//===--- TokenAnnotator.cpp - Format C++ code -----------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// /// /// \file /// \brief This file implements a token annotator, i.e. creates /// \c AnnotatedTokens out of \c FormatTokens with required extra information. /// //===----------------------------------------------------------------------===// #include "TokenAnnotator.h" #include "clang/Basic/SourceManager.h" #include "clang/Lex/Lexer.h" #include "llvm/Support/Debug.h" namespace clang { namespace format { static bool isUnaryOperator(const AnnotatedToken &Tok) { switch (Tok.FormatTok.Tok.getKind()) { case tok::plus: case tok::plusplus: case tok::minus: case tok::minusminus: case tok::exclaim: case tok::tilde: case tok::kw_sizeof: case tok::kw_alignof: return true; default: return false; } } static bool isBinaryOperator(const AnnotatedToken &Tok) { // Comma is a binary operator, but does not behave as such wrt. formatting. return getPrecedence(Tok) > prec::Comma; } // Returns the previous token ignoring comments. static AnnotatedToken *getPreviousToken(AnnotatedToken &Tok) { AnnotatedToken *PrevToken = Tok.Parent; while (PrevToken != NULL && PrevToken->is(tok::comment)) PrevToken = PrevToken->Parent; return PrevToken; } static const AnnotatedToken *getPreviousToken(const AnnotatedToken &Tok) { return getPreviousToken(const_cast(Tok)); } static bool isTrailingComment(AnnotatedToken *Tok) { return Tok != NULL && Tok->is(tok::comment) && (Tok->Children.empty() || Tok->Children[0].FormatTok.NewlinesBefore > 0); } // Returns the next token ignoring comments. static const AnnotatedToken *getNextToken(const AnnotatedToken &Tok) { if (Tok.Children.empty()) return NULL; const AnnotatedToken *NextToken = &Tok.Children[0]; while (NextToken->is(tok::comment)) { if (NextToken->Children.empty()) return NULL; NextToken = &NextToken->Children[0]; } return NextToken; } static bool closesScope(const AnnotatedToken &Tok) { return Tok.isOneOf(tok::r_paren, tok::r_brace, tok::r_square) || Tok.Type == TT_TemplateCloser; } static bool opensScope(const AnnotatedToken &Tok) { return Tok.isOneOf(tok::l_paren, tok::l_brace, tok::l_square) || Tok.Type == TT_TemplateOpener; } /// \brief A parser that gathers additional information about tokens. /// /// The \c TokenAnnotator tries to match parenthesis and square brakets and /// store a parenthesis levels. It also tries to resolve matching "<" and ">" /// into template parameter lists. class AnnotatingParser { public: AnnotatingParser(SourceManager &SourceMgr, Lexer &Lex, AnnotatedLine &Line, IdentifierInfo &Ident_in) : SourceMgr(SourceMgr), Lex(Lex), Line(Line), CurrentToken(&Line.First), KeywordVirtualFound(false), Ident_in(Ident_in) { Contexts.push_back(Context(tok::unknown, 1, /*IsExpression=*/ false)); } private: bool parseAngle() { if (CurrentToken == NULL) return false; ScopedContextCreator ContextCreator(*this, tok::less, 10); AnnotatedToken *Left = CurrentToken->Parent; Contexts.back().IsExpression = false; while (CurrentToken != NULL) { if (CurrentToken->is(tok::greater)) { Left->MatchingParen = CurrentToken; CurrentToken->MatchingParen = Left; CurrentToken->Type = TT_TemplateCloser; next(); return true; } if (CurrentToken->isOneOf(tok::r_paren, tok::r_square, tok::r_brace, tok::pipepipe, tok::ampamp, tok::question, tok::colon)) return false; updateParameterCount(Left, CurrentToken); if (!consumeToken()) return false; } return false; } bool parseParens(bool LookForDecls = false) { if (CurrentToken == NULL) return false; ScopedContextCreator ContextCreator(*this, tok::l_paren, 1); // FIXME: This is a bit of a hack. Do better. Contexts.back().ColonIsForRangeExpr = Contexts.size() == 2 && Contexts[0].ColonIsForRangeExpr; bool StartsObjCMethodExpr = false; AnnotatedToken *Left = CurrentToken->Parent; if (CurrentToken->is(tok::caret)) { // ^( starts a block. Left->Type = TT_ObjCBlockLParen; } else if (AnnotatedToken *MaybeSel = Left->Parent) { // @selector( starts a selector. if (MaybeSel->isObjCAtKeyword(tok::objc_selector) && MaybeSel->Parent && MaybeSel->Parent->is(tok::at)) { StartsObjCMethodExpr = true; } } if (StartsObjCMethodExpr) { Contexts.back().ColonIsObjCMethodExpr = true; Left->Type = TT_ObjCMethodExpr; } while (CurrentToken != NULL) { // LookForDecls is set when "if (" has been seen. Check for // 'identifier' '*' 'identifier' followed by not '=' -- this // '*' has to be a binary operator but determineStarAmpUsage() will // categorize