forked from OSchip/llvm-project
228 lines
7.6 KiB
ReStructuredText
228 lines
7.6 KiB
ReStructuredText
==========================================================
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How to write RecursiveASTVisitor based ASTFrontendActions.
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==========================================================
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Introduction
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============
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In this tutorial you will learn how to create a FrontendAction that uses
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a RecursiveASTVisitor to find CXXRecordDecl AST nodes with a specified
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name.
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Creating a FrontendAction
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=========================
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When writing a clang based tool like a Clang Plugin or a standalone tool
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based on LibTooling, the common entry point is the FrontendAction.
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FrontendAction is an interface that allows execution of user specific
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actions as part of the compilation. To run tools over the AST clang
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provides the convenience interface ASTFrontendAction, which takes care
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of executing the action. The only part left is to implement the
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CreateASTConsumer method that returns an ASTConsumer per translation
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unit.
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::
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class FindNamedClassAction : public clang::ASTFrontendAction {
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public:
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virtual std::unique_ptr<clang::ASTConsumer> CreateASTConsumer(
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clang::CompilerInstance &Compiler, llvm::StringRef InFile) {
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return std::make_unique<FindNamedClassConsumer>();
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}
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};
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Creating an ASTConsumer
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=======================
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ASTConsumer is an interface used to write generic actions on an AST,
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regardless of how the AST was produced. ASTConsumer provides many
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different entry points, but for our use case the only one needed is
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HandleTranslationUnit, which is called with the ASTContext for the
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translation unit.
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::
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class FindNamedClassConsumer : public clang::ASTConsumer {
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public:
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virtual void HandleTranslationUnit(clang::ASTContext &Context) {
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// Traversing the translation unit decl via a RecursiveASTVisitor
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// will visit all nodes in the AST.
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Visitor.TraverseDecl(Context.getTranslationUnitDecl());
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}
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private:
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// A RecursiveASTVisitor implementation.
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FindNamedClassVisitor Visitor;
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};
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Using the RecursiveASTVisitor
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=============================
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Now that everything is hooked up, the next step is to implement a
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RecursiveASTVisitor to extract the relevant information from the AST.
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The RecursiveASTVisitor provides hooks of the form bool
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VisitNodeType(NodeType \*) for most AST nodes; the exception are TypeLoc
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nodes, which are passed by-value. We only need to implement the methods
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for the relevant node types.
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Let's start by writing a RecursiveASTVisitor that visits all
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CXXRecordDecl's.
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::
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class FindNamedClassVisitor
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: public RecursiveASTVisitor<FindNamedClassVisitor> {
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public:
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bool VisitCXXRecordDecl(CXXRecordDecl *Declaration) {
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// For debugging, dumping the AST nodes will show which nodes are already
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// being visited.
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Declaration->dump();
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// The return value indicates whether we want the visitation to proceed.
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// Return false to stop the traversal of the AST.
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return true;
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}
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};
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In the methods of our RecursiveASTVisitor we can now use the full power
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of the Clang AST to drill through to the parts that are interesting for
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us. For example, to find all class declaration with a certain name, we
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can check for a specific qualified name:
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::
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bool VisitCXXRecordDecl(CXXRecordDecl *Declaration) {
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if (Declaration->getQualifiedNameAsString() == "n::m::C")
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Declaration->dump();
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return true;
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}
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Accessing the SourceManager and ASTContext
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==========================================
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Some of the information about the AST, like source locations and global
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identifier information, are not stored in the AST nodes themselves, but
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in the ASTContext and its associated source manager. To retrieve them we
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need to hand the ASTContext into our RecursiveASTVisitor implementation.
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The ASTContext is available from the CompilerInstance during the call to
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CreateASTConsumer. We can thus extract it there and hand it into our
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freshly created FindNamedClassConsumer:
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::
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virtual std::unique_ptr<clang::ASTConsumer> CreateASTConsumer(
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clang::CompilerInstance &Compiler, llvm::StringRef InFile) {
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return std::make_unique<FindNamedClassConsumer>(&Compiler.getASTContext());
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}
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Now that the ASTContext is available in the RecursiveASTVisitor, we can
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do more interesting things with AST nodes, like looking up their source
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locations:
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::
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bool VisitCXXRecordDecl(CXXRecordDecl *Declaration) {
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if (Declaration->getQualifiedNameAsString() == "n::m::C") {
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// getFullLoc uses the ASTContext's SourceManager to resolve the source
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// location and break it up into its line and column parts.
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FullSourceLoc FullLocation = Context->getFullLoc(Declaration->getBeginLoc());
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if (FullLocation.isValid())
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llvm::outs() << "Found declaration at "
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<< FullLocation.getSpellingLineNumber() << ":"
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<< FullLocation.getSpellingColumnNumber() << "\n";
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}
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return true;
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}
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Putting it all together
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=======================
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Now we can combine all of the above into a small example program:
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::
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#include "clang/AST/ASTConsumer.h"
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#include "clang/AST/RecursiveASTVisitor.h"
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#include "clang/Frontend/CompilerInstance.h"
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#include "clang/Frontend/FrontendAction.h"
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#include "clang/Tooling/Tooling.h"
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using namespace clang;
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class FindNamedClassVisitor
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: public RecursiveASTVisitor<FindNamedClassVisitor> {
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public:
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explicit FindNamedClassVisitor(ASTContext *Context)
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: Context(Context) {}
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bool VisitCXXRecordDecl(CXXRecordDecl *Declaration) {
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if (Declaration->getQualifiedNameAsString() == "n::m::C") {
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FullSourceLoc FullLocation = Context->getFullLoc(Declaration->getBeginLoc());
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if (FullLocation.isValid())
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llvm::outs() << "Found declaration at "
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<< FullLocation.getSpellingLineNumber() << ":"
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<< FullLocation.getSpellingColumnNumber() << "\n";
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}
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return true;
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}
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private:
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ASTContext *Context;
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};
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class FindNamedClassConsumer : public clang::ASTConsumer {
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public:
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explicit FindNamedClassConsumer(ASTContext *Context)
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: Visitor(Context) {}
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virtual void HandleTranslationUnit(clang::ASTContext &Context) {
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Visitor.TraverseDecl(Context.getTranslationUnitDecl());
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}
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private:
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FindNamedClassVisitor Visitor;
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};
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class FindNamedClassAction : public clang::ASTFrontendAction {
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public:
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virtual std::unique_ptr<clang::ASTConsumer> CreateASTConsumer(
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clang::CompilerInstance &Compiler, llvm::StringRef InFile) {
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return std::make_unique<FindNamedClassConsumer>(&Compiler.getASTContext());
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}
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};
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int main(int argc, char **argv) {
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if (argc > 1) {
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clang::tooling::runToolOnCode(std::make_unique<FindNamedClassAction>(), argv[1]);
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}
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}
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We store this into a file called FindClassDecls.cpp and create the
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following CMakeLists.txt to link it:
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::
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set(LLVM_LINK_COMPONENTS
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Support
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)
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add_clang_executable(find-class-decls FindClassDecls.cpp)
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target_link_libraries(find-class-decls
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PRIVATE
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clangAST
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clangBasic
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clangFrontend
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clangSerialization
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clangTooling
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)
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When running this tool over a small code snippet it will output all
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declarations of a class n::m::C it found:
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::
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$ ./bin/find-class-decls "namespace n { namespace m { class C {}; } }"
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Found declaration at 1:29
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