lib/Tooling/Transformer/RangeSelector.cpp - clang - Git at Google

 //===--- RangeSelector.cpp - RangeSelector implementations ------*- 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
 //
 //===----------------------------------------------------------------------===//

 #include "clang/Tooling/Transformer/RangeSelector.h"
 #include "clang/AST/Expr.h"
 #include "clang/ASTMatchers/ASTMatchFinder.h"
 #include "clang/Basic/SourceLocation.h"
 #include "clang/Lex/Lexer.h"
 #include "clang/Tooling/Transformer/SourceCode.h"
 #include "llvm/ADT/StringRef.h"
 #include "llvm/Support/Errc.h"
 #include "llvm/Support/Error.h"
 #include <string>
 #include <utility>
 #include <vector>

 using namespace clang;
 using namespace transformer;

 using ast_matchers::MatchFinder;
 using ast_type_traits::ASTNodeKind;
 using ast_type_traits::DynTypedNode;
 using llvm::Error;
 using llvm::StringError;

 using MatchResult = MatchFinder::MatchResult;

 static Error invalidArgumentError(Twine Message) {
   return llvm::make_error<StringError>(llvm::errc::invalid_argument, Message);
 }

 static Error typeError(StringRef ID, const ASTNodeKind &Kind) {
   return invalidArgumentError("mismatched type (node id=" + ID +
                               " kind=" + Kind.asStringRef() + ")");
 }

 static Error typeError(StringRef ID, const ASTNodeKind &Kind,
                        Twine ExpectedType) {
   return invalidArgumentError("mismatched type: expected one of " +
                               ExpectedType + " (node id=" + ID +
                               " kind=" + Kind.asStringRef() + ")");
 }

 static Error missingPropertyError(StringRef ID, Twine Description,
                                   StringRef Property) {
   return invalidArgumentError(Description + " requires property '" + Property +
                               "' (node id=" + ID + ")");
 }

 static Expected<DynTypedNode> getNode(const ast_matchers::BoundNodes &Nodes,
                                       StringRef ID) {
   auto &NodesMap = Nodes.getMap();
   auto It = NodesMap.find(ID);
   if (It == NodesMap.end())
     return invalidArgumentError("ID not bound: " + ID);
   return It->second;
 }

 // FIXME: handling of macros should be configurable.
 static SourceLocation findPreviousTokenStart(SourceLocation Start,
                                              const SourceManager &SM,
                                              const LangOptions &LangOpts) {
   if (Start.isInvalid() || Start.isMacroID())
     return SourceLocation();

   SourceLocation BeforeStart = Start.getLocWithOffset(-1);
   if (BeforeStart.isInvalid() || BeforeStart.isMacroID())
     return SourceLocation();

   return Lexer::GetBeginningOfToken(BeforeStart, SM, LangOpts);
 }

 // Finds the start location of the previous token of kind \p TK.
 // FIXME: handling of macros should be configurable.
 static SourceLocation findPreviousTokenKind(SourceLocation Start,
                                             const SourceManager &SM,
                                             const LangOptions &LangOpts,
                                             tok::TokenKind TK) {
   while (true) {
     SourceLocation L = findPreviousTokenStart(Start, SM, LangOpts);
     if (L.isInvalid() || L.isMacroID())
       return SourceLocation();

     Token T;
     if (Lexer::getRawToken(L, T, SM, LangOpts, /*IgnoreWhiteSpace=*/true))
       return SourceLocation();

     if (T.is(TK))
       return T.getLocation();

     Start = L;
   }
 }

 static SourceLocation findOpenParen(const CallExpr &E, const SourceManager &SM,
                                     const LangOptions &LangOpts) {
   SourceLocation EndLoc =
       E.getNumArgs() == 0 ? E.getRParenLoc() : E.getArg(0)->getBeginLoc();
   return findPreviousTokenKind(EndLoc, SM, LangOpts, tok::TokenKind::l_paren);
 }

 RangeSelector transformer::before(RangeSelector Selector) {
   return [Selector](const MatchResult &Result) -> Expected<CharSourceRange> {
     Expected<CharSourceRange> SelectedRange = Selector(Result);
     if (!SelectedRange)
       return SelectedRange.takeError();
     return CharSourceRange::getCharRange(SelectedRange->getBegin());
   };
 }

