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ReStructuredText
514 lines
21 KiB
ReStructuredText
================
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Getting Involved
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================
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:program:`clang-tidy` has several own checks and can run Clang static analyzer
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checks, but its power is in the ability to easily write custom checks.
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Checks are organized in modules, which can be linked into :program:`clang-tidy`
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with minimal or no code changes in :program:`clang-tidy`.
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Checks can plug into the analysis on the preprocessor level using `PPCallbacks`_
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or on the AST level using `AST Matchers`_. When an error is found, checks can
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report them in a way similar to how Clang diagnostics work. A fix-it hint can be
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attached to a diagnostic message.
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The interface provided by :program:`clang-tidy` makes it easy to write useful
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and precise checks in just a few lines of code. If you have an idea for a good
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check, the rest of this document explains how to do this.
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There are a few tools particularly useful when developing clang-tidy checks:
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* ``add_new_check.py`` is a script to automate the process of adding a new
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check, it will create the check, update the CMake file and create a test;
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* ``rename_check.py`` does what the script name suggests, renames an existing
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check;
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* :program:`clang-query` is invaluable for interactive prototyping of AST
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matchers and exploration of the Clang AST;
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* `clang-check`_ with the ``-ast-dump`` (and optionally ``-ast-dump-filter``)
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provides a convenient way to dump AST of a C++ program.
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If CMake is configured with ``CLANG_TIDY_ENABLE_STATIC_ANALYZER=NO``,
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:program:`clang-tidy` will not be built with support for the
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``clang-analyzer-*`` checks or the ``mpi-*`` checks.
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.. _AST Matchers: https://clang.llvm.org/docs/LibASTMatchers.html
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.. _PPCallbacks: https://clang.llvm.org/doxygen/classclang_1_1PPCallbacks.html
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.. _clang-check: https://clang.llvm.org/docs/ClangCheck.html
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Choosing the Right Place for your Check
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---------------------------------------
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If you have an idea of a check, you should decide whether it should be
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implemented as a:
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+ *Clang diagnostic*: if the check is generic enough, targets code patterns that
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most probably are bugs (rather than style or readability issues), can be
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implemented effectively and with extremely low false positive rate, it may
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make a good Clang diagnostic.
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+ *Clang static analyzer check*: if the check requires some sort of control flow
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analysis, it should probably be implemented as a static analyzer check.
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+ *clang-tidy check* is a good choice for linter-style checks, checks that are
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related to a certain coding style, checks that address code readability, etc.
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Preparing your Workspace
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------------------------
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If you are new to LLVM development, you should read the `Getting Started with
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the LLVM System`_, `Using Clang Tools`_ and `How To Setup Clang Tooling For
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LLVM`_ documents to check out and build LLVM, Clang and Clang Extra Tools with
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CMake.
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Once you are done, change to the ``llvm/clang-tools-extra`` directory, and
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let's start!
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.. _Getting Started with the LLVM System: https://llvm.org/docs/GettingStarted.html
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.. _Using Clang Tools: https://clang.llvm.org/docs/ClangTools.html
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.. _How To Setup Clang Tooling For LLVM: https://clang.llvm.org/docs/HowToSetupToolingForLLVM.html
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The Directory Structure
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-----------------------
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:program:`clang-tidy` source code resides in the
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``llvm/clang-tools-extra`` directory and is structured as follows:
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::
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clang-tidy/ # Clang-tidy core.
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|-- ClangTidy.h # Interfaces for users.
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|-- ClangTidyCheck.h # Interfaces for checks.
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|-- ClangTidyModule.h # Interface for clang-tidy modules.
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|-- ClangTidyModuleRegistry.h # Interface for registering of modules.
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...
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|-- google/ # Google clang-tidy module.
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|-+
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|-- GoogleTidyModule.cpp
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|-- GoogleTidyModule.h
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...
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|-- llvm/ # LLVM clang-tidy module.
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|-+
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|-- LLVMTidyModule.cpp
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|-- LLVMTidyModule.h
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...
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|-- objc/ # Objective-C clang-tidy module.
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|-+
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|-- ObjCTidyModule.cpp
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|-- ObjCTidyModule.h
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...
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|-- tool/ # Sources of the clang-tidy binary.
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...
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test/clang-tidy/ # Integration tests.
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...
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unittests/clang-tidy/ # Unit tests.
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|-- ClangTidyTest.h
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|-- GoogleModuleTest.cpp
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|-- LLVMModuleTest.cpp
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|-- ObjCModuleTest.cpp
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...
