//===--- CompileCommands.h - Manipulation of compile flags -------*- C++-*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_TOOLS_EXTRA_CLANGD_COMPILECOMMANDS_H #define LLVM_CLANG_TOOLS_EXTRA_CLANGD_COMPILECOMMANDS_H #include "support/Threading.h" #include "clang/Tooling/ArgumentsAdjusters.h" #include "clang/Tooling/CompilationDatabase.h" #include "llvm/ADT/StringMap.h" #include #include #include namespace clang { namespace clangd { // CommandMangler transforms compile commands from some external source // for use in clangd. This means: // - running the frontend only, stripping args regarding output files etc // - forcing the use of clangd's builtin headers rather than clang's // - resolving argv0 as cc1 expects // - injecting -isysroot flags on mac as the system clang does struct CommandMangler { // Absolute path to clang. llvm::Optional ClangPath; // Directory containing builtin headers. llvm::Optional ResourceDir; // Root for searching for standard library (passed to -isysroot). llvm::Optional Sysroot; // A command-mangler that doesn't know anything about the system. // This is hermetic for unit-tests, but won't work well in production. static CommandMangler forTests(); // Probe the system and build a command-mangler that knows the toolchain. // - try to find clang on $PATH, otherwise fake a path near clangd // - find the resource directory installed near clangd // - on mac, find clang and isysroot by querying the `xcrun` launcher static CommandMangler detect(); void adjust(std::vector &Cmd) const; explicit operator clang::tooling::ArgumentsAdjuster() &&; private: CommandMangler() = default; Memoize> ResolvedDrivers; Memoize> ResolvedDriversNoFollow; }; // Removes args from a command-line in a semantically-aware way. // // Internally this builds a large (0.5MB) table of clang options on first use. // Both strip() and process() are fairly cheap after that. // // FIXME: this reimplements much of OptTable, it might be nice to expose more. // The table-building strategy may not make sense outside clangd. class ArgStripper { public: ArgStripper() = default; ArgStripper(ArgStripper &&) = default; ArgStripper(const ArgStripper &) = delete; ArgStripper &operator=(ArgStripper &&) = default; ArgStripper &operator=(const ArgStripper &) = delete; // Adds the arg to the set which should be removed. // // Recognized clang flags are stripped semantically. When "-I" is stripped: // - so is its value (either as -Ifoo or -I foo) // - aliases like --include-directory=foo are also stripped // - CL-style /Ifoo will be removed if the args indicate MS-compatible mode // Compile args not recognized as flags are removed literally, except: // - strip("ABC*") will remove any arg with an ABC prefix. // // In either case, the -Xclang prefix will be dropped if present. void strip(llvm::StringRef Arg); // Remove the targets from a compile command, in-place. void process(std::vector &Args) const; private: // Deletion rules, to be checked for each arg. struct Rule { llvm::StringRef Text; // Rule applies only if arg begins with Text. unsigned char Modes = 0; // Rule applies only in specified driver modes. uint16_t Priority = 0; // Lower is better. uint16_t ExactArgs = 0; // Num args consumed when Arg == Text. uint16_t PrefixArgs = 0; // Num args consumed when Arg starts with Text. }; static llvm::ArrayRef rulesFor(llvm::StringRef Arg); const Rule *matchingRule(llvm::StringRef Arg, unsigned Mode, unsigned &ArgCount) const; llvm::SmallVector Rules; std::deque Storage; // Store strings not found in option table. }; } // namespace clangd } // namespace clang #endif