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557 строки
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ReStructuredText
===============================================================
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Tutorial for building tools using LibTooling and LibASTMatchers
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===============================================================
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This document is intended to show how to build a useful source-to-source
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translation tool based on Clang's `LibTooling <LibTooling.html>`_. It is
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explicitly aimed at people who are new to Clang, so all you should need
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is a working knowledge of C++ and the command line.
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In order to work on the compiler, you need some basic knowledge of the
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abstract syntax tree (AST). To this end, the reader is incouraged to
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skim the :doc:`Introduction to the Clang
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AST <IntroductionToTheClangAST>`
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Step 0: Obtaining Clang
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=======================
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As Clang is part of the LLVM project, you'll need to download LLVM's
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source code first. Both Clang and LLVM are maintained as Subversion
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repositories, but we'll be accessing them through the git mirror. For
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further information, see the `getting started
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guide <http://llvm.org/docs/GettingStarted.html>`_.
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.. code-block:: console
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mkdir ~/clang-llvm && cd ~/clang-llvm
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git clone http://llvm.org/git/llvm.git
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cd llvm/tools
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git clone http://llvm.org/git/clang.git
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cd clang/tools
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git clone http://llvm.org/git/clang-tools-extra.git extra
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Next you need to obtain the CMake build system and Ninja build tool. You
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may already have CMake installed, but current binary versions of CMake
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aren't built with Ninja support.
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.. code-block:: console
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cd ~/clang-llvm
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git clone https://github.com/martine/ninja.git
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cd ninja
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git checkout release
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./bootstrap.py
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sudo cp ninja /usr/bin/
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cd ~/clang-llvm
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git clone git://cmake.org/stage/cmake.git
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cd cmake
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git checkout next
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./bootstrap
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make
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sudo make install
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Okay. Now we'll build Clang!
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.. code-block:: console
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cd ~/clang-llvm
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mkdir build && cd build
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cmake -G Ninja ../llvm -DLLVM_BUILD_TESTS=ON # Enable tests; default is off.
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ninja
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ninja check # Test LLVM only.
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ninja clang-test # Test Clang only.
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ninja install
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And we're live.
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All of the tests should pass, though there is a (very) small chance that
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you can catch LLVM and Clang out of sync. Running ``'git svn rebase'``
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in both the llvm and clang directories should fix any problems.
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Finally, we want to set Clang as its own compiler.
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.. code-block:: console
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cd ~/clang-llvm/build
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ccmake ../llvm
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The second command will bring up a GUI for configuring Clang. You need
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to set the entry for ``CMAKE_CXX_COMPILER``. Press ``'t'`` to turn on
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advanced mode. Scroll down to ``CMAKE_CXX_COMPILER``, and set it to
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``/usr/bin/clang++``, or wherever you installed it. Press ``'c'`` to
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configure, then ``'g'`` to generate CMake's files.
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Finally, run ninja one last time, and you're done.
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Step 1: Create a ClangTool
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==========================
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Now that we have enough background knowledge, it's time to create the
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simplest productive ClangTool in existence: a syntax checker. While this
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already exists as ``clang-check``, it's important to understand what's
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going on.
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First, we'll need to create a new directory for our tool and tell CMake
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that it exists. As this is not going to be a core clang tool, it will
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live in the ``tools/extra`` repository.
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.. code-block:: console
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cd ~/clang-llvm/llvm/tools/clang
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mkdir tools/extra/loop-convert
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echo 'add_subdirectory(loop-convert)' >> tools/extra/CMakeLists.txt
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vim tools/extra/loop-convert/CMakeLists.txt
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CMakeLists.txt should have the following contents:
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::
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set(LLVM_LINK_COMPONENTS support)
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set(LLVM_USED_LIBS clangTooling clangBasic clangAST)
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add_clang_executable(loop-convert
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LoopConvert.cpp
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)
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target_link_libraries(loop-convert
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clangTooling
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clangBasic
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clangASTMatchers
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)
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With that done, Ninja will be able to compile our tool. Let's give it
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something to compile! Put the following into
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``tools/extra/loop-convert/LoopConvert.cpp``. A detailed explanation of
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why the different parts are needed can be found in the `LibTooling
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documentation <LibTooling.html>`_.