it as an unary operator, so set the right type here. if (LookForDecls && !CurrentToken->Children.empty()) { AnnotatedToken &Prev = *CurrentToken->Parent; AnnotatedToken &Next = CurrentToken->Children[0]; if (Prev.Parent->is(tok::identifier) && Prev.isOneOf(tok::star, tok::amp, tok::ampamp) && CurrentToken->is(tok::identifier) && Next.isNot(tok::equal)) { Prev.Type = TT_BinaryOperator; LookForDecls = false; } } if (CurrentToken->is(tok::r_paren)) { Left->MatchingParen = CurrentToken; CurrentToken->MatchingParen = Left; if (StartsObjCMethodExpr) { CurrentToken->Type = TT_ObjCMethodExpr; if (Contexts.back().FirstObjCSelectorName != NULL) { Contexts.back().FirstObjCSelectorName->LongestObjCSelectorName = Contexts.back().LongestObjCSelectorName; } } next(); return true; } if (CurrentToken->isOneOf(tok::r_square, tok::r_brace)) return false; updateParameterCount(Left, CurrentToken); if (!consumeToken()) return false; } return false; } bool parseSquare() { if (!CurrentToken) return false; // A '[' could be an index subscript (after an indentifier or after // ')' or ']'), it could be the start of an Objective-C method // expression, or it could the the start of an Objective-C array literal. AnnotatedToken *Left = CurrentToken->Parent; AnnotatedToken *Parent = getPreviousToken(*Left); bool StartsObjCMethodExpr = Contexts.back().CanBeExpression && (!Parent || Parent->isOneOf(tok::colon, tok::l_square, tok::l_paren, tok::kw_return, tok::kw_throw) || isUnaryOperator(*Parent) || Parent->Type == TT_ObjCForIn || Parent->Type == TT_CastRParen || getBinOpPrecedence(Parent->FormatTok.Tok.getKind(), true, true) > prec::Unknown); ScopedContextCreator ContextCreator(*this, tok::l_square, 10); Contexts.back().IsExpression = true; bool StartsObjCArrayLiteral = Parent && Parent->is(tok::at); if (StartsObjCMethodExpr) { Contexts.back().ColonIsObjCMethodExpr = true; Left->Type = TT_ObjCMethodExpr; } else if (StartsObjCArrayLiteral) { Left->Type = TT_ObjCArrayLiteral; } while (CurrentToken != NULL) { if (CurrentToken->is(tok::r_square)) { if (!CurrentToken->Children.empty() && CurrentToken->Children[0].is(tok::l_paren)) { // An ObjC method call is rarely followed by an open parenthesis. // FIXME: Do we incorrectly label ":" with this? StartsObjCMethodExpr = false; Left->Type = TT_Unknown; } if (StartsObjCMethodExpr) { CurrentToken->Type = TT_ObjCMethodExpr; // determineStarAmpUsage() thinks that '*' '[' is allocating an // array of pointers, but if '[' starts a selector then '*' is a // binary operator. if (Parent != NULL && Parent->Type == TT_PointerOrReference) Parent->Type = TT_BinaryOperator; } else if (StartsObjCArrayLiteral) { CurrentToken->Type = TT_ObjCArrayLiteral; } Left->MatchingParen = CurrentToken; CurrentToken->MatchingParen = Left; if (Contexts.back().FirstObjCSelectorName != NULL) Contexts.back().FirstObjCSelectorName->LongestObjCSelectorName = Contexts.back().LongestObjCSelectorName; next(); return true; } if (CurrentToken->isOneOf(tok::r_paren, tok::r_brace)) return false; updateParameterCount(Left, CurrentToken); if (!consumeToken()) return false; } return false; } bool parseBrace() { // Lines are fine to end with '{'. if (CurrentToken == NULL) return true; ScopedContextCreator ContextCreator(*this, tok::l_brace, 1); AnnotatedToken *Left = CurrentToken->Parent; while (CurrentToken != NULL) { if (CurrentToken->is(tok::r_brace)) { Left->MatchingParen = CurrentToken; CurrentToken->MatchingParen = Left; next(); return true; } if (CurrentToken->isOneOf(tok::r_paren, tok::r_square)) return false; updateParameterCount(Left, CurrentToken); if (!consumeToken()) return false; } return true; } void updateParameterCount(AnnotatedToken *Left, AnnotatedToken *Current) { if (Current->is(tok::comma)) ++Left->ParameterCount; else if (Left->ParameterCount == 0 && Current->isNot(tok::comment)) Left->ParameterCount = 1; } bool parseConditional() { while (CurrentToken != NULL) { if (CurrentToken->is(tok::colon)) { CurrentToken->Type = TT_ConditionalExpr; next(); return true; } if (!consumeToken()) return false; } return false; } bool parseTemplateDeclaration() { if (CurrentToken != NULL && CurrentToken->is(tok::less)) { CurrentToken->Type = TT_TemplateOpener; next(); if (!parseAngle()) return false; if (CurrentToken != NULL) CurrentToken->Parent->ClosesTemplateDeclaration = true; return true; } return false; } bool consumeToken() { AnnotatedToken *Tok = CurrentToken; next(); switch (Tok->FormatTok.Tok.getKind()) { case