//===--- HeaderIncludes.cpp - Insert/Delete #includes --*- C++ -*----------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "clang/Tooling/Inclusions/HeaderIncludes.h" #include "clang/Basic/SourceManager.h" #include "clang/Lex/Lexer.h" #include "llvm/Support/FormatVariadic.h" namespace clang { namespace tooling { namespace { LangOptions createLangOpts() { LangOptions LangOpts; LangOpts.CPlusPlus = 1; LangOpts.CPlusPlus11 = 1; LangOpts.CPlusPlus14 = 1; LangOpts.LineComment = 1; LangOpts.CXXOperatorNames = 1; LangOpts.Bool = 1; LangOpts.ObjC = 1; LangOpts.MicrosoftExt = 1; // To get kw___try, kw___finally. LangOpts.DeclSpecKeyword = 1; // To get __declspec. LangOpts.WChar = 1; // To get wchar_t return LangOpts; } // Returns the offset after skipping a sequence of tokens, matched by \p // GetOffsetAfterSequence, from the start of the code. // \p GetOffsetAfterSequence should be a function that matches a sequence of // tokens and returns an offset after the sequence. unsigned getOffsetAfterTokenSequence( StringRef FileName, StringRef Code, const IncludeStyle &Style, llvm::function_ref GetOffsetAfterSequence) { SourceManagerForFile VirtualSM(FileName, Code); SourceManager &SM = VirtualSM.get(); Lexer Lex(SM.getMainFileID(), SM.getBuffer(SM.getMainFileID()), SM, createLangOpts()); Token Tok; // Get the first token. Lex.LexFromRawLexer(Tok); return GetOffsetAfterSequence(SM, Lex, Tok); } // Check if a sequence of tokens is like "# ". If it is, // \p Tok will be the token after this directive; otherwise, it can be any token // after the given \p Tok (including \p Tok). bool checkAndConsumeDirectiveWithName(Lexer &Lex, StringRef Name, Token &Tok) { bool Matched = Tok.is(tok::hash) && !Lex.LexFromRawLexer(Tok) && Tok.is(tok::raw_identifier) && Tok.getRawIdentifier() == Name && !Lex.LexFromRawLexer(Tok) && Tok.is(tok::raw_identifier); if (Matched) Lex.LexFromRawLexer(Tok); return Matched; } void skipComments(Lexer &Lex, Token &Tok) { while (Tok.is(tok::comment)) if (Lex.LexFromRawLexer(Tok)) return; } // Returns the offset after header guard directives and any comments // before/after header guards. If no header guard presents in the code, this // will returns the offset after skipping all comments from the start of the // code. unsigned getOffsetAfterHeaderGuardsAndComments(StringRef FileName, StringRef Code, const IncludeStyle &Style) { return getOffsetAfterTokenSequence( FileName, Code, Style, [](const SourceManager &SM, Lexer &Lex, Token Tok) { skipComments(Lex, Tok); unsigned InitialOffset = SM.getFileOffset(Tok.getLocation()); if (checkAndConsumeDirectiveWithName(Lex, "ifndef", Tok)) { skipComments(Lex, Tok); if (checkAndConsumeDirectiveWithName(Lex, "define", Tok)) return SM.getFileOffset(Tok.getLocation()); } return InitialOffset; }); } // Check if a sequence of tokens is like // "#include ("header.h" | )". // If it is, \p Tok will be the token after this directive; otherwise, it can be // any token after the given \p Tok (including \p Tok). bool checkAndConsumeInclusiveDirective(Lexer &Lex, Token &Tok) { auto Matched = [&]() { Lex.LexFromRawLexer(Tok); return true; }; if (Tok.is(tok::hash) && !Lex.LexFromRawLexer(Tok) && Tok.is(tok::raw_identifier) && Tok.getRawIdentifier() == "include") { if (Lex.LexFromRawLexer(Tok)) return false; if (Tok.is(tok::string_literal)) return Matched(); if (Tok.is(tok::less)) { while (!Lex.LexFromRawLexer(Tok) && Tok.isNot(tok::greater)) { } if (Tok.is(tok::greater)) return Matched(); } } return false; } // Returns the offset of the last #include directive after which a new // #include can be inserted. This ignores #include's after the #include block(s) // in the beginning of a file to avoid inserting headers into code sections // where new #include's should not be added by default. // These code sections include: // - raw string literals (containing #include). // - #if blocks. // - Special #include's among declarations (e.g. functions). // // If no #include after which a new #include can be inserted, this returns the // offset after skipping all comments from the start of the code. // Inserting after an #include is not allowed if it comes after code that is not // #include (e.g. pre-processing directive that is not #include, declarations). unsigned getMaxHeaderInsertionOffset(StringRef FileName, StringRef Code, const IncludeStyle &Style) { return getOffsetAfterTokenSequence( FileName, Code, Style, [](const SourceManager &SM, Lexer &Lex, Token Tok) { skipComments(Lex, Tok); unsigned MaxOffset = SM.getFileOffset(Tok.getLocation()); while (checkAndConsumeInclusiveDirective(Lex, Tok)) MaxOffset = SM.getFileOffset(Tok.getLocation()); return MaxOffset; }); } inline StringRef trimInclude(StringRef IncludeName) { return IncludeName.trim("\"<>"); } const char IncludeRegexPattern[] = R"(^[\t\ ]*#[\t\ ]*(import|include)[^"<]*(["<][^">]*[">]))"; } // anonymous namespace IncludeCategoryManager::IncludeCategoryManager(const IncludeStyle &Style, StringRef FileName) : Style(Style), FileName(FileName) { FileStem = llvm::sys::path::stem(FileName); for (const auto &Category : Style.IncludeCategories) CategoryRegexs.emplace_back(Category.Regex, llvm::Regex::IgnoreCase); IsMainFile = FileName.endswith(".c") || FileName.endswith(".cc") || FileName.endswith(".cpp") || FileName.endswith(".c++") || FileName.endswith(".cxx") || FileName.endswith(".m") || FileName.endswith(".mm"); } int IncludeCategoryManager::getIncludePriority(StringRef IncludeName, bool CheckMainHeader) const { int Ret = INT_MAX; for (unsigned i = 0, e = CategoryRegexs.size(); i != e; ++i) if (CategoryRegexs[i].match(IncludeName)) { Ret = Style.IncludeCategories[i].Priority; break; } if (CheckMainHeader && IsMainFile && Ret > 0 && isMainHeader(IncludeName)) Ret = 0; return Ret; } bool IncludeCategoryManager::isMainHeader(StringRef IncludeName) const { if (!IncludeName.startswith("\"")) return false; StringRef HeaderStem = llvm::sys::path::stem(IncludeName.drop_front(1).drop_back(1)); if (FileStem.startswith(HeaderStem) || FileStem.startswith_lower(HeaderStem)) { llvm::Regex MainIncludeRegex(HeaderStem.str() + Style.IncludeIsMainRegex, llvm::Regex::IgnoreCase); if (MainIncludeRegex.match(FileStem)) return true; } return false; } HeaderIncludes::HeaderIncludes(StringRef FileName, StringRef Code, const IncludeStyle &Style) : FileName(FileName), Code(Code), FirstIncludeOffset(-1), MinInsertOffset( getOffsetAfterHeaderGuardsAndComments(FileName, Code, Style)), MaxInsertOffset(MinInsertOffset + getMaxHeaderInsertionOffset( FileName, Code.drop_front(MinInsertOffset), Style)), Categories(Style, FileName), IncludeRegex(llvm::Regex(IncludeRegexPattern)) { // Add 0 for main header and INT_MAX for headers that are not in any // category. Priorities = {0, INT_MAX}; for (const auto &Category : Style.IncludeCategories) Priorities.insert(Category.Priority); SmallVector Lines; Code.drop_front(MinInsertOffset).split(Lines, "\n"); unsigned Offset = MinInsertOffset; unsigned NextLineOffset; SmallVector Matches; for (auto Line : Lines) { NextLineOffset = std::min(Code.size(), Offset + Line.size() + 1); if (IncludeRegex.match(Line, &Matches)) { // If this is the last line without trailing newline, we need to make // sure we don't delete across the file boundary. addExistingInclude( Include(Matches[2], tooling::Range( Offset, std::min(Line.size() + 1, Code.size() - Offset))), NextLineOffset); } Offset = NextLineOffset; } // Populate CategoryEndOfssets: // - Ensure that CategoryEndOffset[Highest] is always populated. // - If CategoryEndOffset[Priority] isn't set, use the next higher value // that is set, up to CategoryEndOffset[Highest]. auto