kmx git

Commit	Date	Message
96bc40c1	2023-01-26T13:11:58	Implement arithmetic coding with 12-bit precision This actually works and apparently always has worked. It only failed because the libjpeg code, which did not originally support arithmetic coding, assumed that optimize_coding should always be TRUE for 12-bit data precision.
fc01f467	2023-01-05T06:36:46	TurboJPEG 3 API overhaul (ChangeLog update forthcoming) - Prefix all function names with "tj3" and remove version suffixes from function names. (Future API overhauls will increment the prefix to "tj4", etc., thus retaining backward API/ABI compatibility without versioning each individual function.) - Replace stateless boolean flags (including TJFLAG_ARITHMETIC and TJFLAG_LOSSLESS, which were never released) with stateful integer parameters, the value of which persists between function calls. * Use parameters for the JPEG quality and subsampling as well, in order to eliminate the awkwardness of specifying function arguments that weren't relevant for lossless compression. * tj3DecompressHeader() now stores all relevant information about the JPEG image, including the width, height, subsampling type, entropy coding type, etc. in parameters rather than returning that information in its arguments. * TJFLAG_LIMITSCANS has been reimplemented as an integer parameter (TJPARAM_SCANLIMIT) that allows the number of scans to be specified. - Use the const keyword for all pointer arguments to unmodified buffers, as well as for both dimensions of 2D pointers. Addresses #395. - Use size_t rather than unsigned long to represent buffer sizes, since unsigned long is a 32-bit type on Windows. Addresses #24. - Return 0 from all buffer size functions if an error occurs, rather than awkwardly trying to return -1 in an unsigned data type. - Implement 12-bit and 16-bit data precision using dedicated compression, decompression, and image I/O functions/methods. * Suffix the names of all data-precision-specific functions with 8, 12, or 16. * Because the YUV functions are intended to be used for video, they are currently only implemented with 8-bit data precision, but they can be expanded to 12-bit data precision in the future, if necessary. * Extend TJUnitTest and TJBench to test 12-bit and 16-bit data precision, using a new -precision option. * Add appropriate regression tests for all of the above to the 'test' target. * Extend tjbenchtest to test 12-bit and 16-bit data precision, and add separate 'tjtest12' and 'tjtest16' targets. * BufferedImage I/O in the Java API is currently limited to 8-bit data precision, since the BufferedImage class does not straightforwardly support higher data precisions. * Extend the PPM reader to convert 12-bit and 16-bit PBMPLUS files to grayscale or CMYK pixels, as it already does for 8-bit files. - Properly accommodate lossless JPEG using dedicated parameters (TJPARAM_LOSSLESS, TJPARAM_LOSSLESSPSV, and TJPARAM_LOSSLESSPT), rather than using a flag and awkwardly repurposing the JPEG quality. Update TJBench to properly reflect whether a JPEG image is lossless. - Re-organize the TJBench usage screen. - Update the Java docs using Java 11, to improve the formatting and eliminate HTML frames. - Use the accurate integer DCT algorithm by default for both compression and decompression, since the "fast" algorithm is a legacy feature, it does not pass the ISO compliance tests, and it is not actually faster on modern x86 CPUs. Remove the -accuratedct option from TJBench and TJExample. - Re-implement the 'tjtest' target using a CMake script that enables the appropriate tests, depending on the data precision and whether or not the Java API is part of the build. - Consolidate the C and Java versions of tjbenchtest into one script. - Consolidate the C and Java versions of tjexampletest into one script. - Combine all initialization functions into a single function (tj3Init()) that accepts an integer parameter specifying the subsystems to initialize. - Enable decompression scaling explicitly, using a new function/method (tj3SetScalingFactor()/TJDecompressor.setScalingFactor()), rather than implicitly using awkward "desired width"/"desired height" parameters. - Introduce a new macro/constant (TJUNSCALED/TJ.UNSCALED) that maps to a scaling factor of 1/1. - Implement partial image decompression, using a new function/method (tj3SetCroppingRegion()/TJDecompressor.setCroppingRegion()) and TJBench option (-crop). Extend tjbenchtest to test the new feature. Addresses #1. - Allow the JPEG colorspace to be specified explicitly when compressing, using a new parameter (TJPARAM_COLORSPACE). This allows JPEG images with the RGB and CMYK colorspaces to be created. - Remove the error/difference image feature from TJBench. Identical images to the ones that TJBench created can be generated using ImageMagick with 'magick composite <original_image> <output_image> -compose difference <diff_image>' - Handle JPEG images with unknown subsampling types. TJPARAM_SUBSAMP is set to TJSAMP_UNKNOWN (== -1) for such images, but they can still be decompressed fully into packed-pixel images or losslessly transformed (with the exception of lossless cropping.) They cannot be partially decompressed or decompressed into planar YUV images. Note also that TJBench, due to its lack of support for imperfect transforms, requires that the subsampling type be known when rotating, flipping, or transversely transposing an image. Addresses #436 - The Java version of TJBench now has identical functionality to the C version. This was accomplished by (somewhat hackishly) calling the TurboJPEG C image I/O functions through JNI and copying the pixels between the C heap and the Java heap. - Add parameters (TJPARAM_RESTARTROWS and TJPARAM_RESTARTBLOCKS) and a TJBench option (-restart) to allow the restart marker interval to be specified when compressing. Eliminate the undocumented TJ_RESTART environment variable. - Add a parameter (TJPARAM_OPTIMIZE), a transform option (TJOPT_OPTIMIZE), and a TJBench option (-optimize) to allow optimized baseline Huffman coding to be specified when compressing. Eliminate the undocumented TJ_OPTIMIZE environment variable. - Add parameters (TJPARAM_XDENSITY, TJPARAM_DENSITY, and TJDENSITYUNITS) to allow the pixel density to be specified when compressing or saving a Windows BMP image and to be queried when decompressing or loading a Windows BMP image. Addresses #77. - Refactor the fuzz targets to use the new API. * Extend decompression coverage to 12-bit and 16-bit data precision. * Replace the awkward cjpeg12 and cjpeg16 targets with proper TurboJPEG-based compress12, compress12-lossless, and compress16-lossless targets - Fix innocuous UBSan warnings uncovered by the new fuzzers. - Implement previous versions of the TurboJPEG API by wrapping the new functions (tested by running the 2.1.x versions of TJBench, via tjbenchtest, and TJUnitTest against the new implementation.) * Remove all JNI functions for deprecated Java methods and implement the deprecated methods using pure Java wrappers. It should be understood that backward API compatibility in Java applies only to the Java classes and that one cannot mix and match a JAR file from one version of libjpeg-turbo with a JNI library from another version. - tj3Destroy() now silently accepts a NULL handle. - tj3Alloc() and tj3Free() now return/accept void pointers, as malloc() and free() do. - The image I/O functions now accept a TurboJPEG instance handle, which is used to transmit/receive parameters and to receive error information. Closes #517
