//===--- BreakableToken.h - Format C++ code ---------------------*- 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 // //===----------------------------------------------------------------------===// /// /// \file /// Declares BreakableToken, BreakableStringLiteral, BreakableComment, /// BreakableBlockComment and BreakableLineCommentSection classes, that contain /// token type-specific logic to break long lines in tokens and reflow content /// between tokens. /// //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_LIB_FORMAT_BREAKABLETOKEN_H #define LLVM_CLANG_LIB_FORMAT_BREAKABLETOKEN_H #include "Encoding.h" #include "WhitespaceManager.h" #include "llvm/ADT/StringSet.h" namespace clang { namespace format { /// Checks if \p Token switches formatting, like /* clang-format off */. /// \p Token must be a comment. bool switchesFormatting(const FormatToken &Token); struct FormatStyle; /// Base class for tokens / ranges of tokens that can allow breaking /// within the tokens - for example, to avoid whitespace beyond the column /// limit, or to reflow text. /// /// Generally, a breakable token consists of logical lines, addressed by a line /// index. For example, in a sequence of line comments, each line comment is its /// own logical line; similarly, for a block comment, each line in the block /// comment is on its own logical line. /// /// There are two methods to compute the layout of the token: /// - getRangeLength measures the number of columns needed for a range of text /// within a logical line, and /// - getContentStartColumn returns the start column at which we want the /// content of a logical line to start (potentially after introducing a line /// break). /// /// The mechanism to adapt the layout of the breakable token is organised /// around the concept of a \c Split, which is a whitespace range that signifies /// a position of the content of a token where a reformatting might be done. /// /// Operating with splits is divided into two operations: /// - getSplit, for finding a split starting at a position, /// - insertBreak, for executing the split using a whitespace manager. /// /// There is a pair of operations that are used to compress a long whitespace /// range with a single space if that will bring the line length under the /// column limit: /// - getLineLengthAfterCompression, for calculating the size in columns of the /// line after a whitespace range has been compressed, and /// - compressWhitespace, for executing the whitespace compression using a /// whitespace manager; note that the compressed whitespace may be in the /// middle of the original line and of the reformatted line. /// /// For tokens where the whitespace before each line needs to be also /// reformatted, for example for tokens supporting reflow, there are analogous /// operations that might be executed before the main line breaking occurs: /// - getReflowSplit, for finding a split such that the content preceding it /// needs to be specially reflown, /// - reflow, for executing the split using a whitespace manager, /// - introducesBreakBefore, for checking if reformatting the beginning /// of the content introduces a line break before it, /// - adaptStartOfLine, for executing the reflow using a whitespace /// manager. /// /// For tokens that require the whitespace after the last line to be /// reformatted, for example in multiline jsdoc comments that require the /// trailing '*/' to be on a line of itself, there are analogous operations /// that might be executed after the last line has been reformatted: /// - getSplitAfterLastLine, for finding a split after the last line that needs /// to be reflown, /// - replaceWhitespaceAfterLastLine, for executing the reflow using a /// whitespace manager. /// class BreakableToken { public: /// Contains starting character index and length of split. typedef std::pair Split; virtual ~BreakableToken() {} /// Returns the number of lines in this token in the original code. virtual unsigned getLineCount() const = 0; /// Returns the number of columns required to format the text in the /// byte range [\p Offset, \p Offset \c + \p Length). /// /// \p Offset is the byte offset from the start of the content of the line /// at \p LineIndex. /// /// \p StartColumn is the column at which the text starts in the formatted /// file, needed