loop-convert/LoopMatchers.cpp - clang-tools-extra - Git at Google

 //===-- loop-convert/LoopMatchers.h - Matchers for for loops ----*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file contains definitions of the matchers for use in migrating
 // C++ for loops.
 //
 //===----------------------------------------------------------------------===//
 #include "LoopMatchers.h"

 namespace clang {
 namespace loop_migrate {

 using namespace clang::ast_matchers;
 const char LoopName[] = "forLoop";
 const char ConditionBoundName[] = "conditionBound";
 const char ConditionVarName[] = "conditionVar";
 const char IncrementVarName[] = "incrementVar";
 const char InitVarName[] = "initVar";
 const char EndCallName[] = "endCall";
 const char ConditionEndVarName[] = "conditionEndVar";
 const char EndVarName[] = "endVar";

 // shared matchers
 static const TypeMatcher AnyType = anything();

 static const StatementMatcher IntegerComparisonMatcher =
     expr(ignoringParenImpCasts(declRefExpr(to(
         varDecl(hasType(isInteger())).bind(ConditionVarName)))));

 static const DeclarationMatcher InitToZeroMatcher =
     varDecl(hasInitializer(ignoringParenImpCasts(
         integerLiteral(equals(0))))).bind(InitVarName);

 static const StatementMatcher IncrementVarMatcher =
     declRefExpr(to(
         varDecl(hasType(isInteger())).bind(IncrementVarName)));

 // FIXME: How best to document complicated matcher expressions? They're fairly
 // self-documenting...but there may be some unintuitive parts.

 /// \brief The matcher for loops over arrays.
 ///
 /// In this general example, assuming 'j' and 'k' are of integral type:
 /// \code
 ///   for (int i = 0; j < 3 + 2; ++k) { ... }
 /// \endcode
 /// The following string identifers are bound to the parts of the AST:
 ///   ConditionVarName: 'j' (as a VarDecl)
 ///   ConditionBoundName: '3 + 2' (as an Expr)
 ///   InitVarName: 'i' (as a VarDecl)
 ///   IncrementVarName: 'k' (as a VarDecl)
 ///   LoopName: The entire for loop (as a ForStmt)
 ///
 /// Client code will need to make sure that:
 ///   - The three index variables identified by the matcher are the same
 ///     VarDecl.
 ///   - The index variable is only used as an array index.
 ///   - All arrays indexed by the loop are the same.
 StatementMatcher makeArrayLoopMatcher() {
   StatementMatcher ArrayBoundMatcher =
       expr(hasType(isInteger())).bind(ConditionBoundName);

   return forStmt(
       hasLoopInit(declStmt(hasSingleDecl(InitToZeroMatcher))),
       hasCondition(anyOf(binaryOperator(hasOperatorName("<"),
                                         hasLHS(IntegerComparisonMatcher),
                                         hasRHS(ArrayBoundMatcher)),
                          binaryOperator(hasOperatorName(">"),
                                         hasLHS(ArrayBoundMatcher),
                                         hasRHS(IntegerComparisonMatcher)))),
       hasIncrement(unaryOperator(hasOperatorName("++"),
                                  hasUnaryOperand(IncrementVarMatcher))))
       .bind(LoopName);
 }

 /// \brief The matcher used for iterator-based for loops.
 ///
 /// This matcher is more flexible than array-based loops. It will match
 /// catch loops of the following textual forms (regardless of whether the
 /// iterator type is actually a pointer type or a class type):
 ///
 /// Assuming f, g, and h are of type containerType::iterator,
 /// \code
 ///   for (containerType::iterator it = container.begin(),
 ///        e = createIterator(); f != g; ++h) { ... }
 ///   for (containerType::iterator it = container.begin();
 ///        f != anotherContainer.end(); ++h) { ... }
 /// \endcode
 /// The following string identifiers are bound to the parts of the AST:
 ///   InitVarName: 'it' (as a VarDecl)
 ///   ConditionVarName: 'f' (as a VarDecl)
 ///   LoopName: The entire for loop (as a ForStmt)
 ///   In the first example only:
 ///     EndVarName: 'e' (as a VarDecl)
 ///     ConditionEndVarName: 'g' (as a VarDecl)
 ///   In the second example only:
 ///     EndCallName: 'container.end()' (as a CXXMemberCallExpr)
 ///
 /// Client code will need to make sure that:
 ///   - The iterator variables 'it', 'f', and 'h' are the same
 ///   - The two containers on which 'begin' and 'end' are called are the same
 ///   - If the end iterator variable 'g' is defined, it is the same as 'f'
 StatementMatcher makeIteratorLoopMatcher() {
   StatementMatcher BeginCallMatcher =
       memberCallExpr(argumentCountIs(0), callee(methodDecl(hasName("begin"))));

