&p->scaler_a); WebPRescalerExportRow(&p->scaler_a);
for (i = 0; i < width; ++i) { for (i = 0; i < width; ++i) {
// Fill in the alpha value (converted to 4 bits). // Fill in the alpha value (converted to 4 bits).
const uint32_t alpha_val = VP8Clip4Bits(p->scaler_a.dst[i]); const uint32_t alpha_value = p->scaler_a.dst[i] >> 4;
alpha_dst[2 * i] = (alpha_dst[2 * i] & 0xf0) | alpha_val; alpha_dst[2 * i] = (alpha_dst[2 * i] & 0xf0) | alpha_value;
alpha_mask &= alpha_value;
} }
alpha_dst += buf->stride; alpha_dst += buf->stride;
++num_lines_out; ++num_lines_out;
} }
if (is_premult_alpha) { if (is_premult_alpha && alpha_mask != 0x0f) {
WebPApplyAlphaMultiply4444(base_rgba, width, num_lines_out, buf->stride); WebPApplyAlphaMultiply4444(base_rgba, width, num_lines_out, buf->stride);
} }
return num_lines_out; return num_lines_out;
@ -464,8 +494,7 @@ static int InitRGBRescaler(const VP8Io* const io, WebPDecParams* const p) {
tmp_size1 += work_size; tmp_size1 += work_size;
tmp_size2 += out_width; tmp_size2 += out_width;
} }
p->memory = p->memory = calloc(1, tmp_size1 * sizeof(*work) + tmp_size2 * sizeof(*tmp));
calloc(1, tmp_size1 * sizeof(*work) + tmp_size2 * sizeof(*tmp));
if (p->memory == NULL) { if (p->memory == NULL) {
return 0; // memory error return 0; // memory error
} }
@ -562,7 +591,7 @@ static int CustomSetup(VP8Io* io) {
//------------------------------------------------------------------------------ //------------------------------------------------------------------------------
static int CustomPut(const VP8Io* io) { static int CustomPut(const VP8Io* io) {
WebPDecParams* p = (WebPDecParams*)io->opaque; WebPDecParams* const p = (WebPDecParams*)io->opaque;
const int mb_w = io->mb_w; const int mb_w = io->mb_w;
const int mb_h = io->mb_h; const int mb_h = io->mb_h;
int num_lines_out; int num_lines_out;

2
src/dec/vp8.c
View File

@ -45,7 +45,7 @@ int VP8InitIoInternal(VP8Io* const io, int version) {
} }
VP8Decoder* VP8New(void) { VP8Decoder* VP8New(void) {
VP8Decoder* const dec = (VP8Decoder*)calloc(1, sizeof(VP8Decoder)); VP8Decoder* const dec = (VP8Decoder*)calloc(1, sizeof(*dec));
if (dec != NULL) { if (dec != NULL) {
SetOk(dec); SetOk(dec);
WebPWorkerInit(&dec->worker_); WebPWorkerInit(&dec->worker_);

4
src/dec/vp8i.h
View File

@ -27,8 +27,8 @@ extern "C" {
// version numbers // version numbers
#define DEC_MAJ_VERSION 0 #define DEC_MAJ_VERSION 0
#define DEC_MIN_VERSION 1 #define DEC_MIN_VERSION 2
#define DEC_REV_VERSION 99 #define DEC_REV_VERSION 0
#define ONLY_KEYFRAME_CODE // to remove any code related to P-Frames #define ONLY_KEYFRAME_CODE // to remove any code related to P-Frames

216
src/dec/vp8l.c
View File

@ -14,7 +14,9 @@
#include <stdlib.h> #include <stdlib.h>
#include "./vp8li.h" #include "./vp8li.h"
#include "../dsp/lossless.h" #include "../dsp/lossless.h"
#include "../dsp/yuv.h"
#include "../utils/huffman.h" #include "../utils/huffman.h"
#include "../utils/utils.h"
#if defined(__cplusplus) || defined(c_plusplus) #if defined(__cplusplus) || defined(c_plusplus)
extern "C" { extern "C" {
@ -264,7 +266,8 @@ static int ReadHuffmanCode(int alphabet_size, VP8LDecoder* const dec,
return 0; return 0;
} }
code_lengths = (int*)calloc(alphabet_size, sizeof(*code_lengths)); code_lengths =
(int*)WebPSafeCalloc((uint64_t)alphabet_size, sizeof(*code_lengths));
if (code_lengths == NULL) { if (code_lengths == NULL) {
dec->status_ = VP8_STATUS_OUT_OF_MEMORY; dec->status_ = VP8_STATUS_OUT_OF_MEMORY;
return 0; return 0;
@ -335,7 +338,9 @@ static int ReadHuffmanCodes(VP8LDecoder* const dec, int xsize, int ysize,
if (br->error_) goto Error; if (br->error_) goto Error;
assert(num_htree_groups <= 0x10000); assert(num_htree_groups <= 0x10000);
htree_groups = (HTreeGroup*)calloc(num_htree_groups, sizeof(*htree_groups)); htree_groups =
(HTreeGroup*)WebPSafeCalloc((uint64_t)num_htree_groups,
sizeof(*htree_groups));
if (htree_groups == NULL) { if (htree_groups == NULL) {
dec->status_ = VP8_STATUS_OUT_OF_MEMORY; dec->status_ = VP8_STATUS_OUT_OF_MEMORY;
goto Error; goto Error;
@ -380,10 +385,7 @@ static int AllocateAndInitRescaler(VP8LDecoder* const dec, VP8Io* const io) {
const uint64_t memory_size = sizeof(*dec->rescaler) + const uint64_t memory_size = sizeof(*dec->rescaler) +
work_size * sizeof(*work) + work_size * sizeof(*work) +
scaled_data_size * sizeof(*scaled_data); scaled_data_size * sizeof(*scaled_data);
uint8_t* memory; uint8_t* memory = (uint8_t*)WebPSafeCalloc(memory_size, sizeof(*memory));
if (memory_size != (size_t)memory_size) return 0; // overflow check
memory = (uint8_t*)calloc(1, (size_t)memory_size);
if (memory == NULL) { if (memory == NULL) {
dec->status_ = VP8_STATUS_OUT_OF_MEMORY; dec->status_ = VP8_STATUS_OUT_OF_MEMORY;
return 0; return 0;
@ -403,10 +405,12 @@ static int AllocateAndInitRescaler(VP8LDecoder* const dec, VP8Io* const io) {
return 1; return 1;
} }
//------------------------------------------------------------------------------
// Export to ARGB
// We have special "export" function since we need to convert from BGRA // We have special "export" function since we need to convert from BGRA
static int Export(VP8LDecoder* const dec, WEBP_CSP_MODE colorspace, static int Export(WebPRescaler* const rescaler, WEBP_CSP_MODE colorspace,
int rgba_stride, uint8_t* const rgba) { int rgba_stride, uint8_t* const rgba) {
WebPRescaler* const rescaler = dec->rescaler;
const uint32_t* const src = (const uint32_t*)rescaler->dst; const uint32_t* const src = (const uint32_t*)rescaler->dst;
const int dst_width = rescaler->dst_width; const int dst_width = rescaler->dst_width;
int num_lines_out = 0; int num_lines_out = 0;
@ -420,18 +424,19 @@ static int Export(VP8LDecoder* const dec, WEBP_CSP_MODE colorspace,
} }
// Emit scaled rows. // Emit scaled rows.
static int EmitRescaledRows(VP8LDecoder* const dec, WEBP_CSP_MODE colorspace, static int EmitRescaledRows(const VP8LDecoder* const dec,
const uint32_t* const data, int in_stride, int mb_h, const uint32_t* const data, int in_stride, int mb_h,
uint8_t* const out, int out_stride) { uint8_t* const out, int out_stride) {
const WEBP_CSP_MODE colorspace = dec->output_->colorspace;
const uint8_t* const in = (const uint8_t*)data; const uint8_t* const in = (const uint8_t*)data;
int num_lines_in = 0; int num_lines_in = 0;
int num_lines_out = 0; int num_lines_out = 0;
while (num_lines_in < mb_h) { while (num_lines_in < mb_h) {
const uint8_t* row_in = in + num_lines_in * in_stride; const uint8_t* const row_in = in + num_lines_in * in_stride;
uint8_t* const row_out = out + num_lines_out * out_stride; uint8_t* const row_out = out + num_lines_out * out_stride;
num_lines_in += WebPRescalerImport(dec->rescaler, mb_h - num_lines_in, num_lines_in += WebPRescalerImport(dec->rescaler, mb_h - num_lines_in,
row_in, in_stride); row_in, in_stride);
num_lines_out += Export(dec, colorspace, out_stride, row_out); num_lines_out += Export(dec->rescaler, colorspace, out_stride, row_out);
} }
return num_lines_out; return num_lines_out;
} }
@ -452,6 +457,113 @@ static int EmitRows(WEBP_CSP_MODE colorspace,
return mb_h; // Num rows out == num rows in. return mb_h; // Num rows out == num rows in.
} }
//------------------------------------------------------------------------------
// Export to YUVA
static void ConvertToYUVA(const uint32_t* const src, int width, int y_pos,
const WebPDecBuffer* const output) {
const WebPYUVABuffer* const buf = &output->u.YUVA;
// first, the luma plane
{
int i;
uint8_t* const y = buf->y + y_pos * buf->y_stride;
for (i = 0; i < width; ++i) {
const uint32_t p = src[i];
y[i] = VP8RGBToY((p >> 16) & 0xff, (p >> 8) & 0xff, (p >> 0) & 0xff);
}
}
// then U/V planes
{
uint8_t* const u = buf->u + (y_pos >> 1) * buf->u_stride;
uint8_t* const v = buf->v + (y_pos >> 1) * buf->v_stride;
const int uv_width = width >> 1;
int i;
for (i = 0; i < uv_width; ++i) {
const uint32_t v0 = src[2 * i + 0];
const uint32_t v1 = src[2 * i + 1];
// VP8RGBToU/V expects four accumulated pixels. Hence we need to
// scale r/g/b value by a factor 2. We just shift v0/v1 one bit less.
const int r = ((v0 >> 15) & 0x1fe) + ((v1 >> 15) & 0x1fe);
const int g = ((v0 >> 7) & 0x1fe) + ((v1 >> 7) & 0x1fe);
const int b = ((v0 << 1) & 0x1fe) + ((v1 << 1) & 0x1fe);
if (!(y_pos & 1)) { // even lines: store values
u[i] = VP8RGBToU(r, g, b);
v[i] = VP8RGBToV(r, g, b);
} else { // odd lines: average with previous values
const int tmp_u = VP8RGBToU(r, g, b);
const int tmp_v = VP8RGBToV(r, g, b);
// Approximated average-of-four. But it's an acceptable diff.
u[i] = (u[i] + tmp_u + 1) >> 1;
v[i] = (v[i] + tmp_v + 1) >> 1;
}
}
if (width & 1) { // last pixel
const uint32_t v0 = src[2 * i + 0];
const int r = (v0 >> 14) & 0x3fc;
const int g = (v0 >> 6) & 0x3fc;
const int b = (v0 << 2) & 0x3fc;
if (!(y_pos & 1)) { // even lines
u[i] = VP8RGBToU(r, g, b);
v[i] = VP8RGBToV(r, g, b);
} else { // odd lines (note: we could just skip this)
const int tmp_u = VP8RGBToU(r, g, b);
const int tmp_v = VP8RGBToV(r, g, b);
u[i] = (u[i] + tmp_u + 1) >> 1;
v[i] = (v[i] + tmp_v + 1) >> 1;
}
}
}
// Lastly, store alpha if needed.
if (buf->a != NULL) {
int i;
uint8_t* const a = buf->a + y_pos * buf->a_stride;
for (i = 0; i < width; ++i) a[i] = (src[i] >> 24);
}
}
static int ExportYUVA(const VP8LDecoder* const dec, int y_pos) {
WebPRescaler* const rescaler = dec->rescaler;
const uint32_t* const src = (const uint32_t*)rescaler->dst;
const int dst_width = rescaler->dst_width;
int num_lines_out = 0;
while (WebPRescalerHasPendingOutput(rescaler)) {
WebPRescalerExportRow(rescaler);
ConvertToYUVA(src, dst_width, y_pos, dec->output_);
++y_pos;
++num_lines_out;
}
return num_lines_out;
}
static int EmitRescaledRowsYUVA(const VP8LDecoder* const dec,
const uint32_t* const data,
int in_stride, int mb_h) {
const uint8_t* const in = (const uint8_t*)data;
int num_lines_in = 0;
int y_pos = dec->last_out_row_;
while (num_lines_in < mb_h) {
const uint8_t* const row_in = in + num_lines_in * in_stride;
num_lines_in += WebPRescalerImport(dec->rescaler, mb_h - num_lines_in,
row_in, in_stride);
y_pos += ExportYUVA(dec, y_pos);
}
return y_pos;
}
static int EmitRowsYUVA(const VP8LDecoder* const dec,
const uint32_t* const data, int in_stride,
int mb_w, int num_rows) {
int y_pos = dec->last_out_row_;
const uint8_t* row_in = (const uint8_t*)data;
while (num_rows-- > 0) {
ConvertToYUVA((const uint32_t*)row_in, mb_w, y_pos, dec->output_);
row_in += in_stride;
++y_pos;
}
return y_pos;
}
//------------------------------------------------------------------------------ //------------------------------------------------------------------------------
// Cropping. // Cropping.
@ -503,20 +615,22 @@ static WEBP_INLINE HTreeGroup* GetHtreeGroupForPos(VP8LMetadata* const hdr,
typedef void (*ProcessRowsFunc)(VP8LDecoder* const dec, int row); typedef void (*ProcessRowsFunc)(VP8LDecoder* const dec, int row);
static void ApplyTransforms(VP8LDecoder* const dec, int num_rows, static void ApplyInverseTransforms(VP8LDecoder* const dec, int num_rows,
const uint32_t* const rows) { const uint32_t* const rows) {
int n = dec->next_transform_; int n = dec->next_transform_;
const int cache_pixs = dec->width_ * num_rows; const int cache_pixs = dec->width_ * num_rows;
uint32_t* rows_data = dec->argb_cache_;
const int start_row = dec->last_row_; const int start_row = dec->last_row_;
const int end_row = start_row + num_rows; const int end_row = start_row + num_rows;
const uint32_t* rows_in = rows;
uint32_t* const rows_out = dec->argb_cache_;
// Inverse transforms. // Inverse transforms.
// TODO: most transforms only need to operate on the cropped region only. // TODO: most transforms only need to operate on the cropped region only.
memcpy(rows_data, rows, cache_pixs * sizeof(*rows_data)); memcpy(rows_out, rows_in, cache_pixs * sizeof(*rows_out));
while (n-- > 0) { while (n-- > 0) {
VP8LTransform* const transform = &dec->transforms_[n]; VP8LTransform* const transform = &dec->transforms_[n];
VP8LInverseTransform(transform, start_row, end_row, rows, rows_data); VP8LInverseTransform(transform, start_row, end_row, rows_in, rows_out);
rows_in = rows_out;
} }
} }
@ -527,7 +641,7 @@ static void ProcessRows(VP8LDecoder* const dec, int row) {
const int num_rows = row - dec->last_row_; const int num_rows = row - dec->last_row_;
if (num_rows <= 0) return; // Nothing to be done. if (num_rows <= 0) return; // Nothing to be done.
ApplyTransforms(dec, num_rows, rows); ApplyInverseTransforms(dec, num_rows, rows);
// Emit output. // Emit output.
{ {
@ -536,19 +650,23 @@ static void ProcessRows(VP8LDecoder* const dec, int row) {
if (!SetCropWindow(io, dec->last_row_, row, &rows_data, io->width)) { if (!SetCropWindow(io, dec->last_row_, row, &rows_data, io->width)) {
// Nothing to output (this time). // Nothing to output (this time).
} else { } else {
WebPDecParams* const params = (WebPDecParams*)io->opaque; const WebPDecBuffer* const output = dec->output_;
const WebPDecBuffer* const output = params->output; const int in_stride = io->width * sizeof(*rows_data);
if (output->colorspace < MODE_YUV) { // convert to RGBA
const WebPRGBABuffer* const buf = &output->u.RGBA; const WebPRGBABuffer* const buf = &output->u.RGBA;
uint8_t* const rgba = buf->rgba + dec->last_out_row_ * buf->stride; uint8_t* const rgba = buf->rgba + dec->last_out_row_ * buf->stride;
const int in_stride = io->width * sizeof(*rows_data);
const WEBP_CSP_MODE colorspace = output->colorspace;
const int num_rows_out = io->use_scaling ? const int num_rows_out = io->use_scaling ?
EmitRescaledRows(dec, colorspace, rows_data, in_stride, io->mb_h, EmitRescaledRows(dec, rows_data, in_stride, io->mb_h,
rgba, buf->stride) : rgba, buf->stride) :
EmitRows(colorspace, rows_data, in_stride, io->mb_w, io->mb_h, EmitRows(output->colorspace, rows_data, in_stride,
rgba, buf->stride); io->mb_w, io->mb_h, rgba, buf->stride);
// Update 'last_out_row_'. // Update 'last_out_row_'.
dec->last_out_row_ += num_rows_out; dec->last_out_row_ += num_rows_out;
} else { // convert to YUVA
dec->last_out_row_ = io->use_scaling ?
EmitRescaledRowsYUVA(dec, rows_data, in_stride, io->mb_h) :
EmitRowsYUVA(dec, rows_data, in_stride, io->mb_w, io->mb_h);
}
assert(dec->last_out_row_ <= output->height); assert(dec->last_out_row_ <= output->height);
} }
} }
@ -681,26 +799,14 @@ static void ClearTransform(VP8LTransform* const transform) {
transform->data_ = NULL; transform->data_ = NULL;
} }
static void ApplyInverseTransforms(VP8LDecoder* const dec, int start_idx,
uint32_t* const decoded_data) {
int n = dec->next_transform_;
assert(start_idx >= 0);
while (n-- > start_idx) {
VP8LTransform* const transform = &dec->transforms_[n];
VP8LInverseTransform(transform, 0, transform->ysize_,
decoded_data, decoded_data);
ClearTransform(transform);
}
dec->next_transform_ = start_idx;
}
// For security reason, we need to remap the color map to span // For security reason, we need to remap the color map to span
// the total possible bundled values, and not just the num_colors. // the total possible bundled values, and not just the num_colors.
static int ExpandColorMap(int num_colors, VP8LTransform* const transform) { static int ExpandColorMap(int num_colors, VP8LTransform* const transform) {
int i; int i;
const int final_num_colors = 1 << (8 >> transform->bits_); const int final_num_colors = 1 << (8 >> transform->bits_);
uint32_t* const new_color_map = uint32_t* const new_color_map =
(uint32_t*)malloc(final_num_colors * sizeof(*new_color_map)); (uint32_t*)WebPSafeMalloc((uint64_t)final_num_colors,
sizeof(*new_color_map));
if (new_color_map == NULL) { if (new_color_map == NULL) {
return 0; return 0;
} else { } else {
@ -816,6 +922,8 @@ void VP8LClear(VP8LDecoder* const dec) {
free(dec->rescaler_memory); free(dec->rescaler_memory);
dec->rescaler_memory = NULL; dec->rescaler_memory = NULL;
dec->output_ = NULL; // leave no trace behind
} }
void VP8LDelete(VP8LDecoder* const dec) { void VP8LDelete(VP8LDecoder* const dec) {
@ -845,7 +953,6 @@ static int DecodeImageStream(int xsize, int ysize,
VP8LBitReader* const br = &dec->br_; VP8LBitReader* const br = &dec->br_;
VP8LMetadata* const hdr = &dec->hdr_; VP8LMetadata* const hdr = &dec->hdr_;
uint32_t* data = NULL; uint32_t* data = NULL;
const int transform_start_idx = dec->next_transform_;
int color_cache_bits = 0; int color_cache_bits = 0;
// Read the transforms (may recurse). // Read the transforms (may recurse).
@ -892,15 +999,8 @@ static int DecodeImageStream(int xsize, int ysize,
} }
{ {
const uint64_t total_size = const uint64_t total_size = (uint64_t)transform_xsize * transform_ysize;
transform_xsize * transform_ysize * sizeof(*data); data = (uint32_t*)WebPSafeMalloc(total_size, sizeof(*data));
if (total_size != (size_t)total_size) {
// This shouldn't happen, because of transform_bits limit, but...
dec->status_ = VP8_STATUS_BITSTREAM_ERROR;
ok = 0;
goto End;
}
data = (uint32_t*)malloc((size_t)total_size);
if (data == NULL) { if (data == NULL) {
dec->status_ = VP8_STATUS_OUT_OF_MEMORY; dec->status_ = VP8_STATUS_OUT_OF_MEMORY;
ok = 0; ok = 0;
@ -912,9 +1012,6 @@ static int DecodeImageStream(int xsize, int ysize,
ok = DecodeImageData(dec, data, transform_xsize, transform_ysize, NULL); ok = DecodeImageData(dec, data, transform_xsize, transform_ysize, NULL);
ok = ok && !br->error_; ok = ok && !br->error_;
// Apply transforms on the decoded data.
if (ok) ApplyInverseTransforms(dec, transform_start_idx, data);
End: End:
if (!ok) { if (!ok) {
@ -951,14 +1048,11 @@ static int AllocateARGBBuffers(VP8LDecoder* const dec, int final_width) {
const uint64_t cache_pixels = (uint64_t)final_width * NUM_ARGB_CACHE_ROWS; const uint64_t cache_pixels = (uint64_t)final_width * NUM_ARGB_CACHE_ROWS;
const uint64_t total_num_pixels = const uint64_t total_num_pixels =
num_pixels + cache_top_pixels + cache_pixels; num_pixels + cache_top_pixels + cache_pixels;
const uint64_t total_size = total_num_pixels * sizeof(*dec->argb_);
assert(dec->width_ <= final_width); assert(dec->width_ <= final_width);
// Check for overflow dec->argb_ = (uint32_t*)WebPSafeMalloc(total_num_pixels, sizeof(*dec->argb_));
if ((size_t)total_size != total_size) return 0;
dec->argb_ = (uint32_t*)malloc((size_t)total_size);
if (dec->argb_ == NULL) { if (dec->argb_ == NULL) {
dec->argb_cache_ = NULL; dec->argb_cache_ = NULL; // for sanity check
dec->status_ = VP8_STATUS_OUT_OF_MEMORY; dec->status_ = VP8_STATUS_OUT_OF_MEMORY;
return 0; return 0;
} }
@ -974,7 +1068,7 @@ static void ExtractAlphaRows(VP8LDecoder* const dec, int row) {
const uint32_t* const in = dec->argb_ + dec->width_ * dec->last_row_; const uint32_t* const in = dec->argb_ + dec->width_ * dec->last_row_;
if (num_rows <= 0) return; // Nothing to be done. if (num_rows <= 0) return; // Nothing to be done.
ApplyTransforms(dec, num_rows, in); ApplyInverseTransforms(dec, num_rows, in);
// Extract alpha (which is stored in the green plane). // Extract alpha (which is stored in the green plane).
{ {
@ -1060,20 +1154,16 @@ int VP8LDecodeHeader(VP8LDecoder* const dec, VP8Io* const io) {
int VP8LDecodeImage(VP8LDecoder* const dec) { int VP8LDecodeImage(VP8LDecoder* const dec) {
VP8Io* io = NULL; VP8Io* io = NULL;
WebPDecParams* params = NULL; WebPDecParams* params = NULL;
WebPDecBuffer* output = NULL;
// Sanity checks. // Sanity checks.
if (dec == NULL) return 0; if (dec == NULL) return 0;
io = dec->io_; io = dec->io_;
assert(io != NULL);
params = (WebPDecParams*)io->opaque; params = (WebPDecParams*)io->opaque;
assert(params != NULL); assert(params != NULL);
output = params->output; dec->output_ = params->output;
// YUV modes are invalid. assert(dec->output_ != NULL);
if (output->colorspace >= MODE_YUV) {
dec->status_ = VP8_STATUS_INVALID_PARAM;
goto Err;
}
// Initialization. // Initialization.
if (!WebPIoInitFromOptions(params->options, io, MODE_BGRA)) { if (!WebPIoInitFromOptions(params->options, io, MODE_BGRA)) {