52659f4f	2023-01-23T09:55:13	Merge branch 'main' into dev
af1b4c8d	2023-01-21T18:31:20	TJBench: Unset TJ*OPT_CROP when disabling tiling Otherwise, if the input image is a JPEG image, then an unnecessary lossless transformation will be performed.
7ab6222c	2023-01-20T14:09:25	Merge branch 'main' into dev
98a64558	2023-01-20T13:14:11	TJBench: Set TJ*OPT_PROGRESSIVE with -progressive The documented behavior of the -progressive option is to use progressive entropy coding in JPEG images generated by compression and transform operations. However, setting TJFLAG_PROGRESSIVE was insufficient to accomplish that, because TJBench doesn't enable lossless transformation if xformOpt == 0.
b99e7590	2023-01-20T10:50:21	TJBench/Java: Fix parsing of quality ranges
28c2e607	2023-01-18T15:31:04	TJBench: Strictly check all non-boolean arguments + document that the value of -yuvpad must be a power of 2 (refer to d2608583955f060ae7efa950a94d921fdd387d58)
fb15efe9	2023-01-18T06:44:46	TurboJPEG: More documentation improvements - TJBench/TJUnitTest: Wordsmith command-line output - Java: "decompress operations"="decompression operations" - tjLoadImage(): Error message tweak - Don't mention compression performance in the description of TJXOPT_PROGRESSIVE/TJTransform.OPT_PROGRESSIVE, because the image has already been compressed at that point. (Oversights from 9a146f0f23b01869e1bf7c478e12b43f83d59c32)
d4589f4f	2023-01-14T18:07:53	Merge branch 'main' into dev
9a146f0f	2023-01-06T10:29:10	TurboJPEG: Numerous documentation improvements - Wordsmithing, formatting, and grammar tweaks - Various clarifications and corrections, including specifying whether a particular buffer or image is used as a source or destination - Accommodate/mention features that were introduced since the API documentation was created. - For clarity, use "packed-pixel" to describe uncompressed source/destination images that are not planar YUV. - Use "row" rather than "line" to refer to a single horizontal group of pixels or component values, for consistency with the libjpeg API documentation. (libjpeg also uses "scanline", which is a more archaic term.) - Use "alignment" rather than "padding" to refer to the number of bytes by which a row's width is evenly divisible. This consistifies the documention of the YUV functions and tjLoadImage(). ("Padding" typically refers to the number of bytes added to each row, which is not the same thing.) - Remove all references to "the underlying codec." Although the TurboJPEG API originated as a cross-platform wrapper for the Intel Integrated Performance Primitives, Sun mediaLib, QuickTime, and libjpeg, none of those TurboJPEG implementations has been maintained since 2009. Nothing would prevent someone from implementing the TurboJPEG API without libjpeg-turbo, but such an implementation would not necessarily have an "underlying codec." (It could be fully self-contained.) - Use "destination image" rather than "output image", for consistency, or describe the type of image that will be output. - Avoid the term "image buffer" and instead use "byte buffer" to refer to buffers that will hold JPEG images, or describe the type of image that will be contained in the buffer. (The Java documentation doesn't use "byte buffer", because the buffer arrays literally have "byte" in front of them, and since Java doesn't have pointers, it is not possible for mere mortals to store any other type of data in those arrays.) - C: Use "unified" to describe YUV images stored in a single buffer, for consistency with the Java documentation. - Use "planar YUV" rather than "YUV planar". Is is our convention to describe images using {component layout} {colorspace/pixel format} {image function}, e.g. "packed-pixel RGB source image" or "planar YUV destination image." - C: Document the TurboJPEG API version in which a particular function or macro was introduced, and reorder the backward compatibility function stubs in turbojpeg.h alphabetically by API version. - C: Use Markdown rather than HTML tags, where possible, in the Doxygen comments.
98ff1fd1	2022-11-21T20:57:39	TurboJPEG: Add lossless JPEG detection capability Add a new TurboJPEG C API function (tjDecompressHeader4()) and Java API method (TJDecompressor.getFlags()) that return the bitwise OR of any flags that are relevant to the JPEG image being decompressed (currently TJFLAG_PROGRESSIVE, TJFLAG_ARITHMETIC, TJFLAG_LOSSLESS, and their Java equivalents.) This allows a calling program to determine whether the image being decompressed is a lossless JPEG image, which means that the decompression scaling feature will not be available and that a full-sized destination buffer should be allocated. More specifically, this fixes a buffer overrun in TJBench, TJExample, and the decompress* fuzz targets that occurred when attempting (in vain) to decompress a lossless JPEG image with decompression scaling enabled.
25ccad99	2022-11-16T15:57:25	TurboJPEG: 8-bit lossless JPEG support
6002720c	2022-11-15T23:10:35	TurboJPEG: Opt. enable arithmetic entropy coding
14ce28a9	2022-01-29T12:33:40	TJBench: Remove innocuous always-true condition This was accidentally introduced into tjbench.c in 890f1e0413b54c40b663208779d4ea9dae20eaef and ported into the Java version from there. Based on https://github.com/libjpeg-turbo/libjpeg-turbo/pull/571/commits/4be6d4e7bdd09a73ee8456aa07693afa31ef2148 Refer to #571
c81e91e8	2021-04-05T16:08:22	TurboJPEG: New flag for limiting prog JPEG scans This also fixes timeouts reported by OSS-Fuzz.
ac59b2c5	2019-11-04T18:49:46	TJBench: Fix output with -componly -quiet
ad8330af	2019-07-12T17:28:55	TJBench.java: Remove space in method invocation (to make checkstyle happy)
2a9e3bd7	2019-07-11T15:30:04	TurboJPEG: Properly handle gigapixel images Prevent several integer overflow issues and subsequent segfaults that occurred when attempting to compress or decompress gigapixel images with the TurboJPEG API: - Modify tjBufSize(), tjBufSizeYUV2(), and tjPlaneSizeYUV() to avoid integer overflow when computing the return values and to return an error if such an overflow is unavoidable. - Modify tjunittest to validate the above. - Modify tjCompress2(), tjEncodeYUVPlanes(), tjDecompress2(), and tjDecodeYUVPlanes() to avoid integer overflow when computing the row pointers in the 64-bit TurboJPEG C API. - Modify TJBench (both C and Java versions) to avoid overflowing the size argument to malloc()/new and to fail gracefully if such an overflow is unavoidable. In general, this allows gigapixel images to be accommodated by the 64-bit TurboJPEG C API when using automatic JPEG buffer (re)allocation. Such images cannot currently be accommodated without automatic JPEG buffer (re)allocation, due to the fact that tjAlloc() accepts a 32-bit integer argument (oops.) Such images cannot be accommodated in the TurboJPEG Java API due to the fact that Java always uses a signed 32-bit integer as an array index. Fixes #361
