lib/Tooling/Transformer/SourceCode.cpp - llvm-project/clang - Git at Google

 //===--- SourceCode.cpp - Source code manipulation routines -----*- 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
 //
 //===----------------------------------------------------------------------===//
 //
 //  This file provides functions that simplify extraction of source code.
 //
 //===----------------------------------------------------------------------===//
 #include "clang/Tooling/Transformer/SourceCode.h"
 #include "clang/AST/ASTContext.h"
 #include "clang/AST/Attr.h"
 #include "clang/AST/Comment.h"
 #include "clang/AST/Decl.h"
 #include "clang/AST/DeclCXX.h"
 #include "clang/AST/DeclTemplate.h"
 #include "clang/AST/Expr.h"
 #include "clang/Basic/SourceManager.h"
 #include "clang/Lex/Lexer.h"
 #include "llvm/Support/Errc.h"
 #include "llvm/Support/Error.h"
 #include <set>

 using namespace clang;

 using llvm::errc;
 using llvm::StringError;

 StringRef clang::tooling::getText(CharSourceRange Range,
                                   const ASTContext &Context) {
   return Lexer::getSourceText(Range, Context.getSourceManager(),
                               Context.getLangOpts());
 }

 CharSourceRange clang::tooling::maybeExtendRange(CharSourceRange Range,
                                                  tok::TokenKind Next,
                                                  ASTContext &Context) {
   CharSourceRange R = Lexer::getAsCharRange(Range, Context.getSourceManager(),
                                             Context.getLangOpts());
   if (R.isInvalid())
     return Range;
   Token Tok;
   bool Err =
       Lexer::getRawToken(R.getEnd(), Tok, Context.getSourceManager(),
                          Context.getLangOpts(), /*IgnoreWhiteSpace=*/true);
   if (Err || !Tok.is(Next))
     return Range;
   return CharSourceRange::getTokenRange(Range.getBegin(), Tok.getLocation());
 }

 llvm::Error clang::tooling::validateRange(const CharSourceRange &Range,
                                           const SourceManager &SM,
                                           bool AllowSystemHeaders) {
   if (Range.isInvalid())
     return llvm::make_error<StringError>(errc::invalid_argument,
                                          "Invalid range");

   if (Range.getBegin().isMacroID() || Range.getEnd().isMacroID())
     return llvm::make_error<StringError>(
         errc::invalid_argument, "Range starts or ends in a macro expansion");

   if (!AllowSystemHeaders) {
     if (SM.isInSystemHeader(Range.getBegin()) ||
         SM.isInSystemHeader(Range.getEnd()))
       return llvm::make_error<StringError>(errc::invalid_argument,
                                            "Range is in system header");
   }

   std::pair<FileID, unsigned> BeginInfo = SM.getDecomposedLoc(Range.getBegin());
   std::pair<FileID, unsigned> EndInfo = SM.getDecomposedLoc(Range.getEnd());
   if (BeginInfo.first != EndInfo.first)
     return llvm::make_error<StringError>(
         errc::invalid_argument, "Range begins and ends in different files");

   if (BeginInfo.second > EndInfo.second)
     return llvm::make_error<StringError>(errc::invalid_argument,
                                          "Range's begin is past its end");

   return llvm::Error::success();
 }

 llvm::Error clang::tooling::validateEditRange(const CharSourceRange &Range,
                                               const SourceManager &SM) {
   return validateRange(Range, SM, /*AllowSystemHeaders=*/false);
 }

 static bool spelledInMacroDefinition(SourceLocation Loc,
                                      const SourceManager &SM) {
   while (Loc.isMacroID()) {
     const auto &Expansion = SM.getSLocEntry(SM.getFileID(Loc)).getExpansion();
     if (Expansion.isMacroArgExpansion()) {
       // Check the spelling location of the macro arg, in case the arg itself is
       // in a macro expansion.
       Loc = Expansion.getSpellingLoc();
     } else {
       return true;
     }
   }
   return false;
 }

 // Returns the expansion char-range of `Loc` if `Loc` is a split token. For
 // example, `>>` in nested templates needs the first `>` to be split, otherwise
 // the `SourceLocation` of the token would lex as `>>` instead of `>`.
 static std::optional<CharSourceRange>
 getExpansionForSplitToken(SourceLocation Loc, const SourceManager &SM,
                           const LangOptions &LangOpts) {
   if (Loc.isMacroID()) {
     bool Invalid = false;
     auto &SLoc = SM.getSLocEntry(SM.getFileID(Loc), &Invalid);
     if (Invalid)
       return std::nullopt;
     if (auto &Expansion = SLoc.getExpansion();
         !Expansion.isExpansionTokenRange()) {
       // A char-range expansion is only used where a token-range would be
       // incorrect, and so identifies this as a split token (and importantly,
       // not as a macro).
       return Expansion.getExpansionLocRange();
     }
   }
   return std::nullopt;
 }

