#include // clang 的 CodeCompletion 提供的功能非常有限，无法直接区分当前的 class CodeCompleteConsumer : public clang::CodeCompleteConsumer { private: std::shared_ptr Allocator; clang::CodeCompletionTUInfo CCTUInfo; public: CodeCompleteConsumer() : clang::CodeCompleteConsumer(clang::CodeCompleteOptions{}), Allocator(std::make_shared()), CCTUInfo(Allocator) {} clang::CodeCompletionAllocator& getAllocator() override { return *Allocator; } clang::CodeCompletionTUInfo& getCodeCompletionTUInfo() override { return CCTUInfo; } void ProcessCodeCompleteResults(clang::Sema& S, clang::CodeCompletionContext Context, clang::CodeCompletionResult* Results, unsigned NumResults) override { auto contexts = Context.getVisitedContexts(); for(auto c: contexts) { llvm::outs() << " Kind: " << c->getDeclKindName() << "\n"; } llvm::outs() << "code completion results:\n"; switch(Context.getKind()) { case clang::CodeCompletionContext::CCC_Attribute: { } case clang::CodeCompletionContext::CCC_DotMemberAccess: { const auto type = Context.getBaseType(); if(type->isDependentType()) { if(const auto dependentType = type->getAs()) { auto qualifers = dependentType->getQualifier(); // qualifers->getKind() -> clang::NestedNameSpecifier::SpecifierKind; // auto t = qualifers->getAsType(); // TODO: 看是否能根据主模板一路把依赖名替换下去，直到变成非依赖名 } else if(const auto dependentType = type->getAs()) { } } break; } /* ... */ default: { llvm::outs() << " Kind: " << Context.getKind() << "\n"; } } for(unsigned i = 0; i < NumResults; ++i) { clang::CodeCompletionResult& Result = Results[i]; switch(Result.Kind) { case clang::CodeCompletionResult::RK_Declaration: { llvm::outs() << " Declaration: "; llvm::outs() << Result.Declaration->getNameAsString() << "\n"; break; } case clang::CodeCompletionResult::RK_Keyword: { llvm::outs() << " Keyword: "; llvm::outs() << Result.Keyword << "\n"; break; } case clang::CodeCompletionResult::RK_Macro: { llvm::outs() << " Macro: "; llvm::outs() << Result.Macro->getName() << "\n"; break; } case clang::CodeCompletionResult::RK_Pattern: { llvm::outs() << " Pattern: "; llvm::outs() << Result.Pattern->getAsString() << "\n"; break; } } } } void ProcessOverloadCandidates(clang::Sema& S, unsigned CurrentArg, OverloadCandidate* Candidates, unsigned NumCandidates, clang::SourceLocation OpenParLoc, bool Braced) override {} }; int main(int argc, const char** argv) { assert(argc == 4 && "Usage: CodeCompletion "); llvm::outs() << "running CodeCompletion...\n"; auto instance = std::make_unique(); clang::DiagnosticIDs* ids = new clang::DiagnosticIDs(); clang::DiagnosticOptions* diag_opts = new clang::DiagnosticOptions(); diag_opts->IgnoreWarnings = true; clang::DiagnosticConsumer* consumer = new clang::TextDiagnosticPrinter(llvm::errs(), diag_opts); clang::DiagnosticsEngine* engine = new clang::DiagnosticsEngine(ids, diag_opts, consumer); instance->setDiagnostics(engine); auto invocation = std::make_shared(); std::vector args = { "/home/ykiko/Project/C++/clice/external/llvm/bin/clang++", "-Xclang", "-no-round-trip-args", "-std=c++20", "-Wno-everything", argv[1], "-c", }; invocation = clang::createInvocation(args, {}); /// NOTICE: auto& codeCompletionAt = invocation->getFrontendOpts().CodeCompletionAt; codeCompletionAt.FileName = argv[1]; codeCompletionAt.Line = std::stoi(argv[2]); codeCompletionAt.Column = std::stoi(argv[3]); instance->setInvocation(std::move(invocation)); if(!instance->createTarget()) { llvm::errs() << "Failed to create target\n"; std::terminate(); } if(clang::FileManager* manager = instance->createFileManager()) { instance->createSourceManager(*manager); } else { llvm::errs() << "Failed to create file manager\n"; std::terminate(); } instance->createPreprocessor(clang::TranslationUnitKind::TU_Complete); // ASTContent is necessary for SemanticAnalysis instance->createASTContext(); /// NOTICE: instance->setCodeCompletionConsumer(new CodeCompleteConsumer()); clang::SyntaxOnlyAction action; if(!action.BeginSourceFile(*instance, instance->getFrontendOpts().Inputs[0])) { llvm::errs() << "Failed to begin source file\n"; std::terminate(); } auto& pp = instance->getPreprocessor(); pp.setTokenWatcher([&pp](const clang::Token& token) { llvm::outs() << "token: " << pp.getSpelling(token) << " kind: " << token.getName() << "\n"; }); if(auto error = action.Execute()) { llvm::errs() << "Failed to execute action: " << error << "\n"; std::terminate(); } auto tu = instance->getASTContext().getTranslationUnitDecl(); tu->dump(); action.EndSourceFile(); }