0fa5ae6b	2019-01-01T21:16:33	TJBench Java: Properly handle transform warnings + warnings from TJDecompressor.decompressHeader()
53bb9418	2018-05-15T14:51:49	Java: Reformat code per checkstyle recommendations ... and modify tjbench.c to match the variable name changes made to TJBench.java ("checkstyle" = http://checkstyle.sourceforge.net, not our regex-based checkstyle script)
19c791cd	2018-03-08T10:55:20	Improve code formatting consistency With rare exceptions ... - Always separate line continuation characters by one space from preceding code. - Always use two-space indentation. Never use tabs. - Always use K&R-style conditional blocks. - Always surround operators with spaces, except in raw assembly code. - Always put a space after, but not before, a comma. - Never put a space between type casts and variables/function calls. - Never put a space between the function name and the argument list in function declarations and prototypes. - Always surround braces ('{' and '}') with spaces. - Always surround statements (if, for, else, catch, while, do, switch) with spaces. - Always attach pointer symbols ('' and '') to the variable or function name. - Always precede pointer symbols ('' and '**') by a space in type casts. - Use the MIN() macro from jpegint.h within the libjpeg and TurboJPEG API libraries (using min() from tjutil.h is still necessary for TJBench.) - Where it makes sense (particularly in the TurboJPEG code), put a blank line after variable declaration blocks. - Always separate statements in one-liners by two spaces. The purpose of this was to ease maintenance on my part and also to make it easier for contributors to figure out how to format patch submissions. This was admittedly confusing (even to me sometimes) when we had 3 or 4 different style conventions in the same source tree. The new convention is more consistent with the formatting of other OSS code bases. This commit corrects deviations from the chosen formatting style in the libjpeg API code and reformats the TurboJPEG API code such that it conforms to the same standard. NOTES: - Although it is no longer necessary for the function name in function declarations to begin in Column 1 (this was historically necessary because of the ansi2knr utility, which allowed libjpeg to be built with non-ANSI compilers), we retain that formatting for the libjpeg code because it improves readability when using libjpeg's function attribute macros (GLOBAL(), etc.) - This reformatting project was accomplished with the help of AStyle and Uncrustify, although neither was completely up to the task, and thus a great deal of manual tweaking was required. Note to developers of code formatting utilities: the libjpeg-turbo code base is an excellent test bed, because AFAICT, it breaks every single one of the utilities that are currently available. - The legacy (MMX, SSE, 3DNow!) assembly code for i386 has been formatted to match the SSE2 code (refer to ff5685d5344273df321eb63a005eaae19d2496e3.) I hadn't intended to bother with this, but the Loongson MMI implementation demonstrated that there is still academic value to the MMX implementation, as an algorithmic model for other 64-bit vector implementations. Thus, it is desirable to improve its readability in the same manner as that of the SSE2 implementation.
4893e5d8	2017-11-17T19:00:53	Merge branch 'master' into dev
f3ad13e3	2017-11-13T16:00:35	TJBench/TJUnitTest: Don't ignore mistyped args
c9453121	2017-06-29T16:49:09	TJBench: Recover from non-fatal errors if possible Previously, -stoponwarning only had an effect on the underlying TurboJPEG C functions, but TJBench still aborted if a non-fatal error occurred. This commit modifies the C version of TJBench such that it always recovers from a non-fatal error unless -stoponwarning is specified. Furthermore, the benchmark stores the details of the last non-fatal error and does not print any subsequent non-fatal error messages unless they differ from the last one. Due to limitations in the Java API (specifically, the fact that it cannot communicate errors, fatal or otherwise, to the calling program without throwing a TJException), it was only possible to make decompression operations fully recoverable within TJBench. With other operations, -stoponwarning still has an effect on the underlying C library but has no effect at the Java level. The Java API documentation has been amended to reflect that only certain methods are truly recoverable, regardless of the state of TJ.FLAG_STOPONWARNING.
dadebcd7	2017-06-28T11:43:08	TurboJPEG: Add "copy none", progressive xform opts Allow progressive entropy coding to be enabled on a transform-by-transform basis, and implement a new transform option for disabling the copying of markers. Closes #153
dedce66e	2017-06-28T15:30:41	Merge branch 'master' into dev
e248d430	2017-06-28T14:40:35	Java TJBench: Fix parsing of -warmup argument Due to an oversight, this wasn't included in 1db1ce45da2e78d87ff05119b674c71d630926aa.
1db1ce45	2017-06-27T14:22:39	TJBench: Improve consistency of results Given that libjpeg-turbo can often process hundreds of megapixels/second on modern hardware, the default of one warmup iteration was essentially meaningless. Furthermore, the -warmup option was a bit clunky, since it required some foreknowledge of how fast the benchmarks were going to execute. This commit introduces a 1-second warmup interval for each benchmark by default, and the -warmup option has been retasked to control the length of that interval.
aba6ae59	2017-06-27T13:24:08	TurboJPEG: Opt. enable progressive entropy coding Fulfills part of the feature request in #153. Also paves the way for SIMD-accelerated progressive Huffman coding (refer to #46.)
d4092f6b	2017-06-27T10:54:21	TurboJPEG: Improve error handling - Provide a new C API function and TJException method that allows calling programs to query the severity of a compression/decompression/ transform error. - Provide a new flag that instructs the library to immediately stop compressing/decompressing/transforming if a warning is encountered. Fixes #151