2
src/dec/vp8li.h
View File

@ -61,6 +61,8 @@ typedef struct {
VP8LDecodeState state_; VP8LDecodeState state_;
VP8Io *io_; VP8Io *io_;
const WebPDecBuffer *output_; // shortcut to io->opaque->output
uint32_t *argb_; // Internal data: always in BGRA color mode. uint32_t *argb_; // Internal data: always in BGRA color mode.
uint32_t *argb_cache_; // Scratch buffer for temporary BGRA storage. uint32_t *argb_cache_; // Scratch buffer for temporary BGRA storage.

284
src/dsp/lossless.c
View File

@ -23,113 +23,156 @@ extern "C" {
#include "../dsp/dsp.h" #include "../dsp/dsp.h"
#include "../enc/histogram.h" #include "../enc/histogram.h"
// A lookup table for small values of log(int) to be used in entropy #define MAX_DIFF_COST (1e30f)
// computation.
// // lookup table for small values of log2(int)
// ", ".join(["%.16ff" % x for x in [0.0]+[log(x) for x in range(1, 256)]]) #define APPROX_LOG_MAX 4096
#define LOG_2_RECIPROCAL 1.44269504088896338700465094007086
#define LOG_LOOKUP_IDX_MAX 256 #define LOG_LOOKUP_IDX_MAX 256
static const float kLogTable[LOG_LOOKUP_IDX_MAX] = { static const float kLog2Table[LOG_LOOKUP_IDX_MAX] = {
0.0000000000000000f, 0.0000000000000000f, 0.6931471805599453f, 0.0000000000000000f, 0.0000000000000000f,
1.0986122886681098f, 1.3862943611198906f, 1.6094379124341003f, 1.0000000000000000f, 1.5849625007211560f,
1.7917594692280550f, 1.9459101490553132f, 2.0794415416798357f, 2.0000000000000000f, 2.3219280948873621f,
2.1972245773362196f, 2.3025850929940459f, 2.3978952727983707f, 2.5849625007211560f, 2.8073549220576041f,
2.4849066497880004f, 2.5649493574615367f, 2.6390573296152584f, 3.0000000000000000f, 3.1699250014423121f,
2.7080502011022101f, 2.7725887222397811f, 2.8332133440562162f, 3.3219280948873621f, 3.4594316186372973f,
2.8903717578961645f, 2.9444389791664403f, 2.9957322735539909f, 3.5849625007211560f, 3.7004397181410921f,
3.0445224377234230f, 3.0910424533583161f, 3.1354942159291497f, 3.8073549220576041f, 3.9068905956085187f,
3.1780538303479458f, 3.2188758248682006f, 3.2580965380214821f, 4.0000000000000000f, 4.0874628412503390f,
3.2958368660043291f, 3.3322045101752038f, 3.3672958299864741f, 4.1699250014423121f, 4.2479275134435852f,
3.4011973816621555f, 3.4339872044851463f, 3.4657359027997265f, 4.3219280948873626f, 4.3923174227787606f,
3.4965075614664802f, 3.5263605246161616f, 3.5553480614894135f, 4.4594316186372973f, 4.5235619560570130f,
3.5835189384561099f, 3.6109179126442243f, 3.6375861597263857f, 4.5849625007211560f, 4.6438561897747243f,
3.6635616461296463f, 3.6888794541139363f, 3.7135720667043080f, 4.7004397181410917f, 4.7548875021634682f,
3.7376696182833684f, 3.7612001156935624f, 3.7841896339182610f, 4.8073549220576037f, 4.8579809951275718f,
3.8066624897703196f, 3.8286413964890951f, 3.8501476017100584f, 4.9068905956085187f, 4.9541963103868749f,
3.8712010109078911f, 3.8918202981106265f, 3.9120230054281460f, 5.0000000000000000f, 5.0443941193584533f,
3.9318256327243257f, 3.9512437185814275f, 3.9702919135521220f, 5.0874628412503390f, 5.1292830169449663f,
3.9889840465642745f, 4.0073331852324712f, 4.0253516907351496f, 5.1699250014423121f, 5.2094533656289501f,
4.0430512678345503f, 4.0604430105464191f, 4.0775374439057197f, 5.2479275134435852f, 5.2854022188622487f,
4.0943445622221004f, 4.1108738641733114f, 4.1271343850450917f, 5.3219280948873626f, 5.3575520046180837f,
4.1431347263915326f, 4.1588830833596715f, 4.1743872698956368f, 5.3923174227787606f, 5.4262647547020979f,
4.1896547420264252f, 4.2046926193909657f, 4.2195077051761070f, 5.4594316186372973f, 5.4918530963296747f,
4.2341065045972597f, 4.2484952420493594f, 4.2626798770413155f, 5.5235619560570130f, 5.5545888516776376f,
4.2766661190160553f, 4.2904594411483910f, 4.3040650932041702f, 5.5849625007211560f, 5.6147098441152083f,
4.3174881135363101f, 4.3307333402863311f, 4.3438054218536841f, 5.6438561897747243f, 5.6724253419714951f,
4.3567088266895917f, 4.3694478524670215f, 4.3820266346738812f, 5.7004397181410917f, 5.7279204545631987f,
4.3944491546724391f, 4.4067192472642533f, 4.4188406077965983f, 5.7548875021634682f, 5.7813597135246599f,
4.4308167988433134f, 4.4426512564903167f, 4.4543472962535073f, 5.8073549220576037f, 5.8328900141647412f,
4.4659081186545837f, 4.4773368144782069f, 4.4886363697321396f, 5.8579809951275718f, 5.8826430493618415f,
4.4998096703302650f, 4.5108595065168497f, 4.5217885770490405f, 5.9068905956085187f, 5.9307373375628866f,
4.5325994931532563f, 4.5432947822700038f, 4.5538768916005408f, 5.9541963103868749f, 5.9772799234999167f,
4.5643481914678361f, 4.5747109785033828f, 4.5849674786705723f, 6.0000000000000000f, 6.0223678130284543f,
4.5951198501345898f, 4.6051701859880918f, 4.6151205168412597f, 6.0443941193584533f, 6.0660891904577720f,
4.6249728132842707f, 4.6347289882296359f, 4.6443908991413725f, 6.0874628412503390f, 6.1085244567781691f,
4.6539603501575231f, 4.6634390941120669f, 4.6728288344619058f, 6.1292830169449663f, 6.1497471195046822f,
4.6821312271242199f, 4.6913478822291435f, 4.7004803657924166f, 6.1699250014423121f, 6.1898245588800175f,
4.7095302013123339f, 4.7184988712950942f, 4.7273878187123408f, 6.2094533656289501f, 6.2288186904958804f,
4.7361984483944957f, 4.7449321283632502f, 4.7535901911063645f, 6.2479275134435852f, 6.2667865406949010f,
4.7621739347977563f, 4.7706846244656651f, 4.7791234931115296f, 6.2854022188622487f, 6.3037807481771030f,
4.7874917427820458f, 4.7957905455967413f, 4.8040210447332568f, 6.3219280948873626f, 6.3398500028846243f,
4.8121843553724171f, 4.8202815656050371f, 4.8283137373023015f, 6.3575520046180837f, 6.3750394313469245f,
4.8362819069514780f, 4.8441870864585912f, 4.8520302639196169f, 6.3923174227787606f, 6.4093909361377017f,
4.8598124043616719f, 4.8675344504555822f, 4.8751973232011512f, 6.4262647547020979f, 6.4429434958487279f,
4.8828019225863706f, 4.8903491282217537f, 4.8978397999509111f, 6.4594316186372973f, 6.4757334309663976f,
4.9052747784384296f, 4.9126548857360524f, 4.9199809258281251f, 6.4918530963296747f, 6.5077946401986963f,
4.9272536851572051f, 4.9344739331306915f, 4.9416424226093039f, 6.5235619560570130f, 6.5391588111080309f,
4.9487598903781684f, 4.9558270576012609f, 4.9628446302599070f, 6.5545888516776376f, 6.5698556083309478f,
4.9698132995760007f, 4.9767337424205742f, 4.9836066217083363f, 6.5849625007211560f, 6.5999128421871278f,
4.9904325867787360f, 4.9972122737641147f, 5.0039463059454592f, 6.6147098441152083f, 6.6293566200796094f,
5.0106352940962555f, 5.0172798368149243f, 5.0238805208462765f, 6.6438561897747243f, 6.6582114827517946f,
5.0304379213924353f, 5.0369526024136295f, 5.0434251169192468f, 6.6724253419714951f, 6.6865005271832185f,
5.0498560072495371f, 5.0562458053483077f, 5.0625950330269669f, 6.7004397181410917f, 6.7142455176661224f,
5.0689042022202315f, 5.0751738152338266f, 5.0814043649844631f, 6.7279204545631987f, 6.7414669864011464f,
5.0875963352323836f, 5.0937502008067623f, 5.0998664278241987f, 6.7548875021634682f, 6.7681843247769259f,
5.1059454739005803f, 5.1119877883565437f, 5.1179938124167554f, 6.7813597135246599f, 6.7944158663501061f,
5.1239639794032588f, 5.1298987149230735f, 5.1357984370502621f, 6.8073549220576037f, 6.8201789624151878f,
5.1416635565026603f, 5.1474944768134527f, 5.1532915944977793f, 6.8328900141647412f, 6.8454900509443747f,
5.1590552992145291f, 5.1647859739235145f, 5.1704839950381514f, 6.8579809951275718f, 6.8703647195834047f,
5.1761497325738288f, 5.1817835502920850f, 5.1873858058407549f, 6.8826430493618415f, 6.8948177633079437f,
5.1929568508902104f, 5.1984970312658261f, 5.2040066870767951f, 6.9068905956085187f, 6.9188632372745946f,
5.2094861528414214f, 5.2149357576089859f, 5.2203558250783244f, 6.9307373375628866f, 6.9425145053392398f,
5.2257466737132017f, 5.2311086168545868f, 5.2364419628299492f, 6.9541963103868749f, 6.9657842846620869f,
5.2417470150596426f, 5.2470240721604862f, 5.2522734280466299f, 6.9772799234999167f, 6.9886846867721654f,
5.2574953720277815f, 5.2626901889048856f, 5.2678581590633282f, 7.0000000000000000f, 7.0112272554232539f,
5.2729995585637468f, 5.2781146592305168f, 5.2832037287379885f, 7.0223678130284543f, 7.0334230015374501f,
5.2882670306945352f, 5.2933048247244923f, 5.2983173665480363f, 7.0443941193584533f, 7.0552824355011898f,
5.3033049080590757f, 5.3082676974012051f, 5.3132059790417872f, 7.0660891904577720f, 7.0768155970508308f,
5.3181199938442161f, 5.3230099791384085f, 5.3278761687895813f, 7.0874628412503390f, 7.0980320829605263f,
5.3327187932653688f, 5.3375380797013179f, 5.3423342519648109f, 7.1085244567781691f, 7.1189410727235076f,
5.3471075307174685f, 5.3518581334760666f, 5.3565862746720123f, 7.1292830169449663f, 7.1395513523987936f,
5.3612921657094255f, 5.3659760150218512f, 5.3706380281276624f, 7.1497471195046822f, 7.1598713367783890f,
5.3752784076841653f, 5.3798973535404597f, 5.3844950627890888f, 7.1699250014423121f, 7.1799090900149344f,
5.3890717298165010f, 5.3936275463523620f, 5.3981627015177525f, 7.1898245588800175f, 7.1996723448363644f,
5.4026773818722793f, 5.4071717714601188f, 5.4116460518550396f, 7.2094533656289501f, 7.2191685204621611f,
5.4161004022044201f, 5.4205349992722862f, 5.4249500174814029f, 7.2288186904958804f, 7.2384047393250785f,
5.4293456289544411f, 5.4337220035542400f, 5.4380793089231956f, 7.2479275134435852f, 7.2573878426926521f,
5.4424177105217932f, 5.4467373716663099f, 5.4510384535657002f, 7.2667865406949010f, 7.2761244052742375f,
5.4553211153577017f, 5.4595855141441589f, 5.4638318050256105f, 7.2854022188622487f, 7.2946207488916270f,
5.4680601411351315f, 5.4722706736714750f, 5.4764635519315110f, 7.3037807481771030f, 7.3128829552843557f,
5.4806389233419912f, 5.4847969334906548f, 5.4889377261566867f, 7.3219280948873626f, 7.3309168781146167f,
5.4930614433405482f, 5.4971682252932021f, 5.5012582105447274f, 7.3398500028846243f, 7.3487281542310771f,
5.5053315359323625f, 5.5093883366279774f, 5.5134287461649825f, 7.3575520046180837f, 7.3663222142458160f,
5.5174528964647074f, 5.5214609178622460f, 5.5254529391317835f, 7.3750394313469245f, 7.3837042924740519f,
5.5294290875114234f, 5.5333894887275203f, 5.5373342670185366f, 7.3923174227787606f, 7.4008794362821843f,
5.5412635451584258f 7.4093909361377017f, 7.4178525148858982f,
7.4262647547020979f, 7.4346282276367245f,
7.4429434958487279f, 7.4512111118323289f,
7.4594316186372973f, 7.4676055500829976f,
7.4757334309663976f, 7.4838157772642563f,
7.4918530963296747f, 7.4998458870832056f,
7.5077946401986963f, 7.5156998382840427f,
7.5235619560570130f, 7.5313814605163118f,
7.5391588111080309f, 7.5468944598876364f,
7.5545888516776376f, 7.5622424242210728f,
7.5698556083309478f, 7.5774288280357486f,
7.5849625007211560f, 7.5924570372680806f,
7.5999128421871278f, 7.6073303137496104f,
7.6147098441152083f, 7.6220518194563764f,
7.6293566200796094f, 7.6366246205436487f,
7.6438561897747243f, 7.6510516911789281f,
7.6582114827517946f, 7.6653359171851764f,
7.6724253419714951f, 7.6794800995054464f,
7.6865005271832185f, 7.6934869574993252f,
7.7004397181410917f, 7.7073591320808825f,
7.7142455176661224f, 7.7210991887071855f,
7.7279204545631987f, 7.7347096202258383f,
7.7414669864011464f, 7.7481928495894605f,
7.7548875021634682f, 7.7615512324444795f,
7.7681843247769259f, 7.7747870596011736f,
7.7813597135246599f, 7.7879025593914317f,
7.7944158663501061f, 7.8008998999203047f,
7.8073549220576037f, 7.8137811912170374f,
7.8201789624151878f, 7.8265484872909150f,
7.8328900141647412f, 7.8392037880969436f,
7.8454900509443747f, 7.8517490414160571f,
7.8579809951275718f, 7.8641861446542797f,
7.8703647195834047f, 7.8765169465649993f,
7.8826430493618415f, 7.8887432488982591f,
7.8948177633079437f, 7.9008668079807486f,
7.9068905956085187f, 7.9128893362299619f,
7.9188632372745946f, 7.9248125036057812f,
7.9307373375628866f, 7.9366379390025709f,
7.9425145053392398f, 7.9483672315846778f,
7.9541963103868749f, 7.9600019320680805f,
7.9657842846620869f, 7.9715435539507719f,
7.9772799234999167f, 7.9829935746943103f,
7.9886846867721654f, 7.9943534368588577f
}; };
#define APPROX_LOG_MAX 4096 float VP8LFastLog2(int v) {
#define LOG_2_BASE_E 0.6931471805599453f if (v < LOG_LOOKUP_IDX_MAX) {
return kLog2Table[v];
float VP8LFastLog(int v) { } else if (v < APPROX_LOG_MAX) {
if (v < APPROX_LOG_MAX) {
int log_cnt = 0; int log_cnt = 0;
while (v >= LOG_LOOKUP_IDX_MAX) { while (v >= LOG_LOOKUP_IDX_MAX) {
++log_cnt; ++log_cnt;
v = v >> 1; v = v >> 1;
} }
return kLogTable[v] + (log_cnt * LOG_2_BASE_E); return kLog2Table[v] + (float)log_cnt;
} else {
return (float)(LOG_2_RECIPROCAL * log((double)v));
} }
return (float)log(v);
} }
//------------------------------------------------------------------------------ //------------------------------------------------------------------------------
@ -284,7 +327,7 @@ static const PredictorFunc kPredictors[16] = {
}; };
// TODO(vikasa): Replace 256 etc with defines. // TODO(vikasa): Replace 256 etc with defines.
static double PredictionCostSpatial(const int* counts, static float PredictionCostSpatial(const int* counts,
int weight_0, double exp_val) { int weight_0, double exp_val) {
const int significant_symbols = 16; const int significant_symbols = 16;
const double exp_decay_factor = 0.6; const double exp_decay_factor = 0.6;
@ -294,26 +337,25 @@ static double PredictionCostSpatial(const int* counts,
bits += exp_val * (counts[i] + counts[256 - i]); bits += exp_val * (counts[i] + counts[256 - i]);
exp_val *= exp_decay_factor; exp_val *= exp_decay_factor;
} }
return -0.1 * bits; return (float)(-0.1 * bits);
} }
// Compute the Shanon's entropy: Sum(p*log2(p)) // Compute the Shanon's entropy: Sum(p*log2(p))
static double ShannonEntropy(const int* const array, int n) { static float ShannonEntropy(const int* const array, int n) {
int i; int i;
double retval = 0; float retval = 0.f;
int sum = 0; int sum = 0;
for (i = 0; i < n; ++i) { for (i = 0; i < n; ++i) {
if (array[i] != 0) { if (array[i] != 0) {
sum += array[i]; sum += array[i];
retval += array[i] * VP8LFastLog(array[i]); retval -= VP8LFastSLog2(array[i]);
} }
} }
retval -= sum * VP8LFastLog(sum); retval += VP8LFastSLog2(sum);
retval *= -1.4426950408889634; // 1.0 / -FastLog(2);
return retval; return retval;
} }
static double PredictionCostSpatialHistogram(int accumulated[4][256], static float PredictionCostSpatialHistogram(int accumulated[4][256],
int tile[4][256]) { int tile[4][256]) {
int i; int i;
int k; int k;
@ -328,7 +370,7 @@ static double PredictionCostSpatialHistogram(int accumulated[4][256],
} }
retval += ShannonEntropy(&combo[0], 256); retval += ShannonEntropy(&combo[0], 256);
} }
return retval; return (float)retval;
} }
static int GetBestPredictorForTile(int width, int height, static int GetBestPredictorForTile(int width, int height,
@ -344,14 +386,14 @@ static int GetBestPredictorForTile(int width, int height,
const int xmax = (tile_size <= width - col_start) ? const int xmax = (tile_size <= width - col_start) ?
tile_size : width - col_start; tile_size : width - col_start;
int histo[4][256]; int histo[4][256];
double best_diff = 1e99; float best_diff = MAX_DIFF_COST;
int best_mode = 0; int best_mode = 0;
int mode; int mode;
for (mode = 0; mode < kNumPredModes; ++mode) { for (mode = 0; mode < kNumPredModes; ++mode) {
const uint32_t* current_row = argb_scratch; const uint32_t* current_row = argb_scratch;
const PredictorFunc pred_func = kPredictors[mode]; const PredictorFunc pred_func = kPredictors[mode];
double cur_diff; float cur_diff;
int y; int y;
memset(&histo[0][0], 0, sizeof(histo)); memset(&histo[0][0], 0, sizeof(histo));
for (y = 0; y < ymax; ++y) { for (y = 0; y < ymax; ++y) {
@ -630,7 +672,7 @@ static WEBP_INLINE int SkipRepeatedPixels(const uint32_t* const argb,
return 0; return 0;
} }
static double PredictionCostCrossColor(const int accumulated[256], static float PredictionCostCrossColor(const int accumulated[256],
const int counts[256]) { const int counts[256]) {
// Favor low entropy, locally and globally. // Favor low entropy, locally and globally.
int i; int i;
@ -651,8 +693,8 @@ static Multipliers GetBestColorTransformForTile(
int* accumulated_red_histo, int* accumulated_red_histo,
int* accumulated_blue_histo, int* accumulated_blue_histo,
const uint32_t* const argb) { const uint32_t* const argb) {
double best_diff = 1e99; float best_diff = MAX_DIFF_COST;
double cur_diff; float cur_diff;
const int halfstep = step / 2; const int halfstep = step / 2;
const int max_tile_size = 1 << bits; const int max_tile_size = 1 << bits;
const int tile_y_offset = tile_y * max_tile_size; const int tile_y_offset = tile_y * max_tile_size;
@ -704,7 +746,7 @@ static Multipliers GetBestColorTransformForTile(
best_tx = tx; best_tx = tx;
} }
} }
best_diff = 1e99; best_diff = MAX_DIFF_COST;
green_to_red = best_tx.green_to_red_; green_to_red = best_tx.green_to_red_;
for (green_to_blue = -32; green_to_blue <= 32; green_to_blue += step) { for (green_to_blue = -32; green_to_blue <= 32; green_to_blue += step) {
for (red_to_blue = -32; red_to_blue <= 32; red_to_blue += step) { for (red_to_blue = -32; red_to_blue <= 32; red_to_blue += step) {
@ -893,7 +935,7 @@ static void ColorIndexInverseTransform(
uint32_t packed_pixels = 0; uint32_t packed_pixels = 0;
int x; int x;
for (x = 0; x < width; ++x) { for (x = 0; x < width; ++x) {
// We need to load fresh 'packed_pixels' once every 'bytes_per_pixels' // We need to load fresh 'packed_pixels' once every 'pixels_per_byte'
// increments of x. Fortunately, pixels_per_byte is a power of 2, so // increments of x. Fortunately, pixels_per_byte is a power of 2, so
// can just use a mask for that, instead of decrementing a counter. // can just use a mask for that, instead of decrementing a counter.
if ((x & count_mask) == 0) packed_pixels = ((*src++) >> 8) & 0xff; if ((x & count_mask) == 0) packed_pixels = ((*src++) >> 8) & 0xff;
@ -934,7 +976,21 @@ void VP8LInverseTransform(const VP8LTransform* const transform,
ColorSpaceInverseTransform(transform, row_start, row_end, out); ColorSpaceInverseTransform(transform, row_start, row_end, out);
break; break;
case COLOR_INDEXING_TRANSFORM: case COLOR_INDEXING_TRANSFORM:
if (in == out && transform->bits_ > 0) {
// Move packed pixels to the end of unpacked region, so that unpacking
// can occur seamlessly.
// Also, note that this is the only transform that applies on
// the effective width of VP8LSubSampleSize(xsize_, bits_). All other
// transforms work on effective width of xsize_.
const int out_stride = (row_end - row_start) * transform->xsize_;
const int in_stride = (row_end - row_start) *
VP8LSubSampleSize(transform->xsize_, transform->bits_);
uint32_t* const src = out + out_stride - in_stride;
memmove(src, out, in_stride * sizeof(*src));
ColorIndexInverseTransform(transform, row_start, row_end, src, out);
} else {
ColorIndexInverseTransform(transform, row_start, row_end, in, out); ColorIndexInverseTransform(transform, row_start, row_end, in, out);
}
break; break;
} }
} }

