92a5da9c8c
libwebp{,decoder} - 0.4.3
libwebp libtool - 5.3.0
libwebpdecoder libtool - 1.3.0
mux/demux - 0.2.2 (unchanged)
libtool - 1.2.0 (unchanged)
(cherry picked from commit bd852f5d81
)
Change-Id: Ie8c35ffc20c1bfd782bdafd99da6c6b1373022c1
613 lines
23 KiB
Plaintext
613 lines
23 KiB
Plaintext
__ __ ____ ____ ____
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/ \\/ \/ _ \/ _ )/ _ \
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\ / __/ _ \ __/
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\__\__/\____/\_____/__/ ____ ___
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/ _/ / \ \ / _ \/ _/
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/ \_/ / / \ \ __/ \__
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\____/____/\_____/_____/____/v0.4.3
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Description:
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============
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WebP codec: library to encode and decode images in WebP format. This package
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contains the library that can be used in other programs to add WebP support,
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as well as the command line tools 'cwebp' and 'dwebp'.
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See http://developers.google.com/speed/webp
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Latest sources are available from http://www.webmproject.org/code/
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It is released under the same license as the WebM project.
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See http://www.webmproject.org/license/software/ or the
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file "COPYING" file for details. An additional intellectual
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property rights grant can be found in the file PATENTS.
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Building:
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=========
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Windows build:
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--------------
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By running:
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nmake /f Makefile.vc CFG=release-static RTLIBCFG=static OBJDIR=output
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the directory output\release-static\(x64|x86)\bin will contain the tools
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cwebp.exe and dwebp.exe. The directory output\release-static\(x64|x86)\lib will
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contain the libwebp static library.
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The target architecture (x86/x64) is detected by Makefile.vc from the Visual
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Studio compiler (cl.exe) available in the system path.
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Unix build using makefile.unix:
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-------------------------------
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On platforms with GNU tools installed (gcc and make), running
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make -f makefile.unix
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will build the binaries examples/cwebp and examples/dwebp, along
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with the static library src/libwebp.a. No system-wide installation
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is supplied, as this is a simple alternative to the full installation
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system based on the autoconf tools (see below).
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Please refer to makefile.unix for additional details and customizations.
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Using autoconf tools:
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---------------------
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When building from git sources, you will need to run autogen.sh to generate the
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configure script.
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./configure
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make
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make install
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should be all you need to have the following files
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/usr/local/include/webp/decode.h
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/usr/local/include/webp/encode.h
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/usr/local/include/webp/types.h
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/usr/local/lib/libwebp.*
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/usr/local/bin/cwebp
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/usr/local/bin/dwebp
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installed.
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Note: A decode-only library, libwebpdecoder, is available using the
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'--enable-libwebpdecoder' flag. The encode library is built separately and can
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be installed independently using a minor modification in the corresponding
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Makefile.am configure files (see comments there). See './configure --help' for
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more options.
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SWIG bindings:
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--------------
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To generate language bindings from swig/libwebp.swig at least swig-1.3
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(http://www.swig.org) is required.
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Currently the following functions are mapped:
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Decode:
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WebPGetDecoderVersion
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WebPGetInfo
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WebPDecodeRGBA
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WebPDecodeARGB
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WebPDecodeBGRA
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WebPDecodeBGR
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WebPDecodeRGB
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Encode:
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WebPGetEncoderVersion
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WebPEncodeRGBA
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WebPEncodeBGRA
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WebPEncodeRGB
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WebPEncodeBGR
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WebPEncodeLosslessRGBA
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WebPEncodeLosslessBGRA
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WebPEncodeLosslessRGB
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WebPEncodeLosslessBGR
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See swig/README for more detailed build instructions.
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Java bindings:
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To build the swig-generated JNI wrapper code at least JDK-1.5 (or equivalent)
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is necessary for enum support. The output is intended to be a shared object /
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DLL that can be loaded via System.loadLibrary("webp_jni").
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Python bindings:
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To build the swig-generated Python extension code at least Python 2.6 is
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required. Python < 2.6 may build with some minor changes to libwebp.swig or the
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generated code, but is untested.
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Encoding tool:
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==============
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The examples/ directory contains tools for encoding (cwebp) and
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decoding (dwebp) images.
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The easiest use should look like:
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cwebp input.png -q 80 -o output.webp
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which will convert the input file to a WebP file using a quality factor of 80
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on a 0->100 scale (0 being the lowest quality, 100 being the best. Default
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value is 75).
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You might want to try the -lossless flag too, which will compress the source
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(in RGBA format) without any loss. The -q quality parameter will in this case
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control the amount of processing time spent trying to make the output file as
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small as possible.
