forked from OSchip/llvm-project
208 lines
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ReStructuredText
208 lines
10 KiB
ReStructuredText
===============================
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Building a Distribution of LLVM
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===============================
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.. contents::
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:local:
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Introduction
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============
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This document is geared toward people who want to build and package LLVM and any
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combination of LLVM sub-project tools for distribution. This document covers
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useful features of the LLVM build system as well as best practices and general
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information about packaging LLVM.
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If you are new to CMake you may find the :doc:`CMake` or :doc:`CMakePrimer`
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documentation useful. Some of the things covered in this document are the inner
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workings of the builds described in the :doc:`AdvancedBuilds` document.
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General Distribution Guidance
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=============================
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When building a distribution of a compiler it is generally advised to perform a
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bootstrap build of the compiler. That means building a "stage 1" compiler with
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your host toolchain, then building the "stage 2" compiler using the "stage 1"
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compiler. This is done so that the compiler you distribute benefits from all the
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bug fixes, performance optimizations and general improvements provided by the
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new compiler.
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In deciding how to build your distribution there are a few trade-offs that you
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will need to evaluate. The big two are:
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#. Compile time of the distribution against performance of the built compiler
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#. Binary size of the distribution against performance of the built compiler
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The guidance for maximizing performance of the generated compiler is to use LTO,
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PGO, and statically link everything. This will result in an overall larger
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distribution, and it will take longer to generate, but it provides the most
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opportunity for the compiler to optimize.
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The guidance for minimizing distribution size is to dynamically link LLVM and
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Clang libraries into the tools to reduce code duplication. This will come at a
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substantial performance penalty to the generated binary both because it reduces
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optimization opportunity, and because dynamic linking requires resolving symbols
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at process launch time, which can be very slow for C++ code.
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.. _shared_libs:
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.. warning::
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One very important note: Distributions should never be built using the
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*BUILD_SHARED_LIBS* CMake option. That option exists for optimizing developer
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workflow only. Due to design and implementation decisions, LLVM relies on
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global data which can end up being duplicated across shared libraries
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resulting in bugs. As such this is not a safe way to distribute LLVM or
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LLVM-based tools.
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The simplest example of building a distribution with reasonable performance is
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captured in the DistributionExample CMake cache file located at
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clang/cmake/caches/DistributionExample.cmake. The following command will perform
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and install the distribution build:
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.. code-block:: console
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$ cmake -G Ninja -C <path to clang>/cmake/caches/DistributionExample.cmake <path to LLVM source>
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$ ninja stage2-distribution
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$ ninja stage2-install-distribution
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Difference between ``install`` and ``install-distribution``
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-----------------------------------------------------------
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One subtle but important thing to note is the difference between the ``install``
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and ``install-distribution`` targets. The ``install`` target is expected to
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install every part of LLVM that your build is configured to generate except the
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LLVM testing tools. Alternatively the ``install-distribution`` target, which is
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recommended for building distributions, only installs specific parts of LLVM as
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specified at configuration time by *LLVM_DISTRIBUTION_COMPONENTS*.
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Additionally by default the ``install`` target will install the LLVM testing
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tools as the public tools. This can be changed well by setting
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*LLVM_INSTALL_TOOLCHAIN_ONLY* to ``On``. The LLVM tools are intended for
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development and testing of LLVM, and should only be included in distributions
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that support LLVM development.
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When building with *LLVM_DISTRIBUTION_COMPONENTS* the build system also
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generates a ``distribution`` target which builds all the components specified in
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the list. This is a convenience build target to allow building just the
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distributed pieces without needing to build all configured targets.
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Special Notes for Library-only Distributions
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--------------------------------------------
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One of the most powerful features of LLVM is its library-first design mentality
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and the way you can compose a wide variety of tools using different portions of
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LLVM. Even in this situation using *BUILD_SHARED_LIBS* is not supported. If you
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want to distribute LLVM as a shared library for use in a tool, the recommended
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method is using *LLVM_BUILD_LLVM_DYLIB*, and you can use *LLVM_DYLIB_COMPONENTS*
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to configure which LLVM components are part of libLLVM.
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Options for Optimizing LLVM
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===========================
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There are four main build optimizations that our CMake build system supports.
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When performing a bootstrap build it is not beneficial to do anything other than
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setting *CMAKE_BUILD_TYPE* to ``Release`` for the stage-1 compiler. This is
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because the more intensive optimizations are expensive to perform and the
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stage-1 compiler is thrown away. All of the further options described should be
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set on the stage-2 compiler either using a CMake cache file, or by prefixing the
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option with *BOOTSTRAP_*.
