forked from OSchip/llvm-project
226 lines
7.5 KiB
C++
226 lines
7.5 KiB
C++
//===--- UnwrappedLineParser.h - Format C++ code ----------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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///
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/// \file
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/// \brief This file contains the declaration of the UnwrappedLineParser,
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/// which turns a stream of tokens into UnwrappedLines.
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///
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_CLANG_LIB_FORMAT_UNWRAPPEDLINEPARSER_H
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#define LLVM_CLANG_LIB_FORMAT_UNWRAPPEDLINEPARSER_H
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#include "FormatToken.h"
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#include "clang/Basic/IdentifierTable.h"
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#include "clang/Format/Format.h"
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#include <list>
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#include <stack>
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namespace clang {
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namespace format {
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struct UnwrappedLineNode;
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/// \brief An unwrapped line is a sequence of \c Token, that we would like to
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/// put on a single line if there was no column limit.
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///
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/// This is used as a main interface between the \c UnwrappedLineParser and the
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/// \c UnwrappedLineFormatter. The key property is that changing the formatting
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/// within an unwrapped line does not affect any other unwrapped lines.
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struct UnwrappedLine {
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UnwrappedLine();
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// FIXME: Don't use std::list here.
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/// \brief The \c Tokens comprising this \c UnwrappedLine.
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std::list<UnwrappedLineNode> Tokens;
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/// \brief The indent level of the \c UnwrappedLine.
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unsigned Level;
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/// \brief Whether this \c UnwrappedLine is part of a preprocessor directive.
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bool InPPDirective;
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bool MustBeDeclaration;
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};
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class UnwrappedLineConsumer {
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public:
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virtual ~UnwrappedLineConsumer() {}
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virtual void consumeUnwrappedLine(const UnwrappedLine &Line) = 0;
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virtual void finishRun() = 0;
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};
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class FormatTokenSource;
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class UnwrappedLineParser {
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public:
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UnwrappedLineParser(const FormatStyle &Style,
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const AdditionalKeywords &Keywords,
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ArrayRef<FormatToken *> Tokens,
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UnwrappedLineConsumer &Callback);
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/// Returns true in case of a structural error.
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bool parse();
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private:
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void reset();
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void parseFile();
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void parseLevel(bool HasOpeningBrace);
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void parseBlock(bool MustBeDeclaration, bool AddLevel = true,
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bool MunchSemi = true);
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void parseChildBlock();
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void parsePPDirective();
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void parsePPDefine();
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void parsePPIf(bool IfDef);
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void parsePPElIf();
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void parsePPElse();
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void parsePPEndIf();
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void parsePPUnknown();
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void parseStructuralElement();
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bool tryToParseBracedList();
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bool parseBracedList(bool ContinueOnSemicolons = false);
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void parseParens();
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void parseSquare();
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void parseIfThenElse();
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void parseTryCatch();
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void parseForOrWhileLoop();
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void parseDoWhile();
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void parseLabel();
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void parseCaseLabel();
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void parseSwitch();
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void parseNamespace();
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void parseNew();
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void parseAccessSpecifier();
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void parseEnum();
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void parseJavaEnumBody();
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void parseRecord();
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void parseObjCProtocolList();
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void parseObjCUntilAtEnd();
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void parseObjCInterfaceOrImplementation();
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void parseObjCProtocol();
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void parseJavaScriptEs6ImportExport();
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bool tryToParseLambda();
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bool tryToParseLambdaIntroducer();
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void tryToParseJSFunction();
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void addUnwrappedLine();
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bool eof() const;
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void nextToken();
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void readToken();
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void flushComments(bool NewlineBeforeNext);
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void pushToken(FormatToken *Tok);
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void calculateBraceTypes();
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// Marks a conditional compilation edge (for example, an '#if', '#ifdef',
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// '#else' or merge conflict marker). If 'Unreachable' is true, assumes
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// this branch either cannot be taken (for example '#if false'), or should
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// not be taken in this round.