 RangeSelector transformer::after(RangeSelector Selector) {
   return [Selector](const MatchResult &Result) -> Expected<CharSourceRange> {
     Expected<CharSourceRange> SelectedRange = Selector(Result);
     if (!SelectedRange)
       return SelectedRange.takeError();
     if (SelectedRange->isCharRange())
       return CharSourceRange::getCharRange(SelectedRange->getEnd());
     return CharSourceRange::getCharRange(Lexer::getLocForEndOfToken(
         SelectedRange->getEnd(), 0, Result.Context->getSourceManager(),
         Result.Context->getLangOpts()));
   };
 }

 RangeSelector transformer::node(std::string ID) {
   return [ID](const MatchResult &Result) -> Expected<CharSourceRange> {
     Expected<DynTypedNode> Node = getNode(Result.Nodes, ID);
     if (!Node)
       return Node.takeError();
     return Node->get<Stmt>() != nullptr && Node->get<Expr>() == nullptr
                ? tooling::getExtendedRange(*Node, tok::TokenKind::semi,
                                            *Result.Context)
                : CharSourceRange::getTokenRange(Node->getSourceRange());
   };
 }

 RangeSelector transformer::statement(std::string ID) {
   return [ID](const MatchResult &Result) -> Expected<CharSourceRange> {
     Expected<DynTypedNode> Node = getNode(Result.Nodes, ID);
     if (!Node)
       return Node.takeError();
     return tooling::getExtendedRange(*Node, tok::TokenKind::semi,
                                      *Result.Context);
   };
 }

 RangeSelector transformer::range(RangeSelector Begin, RangeSelector End) {
   return [Begin, End](const MatchResult &Result) -> Expected<CharSourceRange> {
     Expected<CharSourceRange> BeginRange = Begin(Result);
     if (!BeginRange)
       return BeginRange.takeError();
     Expected<CharSourceRange> EndRange = End(Result);
     if (!EndRange)
       return EndRange.takeError();
     SourceLocation B = BeginRange->getBegin();
     SourceLocation E = EndRange->getEnd();
     // Note: we are precluding the possibility of sub-token ranges in the case
     // that EndRange is a token range.
     if (Result.SourceManager->isBeforeInTranslationUnit(E, B)) {
       return invalidArgumentError("Bad range: out of order");
     }
     return CharSourceRange(SourceRange(B, E), EndRange->isTokenRange());
   };
 }

 RangeSelector transformer::range(std::string BeginID, std::string EndID) {
   return transformer::range(node(std::move(BeginID)), node(std::move(EndID)));
 }

 RangeSelector transformer::member(std::string ID) {
   return [ID](const MatchResult &Result) -> Expected<CharSourceRange> {
     Expected<DynTypedNode> Node = getNode(Result.Nodes, ID);
     if (!Node)
       return Node.takeError();
     if (auto *M = Node->get<clang::MemberExpr>())
       return CharSourceRange::getTokenRange(
           M->getMemberNameInfo().getSourceRange());
     return typeError(ID, Node->getNodeKind(), "MemberExpr");
   };
 }

 RangeSelector transformer::name(std::string ID) {
   return [ID](const MatchResult &Result) -> Expected<CharSourceRange> {
     Expected<DynTypedNode> N = getNode(Result.Nodes, ID);
     if (!N)
       return N.takeError();
     auto &Node = *N;
     if (const auto *D = Node.get<NamedDecl>()) {
       if (!D->getDeclName().isIdentifier())
         return missingPropertyError(ID, "name", "identifier");
       SourceLocation L = D->getLocation();
       auto R = CharSourceRange::getTokenRange(L, L);
       // Verify that the range covers exactly the name.
       // FIXME: extend this code to support cases like `operator +` or
       // `foo<int>` for which this range will be too short.  Doing so will
       // require subcasing `NamedDecl`, because it doesn't provide virtual
       // access to the \c DeclarationNameInfo.
       if (tooling::getText(R, *Result.Context) != D->getName())
         return CharSourceRange();
       return R;
     }
     if (const auto *E = Node.get<DeclRefExpr>()) {
       if (!E->getNameInfo().getName().isIdentifier())
         return missingPropertyError(ID, "name", "identifier");
       SourceLocation L = E->getLocation();
       return CharSourceRange::getTokenRange(L, L);
     }
     if (const auto *I = Node.get<CXXCtorInitializer>()) {
       if (!I->isMemberInitializer() && I->isWritten())
         return missingPropertyError(ID, "name", "explicit member initializer");
       SourceLocation L = I->getMemberLocation();
       return CharSourceRange::getTokenRange(L, L);
     }
     return typeError(ID, Node.getNodeKind(),
                      "DeclRefExpr, NamedDecl, CXXCtorInitializer");
   };
 }