 // If `Range` covers a split token, returns the expansion range, otherwise
 // returns `Range`.
 static CharSourceRange getRangeForSplitTokens(CharSourceRange Range,
                                               const SourceManager &SM,
                                               const LangOptions &LangOpts) {
   if (Range.isTokenRange()) {
     auto BeginToken = getExpansionForSplitToken(Range.getBegin(), SM, LangOpts);
     auto EndToken = getExpansionForSplitToken(Range.getEnd(), SM, LangOpts);
     if (EndToken) {
       SourceLocation BeginLoc =
           BeginToken ? BeginToken->getBegin() : Range.getBegin();
       // We can't use the expansion location with a token-range, because that
       // will incorrectly lex the end token, so use a char-range that ends at
       // the split.
       return CharSourceRange::getCharRange(BeginLoc, EndToken->getEnd());
     } else if (BeginToken) {
       // Since the end token is not split, the whole range covers the split, so
       // the only adjustment we make is to use the expansion location of the
       // begin token.
       return CharSourceRange::getTokenRange(BeginToken->getBegin(),
                                             Range.getEnd());
     }
   }
   return Range;
 }

 static CharSourceRange getRange(const CharSourceRange &EditRange,
                                 const SourceManager &SM,
                                 const LangOptions &LangOpts,
                                 bool IncludeMacroExpansion) {
   CharSourceRange Range;
   if (IncludeMacroExpansion) {
     Range = Lexer::makeFileCharRange(EditRange, SM, LangOpts);
   } else {
     auto AdjustedRange = getRangeForSplitTokens(EditRange, SM, LangOpts);
     if (spelledInMacroDefinition(AdjustedRange.getBegin(), SM) ||
         spelledInMacroDefinition(AdjustedRange.getEnd(), SM))
       return {};

     auto B = SM.getSpellingLoc(AdjustedRange.getBegin());
     auto E = SM.getSpellingLoc(AdjustedRange.getEnd());
     if (AdjustedRange.isTokenRange())
       E = Lexer::getLocForEndOfToken(E, 0, SM, LangOpts);
     Range = CharSourceRange::getCharRange(B, E);
   }
   return Range;
 }

 std::optional<CharSourceRange> clang::tooling::getFileRangeForEdit(
     const CharSourceRange &EditRange, const SourceManager &SM,
     const LangOptions &LangOpts, bool IncludeMacroExpansion) {
   CharSourceRange Range =
       getRange(EditRange, SM, LangOpts, IncludeMacroExpansion);
   bool IsInvalid = llvm::errorToBool(validateEditRange(Range, SM));
   if (IsInvalid)
     return std::nullopt;
   return Range;
 }

 std::optional<CharSourceRange> clang::tooling::getFileRange(
     const CharSourceRange &EditRange, const SourceManager &SM,
     const LangOptions &LangOpts, bool IncludeMacroExpansion) {
   CharSourceRange Range =
       getRange(EditRange, SM, LangOpts, IncludeMacroExpansion);
   bool IsInvalid =
       llvm::errorToBool(validateRange(Range, SM, /*AllowSystemHeaders=*/true));
   if (IsInvalid)
     return std::nullopt;
   return Range;
 }

 static bool startsWithNewline(const SourceManager &SM, const Token &Tok) {
   return isVerticalWhitespace(SM.getCharacterData(Tok.getLocation())[0]);
 }

 static bool contains(const std::set<tok::TokenKind> &Terminators,
                      const Token &Tok) {
   return Terminators.count(Tok.getKind()) > 0;
 }

 // Returns the exclusive, *file* end location of the entity whose last token is
 // at location 'EntityLast'. That is, it returns the location one past the last
 // relevant character.
 //
 // Associated tokens include comments, horizontal whitespace and 'Terminators'
 // -- optional tokens, which, if any are found, will be included; if
 // 'Terminators' is empty, we will not include any extra tokens beyond comments
 // and horizontal whitespace.
 static SourceLocation
 getEntityEndLoc(const SourceManager &SM, SourceLocation EntityLast,
                 const std::set<tok::TokenKind> &Terminators,
                 const LangOptions &LangOpts) {
   assert(EntityLast.isValid() && "Invalid end location found.");

   // We remember the last location of a non-horizontal-whitespace token we have
   // lexed; this is the location up to which we will want to delete.
   // FIXME: Support using the spelling loc here for cases where we want to
   // analyze the macro text.

   CharSourceRange ExpansionRange = SM.getExpansionRange(EntityLast);
   // FIXME: Should check isTokenRange(), for the (rare) case that
   // `ExpansionRange` is a character range.
   std::unique_ptr<Lexer> Lexer = [&]() {
     bool Invalid = false;
     auto FileOffset = SM.getDecomposedLoc(ExpansionRange.getEnd());
     llvm::StringRef File = SM.getBufferData(FileOffset.first, &Invalid);
     assert(!Invalid && "Cannot get file/offset");
     return std::make_unique<clang::Lexer>(
         SM.getLocForStartOfFile(FileOffset.first), LangOpts, File.begin(),
         File.data() + FileOffset.second, File.end());
   }();

   // Tell Lexer to return whitespace as pseudo-tokens (kind is tok::unknown).
   Lexer->SetKeepWhitespaceMode(true);