Highest = Priorities.begin(); if (CategoryEndOffsets.find(*Highest) == CategoryEndOffsets.end()) { if (FirstIncludeOffset >= 0) CategoryEndOffsets[*Highest] = FirstIncludeOffset; else CategoryEndOffsets[*Highest] = MinInsertOffset; } // By this point, CategoryEndOffset[Highest] is always set appropriately: // - to an appropriate location before/after existing #includes, or // - to right after the header guard, or // - to the beginning of the file. for (auto I = ++Priorities.begin(), E = Priorities.end(); I != E; ++I) if (CategoryEndOffsets.find(*I) == CategoryEndOffsets.end()) CategoryEndOffsets[*I] = CategoryEndOffsets[*std::prev(I)]; } // \p Offset: the start of the line following this include directive. void HeaderIncludes::addExistingInclude(Include IncludeToAdd, unsigned NextLineOffset) { auto Iter = ExistingIncludes.try_emplace(trimInclude(IncludeToAdd.Name)).first; Iter->second.push_back(std::move(IncludeToAdd)); auto &CurInclude = Iter->second.back(); // The header name with quotes or angle brackets. // Only record the offset of current #include if we can insert after it. if (CurInclude.R.getOffset() <= MaxInsertOffset) { int Priority = Categories.getIncludePriority( CurInclude.Name, /*CheckMainHeader=*/FirstIncludeOffset < 0); CategoryEndOffsets[Priority] = NextLineOffset; IncludesByPriority[Priority].push_back(&CurInclude); if (FirstIncludeOffset < 0) FirstIncludeOffset = CurInclude.R.getOffset(); } } llvm::Optional HeaderIncludes::insert(llvm::StringRef IncludeName, bool IsAngled) const { assert(IncludeName == trimInclude(IncludeName)); // If a

("header") already exists in code, "header" (

) with // different quotation will still be inserted. // FIXME: figure out if this is the best behavior. auto It = ExistingIncludes.find(IncludeName); if (It != ExistingIncludes.end()) for (const auto &Inc : It->second) if ((IsAngled && StringRef(Inc.Name).startswith("<")) || (!IsAngled && StringRef(Inc.Name).startswith("\""))) return llvm::None; std::string Quoted = llvm::formatv(IsAngled ? "<{0}>" : "\"{0}\"", IncludeName); StringRef QuotedName = Quoted; int Priority = Categories.getIncludePriority( QuotedName, /*CheckMainHeader=*/FirstIncludeOffset < 0); auto CatOffset = CategoryEndOffsets.find(Priority); assert(CatOffset != CategoryEndOffsets.end()); unsigned InsertOffset = CatOffset->second; // Fall back offset auto Iter = IncludesByPriority.find(Priority); if (Iter != IncludesByPriority.end()) { for (const auto *Inc : Iter->second) { if (QuotedName < Inc->Name) { InsertOffset = Inc->R.getOffset(); break; } } } assert(InsertOffset <= Code.size()); std::string NewInclude = llvm::formatv("#include {0}\n", QuotedName); // When inserting headers at end of the code, also append '\n' to the code // if it does not end with '\n'. // FIXME: when inserting multiple #includes at the end of code, only one // newline should be added. if (InsertOffset == Code.size() && (!Code.empty() && Code.back() != '\n')) NewInclude = "\n" + NewInclude; return tooling::Replacement(FileName, InsertOffset, 0, NewInclude); } tooling::Replacements HeaderIncludes::remove(llvm::StringRef IncludeName, bool IsAngled) const { assert(IncludeName == trimInclude(IncludeName)); tooling::Replacements Result; auto Iter = ExistingIncludes.find(IncludeName); if (Iter == ExistingIncludes.end()) return Result; for (const auto &Inc : Iter->second) { if ((IsAngled && StringRef(Inc.Name).startswith("\"")) || (!IsAngled && StringRef(Inc.Name).startswith("<"))) continue; llvm::Error Err = Result.add(tooling::Replacement( FileName, Inc.R.getOffset(), Inc.R.getLength(), "")); if (Err) { auto ErrMsg = "Unexpected conflicts in #include deletions: " + llvm::toString(std::move(Err)); llvm_unreachable(ErrMsg.c_str()); } } return Result; } } // namespace tooling } // namespace clang