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Writing a clang-tidy Check
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--------------------------
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So you have an idea of a useful check for :program:`clang-tidy`.
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First, if you're not familiar with LLVM development, read through the `Getting
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Started with LLVM`_ document for instructions on setting up your workflow and
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the `LLVM Coding Standards`_ document to familiarize yourself with the coding
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style used in the project. For code reviews we mostly use `LLVM Phabricator`_.
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.. _Getting Started with LLVM: https://llvm.org/docs/GettingStarted.html
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.. _LLVM Coding Standards: https://llvm.org/docs/CodingStandards.html
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.. _LLVM Phabricator: https://llvm.org/docs/Phabricator.html
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Next, you need to decide which module the check belongs to. Modules
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are located in subdirectories of `clang-tidy/
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<https://github.com/llvm/llvm-project/tree/main/clang-tools-extra/clang-tidy/>`_
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and contain checks targeting a certain aspect of code quality (performance,
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readability, etc.), certain coding style or standard (Google, LLVM, CERT, etc.)
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or a widely used API (e.g. MPI). Their names are same as user-facing check
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groups names described :ref:`above <checks-groups-table>`.
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After choosing the module and the name for the check, run the
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``clang-tidy/add_new_check.py`` script to create the skeleton of the check and
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plug it to :program:`clang-tidy`. It's the recommended way of adding new checks.
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If we want to create a `readability-awesome-function-names`, we would run:
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.. code-block:: console
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$ clang-tidy/add_new_check.py readability awesome-function-names
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The ``add_new_check.py`` script will:
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* create the class for your check inside the specified module's directory and
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register it in the module and in the build system;
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* create a lit test file in the ``test/clang-tidy/`` directory;
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* create a documentation file and include it into the
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``docs/clang-tidy/checks/list.rst``.
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Let's see in more detail at the check class definition:
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.. code-block:: c++
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...
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#include "../ClangTidyCheck.h"
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namespace clang {
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namespace tidy {
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namespace readability {
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...
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class AwesomeFunctionNamesCheck : public ClangTidyCheck {
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public:
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AwesomeFunctionNamesCheck(StringRef Name, ClangTidyContext *Context)
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: ClangTidyCheck(Name, Context) {}
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void registerMatchers(ast_matchers::MatchFinder *Finder) override;
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void check(const ast_matchers::MatchFinder::MatchResult &Result) override;
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};
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} // namespace readability
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} // namespace tidy
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} // namespace clang
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...
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Constructor of the check receives the ``Name`` and ``Context`` parameters, and
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must forward them to the ``ClangTidyCheck`` constructor.
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In our case the check needs to operate on the AST level and it overrides the
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``registerMatchers`` and ``check`` methods. If we wanted to analyze code on the
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preprocessor level, we'd need instead to override the ``registerPPCallbacks``
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method.
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In the ``registerMatchers`` method we create an AST Matcher (see `AST Matchers`_
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for more information) that will find the pattern in the AST that we want to
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inspect. The results of the matching are passed to the ``check`` method, which
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can further inspect them and report diagnostics.
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.. code-block:: c++
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using namespace ast_matchers;
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void AwesomeFunctionNamesCheck::registerMatchers(MatchFinder *Finder) {
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Finder->addMatcher(functionDecl().bind("x"), this);
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}
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void AwesomeFunctionNamesCheck::check(const MatchFinder::MatchResult &Result) {
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const auto *MatchedDecl = Result.Nodes.getNodeAs<FunctionDecl>("x");
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if (!MatchedDecl->getIdentifier() || MatchedDecl->getName().startswith("awesome_"))
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return;
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diag(MatchedDecl->getLocation(), "function %0 is insufficiently awesome")
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<< MatchedDecl
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<< FixItHint::CreateInsertion(MatchedDecl->getLocation(), "awesome_");
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}
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(If you want to see an example of a useful check, look at
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`clang-tidy/google/ExplicitConstructorCheck.h
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<https://github.com/llvm/llvm-project/blob/main/clang-tools-extra/clang-tidy/google/ExplicitConstructorCheck.h>`_
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and `clang-tidy/google/ExplicitConstructorCheck.cpp
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<https://reviews.llvm.org/diffusion/L/browse/clang-tools-extra/trunk/clang-tidy/google/ExplicitConstructorCheck.cpp>`_).