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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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// 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...");
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int main(int argc, const char **argv) {
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CommonOptionsParser OptionsParser(argc, argv);
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ClangTool Tool(OptionsParser.getCompilations(),
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OptionsParser.getSourcePathList());
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return Tool.run(newFrontendActionFactory<clang::SyntaxOnlyAction>());
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}
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And that's it! You can compile our new tool by running ninja from the
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``build`` directory.
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.. code-block:: console
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cd ~/clang-llvm/build
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ninja
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You should now be able to run the syntax checker, which is located in
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``~/clang-llvm/build/bin``, on any source file. Try it!
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.. code-block:: console
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cat "int main() { return 0; }" > test.cpp
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bin/loop-convert test.cpp --
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Note the two dashes after we specify the source file. The additional
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options for the compiler are passed after the dashes rather than loading
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them from a compilation database - there just aren't any options needed
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right now.
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Intermezzo: Learn AST matcher basics
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====================================
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Clang recently introduced the :doc:`ASTMatcher
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library <LibASTMatchers>` to provide a simple, powerful, and
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concise way to describe specific patterns in the AST. Implemented as a
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DSL powered by macros and templates (see
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`ASTMatchers.h <../doxygen/ASTMatchers_8h_source.html>`_ if you're
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curious), matchers offer the feel of algebraic data types common to
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functional programming languages.
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For example, suppose you wanted to examine only binary operators. There
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is a matcher to do exactly that, conveniently named ``binaryOperator``.
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I'll give you one guess what this matcher does:
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.. code-block:: c++
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binaryOperator(hasOperatorName("+"), hasLHS(integerLiteral(equals(0))))
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Shockingly, it will match against addition expressions whose left hand
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side is exactly the literal 0. It will not match against other forms of
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0, such as ``'\0'`` or ``NULL``, but it will match against macros that
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expand to 0. The matcher will also not match against calls to the
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overloaded operator ``'+'``, as there is a separate ``operatorCallExpr``
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matcher to handle overloaded operators.
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There are AST matchers to match all the different nodes of the AST,
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narrowing matchers to only match AST nodes fulfilling specific criteria,
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and traversal matchers to get from one kind of AST node to another. For
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a complete list of AST matchers, take a look at the `AST Matcher
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References <LibASTMatchersReference.html>`_
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All matcher that are nouns describe entities in the AST and can be
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bound, so that they can be referred to whenever a match is found. To do
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so, simply call the method ``bind`` on these matchers, e.g.:
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.. code-block:: c++
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variable(hasType(isInteger())).bind("intvar")
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Step 2: Using AST matchers
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==========================
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Okay, on to using matchers for real. Let's start by defining a matcher
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which will capture all ``for`` statements that define a new variable
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initialized to zero. Let's start with matching all ``for`` loops:
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.. code-block:: c++
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forStmt()
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Next, we want to specify that a single variable is declared in the first
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portion of the loop, so we can extend the matcher to
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.. code-block:: c++
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forStmt(hasLoopInit(declStmt(hasSingleDecl(varDecl()))))
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Finally, we can add the condition that the variable is initialized to
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zero.
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.. code-block:: c++
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forStmt(hasLoopInit(declStmt(hasSingleDecl(varDecl(
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hasInitializer(integerLiteral(equals(0))))))))
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It is fairly easy to read and understand the matcher definition ("match
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loops whose init portion declares a single variable which is initialized
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to the integer literal 0"), but deciding that every piece is necessary
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is more difficult. Note that this matcher will not match loops whose
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variables are initialized to ``'\0'``, ``0.0``, ``NULL``, or any form of
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zero besides the integer 0.