6
src/dsp/lossless.h
View File

@ -59,8 +59,10 @@ static WEBP_INLINE uint32_t VP8LSubSampleSize(uint32_t size,
return (size + (1 << sampling_bits) - 1) >> sampling_bits; return (size + (1 << sampling_bits) - 1) >> sampling_bits;
} }
// Faster logarithm for small integers, with the property of log(0) == 0. // Faster logarithm for integers, with the property of log2(0) == 0.
float VP8LFastLog(int v); float VP8LFastLog2(int v);
// Fast calculation of v * log2(v) for integer input.
static WEBP_INLINE float VP8LFastSLog2(int v) { return VP8LFastLog2(v) * v; }
// In-place difference of each component with mod 256. // In-place difference of each component with mod 256.
static WEBP_INLINE uint32_t VP8LSubPixels(uint32_t a, uint32_t b) { static WEBP_INLINE uint32_t VP8LSubPixels(uint32_t a, uint32_t b) {

18
src/dsp/upsampling.c
View File

@ -271,8 +271,7 @@ static void ApplyAlphaMultiply(uint8_t* rgba, int alpha_first,
// rgbA4444 // rgbA4444
#define MULTIPLIER(a) ((a) * 0x11) #define MULTIPLIER(a) ((a) * 0x1111) // 0x1111 ~= (1 << 16) / 15
#define PREMULTIPLY(x, m) (((x) * (m)) >> 12)
static WEBP_INLINE uint8_t dither_hi(uint8_t x) { static WEBP_INLINE uint8_t dither_hi(uint8_t x) {
return (x & 0xf0) | (x >> 4); return (x & 0xf0) | (x >> 4);
@ -282,24 +281,27 @@ static WEBP_INLINE uint8_t dither_lo(uint8_t x) {
return (x & 0x0f) | (x << 4); return (x & 0x0f) | (x << 4);
} }
static WEBP_INLINE uint8_t multiply(uint8_t x, uint32_t m) {
return (x * m) >> 16;
}
static void ApplyAlphaMultiply4444(uint8_t* rgba4444, static void ApplyAlphaMultiply4444(uint8_t* rgba4444,
int w, int h, int stride) { int w, int h, int stride) {
while (h-- > 0) { while (h-- > 0) {
int i; int i;
for (i = 0; i < w; ++i) { for (i = 0; i < w; ++i) {
const uint8_t a = dither_lo(rgba4444[2 * i + 1]); const uint8_t a = (rgba4444[2 * i + 1] & 0x0f);
const uint32_t mult = MULTIPLIER(a); const uint32_t mult = MULTIPLIER(a);
const uint8_t r = PREMULTIPLY(dither_hi(rgba4444[2 * i + 0]), mult); const uint8_t r = multiply(dither_hi(rgba4444[2 * i + 0]), mult);
const uint8_t g = PREMULTIPLY(dither_lo(rgba4444[2 * i + 0]), mult); const uint8_t g = multiply(dither_lo(rgba4444[2 * i + 0]), mult);
const uint8_t b = PREMULTIPLY(dither_hi(rgba4444[2 * i + 1]), mult); const uint8_t b = multiply(dither_hi(rgba4444[2 * i + 1]), mult);
rgba4444[2 * i + 0] = (r & 0xf0) | (g & 0x0f); rgba4444[2 * i + 0] = (r & 0xf0) | ((g >> 4) & 0x0f);
rgba4444[2 * i + 1] = (b & 0xf0) | a; rgba4444[2 * i + 1] = (b & 0xf0) | a;
} }
rgba4444 += stride; rgba4444 += stride;
} }
} }
#undef MULTIPLIER #undef MULTIPLIER
#undef PREMULTIPLY
void (*WebPApplyAlphaMultiply)(uint8_t*, int, int, int, int) void (*WebPApplyAlphaMultiply)(uint8_t*, int, int, int, int)
= ApplyAlphaMultiply; = ApplyAlphaMultiply;

38
src/dsp/yuv.h
View File

@ -5,7 +5,7 @@
// Additional IP Rights Grant: http://www.webmproject.org/license/additional/ // Additional IP Rights Grant: http://www.webmproject.org/license/additional/
// ----------------------------------------------------------------------------- // -----------------------------------------------------------------------------
// //
// inline YUV->RGB conversion function // inline YUV<->RGB conversion function
// //
// Author: Skal (pascal.massimino@gmail.com) // Author: Skal (pascal.massimino@gmail.com)
@ -14,6 +14,9 @@
#include "../dec/decode_vp8.h" #include "../dec/decode_vp8.h"
//------------------------------------------------------------------------------
// YUV -> RGB conversion
#if defined(__cplusplus) || defined(c_plusplus) #if defined(__cplusplus) || defined(c_plusplus)
extern "C" { extern "C" {
#endif #endif
@ -87,14 +90,37 @@ static WEBP_INLINE void VP8YuvToRgba(uint8_t y, uint8_t u, uint8_t v,
rgba[3] = 0xff; rgba[3] = 0xff;
} }
static WEBP_INLINE uint32_t VP8Clip4Bits(uint8_t c) {
const uint32_t v = (c + 8) >> 4;
return (v > 15) ? 15 : v;
}
// Must be called before everything, to initialize the tables. // Must be called before everything, to initialize the tables.
void VP8YUVInit(void); void VP8YUVInit(void);
//------------------------------------------------------------------------------
// RGB -> YUV conversion
// The exact naming is Y'CbCr, following the ITU-R BT.601 standard.
// More information at: http://en.wikipedia.org/wiki/YCbCr
// Y = 0.2569 * R + 0.5044 * G + 0.0979 * B + 16
// U = -0.1483 * R - 0.2911 * G + 0.4394 * B + 128
// V = 0.4394 * R - 0.3679 * G - 0.0715 * B + 128
// We use 16bit fixed point operations.
static WEBP_INLINE int VP8ClipUV(int v) {
v = (v + (257 << (YUV_FIX + 2 - 1))) >> (YUV_FIX + 2);
return ((v & ~0xff) == 0) ? v : (v < 0) ? 0 : 255;
}
static WEBP_INLINE int VP8RGBToY(int r, int g, int b) {
const int kRound = (1 << (YUV_FIX - 1)) + (16 << YUV_FIX);
const int luma = 16839 * r + 33059 * g + 6420 * b;
return (luma + kRound) >> YUV_FIX; // no need to clip
}
static WEBP_INLINE int VP8RGBToU(int r, int g, int b) {
return VP8ClipUV(-9719 * r - 19081 * g + 28800 * b);
}
static WEBP_INLINE int VP8RGBToV(int r, int g, int b) {
return VP8ClipUV(+28800 * r - 24116 * g - 4684 * b);
}
#if defined(__cplusplus) || defined(c_plusplus) #if defined(__cplusplus) || defined(c_plusplus)
} // extern "C" } // extern "C"
#endif #endif