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Registering your Check
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----------------------
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(The ``add_new_check.py`` takes care of registering the check in an existing
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module. If you want to create a new module or know the details, read on.)
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The check should be registered in the corresponding module with a distinct name:
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.. code-block:: c++
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class MyModule : public ClangTidyModule {
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public:
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void addCheckFactories(ClangTidyCheckFactories &CheckFactories) override {
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CheckFactories.registerCheck<ExplicitConstructorCheck>(
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"my-explicit-constructor");
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}
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};
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Now we need to register the module in the ``ClangTidyModuleRegistry`` using a
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statically initialized variable:
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.. code-block:: c++
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static ClangTidyModuleRegistry::Add<MyModule> X("my-module",
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"Adds my lint checks.");
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When using LLVM build system, we need to use the following hack to ensure the
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module is linked into the :program:`clang-tidy` binary:
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Add this near the ``ClangTidyModuleRegistry::Add<MyModule>`` variable:
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.. code-block:: c++
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// This anchor is used to force the linker to link in the generated object file
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// and thus register the MyModule.
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volatile int MyModuleAnchorSource = 0;
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And this to the main translation unit of the :program:`clang-tidy` binary (or
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the binary you link the ``clang-tidy`` library in)
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``clang-tidy/tool/ClangTidyMain.cpp``:
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.. code-block:: c++
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// This anchor is used to force the linker to link the MyModule.
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extern volatile int MyModuleAnchorSource;
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static int MyModuleAnchorDestination = MyModuleAnchorSource;
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Configuring Checks
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------------------
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If a check needs configuration options, it can access check-specific options
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using the ``Options.get<Type>("SomeOption", DefaultValue)`` call in the check
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constructor. In this case the check should also override the
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``ClangTidyCheck::storeOptions`` method to make the options provided by the
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check discoverable. This method lets :program:`clang-tidy` know which options
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the check implements and what the current values are (e.g. for the
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``-dump-config`` command line option).
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.. code-block:: c++
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class MyCheck : public ClangTidyCheck {
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const unsigned SomeOption1;
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const std::string SomeOption2;
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public:
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MyCheck(StringRef Name, ClangTidyContext *Context)
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: ClangTidyCheck(Name, Context),
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SomeOption(Options.get("SomeOption1", -1U)),
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SomeOption(Options.get("SomeOption2", "some default")) {}
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void storeOptions(ClangTidyOptions::OptionMap &Opts) override {
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Options.store(Opts, "SomeOption1", SomeOption1);
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Options.store(Opts, "SomeOption2", SomeOption2);
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}
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...
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Assuming the check is registered with the name "my-check", the option can then
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be set in a ``.clang-tidy`` file in the following way:
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.. code-block:: yaml
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CheckOptions:
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- key: my-check.SomeOption1
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value: 123
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- key: my-check.SomeOption2
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value: 'some other value'
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If you need to specify check options on a command line, you can use the inline
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YAML format:
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.. code-block:: console
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$ clang-tidy -config="{CheckOptions: [{key: a, value: b}, {key: x, value: y}]}" ...
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Testing Checks
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--------------
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To run tests for :program:`clang-tidy` use the command:
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.. code-block:: console
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$ ninja check-clang-tools
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:program:`clang-tidy` checks can be tested using either unit tests or
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`lit`_ tests. Unit tests may be more convenient to test complex replacements
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with strict checks. `Lit`_ tests allow using partial text matching and regular
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expressions which makes them more suitable for writing compact tests for
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diagnostic messages.
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The ``check_clang_tidy.py`` script provides an easy way to test both
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diagnostic messages and fix-its. It filters out ``CHECK`` lines from the test
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file, runs :program:`clang-tidy` and verifies messages and fixes with two
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separate `FileCheck`_ invocations: once with FileCheck's directive
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prefix set to ``CHECK-MESSAGES``, validating the diagnostic messages,
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and once with the directive prefix set to ``CHECK-FIXES``, running
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against the fixed code (i.e., the code after generated fix-its are
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applied). In particular, ``CHECK-FIXES:`` can be used to check
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that code was not modified by fix-its, by checking that it is present
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unchanged in the fixed code. The full set of `FileCheck`_ directives
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is available (e.g., ``CHECK-MESSAGES-SAME:``, ``CHECK-MESSAGES-NOT:``), though
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typically the basic ``CHECK`` forms (``CHECK-MESSAGES`` and ``CHECK-FIXES``)
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are sufficient for clang-tidy tests. Note that the `FileCheck`_
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documentation mostly assumes the default prefix (``CHECK``), and hence
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describes the directive as ``CHECK:``, ``CHECK-SAME:``, ``CHECK-NOT:``, etc.