11eec4a3	2017-06-26T20:48:02	TJBench: Fix errors when decomp. files w/ ICC data Embedded ICC profiles can cause the size of a JPEG file to exceed the size returned by tjBufSize() (which is really meant to be used for compression anyhow, not for decompression), and this was causing a segfault (C) or an ArrayIndexOutOfBoundsException (Java) when decompressing such files with TJBench. This commit modifies the benchmark such that, when tiled decompression is disabled, it re-uses the source buffer as the primary JPEG buffer.
74e4c793	2016-11-16T15:08:16	TJBench: Fix regression/-nowrite always enabled Introduced by eb59b6e72d8098a1f7b8c7e0c710b32eb6f5dc45
eb59b6e7	2016-01-11T22:27:38	Add -nowrite arg to TJBench to improve consistency Prevents any images from being written to disk, thus making the performance of the benchmark as CPU-bound as possible.
d92949b0	2014-08-22T03:00:37	Run the TurboJPEG conformance tests out of a directory in /tmp (for improved performance, if the source directory is on a remote file share.) Fix an issue in TJBench.java that prevented it from working properly if the source image resided in a directory with a dot in the name. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1373 632fc199-4ca6-4c93-a231-07263d6284db
a1a920cc	2014-08-22T02:51:16	Run the TurboJPEG conformance tests out of a directory in /tmp (for improved performance, if the source directory is on a remote file share.) Fix an issue in TJBench.java that prevented it from working properly if the source image resided in a directory with a dot in the name. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1371 632fc199-4ca6-4c93-a231-07263d6284db
7a6ed075	2014-03-17T11:14:52	Extend YUVImage class to allow reuse of the same buffer with different metadata; port TJBench changes that treat YUV encoding/decoding as an intermediate step of the JPEG compression/decompression pipeline rather than a separate test case; add YUV encode/decode tests to the Java version of tjbenchtest git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1184 632fc199-4ca6-4c93-a231-07263d6284db
6e11d689	2014-03-17T10:19:42	Fix an error that occurred when trying to use the lossless transform feature without specifying -quiet; formatting tweak git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1182 632fc199-4ca6-4c93-a231-07263d6284db
2ae7918a	2014-03-17T10:14:18	Fix an error that occurred when trying to use the lossless transform feature without specifying -quiet; formatting tweak git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1181 632fc199-4ca6-4c93-a231-07263d6284db
4dafea68	2014-03-17T10:13:17	Move the garbage collection of the JPEG tiles into the decompression function to increase the chances that tiled decompression of large images will succeed without an OutOfMemoryError. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1180 632fc199-4ca6-4c93-a231-07263d6284db
88f260c7	2014-03-17T10:12:11	Move the garbage collection of the JPEG tiles into the decompression function to increase the chances that tiled decompression of large images will succeed without an OutOfMemoryError. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1179 632fc199-4ca6-4c93-a231-07263d6284db
fc26b657	2014-03-16T22:56:26	Extend the YUV decode functionality to the TurboJPEG Java API, and port the TJUnitTest modifications that treat YUV encoding/decoding as an intermediate step of the JPEG compression/decompression pipeline rather than a separate test case; Add the ability to encode YUV images from an arbitrary position in a large image buffer; Significantly refactor the handling of YUV images; numerous doc tweaks; other Java API cleanup and usability improvements git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1176 632fc199-4ca6-4c93-a231-07263d6284db
695b6e86	2014-03-16T19:33:07	Don't use deprecated constructor git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1174 632fc199-4ca6-4c93-a231-07263d6284db
c33347c0	2014-03-15T13:25:11	Add @Deprecated to the deprecated Java methods, so javac will actually print deprecation warnings, as opposed to just listing the methods as deprecated in javadoc; remove the use of the deprecated methods by our own test programs. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1171 632fc199-4ca6-4c93-a231-07263d6284db
b1481394	2014-03-14T08:53:33	Streamline the BufferedImage functionality in the compressor so that it works the same way as compressing a "normal" image, and deprecate the old BufferedImage methods and other redundant methods. Eliminate the use of deprecated features in the test programs. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1168 632fc199-4ca6-4c93-a231-07263d6284db
d4b453c2	2014-03-11T08:28:47	Back-port the -subsamp option from 1.4 rather than use the hackish approach of replacing 4:2:2 with 4:4:0. This has the added advantage of allowing the user to test only a specific level of subsampling. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1153 632fc199-4ca6-4c93-a231-07263d6284db
db0e2791	2014-03-11T08:25:59	Oops. This was apparently the victim of an overly aggressive search/replace. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1152 632fc199-4ca6-4c93-a231-07263d6284db
2e8ff4b0	2013-11-05T19:53:12	Add the ability to test scaling when decompressing to YUV; compression from YUV to JPEG; and YUV padding. Replace clunky -411 and -440 parameters with a -subsamp parameter that allows any of the subsampling options to be tested in isolation. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1075 632fc199-4ca6-4c93-a231-07263d6284db
aba7ceda	2013-08-23T07:13:59	Oops. Forgot to implement access method for the colorspace & extend TJBench git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1022 632fc199-4ca6-4c93-a231-07263d6284db
a5830628	2013-08-18T11:04:21	Add 4:1:1 subsampling support in the TurboJPEG Java API git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1017 632fc199-4ca6-4c93-a231-07263d6284db
ae92418c	2013-08-18T10:47:07	Add note regarding the fact that 4:4:0 lacks full SIMD support; Add an option for benchmarking 4:4:0 subsampling in TJBench; Wordsmithing; Disable timestamp in generated HTML files to make diffing and merging easier git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1016 632fc199-4ca6-4c93-a231-07263d6284db
f82b9f96	2013-08-18T10:39:30	Add note regarding the fact that 4:4:0 lacks full SIMD support; Add an option for benchmarking 4:4:0 subsampling in TJBench; Wordsmithing; Disable timestamp in generated HTML files to make diffing and merging easier git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1015 632fc199-4ca6-4c93-a231-07263d6284db
67bee868	2013-04-27T12:36:07	Code formatting tweaks git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@968 632fc199-4ca6-4c93-a231-07263d6284db
fac3bea8	2012-09-24T02:27:55	Add a Java version of TJBench and extend the TurboJPEG Java API to support it (this involved adding a polymorphic method in TJCompressor that accepts x and y offsets into a larger buffer, similar to the previous modification that had been done to TJDecompressor.) git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@862 632fc199-4ca6-4c93-a231-07263d6284db