85
src/enc/alpha.c
View File

@ -22,19 +22,15 @@ extern "C" {
#endif #endif
// ----------------------------------------------------------------------------- // -----------------------------------------------------------------------------
// int EncodeAlpha(const uint8_t* data, int width, int height, int stride, // Encodes the given alpha data via specified compression method 'method'.
// int quality, int method, int filter, int effort_level, // The pre-processing (quantization) is performed if 'quality' is less than 100.
// uint8_t** output, size_t* output_size) // For such cases, the encoding is lossy. The valid range is [0, 100] for
// // 'quality' and [0, 1] for 'method':
// Encodes the given alpha data 'data' of size 'stride'x'height' via specified
// compression method 'method'. The pre-processing (Quantization) is
// performed if 'quality' is less than 100. For such cases, the encoding is
// lossy. Valid ranges for 'quality' is [0, 100] and 'method' is [0, 1]:
// 'method = 0' - No compression; // 'method = 0' - No compression;
// 'method = 1' - Use lossless coder on the alpha plane only // 'method = 1' - Use lossless coder on the alpha plane only
// 'filter' values [0, 4] correspond to prediction modes none, horizontal, // 'filter' values [0, 4] correspond to prediction modes none, horizontal,
// vertical & gradient filters. The prediction mode 4 will try all the // vertical & gradient filters. The prediction mode 4 will try all the
// prediction modes (0 to 3) and pick the best prediction mode. // prediction modes 0 to 3 and pick the best one.
// 'effort_level': specifies how much effort must be spent to try and reduce // 'effort_level': specifies how much effort must be spent to try and reduce
// the compressed output size. In range 0 (quick) to 6 (slow). // the compressed output size. In range 0 (quick) to 6 (slow).
// //
@ -50,10 +46,10 @@ extern "C" {
#include "../enc/vp8li.h" #include "../enc/vp8li.h"
static int EncodeLossless(const uint8_t* data, int width, int height, static int EncodeLossless(const uint8_t* const data, int width, int height,
int effort_level, // in [0..6] range int effort_level, // in [0..6] range
VP8BitWriter* const bw) { VP8BitWriter* const bw,
WebPAuxStats* const stats) {
int ok = 0; int ok = 0;
WebPConfig config; WebPConfig config;
WebPPicture picture; WebPPicture picture;
@ -63,6 +59,7 @@ static int EncodeLossless(const uint8_t* data, int width, int height,
picture.width = width; picture.width = width;
picture.height = height; picture.height = height;
picture.use_argb = 1; picture.use_argb = 1;
picture.stats = stats;
if (!WebPPictureAlloc(&picture)) return 0; if (!WebPPictureAlloc(&picture)) return 0;
// Transfer the alpha values to the green channel. // Transfer the alpha values to the green channel.
@ -87,8 +84,8 @@ static int EncodeLossless(const uint8_t* data, int width, int height,
config.quality = 10.f + 15.f * effort_level; config.quality = 10.f + 15.f * effort_level;
if (config.quality > 100.f) config.quality = 100.f; if (config.quality > 100.f) config.quality = 100.f;
VP8LBitWriterInit(&tmp_bw, (width * height) >> 3); ok = VP8LBitWriterInit(&tmp_bw, (width * height) >> 3);
ok = (VP8LEncodeStream(&config, &picture, &tmp_bw) == VP8_ENC_OK); ok = ok && (VP8LEncodeStream(&config, &picture, &tmp_bw) == VP8_ENC_OK);
WebPPictureFree(&picture); WebPPictureFree(&picture);
if (ok) { if (ok) {
const uint8_t* const data = VP8LBitWriterFinish(&tmp_bw); const uint8_t* const data = VP8LBitWriterFinish(&tmp_bw);
@ -101,10 +98,12 @@ static int EncodeLossless(const uint8_t* data, int width, int height,
// ----------------------------------------------------------------------------- // -----------------------------------------------------------------------------
static int EncodeAlphaInternal(const uint8_t* data, int width, int height, static int EncodeAlphaInternal(const uint8_t* const data, int width, int height,
int method, int filter, int reduce_levels, int method, int filter, int reduce_levels,
int effort_level, // in [0..6] range int effort_level, // in [0..6] range
uint8_t* tmp_alpha, VP8BitWriter* const bw) { uint8_t* const tmp_alpha,
VP8BitWriter* const bw,
WebPAuxStats* const stats) {
int ok = 0; int ok = 0;
const uint8_t* alpha_src; const uint8_t* alpha_src;
WebPFilterFunc filter_func; WebPFilterFunc filter_func;
@ -112,6 +111,7 @@ static int EncodeAlphaInternal(const uint8_t* data, int width, int height,
size_t expected_size; size_t expected_size;
const size_t data_size = width * height; const size_t data_size = width * height;
assert((uint64_t)data_size == (uint64_t)width * height); // as per spec
assert(filter >= 0 && filter < WEBP_FILTER_LAST); assert(filter >= 0 && filter < WEBP_FILTER_LAST);
assert(method >= ALPHA_NO_COMPRESSION); assert(method >= ALPHA_NO_COMPRESSION);
assert(method <= ALPHA_LOSSLESS_COMPRESSION); assert(method <= ALPHA_LOSSLESS_COMPRESSION);
@ -139,7 +139,7 @@ static int EncodeAlphaInternal(const uint8_t* data, int width, int height,
ok = VP8BitWriterAppend(bw, alpha_src, width * height); ok = VP8BitWriterAppend(bw, alpha_src, width * height);
ok = ok && !bw->error_; ok = ok && !bw->error_;
} else { } else {
ok = EncodeLossless(alpha_src, width, height, effort_level, bw); ok = EncodeLossless(alpha_src, width, height, effort_level, bw, stats);
VP8BitWriterFinish(bw); VP8BitWriterFinish(bw);
} }
return ok; return ok;
@ -157,19 +157,26 @@ static void CopyPlane(const uint8_t* src, int src_stride,
} }
} }
static int EncodeAlpha(const uint8_t* data, int width, int height, int stride, static int EncodeAlpha(VP8Encoder* const enc,
int quality, int method, int filter, int quality, int method, int filter,
int effort_level, int effort_level,
uint8_t** output, size_t* output_size) { uint8_t** const output, size_t* const output_size) {
const WebPPicture* const pic = enc->pic_;
const int width = pic->width;
const int height = pic->height;
uint8_t* quant_alpha = NULL; uint8_t* quant_alpha = NULL;
const size_t data_size = width * height; const size_t data_size = width * height;
uint64_t sse = 0;
int ok = 1; int ok = 1;
const int reduce_levels = (quality < 100); const int reduce_levels = (quality < 100);
// quick sanity checks // quick sanity checks
assert(data != NULL && output != NULL && output_size != NULL); assert((uint64_t)data_size == (uint64_t)width * height); // as per spec
assert(enc != NULL && pic != NULL && pic->a != NULL);
assert(output != NULL && output_size != NULL);
assert(width > 0 && height > 0); assert(width > 0 && height > 0);
assert(stride >= width); assert(pic->a_stride >= width);
assert(filter >= WEBP_FILTER_NONE && filter <= WEBP_FILTER_FAST); assert(filter >= WEBP_FILTER_NONE && filter <= WEBP_FILTER_FAST);
if (quality < 0 || quality > 100) { if (quality < 0 || quality > 100) {
@ -186,7 +193,7 @@ static int EncodeAlpha(const uint8_t* data, int width, int height, int stride,
} }
// Extract alpha data (width x height) from raw_data (stride x height). // Extract alpha data (width x height) from raw_data (stride x height).
CopyPlane(data, stride, quant_alpha, width, width, height); CopyPlane(pic->a, pic->a_stride, quant_alpha, width, width, height);
if (reduce_levels) { // No Quantization required for 'quality = 100'. if (reduce_levels) { // No Quantization required for 'quality = 100'.
// 16 alpha levels gives quite a low MSE w.r.t original alpha plane hence // 16 alpha levels gives quite a low MSE w.r.t original alpha plane hence
@ -194,24 +201,22 @@ static int EncodeAlpha(const uint8_t* data, int width, int height, int stride,
// and Quality:]70, 100] -> Levels:]16, 256]. // and Quality:]70, 100] -> Levels:]16, 256].
const int alpha_levels = (quality <= 70) ? (2 + quality / 5) const int alpha_levels = (quality <= 70) ? (2 + quality / 5)
: (16 + (quality - 70) * 8); : (16 + (quality - 70) * 8);
ok = QuantizeLevels(quant_alpha, width, height, alpha_levels, NULL); ok = QuantizeLevels(quant_alpha, width, height, alpha_levels, &sse);
} }
if (ok) { if (ok) {
VP8BitWriter bw; VP8BitWriter bw;
size_t best_score;
int test_filter; int test_filter;
uint8_t* filtered_alpha = NULL; uint8_t* filtered_alpha = NULL;
// We always test WEBP_FILTER_NONE first. // We always test WEBP_FILTER_NONE first.
ok = EncodeAlphaInternal(quant_alpha, width, height, ok = EncodeAlphaInternal(quant_alpha, width, height,
method, WEBP_FILTER_NONE, reduce_levels, method, WEBP_FILTER_NONE, reduce_levels,
effort_level, NULL, &bw); effort_level, NULL, &bw, pic->stats);
if (!ok) { if (!ok) {
VP8BitWriterWipeOut(&bw); VP8BitWriterWipeOut(&bw);
goto End; goto End;
} }
best_score = VP8BitWriterSize(&bw);
if (filter == WEBP_FILTER_FAST) { // Quick estimate of a second candidate? if (filter == WEBP_FILTER_FAST) { // Quick estimate of a second candidate?
filter = EstimateBestFilter(quant_alpha, width, height, width); filter = EstimateBestFilter(quant_alpha, width, height, width);
@ -228,6 +233,12 @@ static int EncodeAlpha(const uint8_t* data, int width, int height, int stride,
} }
// Try the other mode(s). // Try the other mode(s).
{
WebPAuxStats best_stats;
size_t best_score = VP8BitWriterSize(&bw);
memset(&best_stats, 0, sizeof(best_stats)); // prevent spurious warning
if (pic->stats != NULL) best_stats = *pic->stats;
for (test_filter = WEBP_FILTER_HORIZONTAL; for (test_filter = WEBP_FILTER_HORIZONTAL;
ok && (test_filter <= WEBP_FILTER_GRADIENT); ok && (test_filter <= WEBP_FILTER_GRADIENT);
++test_filter) { ++test_filter) {
@ -235,10 +246,10 @@ static int EncodeAlpha(const uint8_t* data, int width, int height, int stride,
if (filter != WEBP_FILTER_BEST && test_filter != filter) { if (filter != WEBP_FILTER_BEST && test_filter != filter) {
continue; continue;
} }
ok = EncodeAlphaInternal(quant_alpha, width, height, ok = EncodeAlphaInternal(quant_alpha, width, height,
method, test_filter, reduce_levels, method, test_filter, reduce_levels,
effort_level, filtered_alpha, &tmp_bw); effort_level, filtered_alpha, &tmp_bw,
pic->stats);
if (ok) { if (ok) {
const size_t score = VP8BitWriterSize(&tmp_bw); const size_t score = VP8BitWriterSize(&tmp_bw);
if (score < best_score) { if (score < best_score) {
@ -247,16 +258,23 @@ static int EncodeAlpha(const uint8_t* data, int width, int height, int stride,
tmp_bw = bw; tmp_bw = bw;
bw = tmp; bw = tmp;
best_score = score; best_score = score;
if (pic->stats != NULL) best_stats = *pic->stats;
} }
} else { } else {
VP8BitWriterWipeOut(&bw); VP8BitWriterWipeOut(&bw);
} }
VP8BitWriterWipeOut(&tmp_bw); VP8BitWriterWipeOut(&tmp_bw);
} }
if (pic->stats != NULL) *pic->stats = best_stats;
}
Ok: Ok:
if (ok) { if (ok) {
*output_size = VP8BitWriterSize(&bw); *output_size = VP8BitWriterSize(&bw);
*output = VP8BitWriterBuf(&bw); *output = VP8BitWriterBuf(&bw);
if (pic->stats != NULL) { // need stats?
pic->stats->coded_size += (int)(*output_size);
enc->sse_[3] = sse;
}
} }
free(filtered_alpha); free(filtered_alpha);
} }
@ -269,16 +287,15 @@ static int EncodeAlpha(const uint8_t* data, int width, int height, int stride,
//------------------------------------------------------------------------------ //------------------------------------------------------------------------------
// Main calls // Main calls
void VP8EncInitAlpha(VP8Encoder* enc) { void VP8EncInitAlpha(VP8Encoder* const enc) {
enc->has_alpha_ = WebPPictureHasTransparency(enc->pic_); enc->has_alpha_ = WebPPictureHasTransparency(enc->pic_);
enc->alpha_data_ = NULL; enc->alpha_data_ = NULL;
enc->alpha_data_size_ = 0; enc->alpha_data_size_ = 0;
} }
int VP8EncFinishAlpha(VP8Encoder* enc) { int VP8EncFinishAlpha(VP8Encoder* const enc) {
if (enc->has_alpha_) { if (enc->has_alpha_) {
const WebPConfig* config = enc->config_; const WebPConfig* config = enc->config_;
const WebPPicture* pic = enc->pic_;
uint8_t* tmp_data = NULL; uint8_t* tmp_data = NULL;
size_t tmp_size = 0; size_t tmp_size = 0;
const int effort_level = config->method; // maps to [0..6] const int effort_level = config->method; // maps to [0..6]
@ -287,9 +304,7 @@ int VP8EncFinishAlpha(VP8Encoder* enc) {
(config->alpha_filtering == 1) ? WEBP_FILTER_FAST : (config->alpha_filtering == 1) ? WEBP_FILTER_FAST :
WEBP_FILTER_BEST; WEBP_FILTER_BEST;
assert(pic->a); if (!EncodeAlpha(enc, config->alpha_quality, config->alpha_compression,
if (!EncodeAlpha(pic->a, pic->width, pic->height, pic->a_stride,
config->alpha_quality, config->alpha_compression,
filter, effort_level, &tmp_data, &tmp_size)) { filter, effort_level, &tmp_data, &tmp_size)) {
return 0; return 0;
} }
@ -303,7 +318,7 @@ int VP8EncFinishAlpha(VP8Encoder* enc) {
return WebPReportProgress(enc->pic_, enc->percent_ + 20, &enc->percent_); return WebPReportProgress(enc->pic_, enc->percent_ + 20, &enc->percent_);
} }
void VP8EncDeleteAlpha(VP8Encoder* enc) { void VP8EncDeleteAlpha(VP8Encoder* const enc) {
free(enc->alpha_data_); free(enc->alpha_data_);
enc->alpha_data_ = NULL; enc->alpha_data_ = NULL;
enc->alpha_data_size_ = 0; enc->alpha_data_size_ = 0;

6
src/enc/analysis.c
View File

@ -15,6 +15,7 @@
#include "./vp8enci.h" #include "./vp8enci.h"
#include "./cost.h" #include "./cost.h"
#include "../utils/utils.h"
#if defined(__cplusplus) || defined(c_plusplus) #if defined(__cplusplus) || defined(c_plusplus)
extern "C" { extern "C" {
@ -35,7 +36,8 @@ static void SmoothSegmentMap(VP8Encoder* const enc) {
const int w = enc->mb_w_; const int w = enc->mb_w_;
const int h = enc->mb_h_; const int h = enc->mb_h_;
const int majority_cnt_3_x_3_grid = 5; const int majority_cnt_3_x_3_grid = 5;
uint8_t* const tmp = (uint8_t*)malloc(w * h * sizeof(uint8_t)); uint8_t* const tmp = (uint8_t*)WebPSafeMalloc((uint64_t)w * h, sizeof(*tmp));
assert((uint64_t)(w * h) == (uint64_t)w * h); // no overflow, as per spec
if (tmp == NULL) return; if (tmp == NULL) return;
for (y = 1; y < h - 1; ++y) { for (y = 1; y < h - 1; ++y) {
@ -145,7 +147,7 @@ static void SetSegmentAlphas(VP8Encoder* const enc,
static void AssignSegments(VP8Encoder* const enc, const int alphas[256]) { static void AssignSegments(VP8Encoder* const enc, const int alphas[256]) {
const int nb = enc->segment_hdr_.num_segments_; const int nb = enc->segment_hdr_.num_segments_;
int centers[NUM_MB_SEGMENTS]; int centers[NUM_MB_SEGMENTS];
int weighted_average; int weighted_average = 0;
int map[256]; int map[256];
int a, n, k; int a, n, k;
int min_a = 0, max_a = 255, range_a; int min_a = 0, max_a = 255, range_a;