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A longer list of options is available using the -longhelp command line flag:
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> cwebp -longhelp
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Usage:
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cwebp [-preset <...>] [options] in_file [-o out_file]
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If input size (-s) for an image is not specified, it is
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assumed to be a PNG, JPEG, TIFF or WebP file.
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Options:
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-h / -help ............ short help
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-H / -longhelp ........ long help
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-q <float> ............. quality factor (0:small..100:big)
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-alpha_q <int> ......... transparency-compression quality (0..100)
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-preset <string> ....... preset setting, one of:
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default, photo, picture,
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drawing, icon, text
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-preset must come first, as it overwrites other parameters
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-z <int> ............... activates lossless preset with given
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level in [0:fast, ..., 9:slowest]
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-m <int> ............... compression method (0=fast, 6=slowest)
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-segments <int> ........ number of segments to use (1..4)
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-size <int> ............ target size (in bytes)
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-psnr <float> .......... target PSNR (in dB. typically: 42)
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-s <int> <int> ......... input size (width x height) for YUV
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-sns <int> ............. spatial noise shaping (0:off, 100:max)
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-f <int> ............... filter strength (0=off..100)
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-sharpness <int> ....... filter sharpness (0:most .. 7:least sharp)
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-strong ................ use strong filter instead of simple (default)
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-nostrong .............. use simple filter instead of strong
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-partition_limit <int> . limit quality to fit the 512k limit on
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the first partition (0=no degradation ... 100=full)
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-pass <int> ............ analysis pass number (1..10)
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-crop <x> <y> <w> <h> .. crop picture with the given rectangle
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-resize <w> <h> ........ resize picture (after any cropping)
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-mt .................... use multi-threading if available
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-low_memory ............ reduce memory usage (slower encoding)
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-map <int> ............. print map of extra info
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-print_psnr ............ prints averaged PSNR distortion
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-print_ssim ............ prints averaged SSIM distortion
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-print_lsim ............ prints local-similarity distortion
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-d <file.pgm> .......... dump the compressed output (PGM file)
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-alpha_method <int> .... transparency-compression method (0..1)
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-alpha_filter <string> . predictive filtering for alpha plane,
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one of: none, fast (default) or best
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-alpha_cleanup ......... clean RGB values in transparent area
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-blend_alpha <hex> ..... blend colors against background color
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expressed as RGB values written in
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hexadecimal, e.g. 0xc0e0d0 for red=0xc0
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green=0xe0 and blue=0xd0
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-noalpha ............... discard any transparency information
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-lossless .............. encode image losslessly
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-hint <string> ......... specify image characteristics hint,
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one of: photo, picture or graph
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-metadata <string> ..... comma separated list of metadata to
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copy from the input to the output if present.
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Valid values: all, none (default), exif, icc, xmp
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-short ................. condense printed message
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-quiet ................. don't print anything
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-version ............... print version number and exit
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-noasm ................. disable all assembly optimizations
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-v ..................... verbose, e.g. print encoding/decoding times
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-progress .............. report encoding progress
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Experimental Options:
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-jpeg_like ............. roughly match expected JPEG size
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-af .................... auto-adjust filter strength
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-pre <int> ............. pre-processing filter
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The main options you might want to try in order to further tune the
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visual quality are:
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-preset
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-sns
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-f
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-m
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Namely:
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* 'preset' will set up a default encoding configuration targeting a
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particular type of input. It should appear first in the list of options,
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so that subsequent options can take effect on top of this preset.
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Default value is 'default'.
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* 'sns' will progressively turn on (when going from 0 to 100) some additional
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visual optimizations (like: segmentation map re-enforcement). This option
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will balance the bit allocation differently. It tries to take bits from the
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"easy" parts of the picture and use them in the "difficult" ones instead.
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Usually, raising the sns value (at fixed -q value) leads to larger files,
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but with better quality.
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Typical value is around '75'.
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* 'f' option directly links to the filtering strength used by the codec's
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in-loop processing. The higher the value, the smoother the
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highly-compressed area will look. This is particularly useful when aiming
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at very small files. Typical values are around 20-30. Note that using the
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option -strong/-nostrong will change the type of filtering. Use "-f 0" to
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turn filtering off.
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* 'm' controls the trade-off between encoding speed and quality. Default is 4.
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You can try -m 5 or -m 6 to explore more (time-consuming) encoding
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possibilities. A lower value will result in faster encoding at the expense
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of quality.
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Decoding tool:
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==============
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There is a decoding sample in examples/dwebp.c which will take
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a .webp file and decode it to a PNG image file (amongst other formats).
