src/third_party/libjpeg-turbo/java/README - cobalt - Git at Google

 TurboJPEG Java Wrapper
 ======================

 The TurboJPEG shared library can optionally be built with a Java Native
 Interface wrapper, which allows the library to be loaded and used directly from
 Java applications.  The Java front end for this is defined in several classes
 located under org/libjpegturbo/turbojpeg.  The source code for these Java
 classes is licensed under a BSD-style license, so the files can be incorporated
 directly into both open source and proprietary projects without restriction.  A
 Java archive (JAR) file containing these classes is also shipped with the
 "official" distribution packages of libjpeg-turbo.

 TJExample.java, which should also be located in the same directory as this
 README file, demonstrates how to use the TurboJPEG Java API to compress and
 decompress JPEG images in memory.


 Performance Pitfalls
 --------------------

 The TurboJPEG Java API defines several convenience methods that can allocate
 image buffers or instantiate classes to hold the result of compress,
 decompress, or transform operations.  However, if you use these methods, then
 be mindful of the amount of new data you are creating on the heap.  It may be
 necessary to manually invoke the garbage collector to prevent heap exhaustion
 or to prevent performance degradation.  Background garbage collection can kill
 performance, particularly in a multi-threaded environment (Java pauses all
 threads when the GC runs.)

 The TurboJPEG Java API always gives you the option of pre-allocating your own
 source and destination buffers, which allows you to re-use those buffers for
 compressing/decompressing multiple images.  If the image sequence you are
 compressing or decompressing consists of images of the same size, then
 pre-allocating the buffers is recommended.


 Installation Directory
 ----------------------

 The TurboJPEG Java Wrapper will look for the TurboJPEG JNI library
 (libturbojpeg.so, libturbojpeg.jnilib, or turbojpeg.dll) in the system library
 paths or in any paths specified in LD_LIBRARY_PATH (Un*x), DYLD_LIBRARY_PATH
 (Mac), or PATH (Windows.)  Failing this, on Un*x and Mac systems, the wrapper
 will look for the JNI library under the library directory configured when
 libjpeg-turbo was built.  If that library directory is
 /opt/libjpeg-turbo/lib32, then /opt/libjpeg-turbo/lib64 is also searched, and
 vice versa.

 If you installed the JNI library into another directory, then you will need
 to pass an argument of -Djava.library.path={path_to_JNI_library} to java, or
 manipulate LD_LIBRARY_PATH, DYLD_LIBRARY_PATH, or PATH to include the directory
 containing the JNI library.
	TurboJPEG Java Wrapper
	======================

	The TurboJPEG shared library can optionally be built with a Java Native
	Interface wrapper, which allows the library to be loaded and used directly from
	Java applications. The Java front end for this is defined in several classes
	located under org/libjpegturbo/turbojpeg. The source code for these Java
	classes is licensed under a BSD-style license, so the files can be incorporated
	directly into both open source and proprietary projects without restriction. A
	Java archive (JAR) file containing these classes is also shipped with the
	"official" distribution packages of libjpeg-turbo.

	TJExample.java, which should also be located in the same directory as this
	README file, demonstrates how to use the TurboJPEG Java API to compress and
	decompress JPEG images in memory.


	Performance Pitfalls
	--------------------

	The TurboJPEG Java API defines several convenience methods that can allocate
	image buffers or instantiate classes to hold the result of compress,
	decompress, or transform operations. However, if you use these methods, then
	be mindful of the amount of new data you are creating on the heap. It may be
	necessary to manually invoke the garbage collector to prevent heap exhaustion
	or to prevent performance degradation. Background garbage collection can kill
	performance, particularly in a multi-threaded environment (Java pauses all
	threads when the GC runs.)

	The TurboJPEG Java API always gives you the option of pre-allocating your own
	source and destination buffers, which allows you to re-use those buffers for
	compressing/decompressing multiple images. If the image sequence you are
	compressing or decompressing consists of images of the same size, then
	pre-allocating the buffers is recommended.


	Installation Directory
	----------------------

	The TurboJPEG Java Wrapper will look for the TurboJPEG JNI library
	(libturbojpeg.so, libturbojpeg.jnilib, or turbojpeg.dll) in the system library
	paths or in any paths specified in LD_LIBRARY_PATH (Un*x), DYLD_LIBRARY_PATH
	(Mac), or PATH (Windows.) Failing this, on Un*x and Mac systems, the wrapper
	will look for the JNI library under the library directory configured when
	libjpeg-turbo was built. If that library directory is
	/opt/libjpeg-turbo/lib32, then /opt/libjpeg-turbo/lib64 is also searched, and
	vice versa.

	If you installed the JNI library into another directory, then you will need
	to pass an argument of -Djava.library.path={path_to_JNI_library} to java, or
	manipulate LD_LIBRARY_PATH, DYLD_LIBRARY_PATH, or PATH to include the directory
	containing the JNI library.