166
src/enc/backward_references.c
View File

@ -14,7 +14,9 @@
#include "./backward_references.h" #include "./backward_references.h"
#include "./histogram.h" #include "./histogram.h"
#include "../dsp/lossless.h"
#include "../utils/color_cache.h" #include "../utils/color_cache.h"
#include "../utils/utils.h"
#define VALUES_IN_BYTE 256 #define VALUES_IN_BYTE 256
@ -93,7 +95,8 @@ int VP8LBackwardRefsAlloc(VP8LBackwardRefs* const refs, int max_size) {
assert(refs != NULL); assert(refs != NULL);
refs->size = 0; refs->size = 0;
refs->max_size = 0; refs->max_size = 0;
refs->refs = (PixOrCopy*)malloc(max_size * sizeof(*refs->refs)); refs->refs = (PixOrCopy*)WebPSafeMalloc((uint64_t)max_size,
sizeof(*refs->refs));
if (refs->refs == NULL) return 0; if (refs->refs == NULL) return 0;
refs->max_size = max_size; refs->max_size = max_size;
return 1; return 1;
@ -110,7 +113,7 @@ static WEBP_INLINE uint64_t GetPixPairHash64(const uint32_t* const argb) {
static int HashChainInit(HashChain* const p, int size) { static int HashChainInit(HashChain* const p, int size) {
int i; int i;
p->chain_ = (int*)malloc(size * sizeof(*p->chain_)); p->chain_ = (int*)WebPSafeMalloc((uint64_t)size, sizeof(*p->chain_));
if (p->chain_ == NULL) { if (p->chain_ == NULL) {
return 0; return 0;
} }
@ -256,8 +259,10 @@ static int BackwardReferencesHashChain(int xsize, int ysize,
VP8LColorCache hashers; VP8LColorCache hashers;
if (hash_chain == NULL) return 0; if (hash_chain == NULL) return 0;
if (use_color_cache) {
cc_init = VP8LColorCacheInit(&hashers, cache_bits); cc_init = VP8LColorCacheInit(&hashers, cache_bits);
if (!cc_init) goto Error; if (!cc_init) goto Error;
}
if (!HashChainInit(hash_chain, pix_count)) goto Error; if (!HashChainInit(hash_chain, pix_count)) goto Error;
@ -289,15 +294,16 @@ static int BackwardReferencesHashChain(int xsize, int ysize,
HashChainFindCopy(hash_chain, quality, HashChainFindCopy(hash_chain, quality,
i + 1, xsize, argb, maxlen, &offset2, &len2); i + 1, xsize, argb, maxlen, &offset2, &len2);
if (len2 > len + 1) { if (len2 > len + 1) {
const uint32_t pixel = argb[i];
// Alternative#2 is a better match. So push pixel at 'i' as literal. // Alternative#2 is a better match. So push pixel at 'i' as literal.
if (use_color_cache && VP8LColorCacheContains(&hashers, argb[i])) { if (use_color_cache && VP8LColorCacheContains(&hashers, pixel)) {
const int ix = VP8LColorCacheGetIndex(&hashers, argb[i]); const int ix = VP8LColorCacheGetIndex(&hashers, pixel);
refs->refs[refs->size] = PixOrCopyCreateCacheIdx(ix); refs->refs[refs->size] = PixOrCopyCreateCacheIdx(ix);
} else { } else {
refs->refs[refs->size] = PixOrCopyCreateLiteral(argb[i]); refs->refs[refs->size] = PixOrCopyCreateLiteral(pixel);
} }
++refs->size; ++refs->size;
VP8LColorCacheInsert(&hashers, argb[i]); if (use_color_cache) VP8LColorCacheInsert(&hashers, pixel);
i++; // Backward reference to be done for next pixel. i++; // Backward reference to be done for next pixel.
len = len2; len = len2;
offset = offset2; offset = offset2;
@ -307,24 +313,30 @@ static int BackwardReferencesHashChain(int xsize, int ysize,
len = MAX_LENGTH - 1; len = MAX_LENGTH - 1;
} }
refs->refs[refs->size++] = PixOrCopyCreateCopy(offset, len); refs->refs[refs->size++] = PixOrCopyCreateCopy(offset, len);
if (use_color_cache) {
for (k = 0; k < len; ++k) { for (k = 0; k < len; ++k) {
VP8LColorCacheInsert(&hashers, argb[i + k]); VP8LColorCacheInsert(&hashers, argb[i + k]);
if (k != 0 && i + k + 1 < pix_count) { }
}
// Add to the hash_chain (but cannot add the last pixel). // Add to the hash_chain (but cannot add the last pixel).
{
const int last = (len < pix_count - 1 - i) ? len : pix_count - 1 - i;
for (k = 1; k < last; ++k) {
HashChainInsert(hash_chain, &argb[i + k], i + k); HashChainInsert(hash_chain, &argb[i + k], i + k);
} }
} }
i += len; i += len;
} else { } else {
if (use_color_cache && VP8LColorCacheContains(&hashers, argb[i])) { const uint32_t pixel = argb[i];
if (use_color_cache && VP8LColorCacheContains(&hashers, pixel)) {
// push pixel as a PixOrCopyCreateCacheIdx pixel // push pixel as a PixOrCopyCreateCacheIdx pixel
int ix = VP8LColorCacheGetIndex(&hashers, argb[i]); const int ix = VP8LColorCacheGetIndex(&hashers, pixel);
refs->refs[refs->size] = PixOrCopyCreateCacheIdx(ix); refs->refs[refs->size] = PixOrCopyCreateCacheIdx(ix);
} else { } else {
refs->refs[refs->size] = PixOrCopyCreateLiteral(argb[i]); refs->refs[refs->size] = PixOrCopyCreateLiteral(pixel);
} }
++refs->size; ++refs->size;
VP8LColorCacheInsert(&hashers, argb[i]); if (use_color_cache) VP8LColorCacheInsert(&hashers, pixel);
if (i + 1 < pix_count) { if (i + 1 < pix_count) {
HashChainInsert(hash_chain, &argb[i], i); HashChainInsert(hash_chain, &argb[i], i);
} }
@ -346,46 +358,65 @@ typedef struct {
double literal_[PIX_OR_COPY_CODES_MAX]; double literal_[PIX_OR_COPY_CODES_MAX];
double blue_[VALUES_IN_BYTE]; double blue_[VALUES_IN_BYTE];
double distance_[NUM_DISTANCE_CODES]; double distance_[NUM_DISTANCE_CODES];
int cache_bits_;
} CostModel; } CostModel;
static int BackwardReferencesTraceBackwards( static int BackwardReferencesTraceBackwards(
int xsize, int ysize, int recursive_cost_model, int xsize, int ysize, int recursive_cost_model,
const uint32_t* const argb, int cache_bits, VP8LBackwardRefs* const refs); const uint32_t* const argb, int cache_bits, VP8LBackwardRefs* const refs);
static int CostModelBuild(CostModel* const p, int xsize, int ysize, static void ConvertPopulationCountTableToBitEstimates(
int num_symbols, const int population_counts[], double output[]) {
int sum = 0;
int nonzeros = 0;
int i;
for (i = 0; i < num_symbols; ++i) {
sum += population_counts[i];
if (population_counts[i] > 0) {
++nonzeros;
}
}
if (nonzeros <= 1) {
memset(output, 0, num_symbols * sizeof(*output));
} else {
const double logsum = VP8LFastLog2(sum);
for (i = 0; i < num_symbols; ++i) {
output[i] = logsum - VP8LFastLog2(population_counts[i]);
}
}
}
static int CostModelBuild(CostModel* const m, int xsize, int ysize,
int recursion_level, const uint32_t* const argb, int recursion_level, const uint32_t* const argb,
int cache_bits) { int cache_bits) {
int ok = 0; int ok = 0;
VP8LHistogram histo; VP8LHistogram histo;
VP8LBackwardRefs refs; VP8LBackwardRefs refs;
const int quality = 100;
if (!VP8LBackwardRefsAlloc(&refs, xsize * ysize)) goto Error; if (!VP8LBackwardRefsAlloc(&refs, xsize * ysize)) goto Error;
p->cache_bits_ = cache_bits;
if (recursion_level > 0) { if (recursion_level > 0) {
if (!BackwardReferencesTraceBackwards(xsize, ysize, recursion_level - 1, if (!BackwardReferencesTraceBackwards(xsize, ysize, recursion_level - 1,
argb, cache_bits, &refs)) { argb, cache_bits, &refs)) {
goto Error; goto Error;
} }
} else { } else {
const int quality = 100;
if (!BackwardReferencesHashChain(xsize, ysize, argb, cache_bits, quality, if (!BackwardReferencesHashChain(xsize, ysize, argb, cache_bits, quality,
&refs)) { &refs)) {
goto Error; goto Error;
} }
} }
VP8LHistogramCreate(&histo, &refs, cache_bits); VP8LHistogramCreate(&histo, &refs, cache_bits);
VP8LConvertPopulationCountTableToBitEstimates( ConvertPopulationCountTableToBitEstimates(
VP8LHistogramNumCodes(&histo), histo.literal_, p->literal_); VP8LHistogramNumCodes(&histo), histo.literal_, m->literal_);
VP8LConvertPopulationCountTableToBitEstimates( ConvertPopulationCountTableToBitEstimates(
VALUES_IN_BYTE, histo.red_, p->red_); VALUES_IN_BYTE, histo.red_, m->red_);
VP8LConvertPopulationCountTableToBitEstimates( ConvertPopulationCountTableToBitEstimates(
VALUES_IN_BYTE, histo.blue_, p->blue_); VALUES_IN_BYTE, histo.blue_, m->blue_);
VP8LConvertPopulationCountTableToBitEstimates( ConvertPopulationCountTableToBitEstimates(
VALUES_IN_BYTE, histo.alpha_, p->alpha_); VALUES_IN_BYTE, histo.alpha_, m->alpha_);
VP8LConvertPopulationCountTableToBitEstimates( ConvertPopulationCountTableToBitEstimates(
NUM_DISTANCE_CODES, histo.distance_, p->distance_); NUM_DISTANCE_CODES, histo.distance_, m->distance_);
ok = 1; ok = 1;
Error: Error:
@ -393,30 +424,30 @@ static int CostModelBuild(CostModel* const p, int xsize, int ysize,
return ok; return ok;
} }
static WEBP_INLINE double GetLiteralCost(const CostModel* const p, uint32_t v) { static WEBP_INLINE double GetLiteralCost(const CostModel* const m, uint32_t v) {
return p->alpha_[v >> 24] + return m->alpha_[v >> 24] +
p->red_[(v >> 16) & 0xff] + m->red_[(v >> 16) & 0xff] +
p->literal_[(v >> 8) & 0xff] + m->literal_[(v >> 8) & 0xff] +
p->blue_[v & 0xff]; m->blue_[v & 0xff];
} }
static WEBP_INLINE double GetCacheCost(const CostModel* const p, uint32_t idx) { static WEBP_INLINE double GetCacheCost(const CostModel* const m, uint32_t idx) {
const int literal_idx = VALUES_IN_BYTE + NUM_LENGTH_CODES + idx; const int literal_idx = VALUES_IN_BYTE + NUM_LENGTH_CODES + idx;
return p->literal_[literal_idx]; return m->literal_[literal_idx];
} }
static WEBP_INLINE double GetLengthCost(const CostModel* const p, static WEBP_INLINE double GetLengthCost(const CostModel* const m,
uint32_t length) { uint32_t length) {
int code, extra_bits_count, extra_bits_value; int code, extra_bits_count, extra_bits_value;
PrefixEncode(length, &code, &extra_bits_count, &extra_bits_value); PrefixEncode(length, &code, &extra_bits_count, &extra_bits_value);
return p->literal_[VALUES_IN_BYTE + code] + extra_bits_count; return m->literal_[VALUES_IN_BYTE + code] + extra_bits_count;
} }
static WEBP_INLINE double GetDistanceCost(const CostModel* const p, static WEBP_INLINE double GetDistanceCost(const CostModel* const m,
uint32_t distance) { uint32_t distance) {
int code, extra_bits_count, extra_bits_value; int code, extra_bits_count, extra_bits_value;
PrefixEncode(distance, &code, &extra_bits_count, &extra_bits_value); PrefixEncode(distance, &code, &extra_bits_count, &extra_bits_value);
return p->distance_[code] + extra_bits_count; return m->distance_[code] + extra_bits_count;
} }
static int BackwardReferencesHashChainDistanceOnly( static int BackwardReferencesHashChainDistanceOnly(
@ -428,7 +459,8 @@ static int BackwardReferencesHashChainDistanceOnly(
const int quality = 100; const int quality = 100;
const int pix_count = xsize * ysize; const int pix_count = xsize * ysize;
const int use_color_cache = (cache_bits > 0); const int use_color_cache = (cache_bits > 0);
double* const cost = (double*)malloc(pix_count * sizeof(*cost)); double* const cost =
(double*)WebPSafeMalloc((uint64_t)pix_count, sizeof(*cost));
CostModel* cost_model = (CostModel*)malloc(sizeof(*cost_model)); CostModel* cost_model = (CostModel*)malloc(sizeof(*cost_model));
HashChain* hash_chain = (HashChain*)malloc(sizeof(*hash_chain)); HashChain* hash_chain = (HashChain*)malloc(sizeof(*hash_chain));
VP8LColorCache hashers; VP8LColorCache hashers;
@ -437,8 +469,12 @@ static int BackwardReferencesHashChainDistanceOnly(
if (cost == NULL || cost_model == NULL || hash_chain == NULL) goto Error; if (cost == NULL || cost_model == NULL || hash_chain == NULL) goto Error;
if (!HashChainInit(hash_chain, pix_count)) goto Error;
if (use_color_cache) {
cc_init = VP8LColorCacheInit(&hashers, cache_bits); cc_init = VP8LColorCacheInit(&hashers, cache_bits);
if (!cc_init || !HashChainInit(hash_chain, pix_count)) goto Error; if (!cc_init) goto Error;
}
if (!CostModelBuild(cost_model, xsize, ysize, recursive_cost_model, argb, if (!CostModelBuild(cost_model, xsize, ysize, recursive_cost_model, argb,
cache_bits)) { cache_bits)) {
@ -486,14 +522,20 @@ static int BackwardReferencesHashChainDistanceOnly(
// Long copy for short distances, let's skip the middle // Long copy for short distances, let's skip the middle
// lookups for better copies. // lookups for better copies.
// 1) insert the hashes. // 1) insert the hashes.
if (use_color_cache) {
for (k = 0; k < len; ++k) { for (k = 0; k < len; ++k) {
VP8LColorCacheInsert(&hashers, argb[i + k]); VP8LColorCacheInsert(&hashers, argb[i + k]);
if (i + k + 1 < pix_count) { }
// Add to the hash_chain (but cannot add the last pixel). }
// 2) Add to the hash_chain (but cannot add the last pixel)
{
const int last = (len < pix_count - 1 - i) ? len
: pix_count - 1 - i;
for (k = 0; k < last; ++k) {
HashChainInsert(hash_chain, &argb[i + k], i + k); HashChainInsert(hash_chain, &argb[i + k], i + k);
} }
} }
// 2) jump. // 3) jump.
i += len - 1; // for loop does ++i, thus -1 here. i += len - 1; // for loop does ++i, thus -1 here.
goto next_symbol; goto next_symbol;
} }
@ -515,7 +557,7 @@ static int BackwardReferencesHashChainDistanceOnly(
cost[i] = cost_val; cost[i] = cost_val;
dist_array[i] = 1; // only one is inserted. dist_array[i] = 1; // only one is inserted.
} }
VP8LColorCacheInsert(&hashers, argb[i]); if (use_color_cache) VP8LColorCacheInsert(&hashers, argb[i]);
} }
next_symbol: ; next_symbol: ;
} }
@ -545,7 +587,8 @@ static int TraceBackwards(const uint32_t* const dist_array,
} }
// Allocate. // Allocate.
*chosen_path_size = count; *chosen_path_size = count;
*chosen_path = (uint32_t*)malloc(count * sizeof(*chosen_path)); *chosen_path =
(uint32_t*)WebPSafeMalloc((uint64_t)count, sizeof(**chosen_path));
if (*chosen_path == NULL) return 0; if (*chosen_path == NULL) return 0;
// Write in reverse order. // Write in reverse order.
@ -574,11 +617,13 @@ static int BackwardReferencesHashChainFollowChosenPath(
HashChain* hash_chain = (HashChain*)malloc(sizeof(*hash_chain)); HashChain* hash_chain = (HashChain*)malloc(sizeof(*hash_chain));
VP8LColorCache hashers; VP8LColorCache hashers;
if (hash_chain == NULL || if (hash_chain == NULL || !HashChainInit(hash_chain, pix_count)) {
!(cc_init = VP8LColorCacheInit(&hashers, cache_bits)) ||
!HashChainInit(hash_chain, pix_count)) {
goto Error; goto Error;
} }
if (use_color_cache) {
cc_init = VP8LColorCacheInit(&hashers, cache_bits);
if (!cc_init) goto Error;
}
refs->size = 0; refs->size = 0;
for (ix = 0; ix < chosen_path_size; ++ix, ++size) { for (ix = 0; ix < chosen_path_size; ++ix, ++size) {
@ -590,10 +635,14 @@ static int BackwardReferencesHashChainFollowChosenPath(
i, xsize, argb, maxlen, &offset, &len); i, xsize, argb, maxlen, &offset, &len);
assert(len == maxlen); assert(len == maxlen);
refs->refs[size] = PixOrCopyCreateCopy(offset, len); refs->refs[size] = PixOrCopyCreateCopy(offset, len);
if (use_color_cache) {
for (k = 0; k < len; ++k) { for (k = 0; k < len; ++k) {
VP8LColorCacheInsert(&hashers, argb[i + k]); VP8LColorCacheInsert(&hashers, argb[i + k]);
if (i + k + 1 < pix_count) { }
// Add to the hash_chain (but cannot add the last pixel). }
{
const int last = (len < pix_count - 1 - i) ? len : pix_count - 1 - i;
for (k = 0; k < last; ++k) {
HashChainInsert(hash_chain, &argb[i + k], i + k); HashChainInsert(hash_chain, &argb[i + k], i + k);
} }
} }
@ -606,7 +655,7 @@ static int BackwardReferencesHashChainFollowChosenPath(
} else { } else {
refs->refs[size] = PixOrCopyCreateLiteral(argb[i]); refs->refs[size] = PixOrCopyCreateLiteral(argb[i]);
} }
VP8LColorCacheInsert(&hashers, argb[i]); if (use_color_cache) VP8LColorCacheInsert(&hashers, argb[i]);
if (i + 1 < pix_count) { if (i + 1 < pix_count) {
HashChainInsert(hash_chain, &argb[i], i); HashChainInsert(hash_chain, &argb[i], i);
} }
@ -633,7 +682,7 @@ static int BackwardReferencesTraceBackwards(int xsize, int ysize,
uint32_t* chosen_path = NULL; uint32_t* chosen_path = NULL;
int chosen_path_size = 0; int chosen_path_size = 0;
uint32_t* dist_array = uint32_t* dist_array =
(uint32_t*)malloc(dist_array_size * sizeof(*dist_array)); (uint32_t*)WebPSafeMalloc((uint64_t)dist_array_size, sizeof(*dist_array));
if (dist_array == NULL) goto Error; if (dist_array == NULL) goto Error;
@ -755,13 +804,18 @@ static int ComputeCacheHistogram(const uint32_t* const argb,
int i; int i;
uint32_t k; uint32_t k;
VP8LColorCache hashers; VP8LColorCache hashers;
const int use_color_cache = (cache_bits > 0);
int cc_init = 0;
if (!VP8LColorCacheInit(&hashers, cache_bits)) return 0; if (use_color_cache) {
cc_init = VP8LColorCacheInit(&hashers, cache_bits);
if (!cc_init) return 0;
}
for (i = 0; i < refs->size; ++i) { for (i = 0; i < refs->size; ++i) {
const PixOrCopy* const v = &refs->refs[i]; const PixOrCopy* const v = &refs->refs[i];
if (PixOrCopyIsLiteral(v)) { if (PixOrCopyIsLiteral(v)) {
if (cache_bits != 0 && if (use_color_cache &&
VP8LColorCacheContains(&hashers, argb[pixel_index])) { VP8LColorCacheContains(&hashers, argb[pixel_index])) {
// push pixel as a cache index // push pixel as a cache index
const int ix = VP8LColorCacheGetIndex(&hashers, argb[pixel_index]); const int ix = VP8LColorCacheGetIndex(&hashers, argb[pixel_index]);
@ -773,15 +827,17 @@ static int ComputeCacheHistogram(const uint32_t* const argb,
} else { } else {
VP8LHistogramAddSinglePixOrCopy(histo, v); VP8LHistogramAddSinglePixOrCopy(histo, v);
} }
if (use_color_cache) {
for (k = 0; k < PixOrCopyLength(v); ++k) { for (k = 0; k < PixOrCopyLength(v); ++k) {
VP8LColorCacheInsert(&hashers, argb[pixel_index]); VP8LColorCacheInsert(&hashers, argb[pixel_index + k]);
++pixel_index;
} }
} }
pixel_index += PixOrCopyLength(v);
}
assert(pixel_index == xsize * ysize); assert(pixel_index == xsize * ysize);
(void)xsize; // xsize is not used in non-debug compilations otherwise. (void)xsize; // xsize is not used in non-debug compilations otherwise.
(void)ysize; // ysize is not used in non-debug compilations otherwise. (void)ysize; // ysize is not used in non-debug compilations otherwise.
VP8LColorCacheClear(&hashers); if (cc_init) VP8LColorCacheClear(&hashers);
return 1; return 1;
} }

2
src/enc/config.c
View File

@ -120,7 +120,7 @@ int WebPValidateConfig(const WebPConfig* config) {
return 0; return 0;
if (config->lossless < 0 || config->lossless > 1) if (config->lossless < 0 || config->lossless > 1)
return 0; return 0;
if (config->image_hint > WEBP_HINT_PHOTO) if (config->image_hint >= WEBP_HINT_LAST)
return 0; return 0;
return 1; return 1;
} }

60
src/enc/histogram.c
View File

@ -17,17 +17,7 @@
#include "./backward_references.h" #include "./backward_references.h"
#include "./histogram.h" #include "./histogram.h"
#include "../dsp/lossless.h" #include "../dsp/lossless.h"
#include "../utils/utils.h"
#if defined(_MSC_VER) && !defined(NOT_HAVE_LOG2)
# define NOT_HAVE_LOG2 1
#endif
#ifdef NOT_HAVE_LOG2
static WEBP_INLINE double log2(double d) {
const double kLog2Reciprocal = 1.442695040888963;
return log(d) * kLog2Reciprocal;
}
#endif
static void HistogramClear(VP8LHistogram* const p) { static void HistogramClear(VP8LHistogram* const p) {
memset(p->literal_, 0, sizeof(p->literal_)); memset(p->literal_, 0, sizeof(p->literal_));
@ -65,10 +55,10 @@ VP8LHistogramSet* VP8LAllocateHistogramSet(int size, int cache_bits) {
int i; int i;
VP8LHistogramSet* set; VP8LHistogramSet* set;
VP8LHistogram* bulk; VP8LHistogram* bulk;
const size_t total_size = sizeof(*set) const uint64_t total_size = (uint64_t)sizeof(*set)
+ size * sizeof(*set->histograms) + size * sizeof(*set->histograms)
+ size * sizeof(**set->histograms); + size * sizeof(**set->histograms);
uint8_t* memory = (uint8_t*)malloc(total_size); uint8_t* memory = (uint8_t*)WebPSafeMalloc(total_size, sizeof(*memory));
if (memory == NULL) return NULL; if (memory == NULL) return NULL;
set = (VP8LHistogramSet*)memory; set = (VP8LHistogramSet*)memory;
@ -87,33 +77,6 @@ VP8LHistogramSet* VP8LAllocateHistogramSet(int size, int cache_bits) {
// ----------------------------------------------------------------------------- // -----------------------------------------------------------------------------
void VP8LConvertPopulationCountTableToBitEstimates(
int num_symbols, const int population_counts[], double output[]) {
int sum = 0;
int nonzeros = 0;
int i;
for (i = 0; i < num_symbols; ++i) {
sum += population_counts[i];
if (population_counts[i] > 0) {
++nonzeros;
}
}
if (nonzeros <= 1) {
memset(output, 0, num_symbols * sizeof(*output));
return;
}
{
const double log2sum = log2(sum);
for (i = 0; i < num_symbols; ++i) {
if (population_counts[i] == 0) {
output[i] = log2sum;
} else {
output[i] = log2sum - log2(population_counts[i]);
}
}
}
}
void VP8LHistogramAddSinglePixOrCopy(VP8LHistogram* const histo, void VP8LHistogramAddSinglePixOrCopy(VP8LHistogram* const histo,
const PixOrCopy* const v) { const PixOrCopy* const v) {
if (PixOrCopyIsLiteral(v)) { if (PixOrCopyIsLiteral(v)) {
@ -138,7 +101,7 @@ void VP8LHistogramAddSinglePixOrCopy(VP8LHistogram* const histo,
static double BitsEntropy(const int* const array, int n) { static double BitsEntropy(const int* const array, int n) {
double retval = 0; double retval = 0.;
int sum = 0; int sum = 0;
int nonzeros = 0; int nonzeros = 0;
int max_val = 0; int max_val = 0;
@ -148,15 +111,14 @@ static double BitsEntropy(const int* const array, int n) {
if (array[i] != 0) { if (array[i] != 0) {
sum += array[i]; sum += array[i];
++nonzeros; ++nonzeros;
retval += array[i] * VP8LFastLog(array[i]); retval -= VP8LFastSLog2(array[i]);
if (max_val < array[i]) { if (max_val < array[i]) {
max_val = array[i]; max_val = array[i];
} }
} }
} }
retval -= sum * VP8LFastLog(sum); retval += VP8LFastSLog2(sum);
retval *= -1.4426950408889634; // 1.0 / -Log(2);
mix = 0.627;
if (nonzeros < 5) { if (nonzeros < 5) {
if (nonzeros <= 1) { if (nonzeros <= 1) {
return 0; return 0;
@ -176,15 +138,15 @@ static double BitsEntropy(const int* const array, int n) {
} else { } else {
mix = 0.7; // nonzeros == 4. mix = 0.7; // nonzeros == 4.
} }
} else {
mix = 0.627;
} }
{ {
double min_limit = 2 * sum - max_val; double min_limit = 2 * sum - max_val;
min_limit = mix * min_limit + (1.0 - mix) * retval; min_limit = mix * min_limit + (1.0 - mix) * retval;
if (retval < min_limit) { return (retval < min_limit) ? min_limit : retval;
return min_limit;
} }
}
return retval;
} }
double VP8LHistogramEstimateBitsBulk(const VP8LHistogram* const p) { double VP8LHistogramEstimateBitsBulk(const VP8LHistogram* const p) {

3
src/enc/histogram.h
View File

@ -101,9 +101,6 @@ static WEBP_INLINE int VP8LHistogramNumCodes(const VP8LHistogram* const p) {
((p->palette_code_bits_ > 0) ? (1 << p->palette_code_bits_) : 0); ((p->palette_code_bits_ > 0) ? (1 << p->palette_code_bits_) : 0);
} }
void VP8LConvertPopulationCountTableToBitEstimates(
int num_symbols, const int population_counts[], double output[]);
// Builds the histogram image. // Builds the histogram image.
int VP8LGetHistoImageSymbols(int xsize, int ysize, int VP8LGetHistoImageSymbols(int xsize, int ysize,
const VP8LBackwardRefs* const refs, const VP8LBackwardRefs* const refs,