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This is simply to demonstrate the use of the API. You can verify the
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file test.webp decodes to exactly the same as test_ref.ppm by using:
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cd examples
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./dwebp test.webp -ppm -o test.ppm
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diff test.ppm test_ref.ppm
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The full list of options is available using -h:
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> dwebp -h
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Usage: dwebp in_file [options] [-o out_file]
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Decodes the WebP image file to PNG format [Default]
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Use following options to convert into alternate image formats:
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-pam ......... save the raw RGBA samples as a color PAM
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-ppm ......... save the raw RGB samples as a color PPM
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-bmp ......... save as uncompressed BMP format
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-tiff ........ save as uncompressed TIFF format
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-pgm ......... save the raw YUV samples as a grayscale PGM
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file with IMC4 layout
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-yuv ......... save the raw YUV samples in flat layout
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Other options are:
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-version .... print version number and exit
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-nofancy ..... don't use the fancy YUV420 upscaler
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-nofilter .... disable in-loop filtering
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-nodither .... disable dithering
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-dither <d> .. dithering strength (in 0..100)
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-alpha_dither use alpha-plane dithering if needed
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-mt .......... use multi-threading
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-crop <x> <y> <w> <h> ... crop output with the given rectangle
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-scale <w> <h> .......... scale the output (*after* any cropping)
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-flip ........ flip the output vertically
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-alpha ....... only save the alpha plane
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-incremental . use incremental decoding (useful for tests)
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-h ....... this help message
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-v ....... verbose (e.g. print encoding/decoding times)
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-noasm ....... disable all assembly optimizations
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Visualization tool:
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===================
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There's a little self-serve visualization tool called 'vwebp' under the
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examples/ directory. It uses OpenGL to open a simple drawing window and show
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a decoded WebP file. It's not yet integrated in the automake build system, but
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you can try to manually compile it using the recommendations below.
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Usage: vwebp in_file [options]
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Decodes the WebP image file and visualize it using OpenGL
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Options are:
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-version .... print version number and exit
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-noicc ....... don't use the icc profile if present
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-nofancy ..... don't use the fancy YUV420 upscaler
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-nofilter .... disable in-loop filtering
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-dither <int> dithering strength (0..100), default=50
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-noalphadither disable alpha plane dithering
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-mt .......... use multi-threading
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-info ........ print info
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-h ....... this help message
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Keyboard shortcuts:
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'c' ................ toggle use of color profile
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'i' ................ overlay file information
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'q' / 'Q' / ESC .... quit
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Building:
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---------
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Prerequisites:
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1) OpenGL & OpenGL Utility Toolkit (GLUT)
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Linux:
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$ sudo apt-get install freeglut3-dev mesa-common-dev
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Mac + XCode:
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- These libraries should be available in the OpenGL / GLUT frameworks.
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Windows:
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http://freeglut.sourceforge.net/index.php#download
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2) (Optional) qcms (Quick Color Management System)
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i. Download qcms from Mozilla / Chromium:
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http://hg.mozilla.org/mozilla-central/file/0e7639e3bdfb/gfx/qcms
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http://src.chromium.org/viewvc/chrome/trunk/src/third_party/qcms
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ii. Build and archive the source files as libqcms.a / qcms.lib
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iii. Update makefile.unix / Makefile.vc
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a) Define WEBP_HAVE_QCMS
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b) Update include / library paths to reference the qcms directory.
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Build using makefile.unix / Makefile.vc:
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$ make -f makefile.unix examples/vwebp
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> nmake /f Makefile.vc CFG=release-static \
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../obj/x64/release-static/bin/vwebp.exe
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Animated GIF conversion:
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========================
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Animated GIF files can be converted to WebP files with animation using the
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gif2webp utility available under examples/. The files can then be viewed using
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vwebp.
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Usage:
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gif2webp [options] gif_file -o webp_file
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Options:
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-h / -help ............ this help
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-lossy ................. encode image using lossy compression
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-mixed ................. for each frame in the image, pick lossy
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or lossless compression heuristically
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-q <float> ............. quality factor (0:small..100:big)
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-m <int> ............... compression method (0=fast, 6=slowest)
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-kmin <int> ............ min distance between key frames
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-kmax <int> ............ max distance between key frames
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-f <int> ............... filter strength (0=off..100)
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-metadata <string> ..... comma separated list of metadata to
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copy from the input to the output if present
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Valid values: all, none, icc, xmp (default)
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-mt .................... use multi-threading if available
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-version ............... print version number and exit
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-v ..................... verbose
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-quiet ................. don't print anything
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Building:
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---------
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With the libgif development files installed, gif2webp can be built using
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makefile.unix:
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$ make -f makefile.unix examples/gif2webp
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or using autoconf:
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$ ./configure --enable-everything
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$ make
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Encoding API:
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=============
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The main encoding functions are available in the header src/webp/encode.h
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The ready-to-use ones are:
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size_t WebPEncodeRGB(const uint8_t* rgb, int width, int height, int stride,
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float quality_factor, uint8_t** output);
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size_t WebPEncodeBGR(const uint8_t* bgr, int width, int height, int stride,
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float quality_factor, uint8_t** output);
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size_t WebPEncodeRGBA(const uint8_t* rgba, int width, int height, int stride,
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float quality_factor, uint8_t** output);
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size_t WebPEncodeBGRA(const uint8_t* bgra, int width, int height, int stride,
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float quality_factor, uint8_t** output);
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They will convert raw RGB samples to a WebP data. The only control supplied
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is the quality factor.