96bc40c1

2023-01-26T13:11:58

Implement arithmetic coding with 12-bit precision This actually works and apparently always has worked. It only failed because the libjpeg code, which did not originally support arithmetic coding, assumed that optimize_coding should always be TRUE for 12-bit data precision.

fc01f467

2023-01-05T06:36:46

TurboJPEG 3 API overhaul (ChangeLog update forthcoming) - Prefix all function names with "tj3" and remove version suffixes from function names. (Future API overhauls will increment the prefix to "tj4", etc., thus retaining backward API/ABI compatibility without versioning each individual function.) - Replace stateless boolean flags (including TJ*FLAG_ARITHMETIC and TJ*FLAG_LOSSLESS, which were never released) with stateful integer parameters, the value of which persists between function calls. * Use parameters for the JPEG quality and subsampling as well, in order to eliminate the awkwardness of specifying function arguments that weren't relevant for lossless compression. * tj3DecompressHeader() now stores all relevant information about the JPEG image, including the width, height, subsampling type, entropy coding type, etc. in parameters rather than returning that information in its arguments. * TJ*FLAG_LIMITSCANS has been reimplemented as an integer parameter (TJ*PARAM_SCANLIMIT) that allows the number of scans to be specified. - Use the const keyword for all pointer arguments to unmodified buffers, as well as for both dimensions of 2D pointers. Addresses #395. - Use size_t rather than unsigned long to represent buffer sizes, since unsigned long is a 32-bit type on Windows. Addresses #24. - Return 0 from all buffer size functions if an error occurs, rather than awkwardly trying to return -1 in an unsigned data type. - Implement 12-bit and 16-bit data precision using dedicated compression, decompression, and image I/O functions/methods. * Suffix the names of all data-precision-specific functions with 8, 12, or 16. * Because the YUV functions are intended to be used for video, they are currently only implemented with 8-bit data precision, but they can be expanded to 12-bit data precision in the future, if necessary. * Extend TJUnitTest and TJBench to test 12-bit and 16-bit data precision, using a new -precision option. * Add appropriate regression tests for all of the above to the 'test' target. * Extend tjbenchtest to test 12-bit and 16-bit data precision, and add separate 'tjtest12' and 'tjtest16' targets. * BufferedImage I/O in the Java API is currently limited to 8-bit data precision, since the BufferedImage class does not straightforwardly support higher data precisions. * Extend the PPM reader to convert 12-bit and 16-bit PBMPLUS files to grayscale or CMYK pixels, as it already does for 8-bit files. - Properly accommodate lossless JPEG using dedicated parameters (TJ*PARAM_LOSSLESS, TJ*PARAM_LOSSLESSPSV, and TJ*PARAM_LOSSLESSPT), rather than using a flag and awkwardly repurposing the JPEG quality. Update TJBench to properly reflect whether a JPEG image is lossless. - Re-organize the TJBench usage screen. - Update the Java docs using Java 11, to improve the formatting and eliminate HTML frames. - Use the accurate integer DCT algorithm by default for both compression and decompression, since the "fast" algorithm is a legacy feature, it does not pass the ISO compliance tests, and it is not actually faster on modern x86 CPUs. * Remove the -accuratedct option from TJBench and TJExample. - Re-implement the 'tjtest' target using a CMake script that enables the appropriate tests, depending on the data precision and whether or not the Java API is part of the build. - Consolidate the C and Java versions of tjbenchtest into one script. - Consolidate the C and Java versions of tjexampletest into one script. - Combine all initialization functions into a single function (tj3Init()) that accepts an integer parameter specifying the subsystems to initialize. - Enable decompression scaling explicitly, using a new function/method (tj3SetScalingFactor()/TJDecompressor.setScalingFactor()), rather than implicitly using awkward "desired width"/"desired height" parameters. - Introduce a new macro/constant (TJUNSCALED/TJ.UNSCALED) that maps to a scaling factor of 1/1. - Implement partial image decompression, using a new function/method (tj3SetCroppingRegion()/TJDecompressor.setCroppingRegion()) and TJBench option (-crop). Extend tjbenchtest to test the new feature. Addresses #1. - Allow the JPEG colorspace to be specified explicitly when compressing, using a new parameter (TJ*PARAM_COLORSPACE). This allows JPEG images with the RGB and CMYK colorspaces to be created. - Remove the error/difference image feature from TJBench. Identical images to the ones that TJBench created can be generated using ImageMagick with 'magick composite <original_image> <output_image> -compose difference <diff_image>' - Handle JPEG images with unknown subsampling types. TJ*PARAM_SUBSAMP is set to TJ*SAMP_UNKNOWN (== -1) for such images, but they can still be decompressed fully into packed-pixel images or losslessly transformed (with the exception of lossless cropping.) They cannot be partially decompressed or decompressed into planar YUV images. Note also that TJBench, due to its lack of support for imperfect transforms, requires that the subsampling type be known when rotating, flipping, or transversely transposing an image. Addresses #436 - The Java version of TJBench now has identical functionality to the C version. This was accomplished by (somewhat hackishly) calling the TurboJPEG C image I/O functions through JNI and copying the pixels between the C heap and the Java heap. - Add parameters (TJ*PARAM_RESTARTROWS and TJ*PARAM_RESTARTBLOCKS) and a TJBench option (-restart) to allow the restart marker interval to be specified when compressing. Eliminate the undocumented TJ_RESTART environment variable. - Add a parameter (TJ*PARAM_OPTIMIZE), a transform option (TJ*OPT_OPTIMIZE), and a TJBench option (-optimize) to allow optimized baseline Huffman coding to be specified when compressing. Eliminate the undocumented TJ_OPTIMIZE environment variable. - Add parameters (TJ*PARAM_XDENSITY, TJ*PARAM_DENSITY, and TJ*DENSITYUNITS) to allow the pixel density to be specified when compressing or saving a Windows BMP image and to be queried when decompressing or loading a Windows BMP image. Addresses #77. - Refactor the fuzz targets to use the new API. * Extend decompression coverage to 12-bit and 16-bit data precision. * Replace the awkward cjpeg12 and cjpeg16 targets with proper TurboJPEG-based compress12, compress12-lossless, and compress16-lossless targets - Fix innocuous UBSan warnings uncovered by the new fuzzers. - Implement previous versions of the TurboJPEG API by wrapping the new functions (tested by running the 2.1.x versions of TJBench, via tjbenchtest, and TJUnitTest against the new implementation.) * Remove all JNI functions for deprecated Java methods and implement the deprecated methods using pure Java wrappers. It should be understood that backward API compatibility in Java applies only to the Java classes and that one cannot mix and match a JAR file from one version of libjpeg-turbo with a JNI library from another version. - tj3Destroy() now silently accepts a NULL handle. - tj3Alloc() and tj3Free() now return/accept void pointers, as malloc() and free() do. - The image I/O functions now accept a TurboJPEG instance handle, which is used to transmit/receive parameters and to receive error information. Closes #517

52659f4f

2023-01-23T09:55:13

Merge branch 'main' into dev

af1b4c8d

2023-01-21T18:31:20

TJBench: Unset TJ*OPT_CROP when disabling tiling Otherwise, if the input image is a JPEG image, then an unnecessary lossless transformation will be performed.