to compute tab stops correctly. virtual unsigned getRangeLength(unsigned LineIndex, unsigned Offset, StringRef::size_type Length, unsigned StartColumn) const = 0; /// Returns the number of columns required to format the text following /// the byte \p Offset in the line \p LineIndex, including potentially /// unbreakable sequences of tokens following after the end of the token. /// /// \p Offset is the byte offset from the start of the content of the line /// at \p LineIndex. /// /// \p StartColumn is the column at which the text starts in the formatted /// file, needed to compute tab stops correctly. /// /// For breakable tokens that never use extra space at the end of a line, this /// is equivalent to getRangeLength with a Length of StringRef::npos. virtual unsigned getRemainingLength(unsigned LineIndex, unsigned Offset, unsigned StartColumn) const { return getRangeLength(LineIndex, Offset, StringRef::npos, StartColumn); } /// Returns the column at which content in line \p LineIndex starts, /// assuming no reflow. /// /// If \p Break is true, returns the column at which the line should start /// after the line break. /// If \p Break is false, returns the column at which the line itself will /// start. virtual unsigned getContentStartColumn(unsigned LineIndex, bool Break) const = 0; /// Returns additional content indent required for the second line after the /// content at line \p LineIndex is broken. /// // (Next lines do not start with `///` since otherwise -Wdocumentation picks // up the example annotations and generates warnings for them) // For example, Javadoc @param annotations require and indent of 4 spaces and // in this example getContentIndex(1) returns 4. // /** // * @param loooooooooooooong line // * continuation // */ virtual unsigned getContentIndent(unsigned LineIndex) const { return 0; } /// Returns a range (offset, length) at which to break the line at /// \p LineIndex, if previously broken at \p TailOffset. If possible, do not /// violate \p ColumnLimit, assuming the text starting at \p TailOffset in /// the token is formatted starting at ContentStartColumn in the reformatted /// file. virtual Split getSplit(unsigned LineIndex, unsigned TailOffset, unsigned ColumnLimit, unsigned ContentStartColumn, const llvm::Regex &CommentPragmasRegex) const = 0; /// Emits the previously retrieved \p Split via \p Whitespaces. virtual void insertBreak(unsigned LineIndex, unsigned TailOffset, Split Split, unsigned ContentIndent, WhitespaceManager &Whitespaces) const = 0; /// Returns the number of columns needed to format /// \p RemainingTokenColumns, assuming that Split is within the range measured /// by \p RemainingTokenColumns, and that the whitespace in Split is reduced /// to a single space. unsigned getLengthAfterCompression(unsigned RemainingTokenColumns, Split Split) const; /// Replaces the whitespace range described by \p Split with a single /// space. virtual void compressWhitespace(unsigned LineIndex, unsigned TailOffset, Split Split, WhitespaceManager &Whitespaces) const = 0; /// Returns whether the token supports reflowing text. virtual bool supportsReflow() const { return false; } /// Returns a whitespace range (offset, length) of the content at \p /// LineIndex such that the content of that line is reflown to the end of the /// previous one. /// /// Returning (StringRef::npos, 0) indicates reflowing is not possible. /// /// The range will include any whitespace preceding the specified line's /// content. /// /// If the split is not contained within one token, for example when reflowing /// line comments, returns (0, ). virtual Split getReflowSplit(unsigned LineIndex, const llvm::Regex &CommentPragmasRegex) const { return Split(StringRef::npos, 0); } /// Reflows the current line into the end of the previous one. virtual void reflow(unsigned LineIndex, WhitespaceManager &Whitespaces) const {} /// Returns whether there will be a line break at the start of the /// token. virtual bool introducesBreakBeforeToken() const { return false; } /// Replaces the whitespace between \p LineIndex-1 and \p LineIndex. virtual void adaptStartOfLine(unsigned LineIndex, WhitespaceManager &Whitespaces) const {} /// Returns a whitespace range (offset, length) of the content at /// the last line that needs to be reformatted after the last line