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There are some variants for using the lossless format:
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size_t WebPEncodeLosslessRGB(const uint8_t* rgb, int width, int height,
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int stride, uint8_t** output);
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size_t WebPEncodeLosslessBGR(const uint8_t* bgr, int width, int height,
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int stride, uint8_t** output);
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size_t WebPEncodeLosslessRGBA(const uint8_t* rgba, int width, int height,
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int stride, uint8_t** output);
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size_t WebPEncodeLosslessBGRA(const uint8_t* bgra, int width, int height,
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int stride, uint8_t** output);
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Of course in this case, no quality factor is needed since the compression
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occurs without loss of the input values, at the expense of larger output sizes.
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Advanced encoding API:
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----------------------
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A more advanced API is based on the WebPConfig and WebPPicture structures.
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WebPConfig contains the encoding settings and is not tied to a particular
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picture.
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WebPPicture contains input data, on which some WebPConfig will be used for
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compression.
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The encoding flow looks like:
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-------------------------------------- BEGIN PSEUDO EXAMPLE
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#include <webp/encode.h>
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// Setup a config, starting form a preset and tuning some additional
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// parameters
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WebPConfig config;
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if (!WebPConfigPreset(&config, WEBP_PRESET_PHOTO, quality_factor))
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return 0; // version error
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}
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// ... additional tuning
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config.sns_strength = 90;
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config.filter_sharpness = 6;
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config_error = WebPValidateConfig(&config); // not mandatory, but useful
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// Setup the input data
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WebPPicture pic;
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if (!WebPPictureInit(&pic)) {
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return 0; // version error
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}
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pic.width = width;
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pic.height = height;
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// allocated picture of dimension width x height
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if (!WebPPictureAllocate(&pic)) {
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return 0; // memory error
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}
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// at this point, 'pic' has been initialized as a container,
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// and can receive the Y/U/V samples.
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// Alternatively, one could use ready-made import functions like
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// WebPPictureImportRGB(), which will take care of memory allocation.
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// In any case, past this point, one will have to call
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// WebPPictureFree(&pic) to reclaim memory.
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// Set up a byte-output write method. WebPMemoryWriter, for instance.
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WebPMemoryWriter wrt;
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WebPMemoryWriterInit(&wrt); // initialize 'wrt'
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pic.writer = MyFileWriter;
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pic.custom_ptr = my_opaque_structure_to_make_MyFileWriter_work;
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// Compress!
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int ok = WebPEncode(&config, &pic); // ok = 0 => error occurred!
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WebPPictureFree(&pic); // must be called independently of the 'ok' result.
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// output data should have been handled by the writer at that point.
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// -> compressed data is the memory buffer described by wrt.mem / wrt.size
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// deallocate the memory used by compressed data
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WebPMemoryWriterClear(&wrt);
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-------------------------------------- END PSEUDO EXAMPLE
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Decoding API:
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=============
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This is mainly just one function to call:
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#include "webp/decode.h"
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uint8_t* WebPDecodeRGB(const uint8_t* data, size_t data_size,
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int* width, int* height);
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Please have a look at the file src/webp/decode.h for the details.
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There are variants for decoding in BGR/RGBA/ARGB/BGRA order, along with
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decoding to raw Y'CbCr samples. One can also decode the image directly into a
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pre-allocated buffer.
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To detect a WebP file and gather the picture's dimensions, the function:
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int WebPGetInfo(const uint8_t* data, size_t data_size,
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int* width, int* height);
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is supplied. No decoding is involved when using it.
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Incremental decoding API:
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=========================
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In the case when data is being progressively transmitted, pictures can still
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be incrementally decoded using a slightly more complicated API. Decoder state
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is stored into an instance of the WebPIDecoder object. This object can be
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created with the purpose of decoding either RGB or Y'CbCr samples.