7ab6222c

2023-01-20T14:09:25

Merge branch 'main' into dev

98a64558

2023-01-20T13:14:11

TJBench: Set TJ*OPT_PROGRESSIVE with -progressive The documented behavior of the -progressive option is to use progressive entropy coding in JPEG images generated by compression and transform operations. However, setting TJFLAG_PROGRESSIVE was insufficient to accomplish that, because TJBench doesn't enable lossless transformation if xformOpt == 0.

b99e7590

2023-01-20T10:50:21

TJBench/Java: Fix parsing of quality ranges

28c2e607

2023-01-18T15:31:04

TJBench: Strictly check all non-boolean arguments + document that the value of -yuvpad must be a power of 2 (refer to d2608583955f060ae7efa950a94d921fdd387d58)

fb15efe9

2023-01-18T06:44:46

TurboJPEG: More documentation improvements - TJBench/TJUnitTest: Wordsmith command-line output - Java: "decompress operations"="decompression operations" - tjLoadImage(): Error message tweak - Don't mention compression performance in the description of TJXOPT_PROGRESSIVE/TJTransform.OPT_PROGRESSIVE, because the image has already been compressed at that point. (Oversights from 9a146f0f23b01869e1bf7c478e12b43f83d59c32)

d4589f4f

2023-01-14T18:07:53

Merge branch 'main' into dev

9a146f0f

2023-01-06T10:29:10

TurboJPEG: Numerous documentation improvements - Wordsmithing, formatting, and grammar tweaks - Various clarifications and corrections, including specifying whether a particular buffer or image is used as a source or destination - Accommodate/mention features that were introduced since the API documentation was created. - For clarity, use "packed-pixel" to describe uncompressed source/destination images that are not planar YUV. - Use "row" rather than "line" to refer to a single horizontal group of pixels or component values, for consistency with the libjpeg API documentation. (libjpeg also uses "scanline", which is a more archaic term.) - Use "alignment" rather than "padding" to refer to the number of bytes by which a row's width is evenly divisible. This consistifies the documention of the YUV functions and tjLoadImage(). ("Padding" typically refers to the number of bytes added to each row, which is not the same thing.) - Remove all references to "the underlying codec." Although the TurboJPEG API originated as a cross-platform wrapper for the Intel Integrated Performance Primitives, Sun mediaLib, QuickTime, and libjpeg, none of those TurboJPEG implementations has been maintained since 2009. Nothing would prevent someone from implementing the TurboJPEG API without libjpeg-turbo, but such an implementation would not necessarily have an "underlying codec." (It could be fully self-contained.) - Use "destination image" rather than "output image", for consistency, or describe the type of image that will be output. - Avoid the term "image buffer" and instead use "byte buffer" to refer to buffers that will hold JPEG images, or describe the type of image that will be contained in the buffer. (The Java documentation doesn't use "byte buffer", because the buffer arrays literally have "byte" in front of them, and since Java doesn't have pointers, it is not possible for mere mortals to store any other type of data in those arrays.) - C: Use "unified" to describe YUV images stored in a single buffer, for consistency with the Java documentation. - Use "planar YUV" rather than "YUV planar". Is is our convention to describe images using {component layout} {colorspace/pixel format} {image function}, e.g. "packed-pixel RGB source image" or "planar YUV destination image." - C: Document the TurboJPEG API version in which a particular function or macro was introduced, and reorder the backward compatibility function stubs in turbojpeg.h alphabetically by API version. - C: Use Markdown rather than HTML tags, where possible, in the Doxygen comments.

98ff1fd1

2022-11-21T20:57:39

TurboJPEG: Add lossless JPEG detection capability Add a new TurboJPEG C API function (tjDecompressHeader4()) and Java API method (TJDecompressor.getFlags()) that return the bitwise OR of any flags that are relevant to the JPEG image being decompressed (currently TJFLAG_PROGRESSIVE, TJFLAG_ARITHMETIC, TJFLAG_LOSSLESS, and their Java equivalents.) This allows a calling program to determine whether the image being decompressed is a lossless JPEG image, which means that the decompression scaling feature will not be available and that a full-sized destination buffer should be allocated. More specifically, this fixes a buffer overrun in TJBench, TJExample, and the decompress* fuzz targets that occurred when attempting (in vain) to decompress a lossless JPEG image with decompression scaling enabled.

25ccad99

2022-11-16T15:57:25

TurboJPEG: 8-bit lossless JPEG support

6002720c

2022-11-15T23:10:35

TurboJPEG: Opt. enable arithmetic entropy coding

14ce28a9

2022-01-29T12:33:40

TJBench: Remove innocuous always-true condition This was accidentally introduced into tjbench.c in 890f1e0413b54c40b663208779d4ea9dae20eaef and ported into the Java version from there. Based on https://github.com/libjpeg-turbo/libjpeg-turbo/pull/571/commits/4be6d4e7bdd09a73ee8456aa07693afa31ef2148 Refer to #571

c81e91e8

2021-04-05T16:08:22

TurboJPEG: New flag for limiting prog JPEG scans This also fixes timeouts reported by OSS-Fuzz.

ac59b2c5

2019-11-04T18:49:46

TJBench: Fix output with -componly -quiet

ad8330af

2019-07-12T17:28:55

TJBench.java: Remove space in method invocation (to make checkstyle happy)

