This crate exposes the raw libjpeg API, so the libjpeg usage manual applies. You'll most likely want to use it via a higher-level API instead :)
Many fields in structs are marked as private by default, but if you need to access them, make a pull request marking them pub
.
- build-essentials (gcc, etc.)
-
nasm for Intel CPUs,
gas
for ARM. Note: Apple's Xcode ships an incredibly outdated version of nasm that won't work.
This crate supports x86, x86-64 and ARM64.
In Rust/Cargo, add "mozjpeg-sys" as a dependency in Cargo.toml
.
In case you need the jpeglib.h
header for C code built with Cargo, the required include paths (use env::split_paths()
) are set for Cargo build scripts in the DEP_JPEG_INCLUDE
env var.
For non-Rust projects you can build the library using Cargo:
cargo build --release
It creates target/release/libmozjpeg_sys.a
and target/release/libmozjpeg_sys.{dll,so,dylib}
, which can be linked with C and other languages.
By default nasm_simd
feature is enabled, and this crate will try to compile SIMD support. Additionally, you can set TARGET_CPU
environmental variable (equivalent to -march=$TARGET_CPU
) to optimize all of C code for a specific CPU model.
let mut err: jpeg_error_mgr = mem::zeroed();
let mut cinfo: jpeg_decompress_struct = mem::zeroed();
cinfo.common.err = jpeg_std_error(&mut err);
jpeg_create_decompress(&mut cinfo);
let file_name = CString::new(file_name.as_bytes()).unwrap();
let mode = CString::new("rb").unwrap();
let fh = libc::fopen(file_name.as_ptr(), mode.as_ptr());
jpeg_stdio_src(&mut cinfo, fh);
jpeg_read_header(&mut cinfo, true as boolean);
// Available only after `jpeg_read_header()`
let width = cinfo.image_width;
let height = cinfo.image_height;
// Output settings be set before calling `jpeg_start_decompress()`
cinfo.out_color_space = J_COLOR_SPACE::JCS_RGB;
jpeg_start_decompress(&mut cinfo);
let row_stride = cinfo.image_width as usize * cinfo.output_components as usize;
let buffer_size = row_stride * cinfo.image_height as usize;
let mut buffer = vec![0u8; buffer_size];
while cinfo.output_scanline < cinfo.output_height {
let offset = cinfo.output_scanline as usize * row_stride;
let mut jsamparray = [buffer[offset..].as_mut_ptr()];
jpeg_read_scanlines(&mut cinfo, jsamparray.as_mut_ptr(), 1);
}
jpeg_finish_decompress(&mut cinfo);
jpeg_destroy_decompress(&mut cinfo);
libc::fclose(fh);
Writing:
let quality = 98;
let file_name = CString::new("example_result.jpg").unwrap();
let mode = CString::new("wb").unwrap();
let fh = libc::fopen(file_name.as_ptr(), mode.as_ptr());
let mut err = mem::zeroed();
let mut cinfo: jpeg_compress_struct = mem::zeroed();
cinfo.common.err = jpeg_std_error(&mut err);
jpeg_create_compress(&mut cinfo);
jpeg_stdio_dest(&mut cinfo, fh);
cinfo.image_width = width;
cinfo.image_height = height;
cinfo.in_color_space = J_COLOR_SPACE::JCS_RGB;
cinfo.input_components = 3;
jpeg_set_defaults(&mut cinfo);
let row_stride = cinfo.image_width as usize * cinfo.input_components as usize;
cinfo.dct_method = J_DCT_METHOD::JDCT_ISLOW;
jpeg_set_quality(&mut cinfo, quality, true as boolean);
jpeg_start_compress(&mut cinfo, true as boolean);
while cinfo.next_scanline < cinfo.image_height {
let offset = cinfo.next_scanline as usize * row_stride;
let jsamparray = [buffer[offset..].as_ptr()];
jpeg_write_scanlines(&mut cinfo, jsamparray.as_ptr(), 1);
}
jpeg_finish_compress(&mut cinfo);
jpeg_destroy_compress(&mut cinfo);
libc::fclose(fh);