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void conditionalCompilationCondition(bool Unreachable);
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void conditionalCompilationStart(bool Unreachable);
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void conditionalCompilationAlternative();
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void conditionalCompilationEnd();
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bool isOnNewLine(const FormatToken &FormatTok);
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// FIXME: We are constantly running into bugs where Line.Level is incorrectly
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// subtracted from beyond 0. Introduce a method to subtract from Line.Level
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// and use that everywhere in the Parser.
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std::unique_ptr<UnwrappedLine> Line;
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// Comments are sorted into unwrapped lines by whether they are in the same
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// line as the previous token, or not. If not, they belong to the next token.
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// Since the next token might already be in a new unwrapped line, we need to
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// store the comments belonging to that token.
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SmallVector<FormatToken *, 1> CommentsBeforeNextToken;
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FormatToken *FormatTok;
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bool MustBreakBeforeNextToken;
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// The parsed lines. Only added to through \c CurrentLines.
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SmallVector<UnwrappedLine, 8> Lines;
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// Preprocessor directives are parsed out-of-order from other unwrapped lines.
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// Thus, we need to keep a list of preprocessor directives to be reported
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// after an unwarpped line that has been started was finished.
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SmallVector<UnwrappedLine, 4> PreprocessorDirectives;
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// New unwrapped lines are added via CurrentLines.
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// Usually points to \c &Lines. While parsing a preprocessor directive when
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// there is an unfinished previous unwrapped line, will point to
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// \c &PreprocessorDirectives.
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SmallVectorImpl<UnwrappedLine> *CurrentLines;
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// We store for each line whether it must be a declaration depending on
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// whether we are in a compound statement or not.
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std::vector<bool> DeclarationScopeStack;
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// Will be true if we encounter an error that leads to possibily incorrect
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// indentation levels.
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bool StructuralError;
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const FormatStyle &Style;
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const AdditionalKeywords &Keywords;
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FormatTokenSource *Tokens;
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UnwrappedLineConsumer &Callback;
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// FIXME: This is a temporary measure until we have reworked the ownership
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// of the format tokens. The goal is to have the actual tokens created and
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// owned outside of and handed into the UnwrappedLineParser.
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ArrayRef<FormatToken *> AllTokens;
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// Represents preprocessor branch type, so we can find matching
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// #if/#else/#endif directives.
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enum PPBranchKind {
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PP_Conditional, // Any #if, #ifdef, #ifndef, #elif, block outside #if 0
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PP_Unreachable // #if 0 or a conditional preprocessor block inside #if 0
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};
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// Keeps a stack of currently active preprocessor branching directives.
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SmallVector<PPBranchKind, 16> PPStack;
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// The \c UnwrappedLineParser re-parses the code for each combination
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// of preprocessor branches that can be taken.
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// To that end, we take the same branch (#if, #else, or one of the #elif
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// branches) for each nesting level of preprocessor branches.
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// \c PPBranchLevel stores the current nesting level of preprocessor
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// branches during one pass over the code.
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int PPBranchLevel;
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// Contains the current branch (#if, #else or one of the #elif branches)
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// for each nesting level.
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SmallVector<int, 8> PPLevelBranchIndex;
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// Contains the maximum number of branches at each nesting level.
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SmallVector<int, 8> PPLevelBranchCount;
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// Contains the number of branches per nesting level we are currently
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// in while parsing a preprocessor branch sequence.
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// This is used to update PPLevelBranchCount at the end of a branch
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// sequence.
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std::stack<int> PPChainBranchIndex;
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friend class ScopedLineState;
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friend class CompoundStatementIndenter;
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};
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struct UnwrappedLineNode {
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UnwrappedLineNode() : Tok(nullptr) {}
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UnwrappedLineNode(FormatToken *Tok) : Tok(Tok) {}
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FormatToken *Tok;
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SmallVector<UnwrappedLine, 0> Children;
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};
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inline UnwrappedLine::UnwrappedLine()
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: Level(0), InPPDirective(false), MustBeDeclaration(false) {}
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} // end namespace format
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} // end namespace clang
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#endif
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