 namespace {
 // FIXME: make this available in the public API for users to easily create their
 // own selectors.

 // Creates a selector from a range-selection function \p Func, which selects a
 // range that is relative to a bound node id.  \c T is the node type expected by
 // \p Func.
 template <typename T, CharSourceRange (*Func)(const MatchResult &, const T &)>
 class RelativeSelector {
   std::string ID;

 public:
   RelativeSelector(std::string ID) : ID(std::move(ID)) {}

   Expected<CharSourceRange> operator()(const MatchResult &Result) {
     Expected<DynTypedNode> N = getNode(Result.Nodes, ID);
     if (!N)
       return N.takeError();
     if (const auto *Arg = N->get<T>())
       return Func(Result, *Arg);
     return typeError(ID, N->getNodeKind());
   }
 };
 } // namespace

 // FIXME: Change the following functions from being in an anonymous namespace
 // to static functions, after the minimum Visual C++ has _MSC_VER >= 1915
 // (equivalent to Visual Studio 2017 v15.8 or higher). Using the anonymous
 // namespace works around a bug in earlier versions.
 namespace {
 // Returns the range of the statements (all source between the braces).
 CharSourceRange getStatementsRange(const MatchResult &,
                                    const CompoundStmt &CS) {
   return CharSourceRange::getCharRange(CS.getLBracLoc().getLocWithOffset(1),
                                        CS.getRBracLoc());
 }
 } // namespace

 RangeSelector transformer::statements(std::string ID) {
   return RelativeSelector<CompoundStmt, getStatementsRange>(std::move(ID));
 }

 namespace {
 // Returns the range of the source between the call's parentheses.
 CharSourceRange getCallArgumentsRange(const MatchResult &Result,
                                       const CallExpr &CE) {
   return CharSourceRange::getCharRange(
       findOpenParen(CE, *Result.SourceManager, Result.Context->getLangOpts())
           .getLocWithOffset(1),
       CE.getRParenLoc());
 }
 } // namespace

 RangeSelector transformer::callArgs(std::string ID) {
   return RelativeSelector<CallExpr, getCallArgumentsRange>(std::move(ID));
 }

 namespace {
 // Returns the range of the elements of the initializer list. Includes all
 // source between the braces.
 CharSourceRange getElementsRange(const MatchResult &,
                                  const InitListExpr &E) {
   return CharSourceRange::getCharRange(E.getLBraceLoc().getLocWithOffset(1),
                                        E.getRBraceLoc());
 }
 } // namespace

 RangeSelector transformer::initListElements(std::string ID) {
   return RelativeSelector<InitListExpr, getElementsRange>(std::move(ID));
 }

 namespace {
 // Returns the range of the else branch, including the `else` keyword.
 CharSourceRange getElseRange(const MatchResult &Result, const IfStmt &S) {
   return tooling::maybeExtendRange(
       CharSourceRange::getTokenRange(S.getElseLoc(), S.getEndLoc()),
       tok::TokenKind::semi, *Result.Context);
 }
 } // namespace

 RangeSelector transformer::elseBranch(std::string ID) {
   return RelativeSelector<IfStmt, getElseRange>(std::move(ID));
 }

 RangeSelector transformer::expansion(RangeSelector S) {
   return [S](const MatchResult &Result) -> Expected<CharSourceRange> {
     Expected<CharSourceRange> SRange = S(Result);
     if (!SRange)
       return SRange.takeError();
     return Result.SourceManager->getExpansionRange(*SRange);
   };
 }
	//===--- RangeSelector.cpp - RangeSelector implementations ------- 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
	//
	//===----------------------------------------------------------------------===//