has been /// reformatted. /// /// A result having offset == StringRef::npos means that no reformat is /// necessary. virtual Split getSplitAfterLastLine(unsigned TailOffset) const { return Split(StringRef::npos, 0); } /// Replaces the whitespace from \p SplitAfterLastLine on the last line /// after the last line has been formatted by performing a reformatting. void replaceWhitespaceAfterLastLine(unsigned TailOffset, Split SplitAfterLastLine, WhitespaceManager &Whitespaces) const { insertBreak(getLineCount() - 1, TailOffset, SplitAfterLastLine, /*ContentIndent=*/0, Whitespaces); } /// Updates the next token of \p State to the next token after this /// one. This can be used when this token manages a set of underlying tokens /// as a unit and is responsible for the formatting of the them. virtual void updateNextToken(LineState &State) const {} /// Adds replacements that are needed when the token is broken. Such as /// wrapping a JavaScript string in parentheses after it gets broken with plus /// signs. virtual void updateAfterBroken(WhitespaceManager &Whitespaces) const {} protected: BreakableToken(const FormatToken &Tok, bool InPPDirective, encoding::Encoding Encoding, const FormatStyle &Style) : Tok(Tok), InPPDirective(InPPDirective), Encoding(Encoding), Style(Style) {} const FormatToken &Tok; const bool InPPDirective; const encoding::Encoding Encoding; const FormatStyle &Style; }; class BreakableStringLiteral : public BreakableToken { public: /// Creates a breakable token for a single line string literal. /// /// \p StartColumn specifies the column in which the token will start /// after formatting. BreakableStringLiteral(const FormatToken &Tok, unsigned StartColumn, StringRef Prefix, StringRef Postfix, unsigned UnbreakableTailLength, bool InPPDirective, encoding::Encoding Encoding, const FormatStyle &Style); Split getSplit(unsigned LineIndex, unsigned TailOffset, unsigned ColumnLimit, unsigned ContentStartColumn, const llvm::Regex &CommentPragmasRegex) const override; void insertBreak(unsigned LineIndex, unsigned TailOffset, Split Split, unsigned ContentIndent, WhitespaceManager &Whitespaces) const override; void compressWhitespace(unsigned LineIndex, unsigned TailOffset, Split Split, WhitespaceManager &Whitespaces) const override {} unsigned getLineCount() const override; unsigned getRangeLength(unsigned LineIndex, unsigned Offset, StringRef::size_type Length, unsigned StartColumn) const override; unsigned getRemainingLength(unsigned LineIndex, unsigned Offset, unsigned StartColumn) const override; unsigned getContentStartColumn(unsigned LineIndex, bool Break) const override; protected: // The column in which the token starts. unsigned StartColumn; // The prefix a line needs after a break in the token. StringRef Prefix; // The postfix a line needs before introducing a break. StringRef Postfix; // The token text excluding the prefix and postfix. StringRef Line; // Length of the sequence of tokens after this string literal that cannot // contain line breaks. unsigned UnbreakableTailLength; }; class BreakableStringLiteralUsingOperators : public BreakableStringLiteral { public: enum QuoteStyleType { DoubleQuotes, // The string is quoted with double quotes. SingleQuotes, // The JavaScript string is quoted with single quotes. AtDoubleQuotes, // The C# verbatim string is quoted with the at sign and // double quotes. }; /// Creates a breakable token for a single line string literal for C#, Java, /// JavaScript, or Verilog. /// /// \p StartColumn specifies the column in which the token will start /// after formatting. BreakableStringLiteralUsingOperators( const FormatToken &Tok, QuoteStyleType QuoteStyle, bool UnindentPlus, unsigned StartColumn, unsigned UnbreakableTailLength, bool InPPDirective, encoding::Encoding Encoding, const FormatStyle &Style); unsigned getRemainingLength(unsigned LineIndex, unsigned Offset, unsigned StartColumn) const override; unsigned getContentStartColumn(unsigned LineIndex, bool Break) const override; void insertBreak(unsigned LineIndex, unsigned TailOffset, Split Split, unsigned ContentIndent, WhitespaceManager &Whitespaces) const override; void updateAfterBroken(WhitespaceManager &Whitespaces) const override; protected: // Whether braces or parentheses should be inserted around the string to form // a concatenation. bool