   DeclarationMatcher InitDeclMatcher =
       varDecl(hasInitializer(anything())).bind(InitVarName);

   DeclarationMatcher EndDeclMatcher =
       varDecl(hasInitializer(anything())).bind(EndVarName);

   StatementMatcher EndCallMatcher =
       memberCallExpr(argumentCountIs(0), callee(methodDecl(hasName("end"))));

   StatementMatcher IteratorBoundMatcher =
       expr(anyOf(ignoringParenImpCasts(declRefExpr(to(
           varDecl().bind(ConditionEndVarName)))),
                  ignoringParenImpCasts(
                      expr(EndCallMatcher).bind(EndCallName)),
                  materializeTemporaryExpr(ignoringParenImpCasts(
                      expr(EndCallMatcher).bind(EndCallName)))));

   StatementMatcher IteratorComparisonMatcher =
       expr(ignoringParenImpCasts(declRefExpr(to(
           varDecl().bind(ConditionVarName)))));

   StatementMatcher OverloadedNEQMatcher = operatorCallExpr(
       hasOverloadedOperatorName("!="),
       argumentCountIs(2),
       hasArgument(0, IteratorComparisonMatcher),
       hasArgument(1, IteratorBoundMatcher));

   return forStmt(
       hasLoopInit(anyOf(
           declStmt(declCountIs(2),
                    containsDeclaration(0, InitDeclMatcher),
                    containsDeclaration(1, EndDeclMatcher)),
           declStmt(hasSingleDecl(InitDeclMatcher)))),
       hasCondition(anyOf(
           binaryOperator(hasOperatorName("!="),
                          hasLHS(IteratorComparisonMatcher),
                          hasRHS(IteratorBoundMatcher)),
           binaryOperator(hasOperatorName("!="),
                          hasLHS(IteratorBoundMatcher),
                          hasRHS(IteratorComparisonMatcher)),
           OverloadedNEQMatcher)),
       hasIncrement(anyOf(
           unaryOperator(hasOperatorName("++"),
                         hasUnaryOperand(declRefExpr(to(
                             varDecl(hasType(pointsTo(AnyType)))
                             .bind(IncrementVarName))))),
           operatorCallExpr(
               hasOverloadedOperatorName("++"),
               hasArgument(0, declRefExpr(to(
                   varDecl().bind(IncrementVarName))))))))
                   .bind(LoopName);
 }

 /// \brief The matcher used for array-like containers (pseudoarrays).
 ///
 /// This matcher is more flexible than array-based loops. It will match
 /// loops of the following textual forms (regardless of whether the
 /// iterator type is actually a pointer type or a class type):
 ///
 /// Assuming f, g, and h are of type containerType::iterator,
 /// \code
 ///   for (int i = 0, j = container.size(); f < g; ++h) { ... }
 ///   for (int i = 0; f < container.size(); ++h) { ... }
 /// \endcode
 /// The following string identifiers are bound to the parts of the AST:
 ///   InitVarName: 'i' (as a VarDecl)
 ///   ConditionVarName: 'f' (as a VarDecl)
 ///   LoopName: The entire for loop (as a ForStmt)
 ///   In the first example only:
 ///     EndVarName: 'j' (as a VarDecl)
 ///     ConditionEndVarName: 'g' (as a VarDecl)
 ///   In the second example only:
 ///     EndCallName: 'container.size()' (as a CXXMemberCallExpr)
 ///
 /// Client code will need to make sure that:
 ///   - The index variables 'i', 'f', and 'h' are the same
 ///   - The containers on which 'size()' is called is the container indexed
 ///   - The index variable is only used in overloaded operator[] or
 ///     container.at()
 ///   - If the end iterator variable 'g' is defined, it is the same as 'j'
 ///   - The container's iterators would not be invalidated during the loop
 StatementMatcher makePseudoArrayLoopMatcher() {
   StatementMatcher SizeCallMatcher =
       memberCallExpr(argumentCountIs(0),
                      callee(methodDecl(anyOf(hasName("size"),
                                              hasName("length")))));

