******************************************************************************* ** Background ******************************************************************************* 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, 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 performs in the range of 80-120% of TurboJPEG/IPP. It is faster in some areas but slower in others. It was decided to split libjpeg-turbo into a separate SDK so that other projects could take advantage of this technology. The libjpeg-turbo shared libraries can be used as drop-in replacements for libjpeg on most systems. ******************************************************************************* ** License ******************************************************************************* Some of the optimizations to the Huffman encoder (jchuff.c) and decoder (jdhuff.c) were borrowed from VirtualGL, and thus any distribution of libjpeg-turbo which includes those optimizations must, as a whole, be subject to the terms of the wxWindows Library Licence, Version 3.1. A copy of this license can be found in this directory under LICENSE.txt. The wxWindows Library License is based on the LGPL but includes provisions which allow the Library to be statically linked into proprietary libraries and applications without requiring the resulting binaries to be distributed under the terms of the LGPL. The rest of the source code, apart from the Huffman codec optimizations, falls under a less restrictive, BSD-style license (see README.) You can choose to distribute libjpeg-turbo, as a whole, under this BSD-style license by simply replacing the optimized jchuff.c and jdhuff.c with their unoptimized counterparts from the libjpeg v6b source. ******************************************************************************* ** Using libjpeg-turbo ******************************************************************************* ============================= Replacing libjpeg at Run Time ============================= If a Unix application is dynamically linked with libjpeg, then you can replace libjpeg with libjpeg-turbo at run time by manipulating the LD_LIBRARY_PATH. For instance: [Using libjpeg] > time cjpeg vgl_5674_0098.jpg real 0m0.392s user 0m0.074s sys 0m0.020s [Using libjpeg-turbo] > export LD_LIBRARY_PATH=/opt/libjpeg-turbo/{lib}:$LD_LIBRARY_PATH > time cjpeg vgl_5674_0098.jpg real 0m0.109s user 0m0.029s sys 0m0.010s NOTE: {lib} can be lib, lib32, lib64, or lib/64, depending on the O/S and architecture. System administrators can also replace the libjpeg sym links in /usr/{lib} with links to the libjpeg dynamic library located in /opt/libjpeg-turbo/{lib}. This will effectively accelerate every dynamically linked libjpeg application on the system. The Windows distribution of the libjpeg-turbo SDK installs the libjpeg-turbo DLL (jpeg62.dll, jpeg7.dll, or jpeg8.dll, depending on whether libjpeg v6b, v7, or v8 emulation is enabled) into c:\libjpeg-turbo[64]\bin, and the PATH environment variable can be modified such that this directory is searched before any others that might contain a libjpeg DLL. However, if a libjpeg DLL exists in an application's install directory, then Windows will load this DLL first whenever the application is launched. Thus, if an application ships with jpeg62.dll, jpeg7.dll, or jpeg8.dll, then back up the application's version of this DLL and copy c:\libjpeg-turbo\bin\jpeg*.dll into the application's install directory to accelerate it. The version of the libjpeg-turbo DLL distributed with the "official" libjpeg-turbo SDK requires the Visual C++ 2008 C run time DLL (msvcr90.dll). msvcr90.dll ships with more recent versions of Windows, but users of older Windows releases can obtain it from the Visual C++ 2008 Redistributable Package, which is available as a free download from Microsoft's web site. NOTE: Features of libjpeg which require passing a C run time structure, such as a file handle, from an application to libjpeg will probably not work with the "official" version of the libjpeg-turbo DLL unless the application is also built to use the Visual C++ 2008 C run time DLL. In particular, this affects jpeg_stdio_dest() and jpeg_stdio_src(). Mac applications typically embed their own copies of the libjpeg dylib inside the (hidden) application bundle, so it is not possible to globally replace libjpeg on OS X systems. If an application uses a shared library version of libjpeg, then it may be possible to replace the application's version of it. This would generally involve copying libjpeg.*.dylib from libjpeg-turbo into the appropriate place in the application bundle and using install_name_tool to repoint the dylib to the new directory. This requires an advanced knowledge of OS X and would not survive an upgrade or a re-install of the application. Thus, it is not recommended for most users. ======================= Replacing TurboJPEG/IPP ======================= libjpeg-turbo is a drop-in replacement for the TurboJPEG/IPP SDK used by VirtualGL 2.1.x and TurboVNC 0.6 (and prior.) libjpeg-turbo contains a wrapper library (TurboJPEG/OSS) that emulates the TurboJPEG API using libjpeg-turbo instead of the closed source Intel Performance Primitives. You can replace the TurboJPEG/IPP package on Linux systems with the libjpeg-turbo package in order to make existing releases of VirtualGL 2.1.x and TurboVNC use the new codec at run time. Note that the 64-bit libjpeg-turbo packages contain only 64-bit binaries, whereas the TurboJPEG/IPP 64-bit packages contained both 64-bit and 32-bit binaries. Thus, to replace a TurboJPEG/IPP 64-bit package, install both the 64-bit and 32-bit versions of libjpeg-turbo. You can also build the VirtualGL 2.1.x and TurboVNC 0.6 source code with the libjpeg-turbo SDK instead of TurboJPEG/IPP. It should work identically. libjpeg-turbo also includes static