	#include "clang/Tooling/Transformer/RangeSelector.h"
	#include "clang/AST/Expr.h"
	#include "clang/ASTMatchers/ASTMatchFinder.h"
	#include "clang/Basic/SourceLocation.h"
	#include "clang/Lex/Lexer.h"
	#include "clang/Tooling/Transformer/SourceCode.h"
	#include "llvm/ADT/StringRef.h"
	#include "llvm/Support/Errc.h"
	#include "llvm/Support/Error.h"
	#include <string>
	#include <utility>
	#include <vector>

	using namespace clang;
	using namespace transformer;

	using ast_matchers::MatchFinder;
	using ast_type_traits::ASTNodeKind;
	using ast_type_traits::DynTypedNode;
	using llvm::Error;
	using llvm::StringError;

	using MatchResult = MatchFinder::MatchResult;

	static Error invalidArgumentError(Twine Message) {
	return llvm::make_error<StringError>(llvm::errc::invalid_argument, Message);
	}

	static Error typeError(StringRef ID, const ASTNodeKind &Kind) {
	return invalidArgumentError("mismatched type (node id=" + ID +
	" kind=" + Kind.asStringRef() + ")");
	}

	static Error typeError(StringRef ID, const ASTNodeKind &Kind,
	Twine ExpectedType) {
	return invalidArgumentError("mismatched type: expected one of " +
	ExpectedType + " (node id=" + ID +
	" kind=" + Kind.asStringRef() + ")");
	}

	static Error missingPropertyError(StringRef ID, Twine Description,
	StringRef Property) {
	return invalidArgumentError(Description + " requires property '" + Property +
	"' (node id=" + ID + ")");
	}

	static Expected<DynTypedNode> getNode(const ast_matchers::BoundNodes &Nodes,
	StringRef ID) {
	auto &NodesMap = Nodes.getMap();
	auto It = NodesMap.find(ID);
	if (It == NodesMap.end())
	return invalidArgumentError("ID not bound: " + ID);
	return It->second;
	}

	// FIXME: handling of macros should be configurable.
	static SourceLocation findPreviousTokenStart(SourceLocation Start,
	const SourceManager &SM,
	const LangOptions &LangOpts) {
	if (Start.isInvalid() \|\| Start.isMacroID())
	return SourceLocation();

	SourceLocation BeforeStart = Start.getLocWithOffset(-1);
	if (BeforeStart.isInvalid() \|\| BeforeStart.isMacroID())
	return SourceLocation();

	return Lexer::GetBeginningOfToken(BeforeStart, SM, LangOpts);
	}

	// Finds the start location of the previous token of kind \p TK.
	// FIXME: handling of macros should be configurable.
	static SourceLocation findPreviousTokenKind(SourceLocation Start,
	const SourceManager &SM,
	const LangOptions &LangOpts,
	tok::TokenKind TK) {
	while (true) {
	SourceLocation L = findPreviousTokenStart(Start, SM, LangOpts);
	if (L.isInvalid() \|\| L.isMacroID())
	return SourceLocation();

	Token T;
	if (Lexer::getRawToken(L, T, SM, LangOpts, /IgnoreWhiteSpace=/true))
	return SourceLocation();

	if (T.is(TK))
	return T.getLocation();

	Start = L;
	}
	}

	static SourceLocation findOpenParen(const CallExpr &E, const SourceManager &SM,
	const LangOptions &LangOpts) {
	SourceLocation EndLoc =
	E.getNumArgs() == 0 ? E.getRParenLoc() : E.getArg(0)->getBeginLoc();
	return findPreviousTokenKind(EndLoc, SM, LangOpts, tok::TokenKind::l_paren);
	}

	RangeSelector transformer::before(RangeSelector Selector) {
	return [Selector](const MatchResult &Result) -> Expected<CharSourceRange> {
	Expected<CharSourceRange> SelectedRange = Selector(Result);
	if (!SelectedRange)
	return SelectedRange.takeError();
	return CharSourceRange::getCharRange(SelectedRange->getBegin());
	};
	}