2a9e3bd7

2019-07-11T15:30:04

TurboJPEG: Properly handle gigapixel images Prevent several integer overflow issues and subsequent segfaults that occurred when attempting to compress or decompress gigapixel images with the TurboJPEG API: - Modify tjBufSize(), tjBufSizeYUV2(), and tjPlaneSizeYUV() to avoid integer overflow when computing the return values and to return an error if such an overflow is unavoidable. - Modify tjunittest to validate the above. - Modify tjCompress2(), tjEncodeYUVPlanes(), tjDecompress2(), and tjDecodeYUVPlanes() to avoid integer overflow when computing the row pointers in the 64-bit TurboJPEG C API. - Modify TJBench (both C and Java versions) to avoid overflowing the size argument to malloc()/new and to fail gracefully if such an overflow is unavoidable. In general, this allows gigapixel images to be accommodated by the 64-bit TurboJPEG C API when using automatic JPEG buffer (re)allocation. Such images cannot currently be accommodated without automatic JPEG buffer (re)allocation, due to the fact that tjAlloc() accepts a 32-bit integer argument (oops.) Such images cannot be accommodated in the TurboJPEG Java API due to the fact that Java always uses a signed 32-bit integer as an array index. Fixes #361

0fa5ae6b

2019-01-01T21:16:33

TJBench Java: Properly handle transform warnings + warnings from TJDecompressor.decompressHeader()

53bb9418

2018-05-15T14:51:49

Java: Reformat code per checkstyle recommendations ... and modify tjbench.c to match the variable name changes made to TJBench.java ("checkstyle" = http://checkstyle.sourceforge.net, not our regex-based checkstyle script)

19c791cd

2018-03-08T10:55:20

Improve code formatting consistency With rare exceptions ... - Always separate line continuation characters by one space from preceding code. - Always use two-space indentation. Never use tabs. - Always use K&R-style conditional blocks. - Always surround operators with spaces, except in raw assembly code. - Always put a space after, but not before, a comma. - Never put a space between type casts and variables/function calls. - Never put a space between the function name and the argument list in function declarations and prototypes. - Always surround braces ('{' and '}') with spaces. - Always surround statements (if, for, else, catch, while, do, switch) with spaces. - Always attach pointer symbols ('*' and '**') to the variable or function name. - Always precede pointer symbols ('*' and '**') by a space in type casts. - Use the MIN() macro from jpegint.h within the libjpeg and TurboJPEG API libraries (using min() from tjutil.h is still necessary for TJBench.) - Where it makes sense (particularly in the TurboJPEG code), put a blank line after variable declaration blocks. - Always separate statements in one-liners by two spaces. The purpose of this was to ease maintenance on my part and also to make it easier for contributors to figure out how to format patch submissions. This was admittedly confusing (even to me sometimes) when we had 3 or 4 different style conventions in the same source tree. The new convention is more consistent with the formatting of other OSS code bases. This commit corrects deviations from the chosen formatting style in the libjpeg API code and reformats the TurboJPEG API code such that it conforms to the same standard. NOTES: - Although it is no longer necessary for the function name in function declarations to begin in Column 1 (this was historically necessary because of the ansi2knr utility, which allowed libjpeg to be built with non-ANSI compilers), we retain that formatting for the libjpeg code because it improves readability when using libjpeg's function attribute macros (GLOBAL(), etc.) - This reformatting project was accomplished with the help of AStyle and Uncrustify, although neither was completely up to the task, and thus a great deal of manual tweaking was required. Note to developers of code formatting utilities: the libjpeg-turbo code base is an excellent test bed, because AFAICT, it breaks every single one of the utilities that are currently available. - The legacy (MMX, SSE, 3DNow!) assembly code for i386 has been formatted to match the SSE2 code (refer to ff5685d5344273df321eb63a005eaae19d2496e3.) I hadn't intended to bother with this, but the Loongson MMI implementation demonstrated that there is still academic value to the MMX implementation, as an algorithmic model for other 64-bit vector implementations. Thus, it is desirable to improve its readability in the same manner as that of the SSE2 implementation.

4893e5d8

2017-11-17T19:00:53

Merge branch 'master' into dev

f3ad13e3

2017-11-13T16:00:35

TJBench/TJUnitTest: Don't ignore mistyped args

c9453121

2017-06-29T16:49:09

TJBench: Recover from non-fatal errors if possible Previously, -stoponwarning only had an effect on the underlying TurboJPEG C functions, but TJBench still aborted if a non-fatal error occurred. This commit modifies the C version of TJBench such that it always recovers from a non-fatal error unless -stoponwarning is specified. Furthermore, the benchmark stores the details of the last non-fatal error and does not print any subsequent non-fatal error messages unless they differ from the last one. Due to limitations in the Java API (specifically, the fact that it cannot communicate errors, fatal or otherwise, to the calling program without throwing a TJException), it was only possible to make decompression operations fully recoverable within TJBench. With other operations, -stoponwarning still has an effect on the underlying C library but has no effect at the Java level. The Java API documentation has been amended to reflect that only certain methods are truly recoverable, regardless of the state of TJ.FLAG_STOPONWARNING.

dadebcd7

2017-06-28T11:43:08

TurboJPEG: Add "copy none", progressive xform opts Allow progressive entropy coding to be enabled on a transform-by-transform basis, and implement a new transform option for disabling the copying of markers. Closes #153

dedce66e

2017-06-28T15:30:41

Merge branch 'master' into dev

e248d430

2017-06-28T14:40:35

Java TJBench: Fix parsing of -warmup argument Due to an oversight, this wasn't included in 1db1ce45da2e78d87ff05119b674c71d630926aa.

1db1ce45

2017-06-27T14:22:39

TJBench: Improve consistency of results Given that libjpeg-turbo can often process hundreds of megapixels/second on modern hardware, the default of one warmup iteration was essentially meaningless. Furthermore, the -warmup option was a bit clunky, since it required some foreknowledge of how fast the benchmarks were going to execute. This commit introduces a 1-second warmup interval for each benchmark by default, and the -warmup option has been retasked to control the length of that interval.

aba6ae59

2017-06-27T13:24:08

TurboJPEG: Opt. enable progressive entropy coding Fulfills part of the feature request in #153. Also paves the way for SIMD-accelerated progressive Huffman coding (refer to #46.)

d4092f6b

2017-06-27T10:54:21

TurboJPEG: Improve error handling - Provide a new C API function and TJException method that allows calling programs to query the severity of a compression/decompression/ transform error. - Provide a new flag that instructs the library to immediately stop compressing/decompressing/transforming if a warning is encountered. Fixes #151

11eec4a3

2017-06-26T20:48:02

TJBench: Fix errors when decomp. files w/ ICC data Embedded ICC profiles can cause the size of a JPEG file to exceed the size returned by tjBufSize() (which is really meant to be used for compression anyhow, not for decompression), and this was causing a segfault (C) or an ArrayIndexOutOfBoundsException (Java) when decompressing such files with TJBench. This commit modifies the benchmark such that, when tiled decompression is disabled, it re-uses the source buffer as the primary JPEG buffer.