   // Generally, the code we want to include looks like this ([] are optional),
   // If Terminators is empty:
   //   [ <comment> ] [ <newline> ]
   // Otherwise:
   //   ... <terminator> [ <comment> ] [ <newline> ]

   Token Tok;
   bool Terminated = false;

   // First, lex to the current token (which is the last token of the range that
   // is definitely associated with the decl). Then, we process the first token
   // separately from the rest based on conditions that hold specifically for
   // that first token.
   //
   // We do not search for a terminator if none is required or we've already
   // encountered it. Otherwise, if the original `EntityLast` location was in a
   // macro expansion, we don't have visibility into the text, so we assume we've
   // already terminated. However, we note this assumption with
   // `TerminatedByMacro`, because we'll want to handle it somewhat differently
   // for the terminators semicolon and comma. These terminators can be safely
   // associated with the entity when they appear after the macro -- extra
   // semicolons have no effect on the program and a well-formed program won't
   // have multiple commas in a row, so we're guaranteed that there is only one.
   //
   // FIXME: This handling of macros is more conservative than necessary. When
   // the end of the expansion coincides with the end of the node, we can still
   // safely analyze the code. But, it is more complicated, because we need to
   // start by lexing the spelling loc for the first token and then switch to the
   // expansion loc.
   bool TerminatedByMacro = false;
   Lexer->LexFromRawLexer(Tok);
   if (Terminators.empty() || contains(Terminators, Tok))
     Terminated = true;
   else if (EntityLast.isMacroID()) {
     Terminated = true;
     TerminatedByMacro = true;
   }

   // We save the most recent candidate for the exclusive end location.
   SourceLocation End = Tok.getEndLoc();

   while (!Terminated) {
     // Lex the next token we want to possibly expand the range with.
     Lexer->LexFromRawLexer(Tok);

     switch (Tok.getKind()) {
     case tok::eof:
     // Unexpected separators.
     case tok::l_brace:
     case tok::r_brace:
     case tok::comma:
       return End;
     // Whitespace pseudo-tokens.
     case tok::unknown:
       if (startsWithNewline(SM, Tok))
         // Include at least until the end of the line.
         End = Tok.getEndLoc();
       break;
     default:
       if (contains(Terminators, Tok))
         Terminated = true;
       End = Tok.getEndLoc();
       break;
     }
   }

   do {
     // Lex the next token we want to possibly expand the range with.
     Lexer->LexFromRawLexer(Tok);

     switch (Tok.getKind()) {
     case tok::unknown:
       if (startsWithNewline(SM, Tok))
         // We're done, but include this newline.
         return Tok.getEndLoc();
       break;
     case tok::comment:
       // Include any comments we find on the way.
       End = Tok.getEndLoc();
       break;
     case tok::semi:
     case tok::comma:
       if (TerminatedByMacro && contains(Terminators, Tok)) {
         End = Tok.getEndLoc();
         // We've found a real terminator.
         TerminatedByMacro = false;
         break;
       }
       // Found an unrelated token; stop and don't include it.
       return End;
     default:
       // Found an unrelated token; stop and don't include it.
       return End;
     }
   } while (true);
 }

 // Returns the expected terminator tokens for the given declaration.
 //
 // If we do not know the correct terminator token, returns an empty set.
 //
 // There are cases where we have more than one possible terminator (for example,
 // we find either a comma or a semicolon after a VarDecl).
 static std::set<tok::TokenKind> getTerminators(const Decl &D) {
   if (llvm::isa<RecordDecl>(D) || llvm::isa<UsingDecl>(D))
     return {tok::semi};

   if (llvm::isa<FunctionDecl>(D) || llvm::isa<LinkageSpecDecl>(D))
     return {tok::r_brace, tok::semi};

   if (llvm::isa<VarDecl>(D) || llvm::isa<FieldDecl>(D))
     return {tok::comma, tok::semi};

   return {};
 }

 // Starting from `Loc`, skips whitespace up to, and including, a single
 // newline. Returns the (exclusive) end of any skipped whitespace (that is, the
 // location immediately after the whitespace).
 static SourceLocation skipWhitespaceAndNewline(const SourceManager &SM,
                                                SourceLocation Loc,
                                                const LangOptions &LangOpts) {
   const char *LocChars = SM.getCharacterData(Loc);
   int i = 0;
   while (isHorizontalWhitespace(LocChars[i]))
     ++i;
   if (isVerticalWhitespace(LocChars[i]))
     ++i;
   return Loc.getLocWithOffset(i);
 }

