123 lines
4.6 KiB
Markdown
123 lines
4.6 KiB
Markdown
# libcaesium
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[](https://travis-ci.org/Lymphatus/libcaesium)
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Libcaesium is a simple library performing JPEG and PNG compression/optimization using [mozjpeg](https://github.com/mozilla/mozjpeg) and [zopfli](https://github.com/google/zopfli).
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## Download
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Binaries not available yet. Please refer to the compilation section below.
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## Basic usage
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Libcaesium exposes one single function to compress, auto-detecting the input file type:
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```C
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bool cs_compress(const char *input,
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const char *output,
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cs_image_pars *options);
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```
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#### Parameters
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**input** - input file path
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**output** - output file path
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**options** - pointer to the options struct, containing compression parameters (see below)
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#### Return value
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**true** if the compression has successfully ended, or **false** if any error occurs.
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## Compression options
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Libcaesium supports a few compression parameters for each JPEG and PNG.
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You need to initialize the default values before compressing by calling `initialize_parameters()`.
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They are defined into a top level struct containing each supported file parameters, as follows:
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```C
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typedef struct cs_image_pars
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{
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cs_jpeg_pars jpeg;
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cs_png_pars png;
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} cs_image_pars;
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```
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### JPEG
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```C
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typedef struct cs_jpeg_pars
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{
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int quality;
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bool exif_copy;
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int dct_method;
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} cs_jpeg_pars;
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```
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The first 3 parameters matters, in term of compression, while the others will be set by the compressor/decompressor
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during the compression progress and thus they will be overwritten.
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- **quality**: in a range from 0 to 100, the quality of the resulting image. **Note** that 0 means _optimization_ (see below). Default: 0.
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- **exif_copy**: set it to _true_ to copy EXIF tag info after compression. Default: false;
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- **dct_method**: one of the turbojpeg DCT flags. Default: TJFLAG_FASTDCT.
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### PNG
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```C
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typedef struct cs_png_pars
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{
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int iterations;
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int iterations_large;
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int block_split_strategy;
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bool lossy_8;
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bool transparent;
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int auto_filter_strategy;
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} cs_png_pars;
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```
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Those are the zopflipng compression parameters.
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- **iterations**: number of iterations (more means more compression). Default: 10.
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- **iteration_large**: number of iterations for large files. Default: 5.
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- **block_split_strategy**: filter strategy. Default: 4;
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- **lossy_8**: convert 16-bit per channel image to 8-bit per channel. Default: true.
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- **transparent**: remove colors behind alpha channel 0. Default: true.
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- **auto_filter_strategy**: legacy.
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## Compilation and Installation
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Libcaesium uses cmake to build and install the library. Before compiling, be sure to have all the requisites.
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Libcaesium requires [mozjpeg](https://github.com/mozilla/mozjpeg) and [zopfli](https://github.com/google/zopfli) installed as shared/static libraries.
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Please refer to their own documentation for detailed instructions.
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### OS X
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##### Requirements
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You can install mozjpeg and zopfli with homebrew
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`$ brew install mozjpeg zopfli`
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##### Compile
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Provided you have all the requirements, building and installing from git is as simple as typing
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```bash
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$ git clone https://github.com/Lymphatus/libcaesium.git
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$ cd libcaesium
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$ mkdir build
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$ cd build
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$ cmake ..
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$ make
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$ sudo make install
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```
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This will compile both the shared and static caesium library, the required header and a small demo application named _caesiumd_.
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### Linux
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##### Requirements
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You need basic developer utilities. On Ubuntu you can install them with
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```bash
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sudo apt-get install libtool autoconf git nasm pkg-config cmake
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```
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Then run `install.sh` to get the latest mozjpeg and zopfli.
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##### Compile
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Provided you have all the requirements, building and installing from git is as simple as typing
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```bash
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$ git clone https://github.com/Lymphatus/libcaesium.git
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$ cd libcaesium
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$ mkdir build
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$ cd build
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$ cmake ..
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$ make
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$ sudo make install
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```
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This will compile both the shared and static caesium library, the required header and a small demo application named _caesiumd_.
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### Windows
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Compiling on Windows is somehow tricky. You can achieve it with MinGW (tested) or Cygwin (not tested), but it's better to stick with the binaries provided.
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## Compression vs Optimization
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JPEG is a lossy format: that means you will always lose some information after each compression. So, compressing a file with
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100 quality for 10 times will result in a always different image, even though you can't really see the difference.
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Libcaesium also supports optimization, by setting the _quality_ to 0. This performs a lossless process, resulting in the same image,
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but with a smaller size (10-15% usually).
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PNG is lossless, so libcaesium will always perform optimization rather than compression. |