tok::plus: case tok::minus: if (Tok->Parent == NULL && Line.MustBeDeclaration) Tok->Type = TT_ObjCMethodSpecifier; break; case tok::colon: if (Tok->Parent == NULL) return false; // Colons from ?: are handled in parseConditional(). if (Tok->Parent->is(tok::r_paren) && Contexts.size() == 1) { Tok->Type = TT_CtorInitializerColon; } else if (Contexts.back().ColonIsObjCMethodExpr || Line.First.Type == TT_ObjCMethodSpecifier) { Tok->Type = TT_ObjCMethodExpr; Tok->Parent->Type = TT_ObjCSelectorName; if (Tok->Parent->FormatTok.TokenLength > Contexts.back().LongestObjCSelectorName) Contexts.back().LongestObjCSelectorName = Tok->Parent->FormatTok.TokenLength; if (Contexts.back().FirstObjCSelectorName == NULL) Contexts.back().FirstObjCSelectorName = Tok->Parent; } else if (Contexts.back().ColonIsForRangeExpr) { Tok->Type = TT_RangeBasedForLoopColon; } else if (Contexts.size() == 1) { Tok->Type = TT_InheritanceColon; } else if (Contexts.back().ContextKind == tok::l_paren) { Tok->Type = TT_InlineASMColon; } break; case tok::kw_if: case tok::kw_while: if (CurrentToken != NULL && CurrentToken->is(tok::l_paren)) { next(); if (!parseParens(/*LookForDecls=*/ true)) return false; } break; case tok::kw_for: Contexts.back().ColonIsForRangeExpr = true; next(); if (!parseParens()) return false; break; case tok::l_paren: if (!parseParens()) return false; if (Line.MustBeDeclaration) Line.MightBeFunctionDecl = true; break; case tok::l_square: if (!parseSquare()) return false; break; case tok::l_brace: if (!parseBrace()) return false; break; case tok::less: if (parseAngle()) Tok->Type = TT_TemplateOpener; else { Tok->Type = TT_BinaryOperator; CurrentToken = Tok; next(); } break; case tok::r_paren: case tok::r_square: return false; case tok::r_brace: // Lines can start with '}'. if (Tok->Parent != NULL) return false; break; case tok::greater: Tok->Type = TT_BinaryOperator; break; case tok::kw_operator: while (CurrentToken && CurrentToken->isNot(tok::l_paren)) { if (CurrentToken->isOneOf(tok::star, tok::amp)) CurrentToken->Type = TT_PointerOrReference; consumeToken(); } if (CurrentToken) CurrentToken->Type = TT_OverloadedOperatorLParen; break; case tok::question: parseConditional(); break; case tok::kw_template: parseTemplateDeclaration(); break; case tok::identifier: if (Line.First.is(tok::kw_for) && Tok->FormatTok.Tok.getIdentifierInfo() == &Ident_in) Tok->Type = TT_ObjCForIn; break; case tok::comma: if (Contexts.back().FirstStartOfName) Contexts.back().FirstStartOfName->PartOfMultiVariableDeclStmt = true; break; default: break; } return true; } void parseIncludeDirective() { next(); if (CurrentToken != NULL && CurrentToken->is(tok::less)) { next(); while (CurrentToken != NULL) { if (CurrentToken->isNot(tok::comment) || !CurrentToken->Children.empty()) CurrentToken->Type = TT_ImplicitStringLiteral; next(); } } else { while (CurrentToken != NULL) { if (CurrentToken->is(tok::string_literal)) // Mark these string literals as "implicit" literals, too, so that // they are not split or line-wrapped. CurrentToken->Type = TT_ImplicitStringLiteral; next(); } } } void parseWarningOrError() { next(); // We still want to format the whitespace left of the first token of the // warning or error. next(); while (CurrentToken != NULL) { CurrentToken->Type = TT_ImplicitStringLiteral; next(); } } void parsePreprocessorDirective() { next(); if (CurrentToken == NULL) return; // Hashes in the middle of a line can lead to any strange token // sequence. if (CurrentToken->FormatTok.Tok.getIdentifierInfo() == NULL) return; switch (CurrentToken->FormatTok.Tok.getIdentifierInfo()->getPPKeywordID()) { case tok::pp_include: case tok::pp_import: parseIncludeDirective(); break; case tok::pp_error: case tok::pp_warning: parseWarningOrError(); break; default: break; } while (CurrentToken != NULL) next(); } public: LineType parseLine() { int PeriodsAndArrows = 0; AnnotatedToken *LastPeriodOrArrow = NULL; bool CanBeBuilderTypeStmt = true; if (CurrentToken->is(tok::hash)) { parsePreprocessorDirective(); return LT_PreprocessorDirective; } while (CurrentToken != NULL) { if (CurrentToken->is(tok::kw_virtual)) KeywordVirtualFound = true; if (CurrentToken->isOneOf(tok::period, tok::arrow)) { ++PeriodsAndArrows; LastPeriodOrArrow = CurrentToken; } AnnotatedToken *TheToken = CurrentToken; if (!consumeToken()) return LT_Invalid; if (getPrecedence(*TheToken) > prec::Assignment && TheToken->Type == TT_BinaryOperator) CanBeBuilderTypeStmt = false; } if (KeywordVirtualFound) return LT_VirtualFunctionDecl; // Assume a builder-type call if there are 2 or more "." and "->". if (PeriodsAndArrows >= 2 && CanBeBuilderTypeStmt) { LastPeriodOrArrow->LastInChainOfCalls = true; return LT_BuilderTypeCall; } if (Line.First.Type == TT_ObjCMethodSpecifier) { if (Contexts.back().FirstObjCSelectorName != NULL) Contexts.back().FirstObjCSelectorName->LongestObjCSelectorName = Contexts.back().LongestObjCSelectorName; return LT_ObjCMethodDecl; } return LT_Other; } private: void next() { if (CurrentToken != NULL) { determineTokenType(*CurrentToken); CurrentToken->BindingStrength = Contexts.back().BindingStrength; } if (CurrentToken != NULL && !CurrentToken->Children.empty()) CurrentToken = &CurrentToken->Children[0]; else CurrentToken = NULL; // Reset token type in case we have already looked at it and then recovered // from an error (e.g. failure to find the matching >). if (CurrentToken != NULL) CurrentToken->Type = TT_Unknown; } /// \brief A struct to hold information valid in a specific context, e.g. /// a pair of parenthesis. struct Context { Context(tok::TokenKind ContextKind, unsigned BindingStrength, bool IsExpression) : ContextKind(ContextKind), BindingStrength(BindingStrength), LongestObjCSelectorName(0), ColonIsForRangeExpr(false), ColonIsObjCMethodExpr(false), FirstObjCSelectorName(NULL), FirstStartOfName(NULL), IsExpression(IsExpression), CanBeExpression(true) {} tok::TokenKind ContextKind; unsigned BindingStrength; unsigned LongestObjCSelectorName; bool ColonIsForRangeExpr; bool ColonIsObjCMethodExpr; AnnotatedToken *FirstObjCSelectorName; AnnotatedToken *FirstStartOfName; bool IsExpression; bool CanBeExpression; }; /// \brief Puts a new \c Context onto the stack \c Contexts for the lifetime /// of each instance. struct ScopedContextCreator { AnnotatingParser &P; ScopedContextCreator(AnnotatingParser &P, tok::TokenKind ContextKind, unsigned Increase) : P(P) { P.Contexts.push_back( Context(ContextKind, P.Contexts.back().BindingStrength + Increase, P.Contexts.back().IsExpression)); } ~ScopedContextCreator() { P.Contexts.pop_back(); } }; void determineTokenType(AnnotatedToken &Current) { if (getPrecedence(Current) == prec::Assignment) { Contexts.back().IsExpression = true; for (AnnotatedToken *Previous = Current.Parent; Previous && Previous->isNot(tok::comma); Previous = Previous->Parent) { if (Previous->is(tok::r_square)) Previous = Previous->MatchingParen; if (Previous->Type == TT_BinaryOperator && Previous->isOneOf(tok::star, tok::amp)) { Previous->Type = TT_PointerOrReference; } } } else if (Current.isOneOf(tok::kw_return, tok::kw_throw) || (Current.is(tok::l_paren) && !Line.MustBeDeclaration && (!Current.Parent || Current.Parent->isNot(tok::kw_for)))) { Contexts.back().IsExpression = true; } else if (Current.isOneOf(tok::r_paren, tok::greater, tok::comma)) { for (AnnotatedToken *Previous = Current.Parent; Previous && Previous->isOneOf(tok::star, tok::amp); Previous = Previous->Parent) Previous->Type = TT_PointerOrReference; } else if (Current.Parent && Current.Parent->Type == TT_CtorInitializerColon) { Contexts.back().IsExpression = true; } else if (Current.is(tok::kw_new)) { Contexts.back().CanBeExpression = false; } if (Current.Type == TT_Unknown) { if (Current.Parent && Current.is(tok::identifier) && ((Current.Parent->is(tok::identifier) && Current.Parent->FormatTok.Tok.getIdentifierInfo() ->getPPKeywordID() == tok::pp_not_keyword) || isSimpleTypeSpecifier(*Current.Parent) || Current.Parent->Type == TT_PointerOrReference || Current.Parent->Type == TT_TemplateCloser)) { Contexts.back().FirstStartOfName = &Current; Current.Type = TT_StartOfName; } else if (Current.isOneOf(tok::star, tok::amp, tok::ampamp)) { Current.Type = determineStarAmpUsage(Current, Contexts.back().IsExpression); } else if (Current.isOneOf(tok::minus, tok::plus, tok::caret)) { Current.Type = determinePlusMinusCaretUsage(Current); } else if (Current.isOneOf(tok::minusminus, tok::plusplus)) { Current.Type = determineIncrementUsage(Current); } else if (Current.is(tok::exclaim)) { Current.Type = TT_UnaryOperator; } else if (isBinaryOperator(Current)) { Current.Type = TT_BinaryOperator; } else if (Current.is(tok::comment)) { std::string Data(Lexer::getSpelling(Current.FormatTok.Tok, SourceMgr, Lex.getLangOpts())); if (StringRef(Data).startswith("//")) Current.Type = TT_LineComment; else Current.Type = TT_BlockComment; } else if (Current.is(tok::r_paren)) { bool