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The last step is giving the matcher a name and binding the ``ForStmt``
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as we will want to do something with it:
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.. code-block:: c++
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StatementMatcher LoopMatcher =
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forStmt(hasLoopInit(declStmt(hasSingleDecl(varDecl(
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hasInitializer(integerLiteral(equals(0)))))))).bind("forLoop");
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Once you have defined your matchers, you will need to add a little more
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scaffolding in order to run them. Matchers are paired with a
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``MatchCallback`` and registered with a ``MatchFinder`` object, then run
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from a ``ClangTool``. More code!
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Add the following to ``LoopConvert.cpp``:
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.. code-block:: c++
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#include "clang/ASTMatchers/ASTMatchers.h"
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#include "clang/ASTMatchers/ASTMatchFinder.h"
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using namespace clang;
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using namespace clang::ast_matchers;
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StatementMatcher LoopMatcher =
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forStmt(hasLoopInit(declStmt(hasSingleDecl(varDecl(
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hasInitializer(integerLiteral(equals(0)))))))).bind("forLoop");
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class LoopPrinter : public MatchFinder::MatchCallback {
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public :
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virtual void run(const MatchFinder::MatchResult &Result) {
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if (const ForStmt *FS = Result.Nodes.getNodeAs<clang::ForStmt>("forLoop"))
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FS->dump();
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}
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};
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And change ``main()`` to:
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.. code-block:: c++
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int main(int argc, const char **argv) {
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CommonOptionsParser OptionsParser(argc, argv);
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ClangTool Tool(OptionsParser.getCompilations(),
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OptionsParser.getSourcePathList());
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LoopPrinter Printer;
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MatchFinder Finder;
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Finder.addMatcher(LoopMatcher, &Printer);
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return Tool.run(newFrontendActionFactory(&Finder));
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}
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Now, you should be able to recompile and run the code to discover for
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loops. Create a new file with a few examples, and test out our new
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handiwork:
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.. code-block:: console
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cd ~/clang-llvm/llvm/llvm_build/
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ninja loop-convert
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vim ~/test-files/simple-loops.cc
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bin/loop-convert ~/test-files/simple-loops.cc
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Step 3.5: More Complicated Matchers
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===================================
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Our simple matcher is capable of discovering for loops, but we would
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still need to filter out many more ourselves. We can do a good portion
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of the remaining work with some cleverly chosen matchers, but first we
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need to decide exactly which properties we want to allow.
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How can we characterize for loops over arrays which would be eligible
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for translation to range-based syntax? Range based loops over arrays of
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size ``N`` that:
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- start at index ``0``
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- iterate consecutively
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- end at index ``N-1``
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We already check for (1), so all we need to add is a check to the loop's
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condition to ensure that the loop's index variable is compared against
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``N`` and another check to ensure that the increment step just
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increments this same variable. The matcher for (2) is straightforward:
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require a pre- or post-increment of the same variable declared in the
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init portion.
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Unfortunately, such a matcher is impossible to write. Matchers contain
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no logic for comparing two arbitrary AST nodes and determining whether
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or not they are equal, so the best we can do is matching more than we
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would like to allow, and punting extra comparisons to the callback.
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In any case, we can start building this sub-matcher. We can require that
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the increment step be a unary increment like this:
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.. code-block:: c++
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hasIncrement(unaryOperator(hasOperatorName("++")))
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Specifying what is incremented introduces another quirk of Clang's AST:
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Usages of variables are represented as ``DeclRefExpr``'s ("declaration
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reference expressions") because they are expressions which refer to
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variable declarations. To find a ``unaryOperator`` that refers to a
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specific declaration, we can simply add a second condition to it:
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.. code-block:: c++
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hasIncrement(unaryOperator(
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hasOperatorName("++"),
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hasUnaryOperand(declRefExpr())))
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Furthermore, we can restrict our matcher to only match if the
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incremented variable is an integer:
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.. code-block:: c++
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hasIncrement(unaryOperator(
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hasOperatorName("++"),
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hasUnaryOperand(declRefExpr(to(varDecl(hasType(isInteger())))))))
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And the last step will be to attach an identifier to this variable, so
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that we can retrieve it in the callback:
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.. code-block:: c++
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hasIncrement(unaryOperator(
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hasOperatorName("++"),
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hasUnaryOperand(declRefExpr(to(
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varDecl(hasType(isInteger())).bind("incrementVariable"))))))
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We can add this code to the definition of ``LoopMatcher`` and make sure
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that our program, outfitted with the new matcher, only prints out loops
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that declare a single variable initialized to zero and have an increment
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step consisting of a unary increment of some variable.