71
src/enc/picture.c
View File

@ -15,7 +15,9 @@
#include "./vp8enci.h" #include "./vp8enci.h"
#include "../utils/rescaler.h" #include "../utils/rescaler.h"
#include "../utils/utils.h"
#include "../dsp/dsp.h" #include "../dsp/dsp.h"
#include "../dsp/yuv.h"
#if defined(__cplusplus) || defined(c_plusplus) #if defined(__cplusplus) || defined(c_plusplus)
extern "C" { extern "C" {
@ -81,14 +83,12 @@ int WebPPictureAlloc(WebPPicture* picture) {
// Security and validation checks // Security and validation checks
if (width <= 0 || height <= 0 || // luma/alpha param error if (width <= 0 || height <= 0 || // luma/alpha param error
uv_width < 0 || uv_height < 0 || // u/v param error uv_width < 0 || uv_height < 0) { // u/v param error
y_size >= (1ULL << 40) || // reasonable global size
(size_t)total_size != total_size) { // overflow on 32bit
return 0; return 0;
} }
// Clear previous buffer and allocate a new one. // Clear previous buffer and allocate a new one.
WebPPictureFree(picture); // erase previous buffer WebPPictureFree(picture); // erase previous buffer
mem = (uint8_t*)malloc((size_t)total_size); mem = (uint8_t*)WebPSafeMalloc(total_size, sizeof(*mem));
if (mem == NULL) return 0; if (mem == NULL) return 0;
// From now on, we're in the clear, we can no longer fail... // From now on, we're in the clear, we can no longer fail...
@ -119,15 +119,12 @@ int WebPPictureAlloc(WebPPicture* picture) {
} else { } else {
void* memory; void* memory;
const uint64_t argb_size = (uint64_t)width * height; const uint64_t argb_size = (uint64_t)width * height;
const uint64_t total_size = argb_size * sizeof(*picture->argb); if (width <= 0 || height <= 0) {
if (width <= 0 || height <= 0 ||
argb_size >= (1ULL << 40) ||
(size_t)total_size != total_size) {
return 0; return 0;
} }
// Clear previous buffer and allocate a new one. // Clear previous buffer and allocate a new one.
WebPPictureFree(picture); // erase previous buffer WebPPictureFree(picture); // erase previous buffer
memory = malloc((size_t)total_size); memory = WebPSafeMalloc(argb_size, sizeof(*picture->argb));
if (memory == NULL) return 0; if (memory == NULL) return 0;
// TODO(skal): align plane to cache line? // TODO(skal): align plane to cache line?
@ -416,7 +413,7 @@ int WebPPictureRescale(WebPPicture* pic, int width, int height) {
if (!WebPPictureAlloc(&tmp)) return 0; if (!WebPPictureAlloc(&tmp)) return 0;
if (!pic->use_argb) { if (!pic->use_argb) {
work = (int32_t*)malloc(2 * width * sizeof(*work)); work = (int32_t*)WebPSafeMalloc(2ULL * width, sizeof(*work));
if (work == NULL) { if (work == NULL) {
WebPPictureFree(&tmp); WebPPictureFree(&tmp);
return 0; return 0;
@ -449,7 +446,7 @@ int WebPPictureRescale(WebPPicture* pic, int width, int height) {
} }
#endif #endif
} else { } else {
work = (int32_t*)malloc(2 * width * 4 * sizeof(*work)); work = (int32_t*)WebPSafeMalloc(2ULL * width * 4, sizeof(*work));
if (work == NULL) { if (work == NULL) {
WebPPictureFree(&tmp); WebPPictureFree(&tmp);
return 0; return 0;
@ -480,17 +477,17 @@ void WebPMemoryWriterInit(WebPMemoryWriter* writer) {
int WebPMemoryWrite(const uint8_t* data, size_t data_size, int WebPMemoryWrite(const uint8_t* data, size_t data_size,
const WebPPicture* picture) { const WebPPicture* picture) {
WebPMemoryWriter* const w = (WebPMemoryWriter*)picture->custom_ptr; WebPMemoryWriter* const w = (WebPMemoryWriter*)picture->custom_ptr;
size_t next_size; uint64_t next_size;
if (w == NULL) { if (w == NULL) {
return 1; return 1;
} }
next_size = w->size + data_size; next_size = (uint64_t)w->size + data_size;
if (next_size > w->max_size) { if (next_size > w->max_size) {
uint8_t* new_mem; uint8_t* new_mem;
size_t next_max_size = w->max_size * 2; uint64_t next_max_size = 2ULL * w->max_size;
if (next_max_size < next_size) next_max_size = next_size; if (next_max_size < next_size) next_max_size = next_size;
if (next_max_size < 8192) next_max_size = 8192; if (next_max_size < 8192ULL) next_max_size = 8192ULL;
new_mem = (uint8_t*)malloc(next_max_size); new_mem = (uint8_t*)WebPSafeMalloc(next_max_size, 1);
if (new_mem == NULL) { if (new_mem == NULL) {
return 0; return 0;
} }
@ -499,7 +496,8 @@ int WebPMemoryWrite(const uint8_t* data, size_t data_size,
} }
free(w->mem); free(w->mem);
w->mem = new_mem; w->mem = new_mem;
w->max_size = next_max_size; // down-cast is ok, thanks to WebPSafeMalloc
w->max_size = (size_t)next_max_size;
} }
if (data_size > 0) { if (data_size > 0) {
memcpy(w->mem + w->size, data, data_size); memcpy(w->mem + w->size, data, data_size);
@ -547,33 +545,6 @@ int WebPPictureHasTransparency(const WebPPicture* picture) {
//------------------------------------------------------------------------------ //------------------------------------------------------------------------------
// RGB -> YUV conversion // RGB -> YUV conversion
// The exact naming is Y'CbCr, following the ITU-R BT.601 standard.
// More information at: http://en.wikipedia.org/wiki/YCbCr
// Y = 0.2569 * R + 0.5044 * G + 0.0979 * B + 16
// U = -0.1483 * R - 0.2911 * G + 0.4394 * B + 128
// V = 0.4394 * R - 0.3679 * G - 0.0715 * B + 128
// We use 16bit fixed point operations.
enum { YUV_FRAC = 16 };
static WEBP_INLINE int clip_uv(int v) {
v = (v + (257 << (YUV_FRAC + 2 - 1))) >> (YUV_FRAC + 2);
return ((v & ~0xff) == 0) ? v : (v < 0) ? 0 : 255;
}
static WEBP_INLINE int rgb_to_y(int r, int g, int b) {
const int kRound = (1 << (YUV_FRAC - 1)) + (16 << YUV_FRAC);
const int luma = 16839 * r + 33059 * g + 6420 * b;
return (luma + kRound) >> YUV_FRAC; // no need to clip
}
static WEBP_INLINE int rgb_to_u(int r, int g, int b) {
return clip_uv(-9719 * r - 19081 * g + 28800 * b);
}
static WEBP_INLINE int rgb_to_v(int r, int g, int b) {
return clip_uv(+28800 * r - 24116 * g - 4684 * b);
}
// TODO: we can do better than simply 2x2 averaging on U/V samples. // TODO: we can do better than simply 2x2 averaging on U/V samples.
#define SUM4(ptr) ((ptr)[0] + (ptr)[step] + \ #define SUM4(ptr) ((ptr)[0] + (ptr)[step] + \
@ -587,8 +558,8 @@ static WEBP_INLINE int rgb_to_v(int r, int g, int b) {
const int r = SUM(r_ptr + src); \ const int r = SUM(r_ptr + src); \
const int g = SUM(g_ptr + src); \ const int g = SUM(g_ptr + src); \
const int b = SUM(b_ptr + src); \ const int b = SUM(b_ptr + src); \
picture->u[dst] = rgb_to_u(r, g, b); \ picture->u[dst] = VP8RGBToU(r, g, b); \
picture->v[dst] = rgb_to_v(r, g, b); \ picture->v[dst] = VP8RGBToV(r, g, b); \
} }
#define RGB_TO_UV0(x_in, x_out, y, SUM) { \ #define RGB_TO_UV0(x_in, x_out, y, SUM) { \
@ -597,8 +568,8 @@ static WEBP_INLINE int rgb_to_v(int r, int g, int b) {
const int r = SUM(r_ptr + src); \ const int r = SUM(r_ptr + src); \
const int g = SUM(g_ptr + src); \ const int g = SUM(g_ptr + src); \
const int b = SUM(b_ptr + src); \ const int b = SUM(b_ptr + src); \
picture->u0[dst] = rgb_to_u(r, g, b); \ picture->u0[dst] = VP8RGBToU(r, g, b); \
picture->v0[dst] = rgb_to_v(r, g, b); \ picture->v0[dst] = VP8RGBToV(r, g, b); \
} }
static void MakeGray(WebPPicture* const picture) { static void MakeGray(WebPPicture* const picture) {
@ -636,7 +607,7 @@ static int ImportYUVAFromRGBA(const uint8_t* const r_ptr,
for (x = 0; x < width; ++x) { for (x = 0; x < width; ++x) {
const int offset = step * x + y * rgb_stride; const int offset = step * x + y * rgb_stride;
picture->y[x + y * picture->y_stride] = picture->y[x + y * picture->y_stride] =
rgb_to_y(r_ptr[offset], g_ptr[offset], b_ptr[offset]); VP8RGBToY(r_ptr[offset], g_ptr[offset], b_ptr[offset]);
} }
} }
@ -646,7 +617,7 @@ static int ImportYUVAFromRGBA(const uint8_t* const r_ptr,
for (x = 0; x < (width >> 1); ++x) { for (x = 0; x < (width >> 1); ++x) {
RGB_TO_UV(x, y, SUM4); RGB_TO_UV(x, y, SUM4);
} }
if (picture->width & 1) { if (width & 1) {
RGB_TO_UV(x, y, SUM2V); RGB_TO_UV(x, y, SUM2V);
} }
} }

12
src/enc/vp8enci.h
View File

@ -26,8 +26,8 @@ extern "C" {
// version numbers // version numbers
#define ENC_MAJ_VERSION 0 #define ENC_MAJ_VERSION 0
#define ENC_MIN_VERSION 1 #define ENC_MIN_VERSION 2
#define ENC_REV_VERSION 99 #define ENC_REV_VERSION 0
// size of histogram used by CollectHistogram. // size of histogram used by CollectHistogram.
#define MAX_COEFF_THRESH 64 #define MAX_COEFF_THRESH 64
@ -402,7 +402,7 @@ struct VP8Encoder {
// probabilities and statistics // probabilities and statistics
VP8Proba proba_; VP8Proba proba_;
uint64_t sse_[3]; // sum of Y/U/V squared errors for all macroblocks uint64_t sse_[4]; // sum of Y/U/V/A squared errors for all macroblocks
uint64_t sse_count_; // pixel count for the sse_[] stats uint64_t sse_count_; // pixel count for the sse_[] stats
int coded_size_; int coded_size_;
int residual_bytes_[3][4]; int residual_bytes_[3][4];
@ -488,9 +488,9 @@ void VP8SetSegmentParams(VP8Encoder* const enc, float quality);
int VP8Decimate(VP8EncIterator* const it, VP8ModeScore* const rd, int rd_opt); int VP8Decimate(VP8EncIterator* const it, VP8ModeScore* const rd, int rd_opt);
// in alpha.c // in alpha.c
void VP8EncInitAlpha(VP8Encoder* enc); // initialize alpha compression void VP8EncInitAlpha(VP8Encoder* const enc); // initialize alpha compression
int VP8EncFinishAlpha(VP8Encoder* enc); // finalize compressed data int VP8EncFinishAlpha(VP8Encoder* const enc); // finalize compressed data
void VP8EncDeleteAlpha(VP8Encoder* enc); // delete compressed data void VP8EncDeleteAlpha(VP8Encoder* const enc); // delete compressed data
// in layer.c // in layer.c
void VP8EncInitLayer(VP8Encoder* const enc); // init everything void VP8EncInitLayer(VP8Encoder* const enc); // init everything