BracesNeeded; QuoteStyleType QuoteStyle; // The braces or parentheses along with the first character which they // replace, either a quote or at sign. StringRef LeftBraceQuote; StringRef RightBraceQuote; // Width added to the left due to the added brace or parenthesis. Does not // apply to the first line. int ContinuationIndent; }; class BreakableComment : public BreakableToken { protected: /// Creates a breakable token for a comment. /// /// \p StartColumn specifies the column in which the comment will start after /// formatting. BreakableComment(const FormatToken &Token, unsigned StartColumn, bool InPPDirective, encoding::Encoding Encoding, const FormatStyle &Style); public: bool supportsReflow() const override { return true; } unsigned getLineCount() const override; Split getSplit(unsigned LineIndex, unsigned TailOffset, unsigned ColumnLimit, unsigned ContentStartColumn, const llvm::Regex &CommentPragmasRegex) const override; void compressWhitespace(unsigned LineIndex, unsigned TailOffset, Split Split, WhitespaceManager &Whitespaces) const override; protected: // Returns the token containing the line at LineIndex. const FormatToken &tokenAt(unsigned LineIndex) const; // Checks if the content of line LineIndex may be reflown with the previous // line. virtual bool mayReflow(unsigned LineIndex, const llvm::Regex &CommentPragmasRegex) const = 0; // Contains the original text of the lines of the block comment. // // In case of a block comments, excludes the leading /* in the first line and // trailing */ in the last line. In case of line comments, excludes the // leading // and spaces. SmallVector Lines; // Contains the text of the lines excluding all leading and trailing // whitespace between the lines. Note that the decoration (if present) is also // not considered part of the text. SmallVector Content; // Tokens[i] contains a reference to the token containing Lines[i] if the // whitespace range before that token is managed by this block. // Otherwise, Tokens[i] is a null pointer. SmallVector Tokens; // ContentColumn[i] is the target column at which Content[i] should be. // Note that this excludes a leading "* " or "*" in case of block comments // where all lines have a "*" prefix, or the leading "// " or "//" in case of // line comments. // // In block comments, the first line's target column is always positive. The // remaining lines' target columns are relative to the first line to allow // correct indentation of comments in \c WhitespaceManager. Thus they can be // negative as well (in case the first line needs to be unindented more than // there's actual whitespace in another line). SmallVector ContentColumn; // The intended start column of the first line of text from this section. unsigned StartColumn; // The prefix to use in front a line that has been reflown up. // For example, when reflowing the second line after the first here: // // comment 1 // // comment 2 // we expect: // // comment 1 comment 2 // and not: // // comment 1comment 2 StringRef ReflowPrefix = " "; }; class BreakableBlockComment : public BreakableComment { public: BreakableBlockComment(const FormatToken &Token, unsigned StartColumn, unsigned OriginalStartColumn, bool FirstInLine, bool InPPDirective, encoding::Encoding Encoding, const FormatStyle &Style, bool UseCRLF); Split getSplit(unsigned LineIndex, unsigned TailOffset, unsigned ColumnLimit, unsigned ContentStartColumn, const llvm::Regex &CommentPragmasRegex) const override; unsigned getRangeLength(unsigned LineIndex, unsigned Offset, StringRef::size_type Length, unsigned StartColumn) const override; unsigned getRemainingLength(unsigned LineIndex, unsigned Offset, unsigned StartColumn) const override; unsigned getContentStartColumn(unsigned LineIndex, bool Break) const override; unsigned getContentIndent(unsigned LineIndex) const override; void insertBreak(unsigned LineIndex, unsigned TailOffset, Split Split, unsigned ContentIndent, WhitespaceManager &Whitespaces) const override; Split getReflowSplit(unsigned LineIndex, const llvm::Regex &CommentPragmasRegex) const override; void reflow(unsigned LineIndex, WhitespaceManager &Whitespaces) const override; bool introducesBreakBeforeToken() const override; void adaptStartOfLine(unsigned LineIndex, WhitespaceManager &Whitespaces) const override; Split getSplitAfterLastLine(unsigned