 // Is `Loc` separated from any following decl by something meaningful (e.g. an
 // empty line, a comment), ignoring horizontal whitespace?  Since this is a
 // heuristic, we return false when in doubt.  `Loc` cannot be the first location
 // in the file.
 static bool atOrBeforeSeparation(const SourceManager &SM, SourceLocation Loc,
                                  const LangOptions &LangOpts) {
   // If the preceding character is a newline, we'll check for an empty line as a
   // separator. However, we can't identify an empty line using tokens, so we
   // analyse the characters. If we try to use tokens, we'll just end up with a
   // whitespace token, whose characters we'd have to analyse anyhow.
   bool Invalid = false;
   const char *LocChars =
       SM.getCharacterData(Loc.getLocWithOffset(-1), &Invalid);
   assert(!Invalid &&
          "Loc must be a valid character and not the first of the source file.");
   if (isVerticalWhitespace(LocChars[0])) {
     for (int i = 1; isWhitespace(LocChars[i]); ++i)
       if (isVerticalWhitespace(LocChars[i]))
         return true;
   }
   // We didn't find an empty line, so lex the next token, skipping past any
   // whitespace we just scanned.
   Token Tok;
   bool Failed = Lexer::getRawToken(Loc, Tok, SM, LangOpts,
                                    /*IgnoreWhiteSpace=*/true);
   if (Failed)
     // Any text that confuses the lexer seems fair to consider a separation.
     return true;

   switch (Tok.getKind()) {
   case tok::comment:
   case tok::l_brace:
   case tok::r_brace:
   case tok::eof:
     return true;
   default:
     return false;
   }
 }

 CharSourceRange tooling::getAssociatedRange(const Decl &Decl,
                                             ASTContext &Context) {
   const SourceManager &SM = Context.getSourceManager();
   const LangOptions &LangOpts = Context.getLangOpts();
   CharSourceRange Range = CharSourceRange::getTokenRange(Decl.getSourceRange());

   // First, expand to the start of the template<> declaration if necessary.
   if (const auto *Record = llvm::dyn_cast<CXXRecordDecl>(&Decl)) {
     if (const auto *T = Record->getDescribedClassTemplate())
       if (SM.isBeforeInTranslationUnit(T->getBeginLoc(), Range.getBegin()))
         Range.setBegin(T->getBeginLoc());
   } else if (const auto *F = llvm::dyn_cast<FunctionDecl>(&Decl)) {
     if (const auto *T = F->getDescribedFunctionTemplate())
       if (SM.isBeforeInTranslationUnit(T->getBeginLoc(), Range.getBegin()))
         Range.setBegin(T->getBeginLoc());
   }

   // Next, expand the end location past trailing comments to include a potential
   // newline at the end of the decl's line.
   Range.setEnd(
       getEntityEndLoc(SM, Decl.getEndLoc(), getTerminators(Decl), LangOpts));
   Range.setTokenRange(false);

   // Expand to include preceeding associated comments. We ignore any comments
   // that are not preceeding the decl, since we've already skipped trailing
   // comments with getEntityEndLoc.
   if (const RawComment *Comment =
           Decl.getASTContext().getRawCommentForDeclNoCache(&Decl))
     // Only include a preceding comment if:
     // * it is *not* separate from the declaration (not including any newline
     //   that immediately follows the comment),
     // * the decl *is* separate from any following entity (so, there are no
     //   other entities the comment could refer to), and
     // * it is not a IfThisThenThat lint check.
     if (SM.isBeforeInTranslationUnit(Comment->getBeginLoc(),
                                      Range.getBegin()) &&
         !atOrBeforeSeparation(
             SM, skipWhitespaceAndNewline(SM, Comment->getEndLoc(), LangOpts),
             LangOpts) &&
         atOrBeforeSeparation(SM, Range.getEnd(), LangOpts)) {
       const StringRef CommentText = Comment->getRawText(SM);
       if (!CommentText.contains("LINT.IfChange") &&
           !CommentText.contains("LINT.ThenChange"))
         Range.setBegin(Comment->getBeginLoc());
     }
   // Add leading attributes.
   for (auto *Attr : Decl.attrs()) {
     if (Attr->getLocation().isInvalid() ||
         !SM.isBeforeInTranslationUnit(Attr->getLocation(), Range.getBegin()))
       continue;
     Range.setBegin(Attr->getLocation());

     // Extend to the left '[[' or '__attribute((' if we saw the attribute,
     // unless it is not a valid location.
     bool Invalid;
     StringRef Source =
         SM.getBufferData(SM.getFileID(Range.getBegin()), &Invalid);
     if (Invalid)
       continue;
     llvm::StringRef BeforeAttr =
         Source.substr(0, SM.getFileOffset(Range.getBegin()));
     llvm::StringRef BeforeAttrStripped = BeforeAttr.rtrim();

     for (llvm::StringRef Prefix : {"[[", "__attribute__(("}) {
       // Handle whitespace between attribute prefix and attribute value.
       if (BeforeAttrStripped.ends_with(Prefix)) {
         // Move start to start position of prefix, which is
         // length(BeforeAttr) - length(BeforeAttrStripped) + length(Prefix)
         // positions to the left.
         Range.setBegin(Range.getBegin().getLocWithOffset(static_cast<int>(
             -BeforeAttr.size() + BeforeAttrStripped.size() - Prefix.size())));
         break;
         // If we didn't see '[[' or '__attribute' it's probably coming from a
         // macro expansion which is already handled by makeFileCharRange(),
         // below.
       }
     }
   }