139
src/enc/vp8l.c
View File

@ -20,6 +20,7 @@
#include "../dsp/lossless.h" #include "../dsp/lossless.h"
#include "../utils/bit_writer.h" #include "../utils/bit_writer.h"
#include "../utils/huffman_encode.h" #include "../utils/huffman_encode.h"
#include "../utils/utils.h"
#include "../webp/format_constants.h" #include "../webp/format_constants.h"
#if defined(__cplusplus) || defined(c_plusplus) #if defined(__cplusplus) || defined(c_plusplus)
@ -28,6 +29,7 @@ extern "C" {
#define PALETTE_KEY_RIGHT_SHIFT 22 // Key for 1K buffer. #define PALETTE_KEY_RIGHT_SHIFT 22 // Key for 1K buffer.
#define MAX_HUFF_IMAGE_SIZE (16 * 1024 * 1024) #define MAX_HUFF_IMAGE_SIZE (16 * 1024 * 1024)
#define MAX_COLORS_FOR_GRAPH 64
// ----------------------------------------------------------------------------- // -----------------------------------------------------------------------------
// Palette // Palette
@ -97,23 +99,24 @@ static int AnalyzeAndCreatePalette(const WebPPicture* const pic,
return 1; return 1;
} }
static int AnalyzeEntropy(const WebPPicture* const pic, static int AnalyzeEntropy(const uint32_t* argb,
int width, int height, int argb_stride,
double* const nonpredicted_bits, double* const nonpredicted_bits,
double* const predicted_bits) { double* const predicted_bits) {
int x, y; int x, y;
const uint32_t* argb = pic->argb;
const uint32_t* last_line = NULL; const uint32_t* last_line = NULL;
uint32_t last_pix = argb[0]; // so we're sure that pix_diff == 0 uint32_t last_pix = argb[0]; // so we're sure that pix_diff == 0
VP8LHistogram* nonpredicted = NULL; VP8LHistogram* nonpredicted = NULL;
VP8LHistogram* predicted = (VP8LHistogram*)malloc(2 * sizeof(*predicted)); VP8LHistogram* predicted =
(VP8LHistogram*)malloc(2 * sizeof(*predicted));
if (predicted == NULL) return 0; if (predicted == NULL) return 0;
nonpredicted = predicted + 1; nonpredicted = predicted + 1;
VP8LHistogramInit(predicted, 0); VP8LHistogramInit(predicted, 0);
VP8LHistogramInit(nonpredicted, 0); VP8LHistogramInit(nonpredicted, 0);
for (y = 0; y < pic->height; ++y) { for (y = 0; y < height; ++y) {
for (x = 0; x < pic->width; ++x) { for (x = 0; x < width; ++x) {
const uint32_t pix = argb[x]; const uint32_t pix = argb[x];
const uint32_t pix_diff = VP8LSubPixels(pix, last_pix); const uint32_t pix_diff = VP8LSubPixels(pix, last_pix);
if (pix_diff == 0) continue; if (pix_diff == 0) continue;
@ -129,7 +132,7 @@ static int AnalyzeEntropy(const WebPPicture* const pic,
} }
} }
last_line = argb; last_line = argb;
argb += pic->argb_stride; argb += argb_stride;
} }
*nonpredicted_bits = VP8LHistogramEstimateBitsBulk(nonpredicted); *nonpredicted_bits = VP8LHistogramEstimateBitsBulk(nonpredicted);
*predicted_bits = VP8LHistogramEstimateBitsBulk(predicted); *predicted_bits = VP8LHistogramEstimateBitsBulk(predicted);
@ -143,32 +146,42 @@ static int VP8LEncAnalyze(VP8LEncoder* const enc, WebPImageHint image_hint) {
enc->use_palette_ = enc->use_palette_ =
AnalyzeAndCreatePalette(pic, enc->palette_, &enc->palette_size_); AnalyzeAndCreatePalette(pic, enc->palette_, &enc->palette_size_);
if (image_hint == WEBP_HINT_GRAPH) {
if (enc->use_palette_ && enc->palette_size_ < MAX_COLORS_FOR_GRAPH) {
enc->use_palette_ = 0;
}
}
if (!enc->use_palette_) { if (!enc->use_palette_) {
if (image_hint == WEBP_HINT_DEFAULT) { if (image_hint == WEBP_HINT_PHOTO) {
enc->use_predict_ = 1;
enc->use_cross_color_ = 1;
} else {
double non_pred_entropy, pred_entropy; double non_pred_entropy, pred_entropy;
if (!AnalyzeEntropy(pic, &non_pred_entropy, &pred_entropy)) { if (!AnalyzeEntropy(pic->argb, pic->width, pic->height, pic->argb_stride,
&non_pred_entropy, &pred_entropy)) {
return 0; return 0;
} }
if (pred_entropy < 0.95 * non_pred_entropy) { if (pred_entropy < 0.95 * non_pred_entropy) {
enc->use_predict_ = 1; enc->use_predict_ = 1;
enc->use_cross_color_ = 1; // TODO(vikasa): Observed some correlation of cross_color transform with
} // predict. Need to investigate this further and add separate heuristic
} else if (image_hint == WEBP_HINT_PHOTO) { // for setting use_cross_color flag.
enc->use_predict_ = 1;
enc->use_cross_color_ = 1; enc->use_cross_color_ = 1;
} }
} }
}
return 1; return 1;
} }
static int GetHuffBitLengthsAndCodes( static int GetHuffBitLengthsAndCodes(
const VP8LHistogramSet* const histogram_image, const VP8LHistogramSet* const histogram_image,
HuffmanTreeCode* const huffman_codes) { HuffmanTreeCode* const huffman_codes) {
int i, k; int i, k;
int ok = 1; int ok = 1;
int total_length_size = 0; uint64_t total_length_size = 0;
uint8_t* mem_buf = NULL; uint8_t* mem_buf = NULL;
const int histogram_image_size = histogram_image->size; const int histogram_image_size = histogram_image->size;
@ -189,9 +202,8 @@ static int GetHuffBitLengthsAndCodes(
{ {
uint16_t* codes; uint16_t* codes;
uint8_t* lengths; uint8_t* lengths;
const size_t total_buf_size = total_length_size * sizeof(*lengths) mem_buf = (uint8_t*)WebPSafeCalloc(total_length_size,
+ total_length_size * sizeof(*codes); sizeof(*lengths) + sizeof(*codes));
mem_buf = (uint8_t*)calloc(total_buf_size, 1);
if (mem_buf == NULL) { if (mem_buf == NULL) {
ok = 0; ok = 0;
goto End; goto End;
@ -293,7 +305,7 @@ static int StoreFullHuffmanCode(VP8LBitWriter* const bw,
int num_tokens; int num_tokens;
HuffmanTreeCode huffman_code; HuffmanTreeCode huffman_code;
HuffmanTreeToken* const tokens = HuffmanTreeToken* const tokens =
(HuffmanTreeToken*)malloc(max_tokens * sizeof(*tokens)); (HuffmanTreeToken*)WebPSafeMalloc((uint64_t)max_tokens, sizeof(*tokens));
if (tokens == NULL) return 0; if (tokens == NULL) return 0;
huffman_code.num_symbols = CODE_LENGTH_CODES; huffman_code.num_symbols = CODE_LENGTH_CODES;
@ -500,21 +512,21 @@ static int EncodeImageInternal(VP8LBitWriter* const bw,
const uint32_t* const argb, const uint32_t* const argb,
int width, int height, int quality, int width, int height, int quality,
int cache_bits, int histogram_bits) { int cache_bits, int histogram_bits) {
int i;
int ok = 0; int ok = 0;
const int use_2d_locality = 1; const int use_2d_locality = 1;
const int use_color_cache = (cache_bits > 0); const int use_color_cache = (cache_bits > 0);
const int histogram_image_xysize = const uint32_t histogram_image_xysize =
VP8LSubSampleSize(width, histogram_bits) * VP8LSubSampleSize(width, histogram_bits) *
VP8LSubSampleSize(height, histogram_bits); VP8LSubSampleSize(height, histogram_bits);
VP8LHistogramSet* histogram_image = VP8LHistogramSet* histogram_image =
VP8LAllocateHistogramSet(histogram_image_xysize, 0); VP8LAllocateHistogramSet(histogram_image_xysize, 0);
int histogram_image_size = 0; int histogram_image_size = 0;
int bit_array_size = 0; size_t bit_array_size = 0;
HuffmanTreeCode* huffman_codes = NULL; HuffmanTreeCode* huffman_codes = NULL;
VP8LBackwardRefs refs; VP8LBackwardRefs refs;
uint16_t* const histogram_symbols = uint16_t* const histogram_symbols =
(uint16_t*)malloc(histogram_image_xysize * sizeof(*histogram_symbols)); (uint16_t*)WebPSafeMalloc((uint64_t)histogram_image_xysize,
sizeof(*histogram_symbols));
assert(histogram_bits >= MIN_HUFFMAN_BITS); assert(histogram_bits >= MIN_HUFFMAN_BITS);
assert(histogram_bits <= MAX_HUFFMAN_BITS); assert(histogram_bits <= MAX_HUFFMAN_BITS);
if (histogram_image == NULL || histogram_symbols == NULL) goto Error; if (histogram_image == NULL || histogram_symbols == NULL) goto Error;
@ -534,7 +546,7 @@ static int EncodeImageInternal(VP8LBitWriter* const bw,
// Create Huffman bit lengths and codes for each histogram image. // Create Huffman bit lengths and codes for each histogram image.
histogram_image_size = histogram_image->size; histogram_image_size = histogram_image->size;
bit_array_size = 5 * histogram_image_size; bit_array_size = 5 * histogram_image_size;
huffman_codes = (HuffmanTreeCode*)calloc(bit_array_size, huffman_codes = (HuffmanTreeCode*)WebPSafeCalloc(bit_array_size,
sizeof(*huffman_codes)); sizeof(*huffman_codes));
if (huffman_codes == NULL || if (huffman_codes == NULL ||
!GetHuffBitLengthsAndCodes(histogram_image, huffman_codes)) { !GetHuffBitLengthsAndCodes(histogram_image, huffman_codes)) {
@ -553,8 +565,10 @@ static int EncodeImageInternal(VP8LBitWriter* const bw,
VP8LWriteBits(bw, 1, write_histogram_image); VP8LWriteBits(bw, 1, write_histogram_image);
if (write_histogram_image) { if (write_histogram_image) {
uint32_t* const histogram_argb = uint32_t* const histogram_argb =
(uint32_t*)malloc(histogram_image_xysize * sizeof(*histogram_argb)); (uint32_t*)WebPSafeMalloc((uint64_t)histogram_image_xysize,
sizeof(*histogram_argb));
int max_index = 0; int max_index = 0;
uint32_t i;
if (histogram_argb == NULL) goto Error; if (histogram_argb == NULL) goto Error;
for (i = 0; i < histogram_image_xysize; ++i) { for (i = 0; i < histogram_image_xysize; ++i) {
const int index = histogram_symbols[i] & 0xffff; const int index = histogram_symbols[i] & 0xffff;
@ -576,14 +590,14 @@ static int EncodeImageInternal(VP8LBitWriter* const bw,
} }
// Store Huffman codes. // Store Huffman codes.
{
int i;
for (i = 0; i < 5 * histogram_image_size; ++i) { for (i = 0; i < 5 * histogram_image_size; ++i) {
HuffmanTreeCode* const codes = &huffman_codes[i]; HuffmanTreeCode* const codes = &huffman_codes[i];
if (!StoreHuffmanCode(bw, codes)) { if (!StoreHuffmanCode(bw, codes)) goto Error;
goto Error;
}
ClearHuffmanTreeIfOnlyOneSymbol(codes); ClearHuffmanTreeIfOnlyOneSymbol(codes);
} }
}
// Free combined histograms. // Free combined histograms.
free(histogram_image); free(histogram_image);
histogram_image = NULL; histogram_image = NULL;
@ -610,7 +624,7 @@ static int EncodeImageInternal(VP8LBitWriter* const bw,
// Check if it would be a good idea to subtract green from red and blue. We // Check if it would be a good idea to subtract green from red and blue. We
// only impact entropy in red/blue components, don't bother to look at others. // only impact entropy in red/blue components, don't bother to look at others.
static int EvalAndApplySubtractGreen(const VP8LEncoder* const enc, static int EvalAndApplySubtractGreen(VP8LEncoder* const enc,
int width, int height, int width, int height,
VP8LBitWriter* const bw) { VP8LBitWriter* const bw) {
if (!enc->use_palette_) { if (!enc->use_palette_) {
@ -639,7 +653,8 @@ static int EvalAndApplySubtractGreen(const VP8LEncoder* const enc,
free(histo); free(histo);
// Check if subtracting green yields low entropy. // Check if subtracting green yields low entropy.
if (bit_cost_after < bit_cost_before) { enc->use_subtract_green_ = (bit_cost_after < bit_cost_before);
if (enc->use_subtract_green_) {
VP8LWriteBits(bw, 1, TRANSFORM_PRESENT); VP8LWriteBits(bw, 1, TRANSFORM_PRESENT);
VP8LWriteBits(bw, 2, SUBTRACT_GREEN); VP8LWriteBits(bw, 2, SUBTRACT_GREEN);
VP8LSubtractGreenFromBlueAndRed(enc->argb_, width * height); VP8LSubtractGreenFromBlueAndRed(enc->argb_, width * height);
@ -754,7 +769,7 @@ static WebPEncodingError WriteImage(const WebPPicture* const pic,
goto Error; goto Error;
} }
} }
*coded_size = vp8l_size; *coded_size = CHUNK_HEADER_SIZE + riff_size;
return VP8_ENC_OK; return VP8_ENC_OK;
Error: Error:
@ -769,14 +784,14 @@ static WebPEncodingError AllocateTransformBuffer(VP8LEncoder* const enc,
int width, int height) { int width, int height) {
WebPEncodingError err = VP8_ENC_OK; WebPEncodingError err = VP8_ENC_OK;
const int tile_size = 1 << enc->transform_bits_; const int tile_size = 1 << enc->transform_bits_;
const size_t image_size = width * height; const uint64_t image_size = width * height;
const size_t argb_scratch_size = tile_size * width + width; const uint64_t argb_scratch_size = tile_size * width + width;
const size_t transform_data_size = const uint64_t transform_data_size =
VP8LSubSampleSize(width, enc->transform_bits_) * (uint64_t)VP8LSubSampleSize(width, enc->transform_bits_) *
VP8LSubSampleSize(height, enc->transform_bits_); (uint64_t)VP8LSubSampleSize(height, enc->transform_bits_);
const size_t total_size = const uint64_t total_size =
image_size + argb_scratch_size + transform_data_size; image_size + argb_scratch_size + transform_data_size;
uint32_t* mem = (uint32_t*)malloc(total_size * sizeof(*mem)); uint32_t* mem = (uint32_t*)WebPSafeMalloc(total_size, sizeof(*mem));
if (mem == NULL) { if (mem == NULL) {
err = VP8_ENC_ERROR_OUT_OF_MEMORY; err = VP8_ENC_ERROR_OUT_OF_MEMORY;
goto Error; goto Error;
@ -938,6 +953,7 @@ WebPEncodingError VP8LEncodeStream(const WebPConfig* const config,
const int width = picture->width; const int width = picture->width;
const int height = picture->height; const int height = picture->height;
VP8LEncoder* const enc = VP8LEncoderNew(config, picture); VP8LEncoder* const enc = VP8LEncoderNew(config, picture);
const size_t byte_position = VP8LBitWriterNumBytes(bw);
if (enc == NULL) { if (enc == NULL) {
err = VP8_ENC_ERROR_OUT_OF_MEMORY; err = VP8_ENC_ERROR_OUT_OF_MEMORY;
@ -957,6 +973,7 @@ WebPEncodingError VP8LEncodeStream(const WebPConfig* const config,
if (enc->use_palette_) { if (enc->use_palette_) {
err = ApplyPalette(bw, enc, quality); err = ApplyPalette(bw, enc, quality);
if (err != VP8_ENC_OK) goto Error; if (err != VP8_ENC_OK) goto Error;
// Color cache is disabled for palette.
enc->cache_bits_ = 0; enc->cache_bits_ = 0;
} }
@ -1017,6 +1034,20 @@ WebPEncodingError VP8LEncodeStream(const WebPConfig* const config,
goto Error; goto Error;
} }
if (picture->stats != NULL) {
WebPAuxStats* const stats = picture->stats;
stats->lossless_features = 0;
if (enc->use_predict_) stats->lossless_features |= 1;
if (enc->use_cross_color_) stats->lossless_features |= 2;
if (enc->use_subtract_green_) stats->lossless_features |= 4;
if (enc->use_palette_) stats->lossless_features |= 8;
stats->histogram_bits = enc->histo_bits_;
stats->transform_bits = enc->transform_bits_;
stats->cache_bits = enc->cache_bits_;
stats->palette_size = enc->palette_size_;
stats->lossless_size = (int)(VP8LBitWriterNumBytes(bw) - byte_position);
}
Error: Error:
VP8LEncoderDelete(enc); VP8LEncoderDelete(enc);
return err; return err;
@ -1035,19 +1066,34 @@ int VP8LEncodeImage(const WebPConfig* const config,
if (config == NULL || picture->argb == NULL) { if (config == NULL || picture->argb == NULL) {
err = VP8_ENC_ERROR_NULL_PARAMETER; err = VP8_ENC_ERROR_NULL_PARAMETER;
goto Error; WebPEncodingSetError(picture, err);
return 0;
} }
width = picture->width; width = picture->width;
height = picture->height; height = picture->height;
if (!VP8LBitWriterInit(&bw, (width * height) >> 1)) {
err = VP8_ENC_ERROR_OUT_OF_MEMORY;
goto Error;
}
if (!WebPReportProgress(picture, 1, &percent)) { if (!WebPReportProgress(picture, 1, &percent)) {
UserAbort: UserAbort:
err = VP8_ENC_ERROR_USER_ABORT; err = VP8_ENC_ERROR_USER_ABORT;
goto Error; goto Error;
} }
// Reset stats (for pure lossless coding)
if (picture->stats != NULL) {
WebPAuxStats* const stats = picture->stats;
memset(stats, 0, sizeof(*stats));
stats->PSNR[0] = 99.f;
stats->PSNR[1] = 99.f;
stats->PSNR[2] = 99.f;
stats->PSNR[3] = 99.f;
stats->PSNR[4] = 99.f;
}
// Write image size. // Write image size.
VP8LBitWriterInit(&bw, (width * height) >> 1);
if (!WriteImageSize(picture, &bw)) { if (!WriteImageSize(picture, &bw)) {
err = VP8_ENC_ERROR_OUT_OF_MEMORY; err = VP8_ENC_ERROR_OUT_OF_MEMORY;
goto Error; goto Error;
@ -1075,15 +1121,10 @@ int VP8LEncodeImage(const WebPConfig* const config,
if (!WebPReportProgress(picture, 100, &percent)) goto UserAbort; if (!WebPReportProgress(picture, 100, &percent)) goto UserAbort;
// Collect some stats if needed. // Save size.
if (picture->stats != NULL) { if (picture->stats != NULL) {
WebPAuxStats* const stats = picture->stats; picture->stats->coded_size += (int)coded_size;
memset(stats, 0, sizeof(*stats)); picture->stats->lossless_size = (int)coded_size;
stats->PSNR[0] = 99.;
stats->PSNR[1] = 99.;
stats->PSNR[2] = 99.;
stats->PSNR[3] = 99.;
stats->coded_size = (int)coded_size;
} }
if (picture->extra_info != NULL) { if (picture->extra_info != NULL) {

1
src/enc/vp8li.h
View File

@ -38,6 +38,7 @@ typedef struct {
// Encoding parameters derived from image characteristics. // Encoding parameters derived from image characteristics.
int use_cross_color_; int use_cross_color_;
int use_subtract_green_;
int use_predict_; int use_predict_;
int use_palette_; int use_palette_;
int palette_size_; int palette_size_;

9
src/enc/webpenc.c
View File

@ -16,6 +16,7 @@
#include "./vp8enci.h" #include "./vp8enci.h"
#include "./vp8li.h" #include "./vp8li.h"
#include "../utils/utils.h"
// #define PRINT_MEMORY_INFO // #define PRINT_MEMORY_INFO
@ -164,7 +165,8 @@ static VP8Encoder* InitVP8Encoder(const WebPConfig* const config,
config->autofilter ? sizeof(LFStats) + ALIGN_CST : 0; config->autofilter ? sizeof(LFStats) + ALIGN_CST : 0;
VP8Encoder* enc; VP8Encoder* enc;
uint8_t* mem; uint8_t* mem;
size_t size = sizeof(VP8Encoder) + ALIGN_CST // main struct const uint64_t size = (uint64_t)sizeof(VP8Encoder) // main struct
+ ALIGN_CST // cache alignment
+ cache_size // working caches + cache_size // working caches
+ info_size // modes info + info_size // modes info
+ preds_size // prediction modes + preds_size // prediction modes
@ -198,7 +200,7 @@ static VP8Encoder* InitVP8Encoder(const WebPConfig* const config,
mb_w * mb_h * 384 * sizeof(uint8_t)); mb_w * mb_h * 384 * sizeof(uint8_t));
printf("===================================\n"); printf("===================================\n");
#endif #endif
mem = (uint8_t*)malloc(size); mem = (uint8_t*)WebPSafeMalloc(size, sizeof(*mem));
if (mem == NULL) { if (mem == NULL) {
WebPEncodingSetError(picture, VP8_ENC_ERROR_OUT_OF_MEMORY); WebPEncodingSetError(picture, VP8_ENC_ERROR_OUT_OF_MEMORY);
return NULL; return NULL;
@ -284,6 +286,7 @@ static void FinalizePSNR(const VP8Encoder* const enc) {
stats->PSNR[1] = (float)GetPSNR(sse[1], size / 4); stats->PSNR[1] = (float)GetPSNR(sse[1], size / 4);
stats->PSNR[2] = (float)GetPSNR(sse[2], size / 4); stats->PSNR[2] = (float)GetPSNR(sse[2], size / 4);
stats->PSNR[3] = (float)GetPSNR(sse[0] + sse[1] + sse[2], size * 3 / 2); stats->PSNR[3] = (float)GetPSNR(sse[0] + sse[1] + sse[2], size * 3 / 2);
stats->PSNR[4] = (float)GetPSNR(sse[3], size);
} }
static void StoreStats(VP8Encoder* const enc) { static void StoreStats(VP8Encoder* const enc) {
@ -343,6 +346,8 @@ int WebPEncode(const WebPConfig* config, WebPPicture* pic) {
if (pic->width > WEBP_MAX_DIMENSION || pic->height > WEBP_MAX_DIMENSION) if (pic->width > WEBP_MAX_DIMENSION || pic->height > WEBP_MAX_DIMENSION)
return WebPEncodingSetError(pic, VP8_ENC_ERROR_BAD_DIMENSION); return WebPEncodingSetError(pic, VP8_ENC_ERROR_BAD_DIMENSION);
if (pic->stats != NULL) memset(pic->stats, 0, sizeof(*pic->stats));
if (!config->lossless) { if (!config->lossless) {
VP8Encoder* enc = NULL; VP8Encoder* enc = NULL;
if (pic->y == NULL || pic->u == NULL || pic->v == NULL) { if (pic->y == NULL || pic->u == NULL || pic->v == NULL) {

2
src/utils/Makefile.am
View File

@ -20,6 +20,8 @@ libwebputils_la_SOURCES += rescaler.c
libwebputils_la_SOURCES += rescaler.h libwebputils_la_SOURCES += rescaler.h
libwebputils_la_SOURCES += thread.c libwebputils_la_SOURCES += thread.c
libwebputils_la_SOURCES += thread.h libwebputils_la_SOURCES += thread.h
libwebputils_la_SOURCES += utils.c
libwebputils_la_SOURCES += utils.h
libwebputilsinclude_HEADERS = ../webp/types.h libwebputilsinclude_HEADERS = ../webp/types.h
libwebputilsincludedir = $(includedir)/webp libwebputilsincludedir = $(includedir)/webp