TailOffset) const override; bool mayReflow(unsigned LineIndex, const llvm::Regex &CommentPragmasRegex) const override; // Contains Javadoc annotations that require additional indent when continued // on multiple lines. static const llvm::StringSet<> ContentIndentingJavadocAnnotations; private: // Rearranges the whitespace between Lines[LineIndex-1] and Lines[LineIndex]. // // Updates Content[LineIndex-1] and Content[LineIndex] by stripping off // leading and trailing whitespace. // // Sets ContentColumn to the intended column in which the text at // Lines[LineIndex] starts (note that the decoration, if present, is not // considered part of the text). void adjustWhitespace(unsigned LineIndex, int IndentDelta); // The column at which the text of a broken line should start. // Note that an optional decoration would go before that column. // IndentAtLineBreak is a uniform position for all lines in a block comment, // regardless of their relative position. // FIXME: Revisit the decision to do this; the main reason was to support // patterns like // /**************//** // * Comment // We could also support such patterns by special casing the first line // instead. unsigned IndentAtLineBreak; // This is to distinguish between the case when the last line was empty and // the case when it started with a decoration ("*" or "* "). bool LastLineNeedsDecoration; // Either "* " if all lines begin with a "*", or empty. StringRef Decoration; // If this block comment has decorations, this is the column of the start of // the decorations. unsigned DecorationColumn; // If true, make sure that the opening '/**' and the closing '*/' ends on a // line of itself. Styles like jsdoc require this for multiline comments. bool DelimitersOnNewline; // Length of the sequence of tokens after this string literal that cannot // contain line breaks. unsigned UnbreakableTailLength; }; class BreakableLineCommentSection : public BreakableComment { public: BreakableLineCommentSection(const FormatToken &Token, unsigned StartColumn, bool InPPDirective, encoding::Encoding Encoding, const FormatStyle &Style); unsigned getRangeLength(unsigned LineIndex, unsigned Offset, StringRef::size_type Length, unsigned StartColumn) const override; unsigned getContentStartColumn(unsigned LineIndex, bool Break) const override; void insertBreak(unsigned LineIndex, unsigned TailOffset, Split Split, unsigned ContentIndent, WhitespaceManager &Whitespaces) const override; Split getReflowSplit(unsigned LineIndex, const llvm::Regex &CommentPragmasRegex) const override; void reflow(unsigned LineIndex, WhitespaceManager &Whitespaces) const override; void adaptStartOfLine(unsigned LineIndex, WhitespaceManager &Whitespaces) const override; void updateNextToken(LineState &State) const override; bool mayReflow(unsigned LineIndex, const llvm::Regex &CommentPragmasRegex) const override; private: // OriginalPrefix[i] contains the original prefix of line i, including // trailing whitespace before the start of the content. The indentation // preceding the prefix is not included. // For example, if the line is: // // content // then the original prefix is "// ". SmallVector OriginalPrefix; /// Prefix[i] + SpacesToAdd[i] contains the intended leading "//" with /// trailing spaces to account for the indentation of content within the /// comment at line i after formatting. It can be different than the original /// prefix. /// When the original line starts like this: /// //content /// Then the OriginalPrefix[i] is "//", but the Prefix[i] is "// " in the LLVM /// style. /// When the line starts like: /// // content /// And we want to remove the spaces the OriginalPrefix[i] is "// " and /// Prefix[i] is "//". SmallVector Prefix; /// How many spaces are added or removed from the OriginalPrefix to form /// Prefix. SmallVector PrefixSpaceChange; /// The token to which the last line of this breakable token belongs /// to; nullptr if that token is the initial token. /// /// The distinction is because if the token of the last line of this breakable /// token is distinct from the initial token, this breakable token owns the /// whitespace before the token of the last line, and the whitespace manager /// must be able to modify it. FormatToken *LastLineTok = nullptr; }; } // namespace format } // namespace clang #endif