   StatementMatcher EndInitMatcher =
       expr(anyOf(
           ignoringParenImpCasts(expr(SizeCallMatcher).bind(EndCallName)),
           explicitCastExpr(hasSourceExpression(ignoringParenImpCasts(
               expr(SizeCallMatcher).bind(EndCallName))))));

   DeclarationMatcher EndDeclMatcher =
       varDecl(hasInitializer(EndInitMatcher)).bind(EndVarName);

   StatementMatcher IndexBoundMatcher =
       expr(anyOf(
           ignoringParenImpCasts(declRefExpr(to(
               varDecl(hasType(isInteger())).bind(ConditionEndVarName)))),
           EndInitMatcher));

   return forStmt(
       hasLoopInit(anyOf(
           declStmt(declCountIs(2),
                    containsDeclaration(0, InitToZeroMatcher),
                    containsDeclaration(1, EndDeclMatcher)),
           declStmt(hasSingleDecl(InitToZeroMatcher)))),
       hasCondition(anyOf(
           binaryOperator(hasOperatorName("<"),
                          hasLHS(IntegerComparisonMatcher),
                          hasRHS(IndexBoundMatcher)),
           binaryOperator(hasOperatorName(">"),
                          hasLHS(IndexBoundMatcher),
                          hasRHS(IntegerComparisonMatcher)))),
       hasIncrement(unaryOperator(
           hasOperatorName("++"),
           hasUnaryOperand(IncrementVarMatcher))))
       .bind(LoopName);
 }

 } // namespace loop_migrate
 } // namespace clang
	//===-- loop-convert/LoopMatchers.h - Matchers for for loops ----- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file contains definitions of the matchers for use in migrating
	// C++ for loops.
	//
	//===----------------------------------------------------------------------===//
	#include "LoopMatchers.h"

	namespace clang {
	namespace loop_migrate {

	using namespace clang::ast_matchers;
	const char LoopName[] = "forLoop";
	const char ConditionBoundName[] = "conditionBound";
	const char ConditionVarName[] = "conditionVar";
	const char IncrementVarName[] = "incrementVar";
	const char InitVarName[] = "initVar";
	const char EndCallName[] = "endCall";
	const char ConditionEndVarName[] = "conditionEndVar";
	const char EndVarName[] = "endVar";

	// shared matchers
	static const TypeMatcher AnyType = anything();

	static const StatementMatcher IntegerComparisonMatcher =
	expr(ignoringParenImpCasts(declRefExpr(to(
	varDecl(hasType(isInteger())).bind(ConditionVarName)))));

	static const DeclarationMatcher InitToZeroMatcher =
	varDecl(hasInitializer(ignoringParenImpCasts(
	integerLiteral(equals(0))))).bind(InitVarName);

	static const StatementMatcher IncrementVarMatcher =
	declRefExpr(to(
	varDecl(hasType(isInteger())).bind(IncrementVarName)));

	// FIXME: How best to document complicated matcher expressions? They're fairly
	// self-documenting...but there may be some unintuitive parts.

