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z.lib
The "z" library implements the commonly required image processing basics of scaling, colorspace conversion, and depth conversion. A simple API enables conversion between any supported formats to operate with minimal knowledge from the programmer. All library routines were designed from the ground-up with correctness, flexibility, and thread-safety as first priorities. Allocation, buffering, and I/O are cleanly separated from processing, allowing the programmer to adapt "z" to many scenarios.
Requirements
- Byte-addressable architecture
- Two's complement integer encoding
- 32-bit or greater machine word
- C++17 compiler
- Platforms: Microsoft Windows, POSIX
Building
The officially supported build system is GNU autotools. Use the provided
"autogen.sh" script to instantiate the familiar "configure" and "make" build
system. Visual Studio project files are not stable and are subject to change.
Download all submodules before compiling by git submodule update --init --recursive
.
Capabilities
Colorspace
Colorspaces: SMPTE-C (NTSC), Rec.709, Rec.2020
The colorspace module provides for conversion between any combination of colorspaces, as defined by the commonly used triplet of matrix coefficients, transfer characteristics, and color primaries. Conversions are implemented with intelligent logic that minimizes the number of intermediate representations required for common scenarios, such as conversion between YCbCr and RGB. Support is also provided for the non-traditional YCbCr system of ITU-R BT.2020 constant luminance (CL), which retains higher fidelity with chroma subsampling. Note that "z" is not a color management system and should not be used to perform drastic contrast or gamut reduction, such as BT.2020 to BT.709.
Depth
Formats: BYTE, WORD, HALF, FLOAT
The depth module provides for conversion between any pixel (number) format, including one and two-byte integer formats as well as IEEE-754 binary16 (OpenEXR) and binary32 formats. Limited range (16-235) and full swing (0-255) integer formats are supported, including conversion between such formats. Multiple dithering methods are available when converting to integer formats, from basic rounding to high quality error diffusion.
Resize
The resize module provides high fidelity linear resamplers, including the popular Bicubic and Lanczos filters. Resampling ratios of up to 100x are supported for upsampling and downsampling. Full support is provided for various coordinate systems, including the various chroma siting conventions (e.g. JPEG and MPEG2) as well as interlaced images.
Performance
"z" is optimized for Intel(R) Architecture and features faster processing times than industry standard swscale software.
Time (ms) to resize FHD image to UHD with Lanczos filter.
z.lib 2.8 | swscale 4.0.2* | |
---|---|---|
Intel(R) Core(TM) i7-8565U | 7.7 | 15.2 |
Intel(R) Xeon(R) Platinum 8176 | 10.8 | 22.2 |
Time (ms) to convert FHD BT.709 (YUV) to FHD BT.2020.
z.lib 2.8 | swscale 4.0.2** | |
---|---|---|
Intel(R) Core(TM) i7-8565U | 8.3 | 17.5 |
Intel(R) Xeon(R) Platinum 8176 | 11.5 | 25.6 |
* scale=3840:2160:sws_flags=lanczos+accurate_rnd:sws_dither=none
** colorspace=all=bt2020:iall=bt709:format=yuv420p10