70
src/utils/bit_writer.c
View File

@ -25,18 +25,23 @@ extern "C" {
static int BitWriterResize(VP8BitWriter* const bw, size_t extra_size) { static int BitWriterResize(VP8BitWriter* const bw, size_t extra_size) {
uint8_t* new_buf; uint8_t* new_buf;
size_t new_size; size_t new_size;
const size_t needed_size = bw->pos_ + extra_size; const uint64_t needed_size_64b = (uint64_t)bw->pos_ + extra_size;
const size_t needed_size = (size_t)needed_size_64b;
if (needed_size_64b != needed_size) {
bw->error_ = 1;
return 0;
}
if (needed_size <= bw->max_pos_) return 1; if (needed_size <= bw->max_pos_) return 1;
// If the following line wraps over 32bit, the test just after will catch it.
new_size = 2 * bw->max_pos_; new_size = 2 * bw->max_pos_;
if (new_size < needed_size) if (new_size < needed_size) new_size = needed_size;
new_size = needed_size;
if (new_size < 1024) new_size = 1024; if (new_size < 1024) new_size = 1024;
new_buf = (uint8_t*)malloc(new_size); new_buf = (uint8_t*)malloc(new_size);
if (new_buf == NULL) { if (new_buf == NULL) {
bw->error_ = 1; bw->error_ = 1;
return 0; return 0;
} }
if (bw->pos_ > 0) memcpy(new_buf, bw->buf_, bw->pos_); memcpy(new_buf, bw->buf_, bw->pos_);
free(bw->buf_); free(bw->buf_);
bw->buf_ = new_buf; bw->buf_ = new_buf;
bw->max_pos_ = new_size; bw->max_pos_ = new_size;
@ -51,11 +56,9 @@ static void kFlush(VP8BitWriter* const bw) {
bw->nb_bits_ -= 8; bw->nb_bits_ -= 8;
if ((bits & 0xff) != 0xff) { if ((bits & 0xff) != 0xff) {
size_t pos = bw->pos_; size_t pos = bw->pos_;
if (pos + bw->run_ >= bw->max_pos_) { // reallocate
if (!BitWriterResize(bw, bw->run_ + 1)) { if (!BitWriterResize(bw, bw->run_ + 1)) {
return; return;
} }
}
if (bits & 0x100) { // overflow -> propagate carry over pending 0xff's if (bits & 0x100) { // overflow -> propagate carry over pending 0xff's
if (pos > 0) bw->buf_[pos - 1]++; if (pos > 0) bw->buf_[pos - 1]++;
} }
@ -194,23 +197,28 @@ void VP8BitWriterWipeOut(VP8BitWriter* const bw) {
static int VP8LBitWriterResize(VP8LBitWriter* const bw, size_t extra_size) { static int VP8LBitWriterResize(VP8LBitWriter* const bw, size_t extra_size) {
uint8_t* allocated_buf; uint8_t* allocated_buf;
size_t allocated_size; size_t allocated_size;
const size_t size_required = VP8LBitWriterNumBytes(bw) + extra_size; const size_t current_size = VP8LBitWriterNumBytes(bw);
if ((bw->max_bytes_ > 0) && (size_required <= bw->max_bytes_)) return 1; const uint64_t size_required_64b = (uint64_t)current_size + extra_size;
allocated_size = (3 * bw->max_bytes_) >> 1; const size_t size_required = (size_t)size_required_64b;
if (allocated_size < size_required) { if (size_required != size_required_64b) {
allocated_size = size_required; bw->error_ = 1;
return 0;
} }
// Make Allocated size multiple of KBs if (bw->max_bytes_ > 0 && size_required <= bw->max_bytes_) return 1;
allocated_size = (3 * bw->max_bytes_) >> 1;
if (allocated_size < size_required) allocated_size = size_required;
// make allocated size multiple of 1k
allocated_size = (((allocated_size >> 10) + 1) << 10); allocated_size = (((allocated_size >> 10) + 1) << 10);
allocated_buf = (uint8_t*)malloc(allocated_size); allocated_buf = (uint8_t*)malloc(allocated_size);
if (allocated_buf == NULL) return 0; if (allocated_buf == NULL) {
memset(allocated_buf, 0, allocated_size); bw->error_ = 1;
if (bw->bit_pos_ > 0) { return 0;
memcpy(allocated_buf, bw->buf_, VP8LBitWriterNumBytes(bw));
} }
memcpy(allocated_buf, bw->buf_, current_size);
free(bw->buf_); free(bw->buf_);
bw->buf_ = allocated_buf; bw->buf_ = allocated_buf;
bw->max_bytes_ = allocated_size; bw->max_bytes_ = allocated_size;
memset(allocated_buf + current_size, 0, allocated_size - current_size);
return 1; return 1;
} }
@ -232,33 +240,37 @@ void VP8LWriteBits(VP8LBitWriter* const bw, int n_bits, uint32_t bits) {
// Technically, this branch of the code can write up to 25 bits at a time, // Technically, this branch of the code can write up to 25 bits at a time,
// but in prefix encoding, the maximum number of bits written is 18 at a time. // but in prefix encoding, the maximum number of bits written is 18 at a time.
{ {
uint8_t* p = &bw->buf_[bw->bit_pos_ >> 3]; uint8_t* const p = &bw->buf_[bw->bit_pos_ >> 3];
uint32_t v = *(const uint32_t*)(p); uint32_t v = *(const uint32_t*)p;
v |= bits << (bw->bit_pos_ & 7); v |= bits << (bw->bit_pos_ & 7);
*(uint32_t*)(p) = v; *(uint32_t*)p = v;
bw->bit_pos_ += n_bits; bw->bit_pos_ += n_bits;
} }
#else // LITTLE_ENDIAN #else // BIG_ENDIAN
// implicit & 0xff is assumed for uint8_t arithmetics
{ {
uint8_t* p = &bw->buf_[bw->bit_pos_ >> 3]; uint8_t* p = &bw->buf_[bw->bit_pos_ >> 3];
const int bits_reserved_in_first_byte = (bw->bit_pos_ & 7); const int bits_reserved_in_first_byte = bw->bit_pos_ & 7;
*p++ |= (bits << bits_reserved_in_first_byte);
const int bits_left_to_write = n_bits - 8 + bits_reserved_in_first_byte; const int bits_left_to_write = n_bits - 8 + bits_reserved_in_first_byte;
// implicit & 0xff is assumed for uint8_t arithmetics
*p++ |= bits << bits_reserved_in_first_byte;
bits >>= 8 - bits_reserved_in_first_byte;
if (bits_left_to_write >= 1) { if (bits_left_to_write >= 1) {
*p++ = bits >> (8 - bits_reserved_in_first_byte); *p++ = bits;
bits >>= 8;
if (bits_left_to_write >= 9) { if (bits_left_to_write >= 9) {
*p++ = bits >> (16 - bits_reserved_in_first_byte); *p++ = bits;
bits >>= 8;
} }
} }
assert(n_bits <= 25); assert(n_bits <= 25);
*p = bits >> (24 - bits_reserved_in_first_byte); *p = bits;
bw->bit_pos_ += n_bits; bw->bit_pos_ += n_bits;
} }
#endif // BIG_ENDIAN #endif
if ((bw->bit_pos_ >> 3) > (bw->max_bytes_ - 8)) { if ((bw->bit_pos_ >> 3) > (bw->max_bytes_ - 8)) {
const size_t kAdditionalBuffer = 32768 + bw->max_bytes_; const uint64_t extra_size = 32768ULL + bw->max_bytes_;
if (!VP8LBitWriterResize(bw, kAdditionalBuffer)) { if (extra_size != (size_t)extra_size ||
!VP8LBitWriterResize(bw, (size_t)extra_size)) {
bw->bit_pos_ = 0; bw->bit_pos_ = 0;
bw->error_ = 1; bw->error_ = 1;
} }

10
src/utils/color_cache.c
View File

@ -12,6 +12,7 @@
#include <assert.h> #include <assert.h>
#include <stdlib.h> #include <stdlib.h>
#include "./color_cache.h" #include "./color_cache.h"
#include "../utils/utils.h"
#if defined(__cplusplus) || defined(c_plusplus) #if defined(__cplusplus) || defined(c_plusplus)
extern "C" { extern "C" {
@ -21,12 +22,11 @@ extern "C" {
// VP8LColorCache. // VP8LColorCache.
int VP8LColorCacheInit(VP8LColorCache* const cc, int hash_bits) { int VP8LColorCacheInit(VP8LColorCache* const cc, int hash_bits) {
int hash_size; const int hash_size = 1 << hash_bits;
assert(cc != NULL); assert(cc != NULL);
assert(hash_bits > 0);
if (hash_bits == 0) hash_bits = 1; cc->colors_ = (uint32_t*)WebPSafeCalloc((uint64_t)hash_size,
hash_size = 1 << hash_bits; sizeof(*cc->colors_));
cc->colors_ = (uint32_t*)calloc(hash_size, sizeof(*cc->colors_));
if (cc->colors_ == NULL) return 0; if (cc->colors_ == NULL) return 0;
cc->hash_shift_ = 32 - hash_bits; cc->hash_shift_ = 32 - hash_bits;
return 1; return 1;

8
src/utils/huffman.c
View File

@ -12,6 +12,7 @@
#include <assert.h> #include <assert.h>
#include <stdlib.h> #include <stdlib.h>
#include "./huffman.h" #include "./huffman.h"
#include "../utils/utils.h"
#include "../webp/format_constants.h" #include "../webp/format_constants.h"
#if defined(__cplusplus) || defined(c_plusplus) #if defined(__cplusplus) || defined(c_plusplus)
@ -49,8 +50,8 @@ static int TreeInit(HuffmanTree* const tree, int num_leaves) {
// Note that a Huffman tree is a full binary tree; and in a full binary tree // Note that a Huffman tree is a full binary tree; and in a full binary tree
// with L leaves, the total number of nodes N = 2 * L - 1. // with L leaves, the total number of nodes N = 2 * L - 1.
tree->max_nodes_ = 2 * num_leaves - 1; tree->max_nodes_ = 2 * num_leaves - 1;
tree->root_ = tree->root_ = (HuffmanTreeNode*)WebPSafeMalloc((uint64_t)tree->max_nodes_,
(HuffmanTreeNode*)malloc(tree->max_nodes_ * sizeof(*tree->root_)); sizeof(*tree->root_));
if (tree->root_ == NULL) return 0; if (tree->root_ == NULL) return 0;
TreeNodeInit(tree->root_); // Initialize root. TreeNodeInit(tree->root_); // Initialize root.
tree->num_nodes_ = 1; tree->num_nodes_ = 1;
@ -173,7 +174,8 @@ int HuffmanTreeBuildImplicit(HuffmanTree* const tree,
int ok = 0; int ok = 0;
// Get Huffman codes from the code lengths. // Get Huffman codes from the code lengths.
int* const codes = (int*)malloc(code_lengths_size * sizeof(*codes)); int* const codes =
(int*)WebPSafeMalloc((uint64_t)code_lengths_size, sizeof(*codes));
if (codes == NULL) goto End; if (codes == NULL) goto End;
if (!HuffmanCodeLengthsToCodes(code_lengths, code_lengths_size, codes)) { if (!HuffmanCodeLengthsToCodes(code_lengths, code_lengths_size, codes)) {

3
src/utils/huffman_encode.c
View File

@ -13,6 +13,7 @@
#include <stdlib.h> #include <stdlib.h>
#include <string.h> #include <string.h>
#include "./huffman_encode.h" #include "./huffman_encode.h"
#include "../utils/utils.h"
#include "../webp/format_constants.h" #include "../webp/format_constants.h"
// ----------------------------------------------------------------------------- // -----------------------------------------------------------------------------
@ -196,7 +197,7 @@ static int GenerateOptimalTree(const int* const histogram, int histogram_size,
// population and all the inserted nodes combining two existing nodes. // population and all the inserted nodes combining two existing nodes.
// The tree pool needs 2 * (tree_size_orig - 1) entities, and the // The tree pool needs 2 * (tree_size_orig - 1) entities, and the
// tree needs exactly tree_size_orig entities. // tree needs exactly tree_size_orig entities.
tree = (HuffmanTree*)malloc(3 * tree_size_orig * sizeof(*tree)); tree = (HuffmanTree*)WebPSafeMalloc(3ULL * tree_size_orig, sizeof(*tree));
if (tree == NULL) return 0; if (tree == NULL) return 0;
tree_pool = tree + tree_size_orig; tree_pool = tree + tree_size_orig;

44
src/utils/utils.c Normal file
View File

@ -0,0 +1,44 @@
// Copyright 2012 Google Inc. All Rights Reserved.
//
// This code is licensed under the same terms as WebM:
// Software License Agreement: http://www.webmproject.org/license/software/
// Additional IP Rights Grant: http://www.webmproject.org/license/additional/
// -----------------------------------------------------------------------------
//
// Misc. common utility functions
//
// Author: Skal (pascal.massimino@gmail.com)
#include <stdlib.h>
#include "./utils.h"
#if defined(__cplusplus) || defined(c_plusplus)
extern "C" {
#endif
//------------------------------------------------------------------------------
// Checked memory allocation
static int CheckSizeArguments(uint64_t nmemb, size_t size) {
const uint64_t total_size = nmemb * size;
if (nmemb == 0) return 1;
if ((uint64_t)size > WEBP_MAX_ALLOCABLE_MEMORY / nmemb) return 0;
if (total_size != (size_t)total_size) return 0;
return 1;
}
void* WebPSafeMalloc(uint64_t nmemb, size_t size) {
if (!CheckSizeArguments(nmemb, size)) return NULL;
return malloc((size_t)(nmemb * size));
}
void* WebPSafeCalloc(uint64_t nmemb, size_t size) {
if (!CheckSizeArguments(nmemb, size)) return NULL;
return calloc((size_t)nmemb, size);
}
//------------------------------------------------------------------------------
#if defined(__cplusplus) || defined(c_plusplus)
} // extern "C"
#endif

44
src/utils/utils.h Normal file
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@ -0,0 +1,44 @@
// Copyright 2012 Google Inc. All Rights Reserved.
//
// This code is licensed under the same terms as WebM:
// Software License Agreement: http://www.webmproject.org/license/software/
// Additional IP Rights Grant: http://www.webmproject.org/license/additional/
// -----------------------------------------------------------------------------
//
// Misc. common utility functions
//
// Author: Skal (pascal.massimino@gmail.com)
#ifndef WEBP_UTILS_UTILS_H_
#define WEBP_UTILS_UTILS_H_
#include "../webp/types.h"
#if defined(__cplusplus) || defined(c_plusplus)
extern "C" {
#endif
//------------------------------------------------------------------------------
// Memory allocation
// This is the maximum memory amount that libwebp will ever try to allocate.
#define WEBP_MAX_ALLOCABLE_MEMORY (1ULL << 40)
// size-checking safe malloc/calloc: verify that the requested size is not too
// large, or return NULL. You don't need to call these for constructs like
// malloc(sizeof(foo)), but only if there's picture-dependent size involved
// somewhere (like: malloc(num_pixels * sizeof(*something))). That's why this
// safe malloc() borrows the signature from calloc(), pointing at the dangerous
// underlying multiply involved.
void* WebPSafeMalloc(uint64_t nmemb, size_t size);
// Note that WebPSafeCalloc() expects the second argument type to be 'size_t'
// in order to favor the "calloc(num_foo, sizeof(foo))" pattern.
void* WebPSafeCalloc(uint64_t nmemb, size_t size);
//------------------------------------------------------------------------------
#if defined(__cplusplus) || defined(c_plusplus)
} // extern "C"
#endif
#endif /* WEBP_UTILS_UTILS_H_ */

37
src/webp/decode.h
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@ -18,7 +18,7 @@
extern "C" { extern "C" {
#endif #endif
#define WEBP_DECODER_ABI_VERSION 0x0100 // MAJOR(8b) + MINOR(8b) #define WEBP_DECODER_ABI_VERSION 0x0200 // MAJOR(8b) + MINOR(8b)
// Return the decoder's version number, packed in hexadecimal using 8bits for // Return the decoder's version number, packed in hexadecimal using 8bits for
// each of major/minor/revision. E.g: v2.5.7 is 0x020507. // each of major/minor/revision. E.g: v2.5.7 is 0x020507.
@ -233,7 +233,7 @@ typedef enum {
// //
// // The above call decodes the current available buffer. // // The above call decodes the current available buffer.
// // Part of the image can now be refreshed by calling to // // Part of the image can now be refreshed by calling to
// // WebPIDecGetRGB()/WebPIDecGetYUV() etc. // // WebPIDecGetRGB()/WebPIDecGetYUVA() etc.
// } // }
// WebPIDelete(idec); // WebPIDelete(idec);
@ -260,9 +260,18 @@ WEBP_EXTERN(WebPIDecoder*) WebPINewRGB(
// will output the raw luma/chroma samples into a preallocated planes. The luma // will output the raw luma/chroma samples into a preallocated planes. The luma
// plane is specified by its pointer 'luma', its size 'luma_size' and its stride // plane is specified by its pointer 'luma', its size 'luma_size' and its stride
// 'luma_stride'. Similarly, the chroma-u plane is specified by the 'u', // 'luma_stride'. Similarly, the chroma-u plane is specified by the 'u',
// 'u_size' and 'u_stride' parameters, and the chroma-v plane by 'v', 'v_size' // 'u_size' and 'u_stride' parameters, and the chroma-v plane by 'v'
// and 'v_size'. // and 'v_size'. And same for the alpha-plane. The 'a' pointer can be pass
// NULL in case one is not interested in the transparency plane.
// Returns NULL if the allocation failed. // Returns NULL if the allocation failed.
WEBP_EXTERN(WebPIDecoder*) WebPINewYUVA(
uint8_t* luma, size_t luma_size, int luma_stride,
uint8_t* u, size_t u_size, int u_stride,
uint8_t* v, size_t v_size, int v_stride,
uint8_t* a, size_t a_size, int a_stride);
// Deprecated version of the above, without the alpha plane.
// Kept for backward compatibility.
WEBP_EXTERN(WebPIDecoder*) WebPINewYUV( WEBP_EXTERN(WebPIDecoder*) WebPINewYUV(
uint8_t* luma, size_t luma_size, int luma_stride, uint8_t* luma, size_t luma_size, int luma_stride,
uint8_t* u, size_t u_size, int u_stride, uint8_t* u, size_t u_size, int u_stride,
@ -296,12 +305,22 @@ WEBP_EXTERN(uint8_t*) WebPIDecGetRGB(
const WebPIDecoder* idec, int* last_y, const WebPIDecoder* idec, int* last_y,
int* width, int* height, int* stride); int* width, int* height, int* stride);
// Same as above function to get YUV image. Returns pointer to the luma plane // Same as above function to get a YUVA image. Returns pointer to the luma
// or NULL in case of error. // plane or NULL in case of error. If there is no alpha information
WEBP_EXTERN(uint8_t*) WebPIDecGetYUV( // the alpha pointer '*a' will be returned NULL.
WEBP_EXTERN(uint8_t*) WebPIDecGetYUVA(
const WebPIDecoder* idec, int* last_y, const WebPIDecoder* idec, int* last_y,
uint8_t** u, uint8_t** v, uint8_t** u, uint8_t** v, uint8_t** a,
int* width, int* height, int* stride, int* uv_stride); int* width, int* height, int* stride, int* uv_stride, int* a_stride);
// Deprecated alpha-less version of WebPIDecGetYUVA(): it will ignore the
// alpha information (if present). Kept for backward compatibility.
static WEBP_INLINE uint8_t* WebPIDecGetYUV(
const WebPIDecoder* idec, int* last_y, uint8_t** u, uint8_t** v,
int* width, int* height, int* stride, int* uv_stride) {
return WebPIDecGetYUVA(idec, last_y, u, v, NULL, width, height,
stride, uv_stride, NULL);
}
// Generic call to retrieve information about the displayable area. // Generic call to retrieve information about the displayable area.
// If non NULL, the left/right/width/height pointers are filled with the visible // If non NULL, the left/right/width/height pointers are filled with the visible

23
src/webp/encode.h
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@ -18,7 +18,7 @@
extern "C" { extern "C" {
#endif #endif
#define WEBP_ENCODER_ABI_VERSION 0x0100 // MAJOR(8b) + MINOR(8b) #define WEBP_ENCODER_ABI_VERSION 0x0200 // MAJOR(8b) + MINOR(8b)
// Return the encoder's version number, packed in hexadecimal using 8bits for // Return the encoder's version number, packed in hexadecimal using 8bits for
// each of major/minor/revision. E.g: v2.5.7 is 0x020507. // each of major/minor/revision. E.g: v2.5.7 is 0x020507.
@ -69,7 +69,9 @@ WEBP_EXTERN(size_t) WebPEncodeLosslessBGRA(const uint8_t* bgra,
typedef enum { typedef enum {
WEBP_HINT_DEFAULT = 0, // default preset. WEBP_HINT_DEFAULT = 0, // default preset.
WEBP_HINT_PICTURE, // digital picture, like portrait, inner shot WEBP_HINT_PICTURE, // digital picture, like portrait, inner shot
WEBP_HINT_PHOTO // outdoor photograph, with natural lighting WEBP_HINT_PHOTO, // outdoor photograph, with natural lighting
WEBP_HINT_GRAPH, // Discrete tone image (graph, map-tile etc).
WEBP_HINT_LAST
} WebPImageHint; } WebPImageHint;
typedef struct { typedef struct {
@ -157,7 +159,7 @@ typedef struct WebPPicture WebPPicture; // main structure for I/O
typedef struct { typedef struct {
int coded_size; // final size int coded_size; // final size
float PSNR[4]; // peak-signal-to-noise ratio for Y/U/V/All float PSNR[5]; // peak-signal-to-noise ratio for Y/U/V/All/Alpha
int block_count[3]; // number of intra4/intra16/skipped macroblocks int block_count[3]; // number of intra4/intra16/skipped macroblocks
int header_bytes[2]; // approximate number of bytes spent for header int header_bytes[2]; // approximate number of bytes spent for header
// and mode-partition #0 // and mode-partition #0
@ -170,10 +172,16 @@ typedef struct {
int alpha_data_size; // size of the transparency data int alpha_data_size; // size of the transparency data
int layer_data_size; // size of the enhancement layer data int layer_data_size; // size of the enhancement layer data
void* user_data; // this field is free to be set to any value and // lossless encoder statistics
// used during callbacks (like progress-report e.g.). uint32_t lossless_features; // bit0:predictor bit1:cross-color transform
// bit2:subtract-green bit3:color indexing
int histogram_bits; // number of precision bits of histogram
int transform_bits; // precision bits for transform
int cache_bits; // number of bits for color cache lookup
int palette_size; // number of color in palette, if used
int lossless_size; // final lossless size
uint32_t pad[6]; // padding for later use uint32_t pad[4]; // padding for later use
} WebPAuxStats; } WebPAuxStats;
// Signature for output function. Should return true if writing was successful. // Signature for output function. Should return true if writing was successful.
@ -290,6 +298,9 @@ struct WebPPicture {
// If not NULL, report progress during encoding. // If not NULL, report progress during encoding.
WebPProgressHook progress_hook; WebPProgressHook progress_hook;
void* user_data; // this field is free to be set to any value and
// used during callbacks (like progress-report e.g.).
uint32_t pad3[3]; // padding for later use uint32_t pad3[3]; // padding for later use
// Unused for now: original samples (for non-YUV420 modes) // Unused for now: original samples (for non-YUV420 modes)