* commit '8a2cad020171184a49fa8696df0b9e267f1cf2f6': (99 commits)
Build: Handle CMAKE_OSX_ARCHITECTURES=(i386|ppc)
Add Sponsor button for GitHub repository
Build: Support CMAKE_OSX_ARCHITECTURES
cjpeg: Fix FPE when compressing 0-width GIF
Fix build with Visual C++ and /std:c11 or /std:c17
Neon: Fix Huffman enc. error w/Visual Studio+Clang
Use CLZ compiler intrinsic for Windows/Arm builds
Build: Use correct SIMD exts w/VStudio IDE + Arm64
jcphuff.c: Fix compiler warning with clang-cl
Migrate from Travis CI to GitHub Actions
tjexample.c: Fix mem leak if tjTransform() fails
Build: Officially support Ninja
decompress_smooth_data(): Fix another uninit. read
LICENSE.md: Remove trailing whitespace
Build: Test for correct AArch32 RPM/DEBARCH value
LICENSE.md: Formatting tweak
Fix uninitialized read in decompress_smooth_data()
Fix buffer overrun with certain narrow prog JPEGs
Bump revision to 2.0.91 for post-beta fixes
Travis: Use Docker tag that matches Git branch
...
- Rename IOS_ARMV8_BUILD to ARMV8_BUILD.
- Rename install_ios() to install_subbuild() in makemacpkg.
- Wordsmith the build instructions accordingly.
- Use xcode12.2 image in Travis CI.
This allows the Neon intrinsics code to be built successfully (albeit
likely with reduced run-time performance) with Xcode 5.0-6.2
(iOS/AArch64) and Android NDK < r19 (AArch32). Note that Xcode 5.0-6.2
will not build the Armv8 GAS code without gas-preprocessor.pl, and no
version of Xcode will build the Armv7 GAS code without
gas-preprocessor.pl, so we always use the full Neon intrinsics
implementation by default with macOS and iOS builds.
Auto-detecting the completeness of the compiler's set of Neon intrinsics
also allows us to more intelligently set the default value of
NEON_INTRINSICS, based on the values of HAVE_VLD1*. This is a
reasonable, albeit imperfect, proxy for whether a compiler has a full
and optimal set of Neon intrinsics. Specific notes:
- 64-bit RGB-to-YCbCr color conversion
does not use any of the intrinsics in question, regresses with GCC
- 64-bit accurate integer forward DCT
uses vld1_s16_x3(), regresses with GCC
- 64-bit Huffman encoding
uses vld1q_u8_x4(), regresses with GCC
- 64-bit YCbCr-to-RGB color conversion
does not use any of the intrinsics in question, regresses with GCC
- 64-bit accurate integer inverse DCT
uses vld1_s16_x3(), regresses with GCC
- 64-bit 4x4 inverse DCT
uses vld1_s16_x3(). I did not test this algorithm in isolation, so
it may in fact regress with GCC, but the regression may be hidden by
the speedup from the new SIMD-accelerated upsampling algorithms.
- 32-bit RGB-to-YCbCr color conversion:
uses vld1_u16_x2(), regresses with GCC
- 32-bit accurate integer forward DCT
uses vld1_s16_x3(), regression irrelevant because there was no
previous implementation
- 32-bit accurate integer inverse DCT
uses vld1_s16_x3(), regresses with GCC
- 32-bit fast integer inverse DCT
does not use any of the intrinsics in question, regresses with GCC
- 32-bit 4x4 inverse DCT
uses vld1_s16_x3(). I did not test this algorithm in isolation, so
it may in fact regress with GCC, but the regression may be hidden by
the speedup from the new SIMD-accelerated upsampling algorithms.
Presumably when GCC includes a full and optimal set of Neon intrinsics,
the HAVE_VLD1* tests will pass, and the full Neon intrinsics
implementation will be enabled automatically.
- Remove gas-preprocessor.pl. None of the compilers that can build the
new intrinsics implementation require gas-preprocessor.pl (tested
with Xcode and with Clang 3.9+ for Linux.)
- Document that Xcode 6.3.x or later is now required for iOS builds
(older versions of Xcode do not have a full set of Neon intrinsics.)
- Add a change log entry.
- Do not enable the ASM CMake language unless NEON_INTRINSICS is false.
- Add a Clang/Arm64 test to .travis.yml in order to test the new
intrinsics implementation.
Closes#455
We haven't provided official Cygwin builds since 1.4.x, since Cygwin
now supplies its own libjpeg-turbo packages (although they apparently
haven't been updated past 1.5.3.)
Splitting the pointer arithmetic in GET_SYM() into a separate add and
sub instruction was an attempt to work around an error ("invalid operand
type") that occurred when assembling the file with NASM. However, this
created a link error on macOS ("ld: illegal text-relocation to
'_jconst_huff_encode_one_block' in
simd/CMakeFiles/simd.dir/i386/jchuff-sse2.asm.o from
'_jsimd_huff_encode_one_block_sse2' in
simd/CMakeFiles/simd.dir/i386/jchuff-sse2.asm.o for architecture i386")
and also changed the alignment of the code in ways that might have
affected the previous benchmark results (which took a great deal of time
to obtain.) Ultimately, the path of least resistance is just to
require NASM 2.13 or later.
(AKA "Java for OS X systems.") This implementation of Java 1.6 is long
obsolete and not supported on any version of macOS past High Sierra.
Oracle no longer provides a 32-bit JVM on macOS, so it is no longer
necessary to provide a 32-bit version of the TurboJPEG Java wrapper on
macOS.