ParensNotExpr = !Current.Parent || Current.Parent->Type == TT_PointerOrReference || Current.Parent->Type == TT_TemplateCloser; bool ParensCouldEndDecl = !Current.Children.empty() && Current.Children[0].isOneOf(tok::equal, tok::semi, tok::l_brace); bool IsSizeOfOrAlignOf = Current.MatchingParen && Current.MatchingParen->Parent && Current.MatchingParen->Parent->isOneOf(tok::kw_sizeof, tok::kw_alignof); if (ParensNotExpr && !ParensCouldEndDecl && !IsSizeOfOrAlignOf && Contexts.back().IsExpression) // FIXME: We need to get smarter and understand more cases of casts. Current.Type = TT_CastRParen; } else if (Current.is(tok::at) && Current.Children.size()) { switch (Current.Children[0].FormatTok.Tok.getObjCKeywordID()) { case tok::objc_interface: case tok::objc_implementation: case tok::objc_protocol: Current.Type = TT_ObjCDecl; break; case tok::objc_property: Current.Type = TT_ObjCProperty; break; default: break; } } } } /// \brief Return the type of the given token assuming it is * or &. TokenType determineStarAmpUsage(const AnnotatedToken &Tok, bool IsExpression) { const AnnotatedToken *PrevToken = getPreviousToken(Tok); if (PrevToken == NULL) return TT_UnaryOperator; const AnnotatedToken *NextToken = getNextToken(Tok); if (NextToken == NULL) return TT_Unknown; if (PrevToken->is(tok::l_paren) && !IsExpression) return TT_PointerOrReference; if (PrevToken->isOneOf(tok::l_paren, tok::l_square, tok::l_brace, tok::comma, tok::semi, tok::kw_return, tok::colon, tok::equal) || PrevToken->Type == TT_BinaryOperator || PrevToken->Type == TT_UnaryOperator || PrevToken->Type == TT_CastRParen) return TT_UnaryOperator; if (NextToken->is(tok::l_square)) return TT_PointerOrReference; if (PrevToken->FormatTok.Tok.isLiteral() || PrevToken->isOneOf(tok::r_paren, tok::r_square) || NextToken->FormatTok.Tok.isLiteral() || isUnaryOperator(*NextToken)) return TT_BinaryOperator; // It is very unlikely that we are going to find a pointer or reference type // definition on the RHS of an assignment. if (IsExpression) return TT_BinaryOperator; return TT_PointerOrReference; } TokenType determinePlusMinusCaretUsage(const AnnotatedToken &Tok) { const AnnotatedToken *PrevToken = getPreviousToken(Tok); if (PrevToken == NULL) return TT_UnaryOperator; // Use heuristics to recognize unary operators. if (PrevToken->isOneOf(tok::equal, tok::l_paren, tok::comma, tok::l_square, tok::question, tok::colon, tok::kw_return, tok::kw_case, tok::at, tok::l_brace)) return TT_UnaryOperator; // There can't be two consecutive binary operators. if (PrevToken->Type == TT_BinaryOperator) return TT_UnaryOperator; // Fall back to marking the token as binary operator. return TT_BinaryOperator; } /// \brief Determine whether ++/-- are pre- or post-increments/-decrements. TokenType determineIncrementUsage(const AnnotatedToken &Tok) { const AnnotatedToken *PrevToken = getPreviousToken(Tok); if (PrevToken == NULL) return TT_UnaryOperator; if (PrevToken->isOneOf(tok::r_paren, tok::r_square, tok::identifier)) return TT_TrailingUnaryOperator; return TT_UnaryOperator; } // FIXME: This is copy&pasted from Sema. Put it in a common place and remove // duplication. /// \brief Determine whether the token kind starts a simple-type-specifier. bool isSimpleTypeSpecifier(const AnnotatedToken &Tok) const { switch (Tok.FormatTok.Tok.getKind()) { case tok::kw_short: case tok::kw_long: case tok::kw___int64: case tok::kw___int128: case tok::kw_signed: case tok::kw_unsigned: case tok::kw_void: case tok::kw_char: case tok::kw_int: case tok::kw_half: case tok::kw_float: case tok::kw_double: case tok::kw_wchar_t: case tok::kw_bool: case tok::kw___underlying_type: return true; case tok::annot_typename: case tok::kw_char16_t: case tok::kw_char32_t: case tok::kw_typeof: case tok::kw_decltype: return Lex.getLangOpts().CPlusPlus; default: break; } return false; } SmallVector Contexts; SourceManager &SourceMgr; Lexer &Lex; AnnotatedLine &Line; AnnotatedToken *CurrentToken; bool KeywordVirtualFound; IdentifierInfo &Ident_in; }; /// \brief Parses binary expressions by inserting fake parenthesis based on /// operator precedence. class ExpressionParser { public: ExpressionParser(AnnotatedLine &Line) : Current(&Line.First) {} /// \brief Parse expressions with the given operatore precedence. void parse(int Precedence = 0) { if (Precedence > prec::PointerToMember || Current == NULL) return; // Eagerly consume trailing comments. while (Current && Current->FormatTok.NewlinesBefore == 0 && isTrailingComment(Current)) { next(); } AnnotatedToken *Start = Current; bool OperatorFound = false; while (Current) { // Consume operators with higher precedence. parse(prec::Level(Precedence + 1)); int CurrentPrecedence = 0; if (Current) { if (Current->Type == TT_ConditionalExpr) CurrentPrecedence = 1 + (int) prec::Conditional; else if (Current->is(tok::semi) || Current->Type == TT_InlineASMColon) CurrentPrecedence = 1; else if (Current->Type == TT_BinaryOperator || Current->is(tok::comma)) CurrentPrecedence = 1 + (int) getPrecedence(*Current); } // At the end of the line or when an operator with higher precedence is // found, insert fake parenthesis and return. if (Current == NULL || closesScope(*Current) || (CurrentPrecedence != 0 && CurrentPrecedence < Precedence)) { if (OperatorFound) { Start->FakeLParens.push_back(Precedence); if (Current) ++Current->Parent->FakeRParens; } return; } // Consume scopes: (), [], <> and {} if (opensScope(*Current)) { AnnotatedToken *Left = Current; while (Current && !closesScope(*Current)) { next(); parse(); } // Remove fake parens that just duplicate the real parens. if (Current && !Left->Children[0].FakeLParens.empty() && Current->Parent->FakeRParens > 0) { Left->Children[0].FakeLParens.pop_back(); --Current->Parent->FakeRParens; } next(); } else { // Operator found. if (CurrentPrecedence == Precedence) OperatorFound = true; next(); } } } private: void next() { if (Current != NULL) Current = Current->Children.empty() ? NULL : &Current->Children[0]; } AnnotatedToken *Current; }; void TokenAnnotator::annotate(AnnotatedLine &Line) { AnnotatingParser Parser(SourceMgr, Lex, Line, Ident_in); Line.Type = Parser.parseLine(); if (Line.Type == LT_Invalid) return; ExpressionParser ExprParser(Line); ExprParser.parse(); DEBUG({ printDebugInfo(Line); }); if (Line.First.Type == TT_ObjCMethodSpecifier) Line.Type = LT_ObjCMethodDecl; else if (Line.First.Type == TT_ObjCDecl) Line.Type = LT_ObjCDecl; else if (Line.First.Type == TT_ObjCProperty) Line.Type = LT_ObjCProperty; Line.First.SpacesRequiredBefore = 1; Line.First.MustBreakBefore = Line.First.FormatTok.MustBreakBefore; Line.First.CanBreakBefore = Line.First.MustBreakBefore; Line.First.TotalLength = Line.First.FormatTok.TokenLength; } void TokenAnnotator::calculateFormattingInformation(AnnotatedLine &Line) { if (Line.First.Children.empty()) return; AnnotatedToken *Current = &Line.First.Children[0]; while (Current != NULL) { if (Current->Type == TT_LineComment) Current->SpacesRequiredBefore = Style.SpacesBeforeTrailingComments; else Current->SpacesRequiredBefore = spaceRequiredBefore(Line, *Current) ? 1 : 0; if (Current->FormatTok.MustBreakBefore) { Current->MustBreakBefore = true; } else if (Current->Type == TT_LineComment) { Current->MustBreakBefore = Current->FormatTok.NewlinesBefore > 0; } else if (isTrailingComment(Current->Parent) || (Current->is(tok::string_literal) && Current->Parent->is(tok::string_literal))) { Current->MustBreakBefore = true; } else if (Current->is(tok::lessless) && !Current->Children.empty() && Current->Parent->is(tok::string_literal) && Current->Children[0].is(tok::string_literal)) { Current->MustBreakBefore = true; } else { Current->MustBreakBefore = false; } Current->CanBreakBefore = Current->MustBreakBefore || canBreakBefore(Line, *Current); if (Current->MustBreakBefore) Current->TotalLength = Current->Parent->TotalLength + Style.ColumnLimit; else Current->TotalLength = Current->Parent->TotalLength + Current->FormatTok.TokenLength + Current->SpacesRequiredBefore; // FIXME: Only calculate this if CanBreakBefore is true once static // initializers etc. are sorted out. // FIXME: Move magic numbers to a better place. Current->SplitPenalty = 20 * Current->BindingStrength + splitPenalty(Line, *Current); Current = Current->Children.empty() ? NULL : &Current->Children[0]; } } unsigned TokenAnnotator::splitPenalty(const AnnotatedLine &Line, const AnnotatedToken &Tok) { const AnnotatedToken &Left = *Tok.Parent; const AnnotatedToken &Right = Tok; if (Right.Type == TT_StartOfName) { if (Line.First.is(tok::kw_for) && Right.PartOfMultiVariableDeclStmt) return 3; else if (Line.MightBeFunctionDecl && Right.BindingStrength == 1) // FIXME: Clean up hack of using BindingStrength to find top-level names. return Style.PenaltyReturnTypeOnItsOwnLine; else return 100; } if (Left.is(tok::equal) && Right.is(tok::l_brace)) return 150; if (Left.is(tok::coloncolon)) return 500; if (Left.isOneOf(tok::kw_class, tok::kw_struct)) return 5000; if (Left.Type == TT_RangeBasedForLoopColon || Left.Type == TT_InheritanceColon) return 2; if (Right.isOneOf(tok::arrow, tok::period)) { if (Line.Type == LT_BuilderTypeCall) return prec::PointerToMember; if (Left.isOneOf(tok::r_paren, tok::r_square) && Left.MatchingParen && Left.MatchingParen->ParameterCount > 0) return 20; // Should be smaller than breaking at a nested comma. return 150; } // In for-loops, prefer breaking at ',' and ';'. if (Line.First.is(tok::kw_for) && Left.is(tok::equal)) return 4; if (Left.is(tok::semi)) return 0; if (Left.is(tok::comma)) return 1; // In Objective-C method expressions, prefer breaking before "param:" over // breaking after it. if (Right.Type == TT_ObjCSelectorName) return 0; if (Left.is(tok::colon) && Left.Type == TT_ObjCMethodExpr) return 20; if (opensScope(Left)) return Left.ParameterCount > 1 ? prec::Comma : 20; if (Right.is(tok::lessless)) { if (Left.is(tok::string_literal)) { StringRef Content = StringRef(Left.FormatTok.Tok.getLiteralData(), Left.FormatTok.TokenLength); Content = Content.drop_back(1).drop_front(1).trim(); if (Content.size() > 1 && (Content.back() == ':' || Content.back() == '=')) return 100; } return prec::Shift; } if (Left.Type == TT_ConditionalExpr) return prec::Conditional; prec::Level Level = getPrecedence(Left); if (Level != prec::Unknown) return Level; return 3; } bool TokenAnnotator::spaceRequiredBetween(const AnnotatedLine &Line, const AnnotatedToken &Left, const AnnotatedToken &Right) { if (Right.is(tok::hashhash)) return Left.is(tok::hash); if (Left.isOneOf(tok::hashhash, tok::hash)) return Right.is(tok::hash); if (Right.isOneOf(tok::r_paren, tok::semi, tok::comma)) return false; if (Right.is(tok::less) && (Left.is(tok::kw_template) || (Line.Type == LT_ObjCDecl && Style.ObjCSpaceBeforeProtocolList))) return true; if (Left.is(tok::arrow) || Right.is(tok::arrow)) return false; if (Left.isOneOf(tok::exclaim, tok::tilde)) return false; if (Left.is(tok::at) && Right.isOneOf(tok::identifier, tok::string_literal, tok::char_constant, tok::numeric_constant, tok::l_paren, tok::l_brace, tok::kw_true, tok::kw_false)) return false; if (Left.is(tok::coloncolon)) return false; if (Right.is(tok::coloncolon)) return !Left.isOneOf(tok::identifier, tok::greater, tok::l_paren); if (Left.is(tok::less) || Right.isOneOf(tok::greater, tok::less)) return false; if (Right.Type == TT_PointerOrReference) return Left.FormatTok.Tok.isLiteral() || ((Left.Type != TT_PointerOrReference) && Left.isNot(tok::l_paren) && !Style.PointerBindsToType); if (Left.Type == TT_PointerOrReference) return Right.FormatTok.Tok.isLiteral() || ((Right.Type != TT_PointerOrReference) && Right.isNot(tok::l_paren) && Style.PointerBindsToType && Left.Parent && Left.Parent->isNot(tok::l_paren)); if (Right.is(tok::star) && Left.is(tok::l_paren)) return false; if (Left.is(tok::l_square)) return Left.Type == TT_ObjCArrayLiteral && Right.isNot(tok::r_square); if (Right.is(tok::r_square)) return Right.Type == TT_ObjCArrayLiteral; if (Right.is(tok::l_square) && Right.Type != TT_ObjCMethodExpr) return false; if (Left.is(tok::period) || Right.is(tok::period)) return false; if (Left.is(tok::colon)) return Left.Type != TT_ObjCMethodExpr; if (Right.is(tok::colon)) return Right.Type != TT_ObjCMethodExpr; if (Left.is(tok::l_paren)) return false; if (Right.is(tok::l_paren)) { return Line.Type == LT_ObjCDecl || Left.isOneOf(tok::kw_if, tok::kw_for, tok::kw_while, tok::kw_switch, tok::kw_return, tok::kw_catch, tok::kw_new, tok::kw_delete); } if (Left.is(tok::at) && Right.FormatTok.Tok.getObjCKeywordID() != tok::objc_not_keyword) return false; if (Left.is(tok::l_brace) && Right.is(tok::r_brace)) return false; return true; } bool TokenAnnotator::spaceRequiredBefore(const AnnotatedLine &Line, const AnnotatedToken &Tok) { if (Tok.FormatTok.Tok.getIdentifierInfo() && Tok.Parent->FormatTok.Tok.getIdentifierInfo()) return true; // Never ever merge two identifiers. if (Line.Type == LT_ObjCMethodDecl) { if (Tok.Parent->Type == TT_ObjCMethodSpecifier) return true; if (Tok.Parent->is(tok::r_paren) && Tok.is(tok::identifier)) // Don't space between ')' and return false; } if (Line.Type == LT_ObjCProperty && (Tok.is(tok::equal) || Tok.Parent->is(tok::equal))) return false; if (Tok.Parent->is(tok::comma)) return true; if (Tok.is(tok::comma)) return false; if (Tok.Type == TT_CtorInitializerColon || Tok.Type == TT_ObjCBlockLParen) return true; if (Tok.Parent->FormatTok.Tok.is(tok::kw_operator)) return false; if (Tok.Type == TT_OverloadedOperatorLParen) return false; if (Tok.is(tok::colon)) return !Line.First.isOneOf(tok::kw_case, tok::kw_default) && !Tok.Children.empty() && Tok.Type != TT_ObjCMethodExpr; if (Tok.is(tok::l_paren) && !Tok.Children.empty() && Tok.Children[0].Type == TT_PointerOrReference && !Tok.Children[0].Children.empty() && Tok.Children[0].Children[0].isNot(tok::r_paren) && Tok.Parent->isNot(tok::l_paren) && (Tok.Parent->Type != TT_PointerOrReference || Style.PointerBindsToType)) return true; if (Tok.Parent->Type == TT_UnaryOperator || Tok.Parent->Type == TT_CastRParen) return false; if (Tok.Type == TT_UnaryOperator) return !Tok.Parent->isOneOf(tok::l_paren, tok::l_square, tok::at) && (Tok.Parent->isNot(tok::colon) || Tok.Parent->Type != TT_ObjCMethodExpr); if (Tok.Parent->is(tok::greater) && Tok.is(tok::greater)) { return Tok.Type == TT_TemplateCloser && Tok.Parent->Type == TT_TemplateCloser && Style.Standard != FormatStyle::LS_Cpp11; } if (Tok.isOneOf(tok::arrowstar, tok::periodstar) || Tok.Parent->isOneOf(tok::arrowstar, tok::periodstar)) return false; if (Tok.Type == TT_BinaryOperator || Tok.Parent->Type == TT_BinaryOperator) return true; if (Tok.Parent->Type == TT_TemplateCloser && Tok.is(tok::l_paren)) return false; if (Tok.is(tok::less) && Line.First.is(tok::hash)) return true; if (Tok.Type == TT_TrailingUnaryOperator) return false; return spaceRequiredBetween(Line, *Tok.Parent, Tok); } bool TokenAnnotator::canBreakBefore(const AnnotatedLine &Line, const AnnotatedToken &Right) { const AnnotatedToken &Left = *Right.Parent; if (Right.Type == TT_StartOfName) return true; if (Right.is(tok::colon) && Right.Type == TT_ObjCMethodExpr) return false; if (Left.is(tok::colon) && Left.Type == TT_ObjCMethodExpr) return true; if (Right.Type == TT_ObjCSelectorName) return true; if (Left.ClosesTemplateDeclaration) return true; if (Right.Type == TT_ConditionalExpr || Right.is(tok::question)) return true; if (Right.Type == TT_RangeBasedForLoopColon || Right.Type == TT_InheritanceColon || Right.Type == TT_OverloadedOperatorLParen) return false; if (Left.Type == TT_RangeBasedForLoopColon || Left.Type == TT_InheritanceColon) return true; if (Right.Type == TT_RangeBasedForLoopColon) return false; if (Left.Type == TT_PointerOrReference || Left.Type == TT_TemplateCloser || Left.Type == TT_UnaryOperator || Left.Type == TT_ConditionalExpr || Left.isOneOf(tok::question, tok::kw_operator)) return false; if (Left.is(tok::equal) && Line.Type == LT_VirtualFunctionDecl) return false; if (Left.is(tok::l_paren) && Right.is(tok::l_paren) && Left.Parent && Left.Parent->is(tok::kw___attribute)) return false; if (Right.Type == TT_LineComment) // We rely on MustBreakBefore being set correctly here as we should not // change the "binding" behavior of a comment. return false; // Allow breaking after a trailing 'const', e.g. after a method declaration, // unless it is follow by ';', '{' or '='. if (Left.is(tok::kw_const) && Left.Parent != NULL && Left.Parent->is(tok::r_paren)) return !Right.isOneOf(tok::l_brace, tok::semi, tok::equal); if (Right.is(tok::kw___attribute)) return true; // We only break before r_brace if there was a corresponding break before // the l_brace, which is tracked by BreakBeforeClosingBrace. if (Right.isOneOf(tok::r_brace, tok::r_paren, tok::greater)) return false; if (Left.is(tok::identifier) && Right.is(tok::string_literal)) return true; return (isBinaryOperator(Left) && Left.isNot(tok::lessless)) || Left.isOneOf(tok::comma, tok::coloncolon, tok::semi, tok::l_brace, tok::kw_class, tok::kw_struct) || Right.isOneOf(tok::lessless, tok::arrow, tok::period, tok::colon) || (Left.is(tok::r_paren) && Left.Type != TT_CastRParen && Right.isOneOf(tok::identifier, tok::kw___attribute)) || (Left.is(tok::l_paren) && !Right.is(tok::r_paren)) || (Left.is(tok::l_square) && !Right.is(tok::r_square)); } void TokenAnnotator::printDebugInfo(const AnnotatedLine &Line) { llvm::errs() << "AnnotatedTokens:\n"; const AnnotatedToken *Tok = &Line.First; while (Tok) { llvm::errs() << Tok->FormatTok.Tok.getName() << ":" << " Type=" << Tok->Type << " FakeLParens="; for (unsigned i = 0, e = Tok->FakeLParens.size(); i != e; ++i) llvm::errs() << Tok->FakeLParens[i] << "/"; llvm::errs() << " FakeRParens=" << Tok->FakeRParens << "\n"; Tok = Tok->Children.empty() ? NULL : &Tok->Children[0]; } llvm::errs() << "----\n"; } } // namespace format } // namespace clang