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Replace ``CHECK`` by either ``CHECK-FIXES`` or ``CHECK-MESSAGES`` for
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clang-tidy tests.
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An additional check enabled by ``check_clang_tidy.py`` ensures that
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if `CHECK-MESSAGES:` is used in a file then every warning or error
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must have an associated CHECK in that file. Or, you can use ``CHECK-NOTES:``
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instead, if you want to **also** ensure that all the notes are checked.
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To use the ``check_clang_tidy.py`` script, put a .cpp file with the
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appropriate ``RUN`` line in the ``test/clang-tidy`` directory. Use
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``CHECK-MESSAGES:`` and ``CHECK-FIXES:`` lines to write checks against
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diagnostic messages and fixed code.
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It's advised to make the checks as specific as possible to avoid checks matching
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to incorrect parts of the input. Use ``[[@LINE+X]]``/``[[@LINE-X]]``
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substitutions and distinct function and variable names in the test code.
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Here's an example of a test using the ``check_clang_tidy.py`` script (the full
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source code is at `test/clang-tidy/google-readability-casting.cpp`_):
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.. code-block:: c++
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// RUN: %check_clang_tidy %s google-readability-casting %t
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void f(int a) {
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int b = (int)a;
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// CHECK-MESSAGES: :[[@LINE-1]]:11: warning: redundant cast to the same type [google-readability-casting]
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// CHECK-FIXES: int b = a;
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}
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To check more than one scenario in the same test file use
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``-check-suffix=SUFFIX-NAME`` on ``check_clang_tidy.py`` command line or
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``-check-suffixes=SUFFIX-NAME-1,SUFFIX-NAME-2,...``.
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With ``-check-suffix[es]=SUFFIX-NAME`` you need to replace your ``CHECK-*``
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directives with ``CHECK-MESSAGES-SUFFIX-NAME`` and ``CHECK-FIXES-SUFFIX-NAME``.
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Here's an example:
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.. code-block:: c++
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// RUN: %check_clang_tidy -check-suffix=USING-A %s misc-unused-using-decls %t -- -- -DUSING_A
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// RUN: %check_clang_tidy -check-suffix=USING-B %s misc-unused-using-decls %t -- -- -DUSING_B
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// RUN: %check_clang_tidy %s misc-unused-using-decls %t
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...
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// CHECK-MESSAGES-USING-A: :[[@LINE-8]]:10: warning: using decl 'A' {{.*}}
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// CHECK-MESSAGES-USING-B: :[[@LINE-7]]:10: warning: using decl 'B' {{.*}}
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// CHECK-MESSAGES: :[[@LINE-6]]:10: warning: using decl 'C' {{.*}}
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// CHECK-FIXES-USING-A-NOT: using a::A;$
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// CHECK-FIXES-USING-B-NOT: using a::B;$
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// CHECK-FIXES-NOT: using a::C;$
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There are many dark corners in the C++ language, and it may be difficult to make
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your check work perfectly in all cases, especially if it issues fix-it hints. The
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most frequent pitfalls are macros and templates:
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1. code written in a macro body/template definition may have a different meaning
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depending on the macro expansion/template instantiation;
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2. multiple macro expansions/template instantiations may result in the same code
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being inspected by the check multiple times (possibly, with different
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meanings, see 1), and the same warning (or a slightly different one) may be
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issued by the check multiple times; :program:`clang-tidy` will deduplicate
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_identical_ warnings, but if the warnings are slightly different, all of them
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will be shown to the user (and used for applying fixes, if any);
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3. making replacements to a macro body/template definition may be fine for some
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macro expansions/template instantiations, but easily break some other
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expansions/instantiations.
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.. _lit: https://llvm.org/docs/CommandGuide/lit.html
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.. _FileCheck: https://llvm.org/docs/CommandGuide/FileCheck.html
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.. _test/clang-tidy/google-readability-casting.cpp: https://reviews.llvm.org/diffusion/L/browse/clang-tools-extra/trunk/test/clang-tidy/google-readability-casting.cpp
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Running clang-tidy on LLVM
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--------------------------
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To test a check it's best to try it out on a larger code base. LLVM and Clang
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are the natural targets as you already have the source code around. The most
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convenient way to run :program:`clang-tidy` is with a compile command database;
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CMake can automatically generate one, for a description of how to enable it see
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`How To Setup Clang Tooling For LLVM`_. Once ``compile_commands.json`` is in
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place and a working version of :program:`clang-tidy` is in ``PATH`` the entire
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code base can be analyzed with ``clang-tidy/tool/run-clang-tidy.py``. The script
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executes :program:`clang-tidy` with the default set of checks on every
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translation unit in the compile command database and displays the resulting
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warnings and errors. The script provides multiple configuration flags.