74e4c793

2016-11-16T15:08:16

TJBench: Fix regression/-nowrite always enabled Introduced by eb59b6e72d8098a1f7b8c7e0c710b32eb6f5dc45

eb59b6e7

2016-01-11T22:27:38

Add -nowrite arg to TJBench to improve consistency Prevents any images from being written to disk, thus making the performance of the benchmark as CPU-bound as possible.

d92949b0

2014-08-22T03:00:37

Run the TurboJPEG conformance tests out of a directory in /tmp (for improved performance, if the source directory is on a remote file share.) Fix an issue in TJBench.java that prevented it from working properly if the source image resided in a directory with a dot in the name. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1373 632fc199-4ca6-4c93-a231-07263d6284db

a1a920cc

2014-08-22T02:51:16

Run the TurboJPEG conformance tests out of a directory in /tmp (for improved performance, if the source directory is on a remote file share.) Fix an issue in TJBench.java that prevented it from working properly if the source image resided in a directory with a dot in the name. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1371 632fc199-4ca6-4c93-a231-07263d6284db

7a6ed075

2014-03-17T11:14:52

Extend YUVImage class to allow reuse of the same buffer with different metadata; port TJBench changes that treat YUV encoding/decoding as an intermediate step of the JPEG compression/decompression pipeline rather than a separate test case; add YUV encode/decode tests to the Java version of tjbenchtest git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1184 632fc199-4ca6-4c93-a231-07263d6284db

6e11d689

2014-03-17T10:19:42

Fix an error that occurred when trying to use the lossless transform feature without specifying -quiet; formatting tweak git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1182 632fc199-4ca6-4c93-a231-07263d6284db

2ae7918a

2014-03-17T10:14:18

Fix an error that occurred when trying to use the lossless transform feature without specifying -quiet; formatting tweak git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1181 632fc199-4ca6-4c93-a231-07263d6284db

4dafea68

2014-03-17T10:13:17

Move the garbage collection of the JPEG tiles into the decompression function to increase the chances that tiled decompression of large images will succeed without an OutOfMemoryError. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1180 632fc199-4ca6-4c93-a231-07263d6284db

88f260c7

2014-03-17T10:12:11

Move the garbage collection of the JPEG tiles into the decompression function to increase the chances that tiled decompression of large images will succeed without an OutOfMemoryError. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1179 632fc199-4ca6-4c93-a231-07263d6284db

fc26b657

2014-03-16T22:56:26

Extend the YUV decode functionality to the TurboJPEG Java API, and port the TJUnitTest modifications that treat YUV encoding/decoding as an intermediate step of the JPEG compression/decompression pipeline rather than a separate test case; Add the ability to encode YUV images from an arbitrary position in a large image buffer; Significantly refactor the handling of YUV images; numerous doc tweaks; other Java API cleanup and usability improvements git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1176 632fc199-4ca6-4c93-a231-07263d6284db

695b6e86

2014-03-16T19:33:07

Don't use deprecated constructor git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1174 632fc199-4ca6-4c93-a231-07263d6284db

c33347c0

2014-03-15T13:25:11

Add @Deprecated to the deprecated Java methods, so javac will actually print deprecation warnings, as opposed to just listing the methods as deprecated in javadoc; remove the use of the deprecated methods by our own test programs. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1171 632fc199-4ca6-4c93-a231-07263d6284db

b1481394

2014-03-14T08:53:33

Streamline the BufferedImage functionality in the compressor so that it works the same way as compressing a "normal" image, and deprecate the old BufferedImage methods and other redundant methods. Eliminate the use of deprecated features in the test programs. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1168 632fc199-4ca6-4c93-a231-07263d6284db

d4b453c2

2014-03-11T08:28:47

Back-port the -subsamp option from 1.4 rather than use the hackish approach of replacing 4:2:2 with 4:4:0. This has the added advantage of allowing the user to test only a specific level of subsampling. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1153 632fc199-4ca6-4c93-a231-07263d6284db

db0e2791

2014-03-11T08:25:59

Oops. This was apparently the victim of an overly aggressive search/replace. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1152 632fc199-4ca6-4c93-a231-07263d6284db

2e8ff4b0

2013-11-05T19:53:12

Add the ability to test scaling when decompressing to YUV; compression from YUV to JPEG; and YUV padding. Replace clunky -411 and -440 parameters with a -subsamp parameter that allows any of the subsampling options to be tested in isolation. git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1075 632fc199-4ca6-4c93-a231-07263d6284db

aba7ceda

2013-08-23T07:13:59

Oops. Forgot to implement access method for the colorspace & extend TJBench git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1022 632fc199-4ca6-4c93-a231-07263d6284db

a5830628

2013-08-18T11:04:21

Add 4:1:1 subsampling support in the TurboJPEG Java API git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1017 632fc199-4ca6-4c93-a231-07263d6284db

ae92418c

2013-08-18T10:47:07

Add note regarding the fact that 4:4:0 lacks full SIMD support; Add an option for benchmarking 4:4:0 subsampling in TJBench; Wordsmithing; Disable timestamp in generated HTML files to make diffing and merging easier git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@1016 632fc199-4ca6-4c93-a231-07263d6284db

f82b9f96

2013-08-18T10:39:30

Add note regarding the fact that 4:4:0 lacks full SIMD support; Add an option for benchmarking 4:4:0 subsampling in TJBench; Wordsmithing; Disable timestamp in generated HTML files to make diffing and merging easier git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@1015 632fc199-4ca6-4c93-a231-07263d6284db

67bee868

2013-04-27T12:36:07

Code formatting tweaks git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/branches/1.3.x@968 632fc199-4ca6-4c93-a231-07263d6284db

fac3bea8

2012-09-24T02:27:55

Add a Java version of TJBench and extend the TurboJPEG Java API to support it (this involved adding a polymorphic method in TJCompressor that accepts x and y offsets into a larger buffer, similar to the previous modification that had been done to TJDecompressor.) git-svn-id: svn+ssh://svn.code.sf.net/p/libjpeg-turbo/code/trunk@862 632fc199-4ca6-4c93-a231-07263d6284db

kc3-lang/libjpeg-turbo/java/TJBench.java

java/TJBench.java

Log