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Now, we just need to add a matcher to check if the condition part of the
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``for`` loop compares a variable against the size of the array. There is
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only one problem - we don't know which array we're iterating over
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without looking at the body of the loop! We are again restricted to
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approximating the result we want with matchers, filling in the details
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in the callback. So we start with:
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.. code-block:: c++
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hasCondition(binaryOperator(hasOperatorName("<"))
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It makes sense to ensure that the left-hand side is a reference to a
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variable, and that the right-hand side has integer type.
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.. code-block:: c++
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hasCondition(binaryOperator(
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hasOperatorName("<"),
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hasLHS(declRefExpr(to(varDecl(hasType(isInteger()))))),
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hasRHS(expr(hasType(isInteger())))))
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Why? Because it doesn't work. Of the three loops provided in
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``test-files/simple.cpp``, zero of them have a matching condition. A
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quick look at the AST dump of the first for loop, produced by the
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previous iteration of loop-convert, shows us the answer:
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::
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(ForStmt 0x173b240
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(DeclStmt 0x173afc8
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0x173af50 "int i =
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(IntegerLiteral 0x173afa8 'int' 0)")
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<<>>
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(BinaryOperator 0x173b060 '_Bool' '<'
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(ImplicitCastExpr 0x173b030 'int'
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(DeclRefExpr 0x173afe0 'int' lvalue Var 0x173af50 'i' 'int'))
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(ImplicitCastExpr 0x173b048 'int'
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(DeclRefExpr 0x173b008 'const int' lvalue Var 0x170fa80 'N' 'const int')))
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(UnaryOperator 0x173b0b0 'int' lvalue prefix '++'
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(DeclRefExpr 0x173b088 'int' lvalue Var 0x173af50 'i' 'int'))
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(CompoundStatement ...
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We already know that the declaration and increments both match, or this
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loop wouldn't have been dumped. The culprit lies in the implicit cast
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applied to the first operand (i.e. the LHS) of the less-than operator,
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an L-value to R-value conversion applied to the expression referencing
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``i``. Thankfully, the matcher library offers a solution to this problem
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in the form of ``ignoringParenImpCasts``, which instructs the matcher to
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ignore implicit casts and parentheses before continuing to match.
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Adjusting the condition operator will restore the desired match.
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.. code-block:: c++
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hasCondition(binaryOperator(
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hasOperatorName("<"),
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hasLHS(ignoringParenImpCasts(declRefExpr(
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to(varDecl(hasType(isInteger())))))),
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hasRHS(expr(hasType(isInteger())))))
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After adding binds to the expressions we wished to capture and
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extracting the identifier strings into variables, we have array-step-2
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completed.
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Step 4: Retrieving Matched Nodes
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================================
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So far, the matcher callback isn't very interesting: it just dumps the
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loop's AST. At some point, we will need to make changes to the input
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source code. Next, we'll work on using the nodes we bound in the
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previous step.
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The ``MatchFinder::run()`` callback takes a
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``MatchFinder::MatchResult&`` as its parameter. We're most interested in
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its ``Context`` and ``Nodes`` members. Clang uses the ``ASTContext``
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class to represent contextual information about the AST, as the name
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implies, though the most functionally important detail is that several
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operations require an ``ASTContext*`` parameter. More immediately useful
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is the set of matched nodes, and how we retrieve them.
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Since we bind three variables (identified by ConditionVarName,
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InitVarName, and IncrementVarName), we can obtain the matched nodes by
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using the ``getNodeAs()`` member function.