Use the android.toolchain.cmake toolchain file in the NDK (v13b or
later), since this toolchain file generally takes care of setting the
approprate compiler flags and dealing with the differences between
GCC and Clang. Our custom Android build procedure did not work with
Clang-based NDK toolchains, which meant that it could not be made to
work with NDK v18b or later.
Fixes#309
- CMake 3.10.x or later must be used with JDK 11, or an error
("regex not supported") will occur when CMake tries to parse the Java
version number.
- The JDK is no longer available at java.com.
NDK r16b moved some things around, so modify the Android build recipes
to take that into account while preserving compatibility with previous
NDK releases.
NOTE: the GCC 4.9 NDK toolchain is deprecated, so we will need to
develop new Android build recipes for libjpeg-turbo 1.6 that use the
Clang toolchain.
Closes#196
Introduce a new C API function (tjGetErrorStr2()) that can be used to
retrieve compression/decompression/transform error messages in a
thread-safe (i.e. instance-specific) manner. Retrieving error messages
from global functions is still thread-unsafe.
Addresses a concern expressed in #151.
- GNUInstallDirs: any directory variable can now reference any other
directory variable by including its name in angle brackets (<>).
- Changed the documentation of the directory variables in BUILDING.md
accordingly. This commit also includes some formatting tweaks to
that section (using boldface for directory names, as is our
convention.)
- Changed the package scripts such that they use
CMAKE_INSTALL_DATAROOTDIR rather than CMAKE_INSTALL_DATADIR.
- We no longer override the install dir. defaults on Windows unless
performing an official build. It may be useful, for instance, to
use the GNU defaults when installing into an MSYS environment.
It isn't actually necessary to specify `CMAKE_INSTALL_DEFAULT_MANDIR`
for our official build. Because `CMAKE_INSTALL_DEFAULT_DATAROOTDIR` is
blank for the official build, the default of "<DATAROOTDIR>/man" will
resolve to "man".
For the same reason, this commit changes the specification of
`CMAKE_INSTALL_DEFAULT_DOCDIR` and `CMAKE_INSTALL_DEFAULT_JAVADIR` in
the official build to be dependent on the data root directory (mainly to
make it obvious what we're doing.)
This commit also tweaks the example CMake command line in the directory
variable documentation so that it shows the correct location of the
CMake argument.
This builds upon the existing GNUInstallDirs module in CMake but adds
the following features to that module:
- The ability to override the defaults for each install directory
through a new set of variables (`CMAKE_INSTALL_DEFAULT_*DIR`).
Before operating system vendors began shipping libjpeg-turbo, it was
meant to be a run-time drop-in replacement for the system's
distribution of libjpeg, so it has traditionally installed itself
under /opt/libjpeg-turbo on Un*x systems by default. On Windows, it
has traditionally installed itself under %SystemDrive%\libjpeg-turbo*,
which is not uncommon behavior for open source libraries (open source
SDKs tend to install outside of the Program Files directory so as to
avoid spaces in the directory name.) At least in the case of Un*x,
the install directory behavior is based somewhat on the Solaris
standard, which requires all non-O/S packages to install their files
under /opt/{package_name}. I adopted that standard for VirtualGL and
TurboVNC while working at Sun, because it allowed those packages to be
located under the same directory on all platforms. I adopted it for
libjpeg-turbo because it ensured that our files would never conflict
with the system's version of libjpeg. Even though many Un*x
distributions ship libjpeg-turbo these days, not all of them ship the
TurboJPEG API library or the Java classes or even the latest version
of the libjpeg API library, so there are still many cases in which it
is desirable to install a separate version of libjpeg-turbo than the
one installed by the system. Furthermore, installing the files under
/opt mimics the directory structure of our official binary packages,
and it makes it very easy to uninstall libjpeg-turbo.
For these reasons, our build system needs to be able to use
non-GNU-compliant defaults for each install directory if
`CMAKE_INSTALL_PREFIX` is set to the default value.
- For each directory variable, the module now detects changes to
`CMAKE_INSTALL_PREFIX` and changes the directory variable accordingly,
if the variable has not been changed by the user.
This makes it easy to switch between our "official" directory
structure and the GNU-compliant directory structure "on the fly"
simply by changing `CMAKE_INSTALL_PREFIX`. Also, this new mechanism
eliminated the need for the crufty mechanism that previously did the
same thing just for the library directory variable.
How it should work:
- If a dir variable is unset, then the module will set an internal
property indicating that the dir variable was initialized to its
default value.
- If the dir variable ever diverges from its default value, then the
internal property is cleared, and it cannot be set again without
unsetting the dir variable.
- If the install prefix changes, and if the internal property
indicates that the dir variable is still set to its default value,
and if the dir variable's value is not being manually changed at the
same time that the install prefix is being changed, then the dir
variable's value is automatically changed to the new default value
for that variable (as determined by the new install prefix.)
- The directory variables are now always cached, regardless of whether
they were set on the command line or not. This ensures that they can
easily be examined and modified after being set, regardless of how they
were set.
This was made possible by the introduction of the aforementioned
`CMAKE_INSTALL_DEFAULT_*DIR` variables.
- Improved directory variable documentation (based on descriptions at
https://www.gnu.org/prep/standards/html_node/Directory-Variables.html)
- The module now allows "<DATAROOTDIR>" to be used as a placeholder in
relative directory variables.
It is replaced "on the fly" with the actual path of
`CMAKE_INSTALL_DATAROOTDIR`.
This should more closely mimic the behavior of the old autotools build
system while retaining our customizations to it, and it should retain
the behavior of the old CMake build system.
Closes#124
Updated out-of-date information, wordsmithed and clarified many
sections, and generally cleaned up the build recipes (including a
complete overhaul of the iOS recipes.)
