This is still used by some users of Fuchsia toolchain. Also include
llc and opt which is useful for development and testing.
Differential Revision: https://reviews.llvm.org/D32231
llvm-svn: 300917
Add the 'z3' subdirectory to the list of possible path suffixes for
libz3 header search. The z3 headers are installed in /usr/include/z3
on Gentoo.
Differential Revision: https://reviews.llvm.org/D31756
llvm-svn: 299813
Summary:
This change should fixes the export of CLANG_INCLUDE_DIRS variable in ClangConfig.cmake.
Unlike for the other variables, CLANG_INSTALL_PREFIX wasn't escaped meaning CLANG_INCLUDE_DIRS
resulting in the path "/include" instead of "${CLANG_INSTALL_PREFIX}/include".
Reviewers: beanz
Subscribers: mgorny
Differential Revision: https://reviews.llvm.org/D30911
llvm-svn: 298424
These cache files can be used to build Fuchsia toolchain. They also
demonstrate the use of multi-target builtins build.
Differential Revision: https://reviews.llvm.org/D26654
llvm-svn: 295480
Include a path hint for find_package() in ClangConfig.cmake to ensure
that CMake prefers LLVM installed alongside clang over the default
search path.
If two versions of LLVM are installed in the system, and one of them is
in PATH, CMake's find_package() magic prefers the CMake directory
alongside that install by default. Adding a relative hint makes it
possible to prioritize to the install from which find_package() is
called.
If you want to build e.g. LLDB against another install of LLVM, you can
pass LLVM_CONFIG override. In this case, LLDB queries the prefix from
llvm-config and uses the CMake files located there. However, when
including ClangConfig, the implicit find_package() nevertheless prefers
PATH-found LLVM over the one used previously by LLDB, and two versions
of LLVMConfig end up being loaded.
This could be fixed on LLDB end up by explicitly forcing custom package
search location. However, it seems simpler and safer to add a hint to
ClangConfig than to track every usage of ClangConfig.
Differential Revision: https://reviews.llvm.org/D29304
llvm-svn: 293632
When using LLVM_DISTRIBUTION_COMPONENTS, it's possible for clang's
export list to be empty. If this happens the install(EXPORTS) command
will fail, but since there isn't anything to install anyway we really
just want to skip it.
llvm-svn: 286210
We need to apply the same export logic in clang as in llvm for
LLVM_DISTRIBUTION_COMPONENTS, or the clang exports will be invalid
when we use this config.
This makes using distribution components without setting
LLVM_TOOLCHAIN_ONLY=On work correctly.
llvm-svn: 286181
These cache file are provided as an example of how to set up simple multi-stage CMake builds. I have a batch of documentation updates for LLVM.org which reference these files.
llvm-svn: 285206
This is needed by downstream projects such as swift to get proper cmake
dependency information for LLVM/Clang targets.
A few months ago I added support for exporting this information for Clang
libraries. In order to be incremental, I did not add support for exporting clang
tools as well at that time. Now such support is needed, so I am committing this
incremental code.
llvm-svn: 284658
The Xcode toolchain targets are useful on OS X hosts because you can construct and install multiple toolchians that can be used seamlessly.
llvm-svn: 278987
This patch adds a few new convenience options used by the PGO CMake cache to setup options on bootstrap stages. The new options are:
PGO_INSTRUMENT_LTO - Builds the instrumented and final builds with LTO
PGO_BUILD_CONFIGURATION - Accepts a CMake cache script that can be used for complex configuration of the stage2-instrumented and stage2 builds.
The patch also includes a fix for bootstrap dependencies so that the instrumented LTO tools don't get used when building the final stage, and it adds distribution targets to the passthrough.
llvm-svn: 278862
LLVM_BUILD_TOOLS is a boolean variable that controls whether or not generated
targets for llvm tools are built by the "all" target. CLANG_BUILD_TOOLS is an
analogous variable for clang targets.
This is useful functionality for selectively disabling the building of clang
targets by default to speed up builds.
In terms of implementation, I just followed the model of LLVM's implementation
of this functionality.
llvm-svn: 275006
This matches how LLVM has its cmake files organized and is cleaner than just
shoving this business logic into the main CMakeLists.txt.
llvm-svn: 274992
This ensures that the values do not bleed over in between computations. It may
make sense in the future to just refactor this code into functions to provide
"true scoping".
llvm-svn: 274179
This is an obvious bug since ClangConfig.cmake looks for ClangTargets.cmake in
${CMAKE_CURRENT_LIST_DIR}. But ClangTargets.cmake is in
${CMAKE_BINARY_DIR}/${CLANG_INSTALL_PACKAGE_DIR}, so it will always fail with an
in tree build.