   // Range.getEnd() is already fully un-expanded by getEntityEndLoc. But,
   // Range.getBegin() may be inside an expansion.
   return Lexer::makeFileCharRange(Range, SM, LangOpts);
 }
	//===--- SourceCode.cpp - Source code manipulation routines ------ 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
	//
	//===----------------------------------------------------------------------===//
	//
	// This file provides functions that simplify extraction of source code.
	//
	//===----------------------------------------------------------------------===//
	#include "clang/Tooling/Transformer/SourceCode.h"
	#include "clang/AST/ASTContext.h"
	#include "clang/AST/Attr.h"
	#include "clang/AST/Comment.h"
	#include "clang/AST/Decl.h"
	#include "clang/AST/DeclCXX.h"
	#include "clang/AST/DeclTemplate.h"
	#include "clang/AST/Expr.h"
	#include "clang/Basic/SourceManager.h"
	#include "clang/Lex/Lexer.h"
	#include "llvm/Support/Errc.h"
	#include "llvm/Support/Error.h"
	#include <set>

	using namespace clang;

	using llvm::errc;
	using llvm::StringError;

	StringRef clang::tooling::getText(CharSourceRange Range,
	const ASTContext &Context) {
	return Lexer::getSourceText(Range, Context.getSourceManager(),
	Context.getLangOpts());
	}

	CharSourceRange clang::tooling::maybeExtendRange(CharSourceRange Range,
	tok::TokenKind Next,
	ASTContext &Context) {
	CharSourceRange R = Lexer::getAsCharRange(Range, Context.getSourceManager(),
	Context.getLangOpts());
	if (R.isInvalid())
	return Range;
	Token Tok;
	bool Err =
	Lexer::getRawToken(R.getEnd(), Tok, Context.getSourceManager(),
	Context.getLangOpts(), /IgnoreWhiteSpace=/true);
	if (Err \|\| !Tok.is(Next))
	return Range;
	return CharSourceRange::getTokenRange(Range.getBegin(), Tok.getLocation());
	}

	llvm::Error clang::tooling::validateRange(const CharSourceRange &Range,
	const SourceManager &SM,
	bool AllowSystemHeaders) {
	if (Range.isInvalid())
	return llvm::make_error<StringError>(errc::invalid_argument,
	"Invalid range");

	if (Range.getBegin().isMacroID() \|\| Range.getEnd().isMacroID())
	return llvm::make_error<StringError>(
	errc::invalid_argument, "Range starts or ends in a macro expansion");

	if (!AllowSystemHeaders) {
	if (SM.isInSystemHeader(Range.getBegin()) \|\|
	SM.isInSystemHeader(Range.getEnd()))
	return llvm::make_error<StringError>(errc::invalid_argument,
	"Range is in system header");
	}

	std::pair<FileID, unsigned> BeginInfo = SM.getDecomposedLoc(Range.getBegin());
	std::pair<FileID, unsigned> EndInfo = SM.getDecomposedLoc(Range.getEnd());
	if (BeginInfo.first != EndInfo.first)
	return llvm::make_error<StringError>(
	errc::invalid_argument, "Range begins and ends in different files");

	if (BeginInfo.second > EndInfo.second)
	return llvm::make_error<StringError>(errc::invalid_argument,
	"Range's begin is past its end");

	return llvm::Error::success();
	}

	llvm::Error clang::tooling::validateEditRange(const CharSourceRange &Range,
	const SourceManager &SM) {
	return validateRange(Range, SM, /AllowSystemHeaders=/false);
	}

	static bool spelledInMacroDefinition(SourceLocation Loc,
	const SourceManager &SM) {
	while (Loc.isMacroID()) {
	const auto &Expansion = SM.getSLocEntry(SM.getFileID(Loc)).getExpansion();
	if (Expansion.isMacroArgExpansion()) {
	// Check the spelling location of the macro arg, in case the arg itself is
	// in a macro expansion.
	Loc = Expansion.getSpellingLoc();
	} else {
	return true;
	}
	}
	return false;
	}

	// Returns the expansion char-range of `Loc` if `Loc` is a split token. For
	// example, `>>` in nested templates needs the first `>` to be split, otherwise
	// the `SourceLocation` of the token would lex as `>>` instead of `>`.
	static std::optional<CharSourceRange>
	getExpansionForSplitToken(SourceLocation Loc, const SourceManager &SM,
	const LangOptions &LangOpts) {
	if (Loc.isMacroID()) {
	bool Invalid = false;
	auto &SLoc = SM.getSLocEntry(SM.getFileID(Loc), &Invalid);
	if (Invalid)
	return std::nullopt;
	if (auto &Expansion = SLoc.getExpansion();
	!Expansion.isExpansionTokenRange()) {
	// A char-range expansion is only used where a token-range would be
	// incorrect, and so identifies this as a split token (and importantly,
	// not as a macro).
	return Expansion.getExpansionLocRange();
	}
	}
	return std::nullopt;
	}

