202 lines
7.5 KiB
ReStructuredText
202 lines
7.5 KiB
ReStructuredText
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==========
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LibTooling
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==========
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LibTooling is a library to support writing standalone tools based on Clang.
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This document will provide a basic walkthrough of how to write a tool using
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LibTooling.
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For the information on how to setup Clang Tooling for LLVM see
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:doc:`HowToSetupToolingForLLVM`
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Introduction
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------------
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Tools built with LibTooling, like Clang Plugins, run ``FrontendActions`` over
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code.
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.. See FIXME for a tutorial on how to write FrontendActions.
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In this tutorial, we'll demonstrate the different ways of running Clang's
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``SyntaxOnlyAction``, which runs a quick syntax check, over a bunch of code.
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Parsing a code snippet in memory
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--------------------------------
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If you ever wanted to run a ``FrontendAction`` over some sample code, for
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example to unit test parts of the Clang AST, ``runToolOnCode`` is what you
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looked for. Let me give you an example:
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.. code-block:: c++
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#include "clang/Tooling/Tooling.h"
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TEST(runToolOnCode, CanSyntaxCheckCode) {
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// runToolOnCode returns whether the action was correctly run over the
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// given code.
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EXPECT_TRUE(runToolOnCode(std::make_unique<clang::SyntaxOnlyAction>(), "class X {};"));
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}
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Writing a standalone tool
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-------------------------
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Once you unit tested your ``FrontendAction`` to the point where it cannot
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possibly break, it's time to create a standalone tool. For a standalone tool
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to run clang, it first needs to figure out what command line arguments to use
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for a specified file. To that end we create a ``CompilationDatabase``. There
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are different ways to create a compilation database, and we need to support all
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of them depending on command-line options. There's the ``CommonOptionsParser``
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class that takes the responsibility to parse command-line parameters related to
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compilation databases and inputs, so that all tools share the implementation.
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Parsing common tools options
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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``CompilationDatabase`` can be read from a build directory or the command line.
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Using ``CommonOptionsParser`` allows for explicit specification of a compile
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command line, specification of build path using the ``-p`` command-line option,
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and automatic location of the compilation database using source files paths.
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.. code-block:: c++
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#include "clang/Tooling/CommonOptionsParser.h"
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#include "llvm/Support/CommandLine.h"
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using namespace clang::tooling;
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// Apply a custom category to all command-line options so that they are the
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// only ones displayed.
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static llvm::cl::OptionCategory MyToolCategory("my-tool options");
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int main(int argc, const char **argv) {
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// CommonOptionsParser constructor will parse arguments and create a
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// CompilationDatabase. In case of error it will terminate the program.
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CommonOptionsParser OptionsParser(argc, argv, MyToolCategory);
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// Use OptionsParser.getCompilations() and OptionsParser.getSourcePathList()
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// to retrieve CompilationDatabase and the list of input file paths.
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}
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Creating and running a ClangTool
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Once we have a ``CompilationDatabase``, we can create a ``ClangTool`` and run
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our ``FrontendAction`` over some code. For example, to run the
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``SyntaxOnlyAction`` over the files "a.cc" and "b.cc" one would write:
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.. code-block:: c++
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// A clang tool can run over a number of sources in the same process...
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std::vector<std::string> Sources;
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Sources.push_back("a.cc");
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Sources.push_back("b.cc");
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// We hand the CompilationDatabase we created and the sources to run over into
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// the tool constructor.
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ClangTool Tool(OptionsParser.getCompilations(), Sources);
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// The ClangTool needs a new FrontendAction for each translation unit we run
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// on. Thus, it takes a FrontendActionFactory as parameter. To create a
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// FrontendActionFactory from a given FrontendAction type, we call
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// newFrontendActionFactory<clang::SyntaxOnlyAction>().
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int result = Tool.run(newFrontendActionFactory<clang::SyntaxOnlyAction>().get());
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Putting it together --- the first tool
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Now we combine the two previous steps into our first real tool. A more advanced
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version of this example tool is also checked into the clang tree at
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``tools/clang-check/ClangCheck.cpp``.
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.. code-block:: c++
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// Declares clang::SyntaxOnlyAction.
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#include "clang/Frontend/FrontendActions.h"
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#include "clang/Tooling/CommonOptionsParser.h"
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#include "clang/Tooling/Tooling.h"
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// Declares llvm::cl::extrahelp.
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#include "llvm/Support/CommandLine.h"
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using namespace clang::tooling;
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using namespace llvm;
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// Apply a custom category to all command-line options so that they are the
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// only ones displayed.
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static cl::OptionCategory MyToolCategory("my-tool options");
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// CommonOptionsParser declares HelpMessage with a description of the common
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// command-line options related to the compilation database and input files.
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// It's nice to have this help message in all tools.
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static cl::extrahelp CommonHelp(CommonOptionsParser::HelpMessage);
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// A help message for this specific tool can be added afterwards.
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static cl::extrahelp MoreHelp("\nMore help text...\n");
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int main(int argc, const char **argv) {
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CommonOptionsParser OptionsParser(argc, argv, MyToolCategory);
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ClangTool Tool(OptionsParser.getCompilations(),
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OptionsParser.getSourcePathList());
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return Tool.run(newFrontendActionFactory<clang::SyntaxOnlyAction>().get());
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}
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Running the tool on some code
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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When you check out and build clang, clang-check is already built and available
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to you in bin/clang-check inside your build directory.
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You can run clang-check on a file in the llvm repository by specifying all the
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needed parameters after a "``--``" separator:
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.. code-block:: bash
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$ cd /path/to/source/llvm
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$ export BD=/path/to/build/llvm
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$ $BD/bin/clang-check tools/clang/tools/clang-check/ClangCheck.cpp -- \
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clang++ -D__STDC_CONSTANT_MACROS -D__STDC_LIMIT_MACROS \
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-Itools/clang/include -I$BD/include -Iinclude \
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-Itools/clang/lib/Headers -c
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As an alternative, you can also configure cmake to output a compile command
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database into its build directory:
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.. code-block:: bash
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# Alternatively to calling cmake, use ccmake, toggle to advanced mode and
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# set the parameter CMAKE_EXPORT_COMPILE_COMMANDS from the UI.
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$ cmake -DCMAKE_EXPORT_COMPILE_COMMANDS=ON .
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This creates a file called ``compile_commands.json`` in the build directory.
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Now you can run :program:`clang-check` over files in the project by specifying
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the build path as first argument and some source files as further positional
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arguments:
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.. code-block:: bash
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$ cd /path/to/source/llvm
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$ export BD=/path/to/build/llvm
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$ $BD/bin/clang-check -p $BD tools/clang/tools/clang-check/ClangCheck.cpp
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.. _libtooling_builtin_includes:
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Builtin includes
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^^^^^^^^^^^^^^^^
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Clang tools need their builtin headers and search for them the same way Clang
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does. Thus, the default location to look for builtin headers is in a path
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``$(dirname /path/to/tool)/../lib/clang/3.3/include`` relative to the tool
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binary. This works out-of-the-box for tools running from llvm's toplevel
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binary directory after building clang-resource-headers, or if the tool is
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running from the binary directory of a clang install next to the clang binary.
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Tips: if your tool fails to find ``stddef.h`` or similar headers, call the tool
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with ``-v`` and look at the search paths it looks through.
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Linking
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^^^^^^^
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For a list of libraries to link, look at one of the tools' CMake files (for
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example `clang-check/CMakeList.txt
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<https://github.com/llvm/llvm-project/blob/master/clang/tools/clang-check/CMakeLists.txt>`_).
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