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For instance:
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WebPDecBuffer buffer;
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WebPInitDecBuffer(&buffer);
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buffer.colorspace = MODE_BGR;
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...
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WebPIDecoder* idec = WebPINewDecoder(&buffer);
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As data is made progressively available, this incremental-decoder object
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can be used to decode the picture further. There are two (mutually exclusive)
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ways to pass freshly arrived data:
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either by appending the fresh bytes:
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WebPIAppend(idec, fresh_data, size_of_fresh_data);
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or by just mentioning the new size of the transmitted data:
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WebPIUpdate(idec, buffer, size_of_transmitted_buffer);
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Note that 'buffer' can be modified between each call to WebPIUpdate, in
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particular when the buffer is resized to accommodate larger data.
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These functions will return the decoding status: either VP8_STATUS_SUSPENDED if
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decoding is not finished yet or VP8_STATUS_OK when decoding is done. Any other
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status is an error condition.
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The 'idec' object must always be released (even upon an error condition) by
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calling: WebPDelete(idec).
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To retrieve partially decoded picture samples, one must use the corresponding
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method: WebPIDecGetRGB or WebPIDecGetYUVA.
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It will return the last displayable pixel row.
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Lastly, note that decoding can also be performed into a pre-allocated pixel
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buffer. This buffer must be passed when creating a WebPIDecoder, calling
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WebPINewRGB() or WebPINewYUVA().
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Please have a look at the src/webp/decode.h header for further details.
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Advanced Decoding API:
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======================
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WebP decoding supports an advanced API which provides on-the-fly cropping and
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rescaling, something of great usefulness on memory-constrained environments like
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mobile phones. Basically, the memory usage will scale with the output's size,
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not the input's, when one only needs a quick preview or a zoomed in portion of
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an otherwise too-large picture. Some CPU can be saved too, incidentally.
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-------------------------------------- BEGIN PSEUDO EXAMPLE
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// A) Init a configuration object
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WebPDecoderConfig config;
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CHECK(WebPInitDecoderConfig(&config));
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// B) optional: retrieve the bitstream's features.
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CHECK(WebPGetFeatures(data, data_size, &config.input) == VP8_STATUS_OK);
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// C) Adjust 'config' options, if needed
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config.options.no_fancy_upsampling = 1;
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config.options.use_scaling = 1;
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config.options.scaled_width = scaledWidth();
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config.options.scaled_height = scaledHeight();
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// etc.
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// D) Specify 'config' output options for specifying output colorspace.
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// Optionally the external image decode buffer can also be specified.
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config.output.colorspace = MODE_BGRA;
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// Optionally, the config.output can be pointed to an external buffer as
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// well for decoding the image. This externally supplied memory buffer
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// should be big enough to store the decoded picture.
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config.output.u.RGBA.rgba = (uint8_t*) memory_buffer;
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config.output.u.RGBA.stride = scanline_stride;
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config.output.u.RGBA.size = total_size_of_the_memory_buffer;
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config.output.is_external_memory = 1;
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// E) Decode the WebP image. There are two variants w.r.t decoding image.
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// The first one (E.1) decodes the full image and the second one (E.2) is
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// used to incrementally decode the image using small input buffers.
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// Any one of these steps can be used to decode the WebP image.
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// E.1) Decode full image.
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CHECK(WebPDecode(data, data_size, &config) == VP8_STATUS_OK);
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// E.2) Decode image incrementally.
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WebPIDecoder* const idec = WebPIDecode(NULL, NULL, &config);
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CHECK(idec != NULL);
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while (bytes_remaining > 0) {
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VP8StatusCode status = WebPIAppend(idec, input, bytes_read);
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if (status == VP8_STATUS_OK || status == VP8_STATUS_SUSPENDED) {
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bytes_remaining -= bytes_read;
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} else {
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break;
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}
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}
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WebPIDelete(idec);
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// F) Decoded image is now in config.output (and config.output.u.RGBA).
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// It can be saved, displayed or otherwise processed.
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// G) Reclaim memory allocated in config's object. It's safe to call
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// this function even if the memory is external and wasn't allocated
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// by WebPDecode().
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WebPFreeDecBuffer(&config.output);
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-------------------------------------- END PSEUDO EXAMPLE
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Bugs:
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=====
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Please report all bugs to our issue tracker:
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http://code.google.com/p/webp/issues
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Patches welcome! See this page to get started:
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http://www.webmproject.org/code/contribute/submitting-patches/
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Discuss:
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========
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Email: webp-discuss@webmproject.org
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Web: http://groups.google.com/a/webmproject.org/group/webp-discuss
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