	// If `Range` covers a split token, returns the expansion range, otherwise
	// returns `Range`.
	static CharSourceRange getRangeForSplitTokens(CharSourceRange Range,
	const SourceManager &SM,
	const LangOptions &LangOpts) {
	if (Range.isTokenRange()) {
	auto BeginToken = getExpansionForSplitToken(Range.getBegin(), SM, LangOpts);
	auto EndToken = getExpansionForSplitToken(Range.getEnd(), SM, LangOpts);
	if (EndToken) {
	SourceLocation BeginLoc =
	BeginToken ? BeginToken->getBegin() : Range.getBegin();
	// We can't use the expansion location with a token-range, because that
	// will incorrectly lex the end token, so use a char-range that ends at
	// the split.
	return CharSourceRange::getCharRange(BeginLoc, EndToken->getEnd());
	} else if (BeginToken) {
	// Since the end token is not split, the whole range covers the split, so
	// the only adjustment we make is to use the expansion location of the
	// begin token.
	return CharSourceRange::getTokenRange(BeginToken->getBegin(),
	Range.getEnd());
	}
	}
	return Range;
	}

	static CharSourceRange getRange(const CharSourceRange &EditRange,
	const SourceManager &SM,
	const LangOptions &LangOpts,
	bool IncludeMacroExpansion) {
	CharSourceRange Range;
	if (IncludeMacroExpansion) {
	Range = Lexer::makeFileCharRange(EditRange, SM, LangOpts);
	} else {
	auto AdjustedRange = getRangeForSplitTokens(EditRange, SM, LangOpts);
	if (spelledInMacroDefinition(AdjustedRange.getBegin(), SM) \|\|
	spelledInMacroDefinition(AdjustedRange.getEnd(), SM))
	return {};

	auto B = SM.getSpellingLoc(AdjustedRange.getBegin());
	auto E = SM.getSpellingLoc(AdjustedRange.getEnd());
	if (AdjustedRange.isTokenRange())
	E = Lexer::getLocForEndOfToken(E, 0, SM, LangOpts);
	Range = CharSourceRange::getCharRange(B, E);
	}
	return Range;
	}

	std::optional<CharSourceRange> clang::tooling::getFileRangeForEdit(
	const CharSourceRange &EditRange, const SourceManager &SM,
	const LangOptions &LangOpts, bool IncludeMacroExpansion) {
	CharSourceRange Range =
	getRange(EditRange, SM, LangOpts, IncludeMacroExpansion);
	bool IsInvalid = llvm::errorToBool(validateEditRange(Range, SM));
	if (IsInvalid)
	return std::nullopt;
	return Range;
	}

	std::optional<CharSourceRange> clang::tooling::getFileRange(
	const CharSourceRange &EditRange, const SourceManager &SM,
	const LangOptions &LangOpts, bool IncludeMacroExpansion) {
	CharSourceRange Range =
	getRange(EditRange, SM, LangOpts, IncludeMacroExpansion);
	bool IsInvalid =
	llvm::errorToBool(validateRange(Range, SM, /AllowSystemHeaders=/true));
	if (IsInvalid)
	return std::nullopt;
	return Range;
	}

	static bool startsWithNewline(const SourceManager &SM, const Token &Tok) {
	return isVerticalWhitespace(SM.getCharacterData(Tok.getLocation())[0]);
	}

	static bool contains(const std::set<tok::TokenKind> &Terminators,
	const Token &Tok) {
	return Terminators.count(Tok.getKind()) > 0;
	}

	// Returns the exclusive, file end location of the entity whose last token is
	// at location 'EntityLast'. That is, it returns the location one past the last
	// relevant character.
	//
	// Associated tokens include comments, horizontal whitespace and 'Terminators'
	// -- optional tokens, which, if any are found, will be included; if
	// 'Terminators' is empty, we will not include any extra tokens beyond comments
	// and horizontal whitespace.
	static SourceLocation
	getEntityEndLoc(const SourceManager &SM, SourceLocation EntityLast,
	const std::set<tok::TokenKind> &Terminators,
	const LangOptions &LangOpts) {
	assert(EntityLast.isValid() && "Invalid end location found.");

	// We remember the last location of a non-horizontal-whitespace token we have
	// lexed; this is the location up to which we will want to delete.
	// FIXME: Support using the spelling loc here for cases where we want to
	// analyze the macro text.

	CharSourceRange ExpansionRange = SM.getExpansionRange(EntityLast);
	// FIXME: Should check isTokenRange(), for the (rare) case that
	// `ExpansionRange` is a character range.
	std::unique_ptr<Lexer> Lexer = [&]() {
	bool Invalid = false;
	auto FileOffset = SM.getDecomposedLoc(ExpansionRange.getEnd());
	llvm::StringRef File = SM.getBufferData(FileOffset.first, &Invalid);
	assert(!Invalid && "Cannot get file/offset");
	return std::make_unique<clang::Lexer>(
	SM.getLocForStartOfFile(FileOffset.first), LangOpts, File.begin(),
	File.data() + FileOffset.second, File.end());
	}();

	// Tell Lexer to return whitespace as pseudo-tokens (kind is tok::unknown).
	Lexer->SetKeepWhitespaceMode(true);