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.. _How To Setup Clang Tooling For LLVM: https://clang.llvm.org/docs/HowToSetupToolingForLLVM.html
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* The default set of checks can be overridden using the ``-checks`` argument,
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taking the identical format as :program:`clang-tidy` does. For example
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``-checks=-*,modernize-use-override`` will run the ``modernize-use-override``
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check only.
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* To restrict the files examined you can provide one or more regex arguments
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that the file names are matched against.
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``run-clang-tidy.py clang-tidy/.*Check\.cpp`` will only analyze clang-tidy
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checks. It may also be necessary to restrict the header files warnings are
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displayed from using the ``-header-filter`` flag. It has the same behavior
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as the corresponding :program:`clang-tidy` flag.
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* To apply suggested fixes ``-fix`` can be passed as an argument. This gathers
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all changes in a temporary directory and applies them. Passing ``-format``
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will run clang-format over changed lines.
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On checks profiling
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-------------------
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:program:`clang-tidy` can collect per-check profiling info, and output it
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for each processed source file (translation unit).
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To enable profiling info collection, use the ``-enable-check-profile`` argument.
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The timings will be output to ``stderr`` as a table. Example output:
|
|
|
|
.. code-block:: console
|
|
|
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$ clang-tidy -enable-check-profile -checks=-*,readability-function-size source.cpp
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===-------------------------------------------------------------------------===
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clang-tidy checks profiling
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|
===-------------------------------------------------------------------------===
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|
Total Execution Time: 1.0282 seconds (1.0258 wall clock)
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|
|
---User Time--- --System Time-- --User+System-- ---Wall Time--- --- Name ---
|
|
0.9136 (100.0%) 0.1146 (100.0%) 1.0282 (100.0%) 1.0258 (100.0%) readability-function-size
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|
0.9136 (100.0%) 0.1146 (100.0%) 1.0282 (100.0%) 1.0258 (100.0%) Total
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|
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It can also store that data as JSON files for further processing. Example output:
|
|
|
|
.. code-block:: console
|
|
|
|
$ clang-tidy -enable-check-profile -store-check-profile=. -checks=-*,readability-function-size source.cpp
|
|
$ # Note that there won't be timings table printed to the console.
|
|
$ ls /tmp/out/
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|
20180516161318717446360-source.cpp.json
|
|
$ cat 20180516161318717446360-source.cpp.json
|
|
{
|
|
"file": "/path/to/source.cpp",
|
|
"timestamp": "2018-05-16 16:13:18.717446360",
|
|
"profile": {
|
|
"time.clang-tidy.readability-function-size.wall": 1.0421266555786133e+00,
|
|
"time.clang-tidy.readability-function-size.user": 9.2088400000005421e-01,
|
|
"time.clang-tidy.readability-function-size.sys": 1.2418899999999974e-01
|
|
}
|
|
}
|
|
|
|
There is only one argument that controls profile storage:
|
|
|
|
* ``-store-check-profile=<prefix>``
|
|
|
|
By default reports are printed in tabulated format to stderr. When this option
|
|
is passed, these per-TU profiles are instead stored as JSON.
|
|
If the prefix is not an absolute path, it is considered to be relative to the
|
|
directory from where you have run :program:`clang-tidy`. All ``.`` and ``..``
|
|
patterns in the path are collapsed, and symlinks are resolved.
|
|
|
|
Example:
|
|
Let's suppose you have a source file named ``example.cpp``, located in the
|
|
``/source`` directory. Only the input filename is used, not the full path
|
|
to the source file. Additionally, it is prefixed with the current timestamp.
|
|
|
|
* If you specify ``-store-check-profile=/tmp``, then the profile will be saved
|
|
to ``/tmp/<ISO8601-like timestamp>-example.cpp.json``
|
|
|
|
* If you run :program:`clang-tidy` from within ``/foo`` directory, and specify
|
|
``-store-check-profile=.``, then the profile will still be saved to
|
|
``/foo/<ISO8601-like timestamp>-example.cpp.json``
|