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The first and simplest to use is the compiler optimization level by setting the
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*CMAKE_BUILD_TYPE* option. The main values of interest are ``Release`` or
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``RelWithDebInfo``. By default the ``Release`` option uses the ``-O3``
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optimization level, and ``RelWithDebInfo`` uses ``-O2``. If you want to generate
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debug information and use ``-O3`` you can override the
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*CMAKE_<LANG>_FLAGS_RELWITHDEBINFO* option for C and CXX.
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DistributionExample.cmake does this.
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Another easy to use option is Link-Time-Optimization. You can set the
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*LLVM_ENABLE_LTO* option on your stage-2 build to ``Thin`` or ``Full`` to enable
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building LLVM with LTO. These options will significantly increase link time of
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the binaries in the distribution, but it will create much faster binaries. This
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option should not be used if your distribution includes static archives, as the
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objects inside the archive will be LLVM bitcode, which is not portable.
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The :doc:`AdvancedBuilds` documentation describes the built-in tooling for
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generating LLVM profiling information to drive Profile-Guided-Optimization. The
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in-tree profiling tests are very limited, and generating the profile takes a
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significant amount of time, but it can result in a significant improvement in
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the performance of the generated binaries.
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In addition to PGO profiling we also have limited support in-tree for generating
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linker order files. These files provide the linker with a suggested ordering for
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functions in the final binary layout. This can measurably speed up clang by
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physically grouping functions that are called temporally close to eachother. The
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current tooling is only available on Darwin systems with ``dtrace(1)``. It is
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worth noting that dtrace is non-deterministic, and so the order file generation
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using dtrace is also non-deterministic.
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Options for Reducing Size
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=========================
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.. warning::
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Any steps taken to reduce the binary size will come at a cost of runtime
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performance in the generated binaries.
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The simplest and least significant way to reduce binary size is to set the
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*CMAKE_BUILD_TYPE* variable to ``MinSizeRel``, which will set the compiler
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optimization level to ``-Os`` which optimizes for binary size. This will have
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both the least benefit to size and the least impact on performance.
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The most impactful way to reduce binary size is to dynamically link LLVM into
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all the tools. This reduces code size by decreasing duplication of common code
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between the LLVM-based tools. This can be done by setting the following two
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CMake options to ``On``: *LLVM_BUILD_LLVM_DYLIB* and *LLVM_LINK_LLVM_DYLIB*.
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.. warning::
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Distributions should never be built using the *BUILD_SHARED_LIBS* CMake
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option. (:ref:`See the warning above for more explanation <shared_libs>`.).
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Relevant CMake Options
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======================
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This section provides documentation of the CMake options that are intended to
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help construct distributions. This is not an exhaustive list, and many
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additional options are documented in the :doc:`CMake` page. Some key options
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that are already documented include: *LLVM_TARGETS_TO_BUILD*,
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*LLVM_ENABLE_PROJECTS*, *LLVM_BUILD_LLVM_DYLIB*, and *LLVM_LINK_LLVM_DYLIB*.
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**LLVM_ENABLE_RUNTIMES**:STRING
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When building a distribution that includes LLVM runtime projects (i.e. libcxx,
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compiler-rt, libcxxabi, libunwind...), it is important to build those projects
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with the just-built compiler.
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**LLVM_DISTRIBUTION_COMPONENTS**:STRING
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This variable can be set to a semi-colon separated list of LLVM build system
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components to install. All LLVM-based tools are components, as well as most
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of the libraries and runtimes. Component names match the names of the build
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system targets.
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**LLVM_RUNTIME_DISTRIBUTION_COMPONENTS**:STRING
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This variable can be set to a semi-colon separated list of runtime library
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components. This is used in conjunction with *LLVM_ENABLE_RUNTIMES* to specify
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components of runtime libraries that you want to include in your distribution.
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Just like with *LLVM_DISTRIBUTION_COMPONENTS*, component names match the names
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of the build system targets.
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**LLVM_DYLIB_COMPONENTS**:STRING
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This variable can be set to a semi-colon separated name of LLVM library
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components. LLVM library components are either library names with the LLVM
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prefix removed (i.e. Support, Demangle...), LLVM target names, or special
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purpose component names. The special purpose component names are:
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#. ``all`` - All LLVM available component libraries
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#. ``Native`` - The LLVM target for the Native system
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#. ``AllTargetsAsmPrinters`` - All the included target ASM printers libraries
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#. ``AllTargetsAsmParsers`` - All the included target ASM parsers libraries
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#. ``AllTargetsDescs`` - All the included target descriptions libraries
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#. ``AllTargetsDisassemblers`` - All the included target dissassemblers libraries
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#. ``AllTargetsInfos`` - All the included target info libraries
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**LLVM_INSTALL_TOOLCHAIN_ONLY**:BOOL
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This option defaults to ``Off``: when set to ``On`` it removes many of the
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LLVM development and testing tools as well as component libraries from the
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default ``install`` target. Including the development tools is not recommended
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for distributions as many of the LLVM tools are only intended for development
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and testing use.
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