cairocffi
cairocffi is a CFFI-based drop-in replacement for Pycairo, a set of Python
bindings and object-oriented API for cairo. Cairo is a 2D vector graphics
library with support for multiple backends including image buffers, PNG,
PostScript, PDF, and SVG file output.
Toyplot is a kid-sized plotting toolkit for Python with grownup-sized goals:
* Develop beautiful interactive, animated plots that embrace the unique
capabilities of electronic publishing and support repoducibility.
* Create the best possible data graphics out-of-the-box, maximizing data ink
and minimizing chartjunk.
* Provide a clean, minimalist interface that scientists and engineers will
love.
This is the static libR library from R -- a language and
environment for statistical computing and graphics.
See ports/math/R.
A Haskell binding for the OpenGL graphics system (GL, version 4.5) and
its accompanying utility library (GLU, version 1.3).
OpenGL is the industry's most widely used and supported 2D and 3D
graphics application programming interface (API), incorporating a broad
set of rendering, texture mapping, special effects, and other powerful
visualization functions.
This is a drop-in replacement for the graphics/jpeg library. It does not
include libturbojpeg.so (see graphics/libjpeg-turbo).
libjpeg-turbo is a high-speed version of libjpeg for x86 and x86-64 processors
which uses SIMD instructions (MMX, SSE2, etc.) to accelerate baseline JPEG
compression and decompression.
libjpeg-turbo is generally 2-4x as fast as the unmodified version
of libjpeg, all else being equal.
libjpeg-turbo was originally based on libjpeg/SIMD by Miyasaka Masaru,
but the TigerVNC and VirtualGL projects made numerous enhancements to the codec,
including improved support for Mac OS X, 64-bit support,
support for 32-bit and big endian pixel formats (RGBA, ABGR, etc.),
accelerated Huffman encoding/decoding, and various bug fixes.
The goal was to produce a fully open source codec that could replace
the partially closed source TurboJPEG/IPP codec used by VirtualGL and TurboVNC.
libjpeg-turbo generally achieves 80-120% of the performance of TurboJPEG/IPP.
It is faster in some areas but slower in others.
The SVGFig package lets you draw mathematical figures in Scalable
Vector Graphics format (SVG), using the Python language.
As a tool, its usefulness lies somewhere between freehand drawing
programs, which don't give you quantitative control over your figures,
and traditional plotting packages, which fit your data into a prescribed
template. SVGFig allows you to draw anything you can express in Python.
SVGFig is particularly suited to handle non-linear geometries. All
lines, including the coordinate axis, curve if passed through a
non-linear coordinate transformation, and coordinate systems can be
nested in trees. This generalizes all the tools necessary for making
plots, so it is easy to create polar plots of radial data, Hammer-Aitoff
projections of the sky, translations in hyperbolic spaces, or experiment
with new representations.
SVGFig also maintains a convenient representation of SVG images as
Python constructs, so you can load graphics from SVG files, dissect
them, manipulate them with an automated script, and save them in batch.
Embree is a collection of high-performance ray tracing kernels developed
at Intel. The target users of Embree are graphics application engineers
that want to improve the performance of their application by leveraging
the optimized ray tracing kernels of Embree.
These kernels are optimized for photo-realistic rendering on the latest
Intel processors with support for SSE, AVX, AVX2, AVX512, and the 16-wide
Intel Xeon Phi coprocessor vector instructions.
The gif2png program converts files from the obsolescent Graphic
Interchange Format to Portable Network Graphics. The conversion
preserves all graphic information, including transparency, perfectly.
The gif2png program can even recover data from corrupted GIFs.
The distribution also includes a Python script, web2png, that will
convert entire web hierarchies (images and HTML or PHP pages). The
script requires Python 1.5.2.
Original author:
Alexander Lehmann
The GLE Tubing and Extrusion Library is a graphics application
programming interface (API). The library consists of a number of "C"
language subroutines for drawing tubing and extrusions. The library is
distributed in source code form, in a package that includes
documentation, a VRML proposal, Makefiles, and full source code and
header files. It uses the OpenGL (TM) programming API to perform the
actual drawing of the tubing and extrusions.
http://sourceforge.net/projects/gle/
The JOGL project hosts the development version of the Java Binding for
the OpenGL API (JSR-231), and is designed to provide hardware-
supported 3D graphics to applications written in Java. JOGL provides
full access to the APIs in the OpenGL 2.0 specification as well as
nearly all vendor extensions, and integrates with the AWT and Swing
widget sets. It is part of a suite of open-source technologies
initiated by the Game Technology Group at Sun Microsystems.