	RangeSelector transformer::after(RangeSelector Selector) {
	return [Selector](const MatchResult &Result) -> Expected<CharSourceRange> {
	Expected<CharSourceRange> SelectedRange = Selector(Result);
	if (!SelectedRange)
	return SelectedRange.takeError();
	if (SelectedRange->isCharRange())
	return CharSourceRange::getCharRange(SelectedRange->getEnd());
	return CharSourceRange::getCharRange(Lexer::getLocForEndOfToken(
	SelectedRange->getEnd(), 0, Result.Context->getSourceManager(),
	Result.Context->getLangOpts()));
	};
	}

	RangeSelector transformer::node(std::string ID) {
	return [ID](const MatchResult &Result) -> Expected<CharSourceRange> {
	Expected<DynTypedNode> Node = getNode(Result.Nodes, ID);
	if (!Node)
	return Node.takeError();
	return Node->get<Stmt>() != nullptr && Node->get<Expr>() == nullptr
	? tooling::getExtendedRange(*Node, tok::TokenKind::semi,
	*Result.Context)
	: CharSourceRange::getTokenRange(Node->getSourceRange());
	};
	}

	RangeSelector transformer::statement(std::string ID) {
	return [ID](const MatchResult &Result) -> Expected<CharSourceRange> {
	Expected<DynTypedNode> Node = getNode(Result.Nodes, ID);
	if (!Node)
	return Node.takeError();
	return tooling::getExtendedRange(*Node, tok::TokenKind::semi,
	*Result.Context);
	};
	}

	RangeSelector transformer::range(RangeSelector Begin, RangeSelector End) {
	return [Begin, End](const MatchResult &Result) -> Expected<CharSourceRange> {
	Expected<CharSourceRange> BeginRange = Begin(Result);
	if (!BeginRange)
	return BeginRange.takeError();
	Expected<CharSourceRange> EndRange = End(Result);
	if (!EndRange)
	return EndRange.takeError();
	SourceLocation B = BeginRange->getBegin();
	SourceLocation E = EndRange->getEnd();
	// Note: we are precluding the possibility of sub-token ranges in the case
	// that EndRange is a token range.
	if (Result.SourceManager->isBeforeInTranslationUnit(E, B)) {
	return invalidArgumentError("Bad range: out of order");
	}
	return CharSourceRange(SourceRange(B, E), EndRange->isTokenRange());
	};
	}

	RangeSelector transformer::range(std::string BeginID, std::string EndID) {
	return transformer::range(node(std::move(BeginID)), node(std::move(EndID)));
	}

	RangeSelector transformer::member(std::string ID) {
	return [ID](const MatchResult &Result) -> Expected<CharSourceRange> {
	Expected<DynTypedNode> Node = getNode(Result.Nodes, ID);
	if (!Node)
	return Node.takeError();
	if (auto *M = Node->get<clang::MemberExpr>())
	return CharSourceRange::getTokenRange(
	M->getMemberNameInfo().getSourceRange());
	return typeError(ID, Node->getNodeKind(), "MemberExpr");
	};
	}

	RangeSelector transformer::name(std::string ID) {
	return [ID](const MatchResult &Result) -> Expected<CharSourceRange> {
	Expected<DynTypedNode> N = getNode(Result.Nodes, ID);
	if (!N)
	return N.takeError();
	auto &Node = *N;
	if (const auto *D = Node.get<NamedDecl>()) {
	if (!D->getDeclName().isIdentifier())
	return missingPropertyError(ID, "name", "identifier");
	SourceLocation L = D->getLocation();
	auto R = CharSourceRange::getTokenRange(L, L);
	// Verify that the range covers exactly the name.
	// FIXME: extend this code to support cases like `operator +` or
	// `foo<int>` for which this range will be too short. Doing so will
	// require subcasing `NamedDecl`, because it doesn't provide virtual
	// access to the \c DeclarationNameInfo.
	if (tooling::getText(R, *Result.Context) != D->getName())
	return CharSourceRange();
	return R;
	}
	if (const auto *E = Node.get<DeclRefExpr>()) {
	if (!E->getNameInfo().getName().isIdentifier())
	return missingPropertyError(ID, "name", "identifier");
	SourceLocation L = E->getLocation();
	return CharSourceRange::getTokenRange(L, L);
	}
	if (const auto *I = Node.get<CXXCtorInitializer>()) {
	if (!I->isMemberInitializer() && I->isWritten())
	return missingPropertyError(ID, "name", "explicit member initializer");
	SourceLocation L = I->getMemberLocation();
	return CharSourceRange::getTokenRange(L, L);
	}
	return typeError(ID, Node.getNodeKind(),
	"DeclRefExpr, NamedDecl, CXXCtorInitializer");
	};
	}