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In ``LoopConvert.cpp`` add
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.. code-block:: c++
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#include "clang/AST/ASTContext.h"
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Change ``LoopMatcher`` to
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.. code-block:: c++
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StatementMatcher LoopMatcher =
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forStmt(hasLoopInit(declStmt(
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hasSingleDecl(varDecl(hasInitializer(integerLiteral(equals(0))))
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.bind("initVarName")))),
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hasIncrement(unaryOperator(
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hasOperatorName("++"),
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hasUnaryOperand(declRefExpr(
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to(varDecl(hasType(isInteger())).bind("incVarName")))))),
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hasCondition(binaryOperator(
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hasOperatorName("<"),
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hasLHS(ignoringParenImpCasts(declRefExpr(
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to(varDecl(hasType(isInteger())).bind("condVarName"))))),
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hasRHS(expr(hasType(isInteger())))))).bind("forLoop");
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And change ``LoopPrinter::run`` to
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.. code-block:: c++
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void LoopPrinter::run(const MatchFinder::MatchResult &Result) {
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ASTContext *Context = Result.Context;
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const ForStmt *FS = Result.Nodes.getStmtAs<ForStmt>("forLoop");
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// We do not want to convert header files!
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if (!FS || !Context->getSourceManager().isFromMainFile(FS->getForLoc()))
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return;
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const VarDecl *IncVar = Result.Nodes.getNodeAs<VarDecl>("incVarName");
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const VarDecl *CondVar = Result.Nodes.getNodeAs<VarDecl>("condVarName");
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const VarDecl *InitVar = Result.Nodes.getNodeAs<VarDecl>("initVarName");
|
|
|
|
if (!areSameVariable(IncVar, CondVar) || !areSameVariable(IncVar, InitVar))
|
|
return;
|
|
llvm::outs() << "Potential array-based loop discovered.\n";
|
|
}
|
|
|
|
Clang associates a ``VarDecl`` with each variable to represent the variable's
|
|
declaration. Since the "canonical" form of each declaration is unique by
|
|
address, all we need to do is make sure neither ``ValueDecl`` (base class of
|
|
``VarDecl``) is ``NULL`` and compare the canonical Decls.
|
|
|
|
.. code-block:: c++
|
|
|
|
static bool areSameVariable(const ValueDecl *First, const ValueDecl *Second) {
|
|
return First && Second &&
|
|
First->getCanonicalDecl() == Second->getCanonicalDecl();
|
|
}
|
|
|
|
If execution reaches the end of ``LoopPrinter::run()``, we know that the
|
|
loop shell that looks like
|
|
|
|
.. code-block:: c++
|
|
|
|
for (int i= 0; i < expr(); ++i) { ... }
|
|
|
|
For now, we will just print a message explaining that we found a loop.
|
|
The next section will deal with recursively traversing the AST to
|
|
discover all changes needed.
|
|
|
|
As a side note, it's not as trivial to test if two expressions are the same,
|
|
though Clang has already done the hard work for us by providing a way to
|
|
canonicalize expressions:
|
|
|
|
.. code-block:: c++
|
|
|
|
static bool areSameExpr(ASTContext *Context, const Expr *First,
|
|
const Expr *Second) {
|
|
if (!First || !Second)
|
|
return false;
|
|
llvm::FoldingSetNodeID FirstID, SecondID;
|
|
First->Profile(FirstID, *Context, true);
|
|
Second->Profile(SecondID, *Context, true);
|
|
return FirstID == SecondID;
|
|
}
|
|
|
|
This code relies on the comparison between two
|
|
``llvm::FoldingSetNodeIDs``. As the documentation for
|
|
``Stmt::Profile()`` indicates, the ``Profile()`` member function builds
|
|
a description of a node in the AST, based on its properties, along with
|
|
those of its children. ``FoldingSetNodeID`` then serves as a hash we can
|
|
use to compare expressions. We will need ``areSameExpr`` later. Before
|
|
you run the new code on the additional loops added to
|
|
test-files/simple.cpp, try to figure out which ones will be considered
|
|
potentially convertible.
|