In the case where clang is built out of tree, this is still correct since
CMAKE_BINARY_DIR and CLANG_BINARY_DIR will be the same.
llvm-svn: 274168
The Apple stage2 build should include compiler-rt iOS libraries and be built with the stage2 compiler. This matches Apple's production clang builds.
llvm-svn: 267584
This is a big update that gets the public configurations more in line with the ones we're actually using internally to ship Clang in Xcode.
From here forward I expect most of the changes in these files to be incremental as the changes get made internally.
llvm-svn: 263483
This patch causes the 3-stage build pipeline to only build a host compiler in the first stage, and to build all targets for subsequent stages. The host target is determined via the Native target specifier added in r262070.
llvm-svn: 262071
ClangConfig requires LLVMConfig, so add find_package call in
ClangConfig so find_package(clang REQUIRED CONFIG) will just work. This
makes it easier for cmake based projects to use clang, e.g., tools using
ClangTooling.
Patch by Don Hinton
Differential Revision: http://reviews.llvm.org/D13622
llvm-svn: 261290
I had hoped this would work from a single cache file, but turns out there is a bug I can't quite figure out relating to passing list arguments to recursive CMake invocations.
This change works around that.
llvm-svn: 260340
This cache file can be used to generate a 3-stage clang build. You can configure using the following CMake command:
cmake -C <path to clang>/cmake/caches/3-stage.cmake -G Ninja <path to llvm>
You can then run "ninja stage3-clang" to build stage1, stage2 and stage3 clangs.
This is useful for finding non-determinism the compiler by verifying that stage2 and stage3 are identical.
llvm-svn: 260201
Summary:
This patch adds support for the clang multi-stage bootstrapping to support PGO profdata generation, and can build a 2 or 3 stage compiler.
With this patch applied you can configure your build directory with the following invocation of CMake:
cmake -G <generator> -C <path_to_clang>/cmake/caches/PGO.cmake <source dir>
After configuration the following additional targets will be generated:
stage2-instrumented:
Builds a stage1 x86 compiler, runtime, and required tools (llvm-config, llvm-profdata) then uses that compiler to build an instrumented stage2 compiler.
stage2-instrumented-generate-profdata:
Depends on "stage2-instrumented" and will use the instrumented compiler to generate profdata based on the training files in <clang>/utils/perf-training
stage2:
Depends on "stage2-instrumented-generate-profdata" and will use the stage1 compiler with the stage2 profdata to build a PGO-optimized compiler.
stage2-check-llvm:
Depends on stage2 and runs check-llvm using the stage3 compiler.
stage2-check-clang:
Depends on stage2 and runs check-clang using the stage3 compiler.
stage2-check-all:
Depends on stage2 and runs check-all using the stage3 compiler.
stage2-test-suite:
Depends on stage2 and runs the test-suite using the stage3 compiler (requires in-tree test-suite).
Reviewers: bogner, silvas, chandlerc
Subscribers: cfe-commits
Differential Revision: http://reviews.llvm.org/D15584
llvm-svn: 256873
Summary:
This patch adds support for the clang multi-stage bootstrapping to support PGO profdata generation, and can build a 2 or 3 stage compiler.
With this patch applied you can configure your build directory with the following invocation of CMake:
cmake -G <generator> -C <path_to_clang>/cmake/caches/PGO.cmake <source dir>
After configuration the following additional targets will be generated:
stage2-instrumented:
Builds a stage1 x86 compiler, runtime, and required tools (llvm-config, llvm-profdata) then uses that compiler to build an instrumented stage2 compiler.
stage2-instrumented-generate-profdata:
Depends on "stage2-instrumented" and will use the instrumented compiler to generate profdata based on the training files in <clang>/utils/perf-training
stage2:
Depends on "stage2-instrumented-generate-profdata" and will use the stage1 compiler with the stage2 profdata to build a PGO-optimized compiler.
stage2-check-llvm:
Depends on stage2 and runs check-llvm using the stage3 compiler.
stage2-check-clang:
Depends on stage2 and runs check-clang using the stage3 compiler.
stage2-check-all:
Depends on stage2 and runs check-all using the stage3 compiler.
stage2-test-suite:
Depends on stage2 and runs the test-suite using the stage3 compiler (requires in-tree test-suite).
Reviewers: bogner, silvas, chandlerc
Subscribers: cfe-commits
Differential Revision: http://reviews.llvm.org/D15584
llvm-svn: 256069