	// Generally, the code we want to include looks like this ([] are optional),
	// If Terminators is empty:
	// [ <comment> ] [ <newline> ]
	// Otherwise:
	// ... <terminator> [ <comment> ] [ <newline> ]

	Token Tok;
	bool Terminated = false;

	// First, lex to the current token (which is the last token of the range that
	// is definitely associated with the decl). Then, we process the first token
	// separately from the rest based on conditions that hold specifically for
	// that first token.
	//
	// We do not search for a terminator if none is required or we've already
	// encountered it. Otherwise, if the original `EntityLast` location was in a
	// macro expansion, we don't have visibility into the text, so we assume we've
	// already terminated. However, we note this assumption with
	// `TerminatedByMacro`, because we'll want to handle it somewhat differently
	// for the terminators semicolon and comma. These terminators can be safely
	// associated with the entity when they appear after the macro -- extra
	// semicolons have no effect on the program and a well-formed program won't
	// have multiple commas in a row, so we're guaranteed that there is only one.
	//
	// FIXME: This handling of macros is more conservative than necessary. When
	// the end of the expansion coincides with the end of the node, we can still
	// safely analyze the code. But, it is more complicated, because we need to
	// start by lexing the spelling loc for the first token and then switch to the
	// expansion loc.
	bool TerminatedByMacro = false;
	Lexer->LexFromRawLexer(Tok);
	if (Terminators.empty() \|\| contains(Terminators, Tok))
	Terminated = true;
	else if (EntityLast.isMacroID()) {
	Terminated = true;
	TerminatedByMacro = true;
	}

	// We save the most recent candidate for the exclusive end location.
	SourceLocation End = Tok.getEndLoc();

	while (!Terminated) {
	// Lex the next token we want to possibly expand the range with.
	Lexer->LexFromRawLexer(Tok);

	switch (Tok.getKind()) {
	case tok::eof:
	// Unexpected separators.
	case tok::l_brace:
	case tok::r_brace:
	case tok::comma:
	return End;
	// Whitespace pseudo-tokens.
	case tok::unknown:
	if (startsWithNewline(SM, Tok))
	// Include at least until the end of the line.
	End = Tok.getEndLoc();
	break;
	default:
	if (contains(Terminators, Tok))
	Terminated = true;
	End = Tok.getEndLoc();
	break;
	}
	}

	do {
	// Lex the next token we want to possibly expand the range with.
	Lexer->LexFromRawLexer(Tok);

	switch (Tok.getKind()) {
	case tok::unknown:
	if (startsWithNewline(SM, Tok))
	// We're done, but include this newline.
	return Tok.getEndLoc();
	break;
	case tok::comment:
	// Include any comments we find on the way.
	End = Tok.getEndLoc();
	break;
	case tok::semi:
	case tok::comma:
	if (TerminatedByMacro && contains(Terminators, Tok)) {
	End = Tok.getEndLoc();
	// We've found a real terminator.
	TerminatedByMacro = false;
	break;
	}
	// Found an unrelated token; stop and don't include it.
	return End;
	default:
	// Found an unrelated token; stop and don't include it.
	return End;
	}
	} while (true);
	}

	// Returns the expected terminator tokens for the given declaration.
	//
	// If we do not know the correct terminator token, returns an empty set.
	//
	// There are cases where we have more than one possible terminator (for example,
	// we find either a comma or a semicolon after a VarDecl).
	static std::set<tok::TokenKind> getTerminators(const Decl &D) {
	if (llvm::isa<RecordDecl>(D) \|\| llvm::isa<UsingDecl>(D))
	return {tok::semi};

	if (llvm::isa<FunctionDecl>(D) \|\| llvm::isa<LinkageSpecDecl>(D))
	return {tok::r_brace, tok::semi};

	if (llvm::isa<VarDecl>(D) \|\| llvm::isa<FieldDecl>(D))
	return {tok::comma, tok::semi};

	return {};
	}

	// Starting from `Loc`, skips whitespace up to, and including, a single
	// newline. Returns the (exclusive) end of any skipped whitespace (that is, the
	// location immediately after the whitespace).
	static SourceLocation skipWhitespaceAndNewline(const SourceManager &SM,
	SourceLocation Loc,
	const LangOptions &LangOpts) {
	const char *LocChars = SM.getCharacterData(Loc);
	int i = 0;
	while (isHorizontalWhitespace(LocChars[i]))
	++i;
	if (isVerticalWhitespace(LocChars[i]))
	++i;
	return Loc.getLocWithOffset(i);
	}