	namespace {
	// FIXME: make this available in the public API for users to easily create their
	// own selectors.

	// Creates a selector from a range-selection function \p Func, which selects a
	// range that is relative to a bound node id. \c T is the node type expected by
	// \p Func.
	template <typename T, CharSourceRange (*Func)(const MatchResult &, const T &)>
	class RelativeSelector {
	std::string ID;

	public:
	RelativeSelector(std::string ID) : ID(std::move(ID)) {}

	Expected<CharSourceRange> operator()(const MatchResult &Result) {
	Expected<DynTypedNode> N = getNode(Result.Nodes, ID);
	if (!N)
	return N.takeError();
	if (const auto *Arg = N->get<T>())
	return Func(Result, *Arg);
	return typeError(ID, N->getNodeKind());
	}
	};
	} // namespace

	// FIXME: Change the following functions from being in an anonymous namespace
	// to static functions, after the minimum Visual C++ has _MSC_VER >= 1915
	// (equivalent to Visual Studio 2017 v15.8 or higher). Using the anonymous
	// namespace works around a bug in earlier versions.
	namespace {
	// Returns the range of the statements (all source between the braces).
	CharSourceRange getStatementsRange(const MatchResult &,
	const CompoundStmt &CS) {
	return CharSourceRange::getCharRange(CS.getLBracLoc().getLocWithOffset(1),
	CS.getRBracLoc());
	}
	} // namespace

	RangeSelector transformer::statements(std::string ID) {
	return RelativeSelector<CompoundStmt, getStatementsRange>(std::move(ID));
	}

	namespace {
	// Returns the range of the source between the call's parentheses.
	CharSourceRange getCallArgumentsRange(const MatchResult &Result,
	const CallExpr &CE) {
	return CharSourceRange::getCharRange(
	findOpenParen(CE, *Result.SourceManager, Result.Context->getLangOpts())
	.getLocWithOffset(1),
	CE.getRParenLoc());
	}
	} // namespace

	RangeSelector transformer::callArgs(std::string ID) {
	return RelativeSelector<CallExpr, getCallArgumentsRange>(std::move(ID));
	}

	namespace {
	// Returns the range of the elements of the initializer list. Includes all
	// source between the braces.
	CharSourceRange getElementsRange(const MatchResult &,
	const InitListExpr &E) {
	return CharSourceRange::getCharRange(E.getLBraceLoc().getLocWithOffset(1),
	E.getRBraceLoc());
	}
	} // namespace

	RangeSelector transformer::initListElements(std::string ID) {
	return RelativeSelector<InitListExpr, getElementsRange>(std::move(ID));
	}

	namespace {
	// Returns the range of the else branch, including the `else` keyword.
	CharSourceRange getElseRange(const MatchResult &Result, const IfStmt &S) {
	return tooling::maybeExtendRange(
	CharSourceRange::getTokenRange(S.getElseLoc(), S.getEndLoc()),
	tok::TokenKind::semi, *Result.Context);
	}
	} // namespace

	RangeSelector transformer::elseBranch(std::string ID) {
	return RelativeSelector<IfStmt, getElseRange>(std::move(ID));
	}

	RangeSelector transformer::expansion(RangeSelector S) {
	return [S](const MatchResult &Result) -> Expected<CharSourceRange> {
	Expected<CharSourceRange> SRange = S(Result);
	if (!SRange)
	return SRange.takeError();
	return Result.SourceManager->getExpansionRange(*SRange);
	};
	}