library versions of TurboJPEG/OSS, which are used to build TurboVNC 1.0 and later. ======================================== Using libjpeg-turbo in Your Own Programs ======================================== For the most part, libjpeg-turbo should work identically to libjpeg, so in most cases, an application can be built against libjpeg and then run against libjpeg-turbo. On Unix systems (including Cygwin), you can build against libjpeg-turbo instead of libjpeg by setting CPATH=/opt/libjpeg-turbo/include and LIBRARY_PATH=/opt/libjpeg-turbo/{lib} ({lib} = lib32 or lib64, depending on whether you are building a 32-bit or a 64-bit application.) If using MinGW, then set CPATH=/c/libjpeg-turbo-gcc[64]/include and LIBRARY_PATH=/c/libjpeg-turbo-gcc[64]/lib Building against libjpeg-turbo is useful, for instance, if you want to build an application that leverages the libjpeg-turbo colorspace extensions (see below.) On Linux and Solaris systems, you would still need to manipulate the LD_LIBRARY_PATH or sym links appropriately to use libjpeg-turbo at run time. On such systems, you can pass -R /opt/libjpeg-turbo/{lib} to the linker to force the use of libjpeg-turbo at run time rather than libjpeg (also useful if you want to leverage the colorspace extensions), or you can link against the libjpeg-turbo static library. To force a Linux, Solaris, or MinGW application to link against the static version of libjpeg-turbo, you can use the following linker options: -Wl,-Bstatic -ljpeg -Wl,-Bdynamic On OS X, simply add /opt/libjpeg-turbo/lib/libjpeg.a to the linker command line (this also works on Linux and Solaris.) To build Visual C++ applications using libjpeg-turbo, add c:\libjpeg-turbo[64]\include to your system or user INCLUDE environment variable and c:\libjpeg-turbo[64]\lib to your system or user LIB environment variable, and then link against either jpeg.lib (to use the DLL version of libjpeg-turbo) or jpeg-static.lib (to use the static version of libjpeg-turbo.) ===================== Colorspace Extensions ===================== libjpeg-turbo includes extensions which allow JPEG images to be compressed directly from (and decompressed directly to) buffers which use BGR, BGRA, RGBA, ABGR, and ARGB pixel ordering. This is implemented with six new colorspace constants: JCS_EXT_RGB /* red/green/blue */ JCS_EXT_RGBX /* red/green/blue/x */ JCS_EXT_BGR /* blue/green/red */ JCS_EXT_BGRX /* blue/green/red/x */ JCS_EXT_XBGR /* x/blue/green/red */ JCS_EXT_XRGB /* x/red/green/blue */ Setting cinfo.in_color_space (compression) or cinfo.out_color_space (decompression) to one of these values will cause libjpeg-turbo to read the red, green, and blue values from (or write them to) the appropriate position in the pixel when YUV conversion is performed. Your application can check for the existence of these extensions at compile time with: #ifdef JCS_EXTENSIONS At run time, attempting to use these extensions with a version of libjpeg that doesn't support them will result in a "Bogus input colorspace" error. ================================= libjpeg v7 and v8 API/ABI support ================================= libjpeg v7 and v8 added new features to the API/ABI, and, unfortunately, the compression and decompression structures were extended in a backward- incompatible manner to accommodate these features. Thus, programs which are built to use libjpeg v7 or v8 did not work with libjpeg-turbo, since it is based on the libjpeg v6b code base. Although libjpeg v7 and v8 are still not as widely used as v6b, enough programs (including a few Linux distros) have made the switch that it was desirable to provide support for the libjpeg v7/v8 API/ABI in libjpeg-turbo. Some of the libjpeg v7 and v8 features -- DCT scaling, to name one -- involve deep modifications to the code which cannot be accommodated by libjpeg-turbo without either breaking compatibility with libjpeg v6b or producing an unsupportable mess. In order to fully support libjpeg v8 with all of its features, we would have to essentially port the SIMD extensions to the libjpeg v8 code base and maintain two separate code trees. We are hesitant to do this until/unless the newer libjpeg code bases garner more community support and involvement and until/unless we have some notion of whether future libjpeg releases will also be backward-incompatible. By passing an argument of --with-jpeg7 or --with-jpeg8 to configure, or an argument of -DWITH_JPEG7=1 or -DWITH_JPEG8=1 to cmake, you can build a version of libjpeg-turbo which emulates the libjpeg v7 or v8b API/ABI, so that programs which are built against libjpeg v7 or v8 can be run with libjpeg-turbo. The following section describes which libjpeg v7+ features are supported and which aren't. libjpeg v7 and v8 Features: --------------------------- Fully supported: -- cjpeg: Separate quality settings for luminance and chrominance Note that the libpjeg v7+ API was extended to accommodate this feature only for convenience purposes. It has always been possible to implement this feature with libjpeg v6b (see rdswitch.c for an example.) -- cjpeg: 32-bit BMP support -- jpegtran: lossless cropping -- jpegtran: -perfect option -- rdjpgcom: -raw option -- rdjpgcom: locale awareness Fully supported when using libjpeg v7/v8 emulation: -- libjpeg: In-memory source and destination managers Not supported: -- libjpeg: DCT scaling in compressor cinfo.scale_num and cinfo.scale_denom are silently ignored. -- libjpeg: IDCT scaling extensions in decompressor libjpeg-turbo still supports IDCT scaling with scaling factors of 1/2, 1/4, and 1/8 (same as libjpeg v6b.) -- libjpeg: Fancy downsampling in compressor cinfo.do_fancy_downsampling is silently ignored. -- libjpeg: Arithmetic coding/decoding Not supported due to patent concerns. -- jpegtran: Scaling Seems to depend on the DCT scaling feature, which isn't supported.