	// Is `Loc` separated from any following decl by something meaningful (e.g. an
	// empty line, a comment), ignoring horizontal whitespace? Since this is a
	// heuristic, we return false when in doubt. `Loc` cannot be the first location
	// in the file.
	static bool atOrBeforeSeparation(const SourceManager &SM, SourceLocation Loc,
	const LangOptions &LangOpts) {
	// If the preceding character is a newline, we'll check for an empty line as a
	// separator. However, we can't identify an empty line using tokens, so we
	// analyse the characters. If we try to use tokens, we'll just end up with a
	// whitespace token, whose characters we'd have to analyse anyhow.
	bool Invalid = false;
	const char *LocChars =
	SM.getCharacterData(Loc.getLocWithOffset(-1), &Invalid);
	assert(!Invalid &&
	"Loc must be a valid character and not the first of the source file.");
	if (isVerticalWhitespace(LocChars[0])) {
	for (int i = 1; isWhitespace(LocChars[i]); ++i)
	if (isVerticalWhitespace(LocChars[i]))
	return true;
	}
	// We didn't find an empty line, so lex the next token, skipping past any
	// whitespace we just scanned.
	Token Tok;
	bool Failed = Lexer::getRawToken(Loc, Tok, SM, LangOpts,
	/IgnoreWhiteSpace=/true);
	if (Failed)
	// Any text that confuses the lexer seems fair to consider a separation.
	return true;

	switch (Tok.getKind()) {
	case tok::comment:
	case tok::l_brace:
	case tok::r_brace:
	case tok::eof:
	return true;
	default:
	return false;
	}
	}

	CharSourceRange tooling::getAssociatedRange(const Decl &Decl,
	ASTContext &Context) {
	const SourceManager &SM = Context.getSourceManager();
	const LangOptions &LangOpts = Context.getLangOpts();
	CharSourceRange Range = CharSourceRange::getTokenRange(Decl.getSourceRange());

	// First, expand to the start of the template<> declaration if necessary.
	if (const auto *Record = llvm::dyn_cast<CXXRecordDecl>(&Decl)) {
	if (const auto *T = Record->getDescribedClassTemplate())
	if (SM.isBeforeInTranslationUnit(T->getBeginLoc(), Range.getBegin()))
	Range.setBegin(T->getBeginLoc());
	} else if (const auto *F = llvm::dyn_cast<FunctionDecl>(&Decl)) {
	if (const auto *T = F->getDescribedFunctionTemplate())
	if (SM.isBeforeInTranslationUnit(T->getBeginLoc(), Range.getBegin()))
	Range.setBegin(T->getBeginLoc());
	}

	// Next, expand the end location past trailing comments to include a potential
	// newline at the end of the decl's line.
	Range.setEnd(
	getEntityEndLoc(SM, Decl.getEndLoc(), getTerminators(Decl), LangOpts));
	Range.setTokenRange(false);

	// Expand to include preceeding associated comments. We ignore any comments
	// that are not preceeding the decl, since we've already skipped trailing
	// comments with getEntityEndLoc.
	if (const RawComment *Comment =
	Decl.getASTContext().getRawCommentForDeclNoCache(&Decl))
	// Only include a preceding comment if:
	// * it is not separate from the declaration (not including any newline
	// that immediately follows the comment),
	// * the decl is separate from any following entity (so, there are no
	// other entities the comment could refer to), and
	// * it is not a IfThisThenThat lint check.
	if (SM.isBeforeInTranslationUnit(Comment->getBeginLoc(),
	Range.getBegin()) &&
	!atOrBeforeSeparation(
	SM, skipWhitespaceAndNewline(SM, Comment->getEndLoc(), LangOpts),
	LangOpts) &&
	atOrBeforeSeparation(SM, Range.getEnd(), LangOpts)) {
	const StringRef CommentText = Comment->getRawText(SM);
	if (!CommentText.contains("LINT.IfChange") &&
	!CommentText.contains("LINT.ThenChange"))
	Range.setBegin(Comment->getBeginLoc());
	}
	// Add leading attributes.
	for (auto *Attr : Decl.attrs()) {
	if (Attr->getLocation().isInvalid() \|\|
	!SM.isBeforeInTranslationUnit(Attr->getLocation(), Range.getBegin()))
	continue;
	Range.setBegin(Attr->getLocation());

	// Extend to the left '[[' or '__attribute((' if we saw the attribute,
	// unless it is not a valid location.
	bool Invalid;
	StringRef Source =
	SM.getBufferData(SM.getFileID(Range.getBegin()), &Invalid);
	if (Invalid)
	continue;
	llvm::StringRef BeforeAttr =
	Source.substr(0, SM.getFileOffset(Range.getBegin()));
	llvm::StringRef BeforeAttrStripped = BeforeAttr.rtrim();

	for (llvm::StringRef Prefix : {"[[", "__attribute__(("}) {
	// Handle whitespace between attribute prefix and attribute value.
	if (BeforeAttrStripped.ends_with(Prefix)) {
	// Move start to start position of prefix, which is
	// length(BeforeAttr) - length(BeforeAttrStripped) + length(Prefix)
	// positions to the left.
	Range.setBegin(Range.getBegin().getLocWithOffset(static_cast<int>(
	-BeforeAttr.size() + BeforeAttrStripped.size() - Prefix.size())));
	break;
	// If we didn't see '[[' or '__attribute' it's probably coming from a
	// macro expansion which is already handled by makeFileCharRange(),
	// below.
	}
	}
	}

	// Range.getEnd() is already fully un-expanded by getEntityEndLoc. But,
	// Range.getBegin() may be inside an expansion.
	return Lexer::makeFileCharRange(Range, SM, LangOpts);
	}