	/// \brief The matcher for loops over arrays.
	///
	/// In this general example, assuming 'j' and 'k' are of integral type:
	/// \code
	/// for (int i = 0; j < 3 + 2; ++k) { ... }
	/// \endcode
	/// The following string identifers are bound to the parts of the AST:
	/// ConditionVarName: 'j' (as a VarDecl)
	/// ConditionBoundName: '3 + 2' (as an Expr)
	/// InitVarName: 'i' (as a VarDecl)
	/// IncrementVarName: 'k' (as a VarDecl)
	/// LoopName: The entire for loop (as a ForStmt)
	///
	/// Client code will need to make sure that:
	/// - The three index variables identified by the matcher are the same
	/// VarDecl.
	/// - The index variable is only used as an array index.
	/// - All arrays indexed by the loop are the same.
	StatementMatcher makeArrayLoopMatcher() {
	StatementMatcher ArrayBoundMatcher =
	expr(hasType(isInteger())).bind(ConditionBoundName);

	return forStmt(
	hasLoopInit(declStmt(hasSingleDecl(InitToZeroMatcher))),
	hasCondition(anyOf(binaryOperator(hasOperatorName("<"),
	hasLHS(IntegerComparisonMatcher),
	hasRHS(ArrayBoundMatcher)),
	binaryOperator(hasOperatorName(">"),
	hasLHS(ArrayBoundMatcher),
	hasRHS(IntegerComparisonMatcher)))),
	hasIncrement(unaryOperator(hasOperatorName("++"),
	hasUnaryOperand(IncrementVarMatcher))))
	.bind(LoopName);
	}

	/// \brief The matcher used for iterator-based for loops.
	///
	/// This matcher is more flexible than array-based loops. It will match
	/// catch loops of the following textual forms (regardless of whether the
	/// iterator type is actually a pointer type or a class type):
	///
	/// Assuming f, g, and h are of type containerType::iterator,
	/// \code
	/// for (containerType::iterator it = container.begin(),
	/// e = createIterator(); f != g; ++h) { ... }
	/// for (containerType::iterator it = container.begin();
	/// f != anotherContainer.end(); ++h) { ... }
	/// \endcode
	/// The following string identifiers are bound to the parts of the AST:
	/// InitVarName: 'it' (as a VarDecl)
	/// ConditionVarName: 'f' (as a VarDecl)
	/// LoopName: The entire for loop (as a ForStmt)
	/// In the first example only:
	/// EndVarName: 'e' (as a VarDecl)
	/// ConditionEndVarName: 'g' (as a VarDecl)
	/// In the second example only:
	/// EndCallName: 'container.end()' (as a CXXMemberCallExpr)
	///
	/// Client code will need to make sure that:
	/// - The iterator variables 'it', 'f', and 'h' are the same
	/// - The two containers on which 'begin' and 'end' are called are the same
	/// - If the end iterator variable 'g' is defined, it is the same as 'f'
	StatementMatcher makeIteratorLoopMatcher() {
	StatementMatcher BeginCallMatcher =
	memberCallExpr(argumentCountIs(0), callee(methodDecl(hasName("begin"))));

	DeclarationMatcher InitDeclMatcher =
	varDecl(hasInitializer(anything())).bind(InitVarName);

	DeclarationMatcher EndDeclMatcher =
	varDecl(hasInitializer(anything())).bind(EndVarName);

	StatementMatcher EndCallMatcher =
	memberCallExpr(argumentCountIs(0), callee(methodDecl(hasName("end"))));

	StatementMatcher IteratorBoundMatcher =
	expr(anyOf(ignoringParenImpCasts(declRefExpr(to(
	varDecl().bind(ConditionEndVarName)))),
	ignoringParenImpCasts(
	expr(EndCallMatcher).bind(EndCallName)),
	materializeTemporaryExpr(ignoringParenImpCasts(
	expr(EndCallMatcher).bind(EndCallName)))));

	StatementMatcher IteratorComparisonMatcher =
	expr(ignoringParenImpCasts(declRefExpr(to(
	varDecl().bind(ConditionVarName)))));

	StatementMatcher OverloadedNEQMatcher = operatorCallExpr(
	hasOverloadedOperatorName("!="),
	argumentCountIs(2),
	hasArgument(0, IteratorComparisonMatcher),
	hasArgument(1, IteratorBoundMatcher));

	return forStmt(
	hasLoopInit(anyOf(
	declStmt(declCountIs(2),
	containsDeclaration(0, InitDeclMatcher),
	containsDeclaration(1, EndDeclMatcher)),
	declStmt(hasSingleDecl(InitDeclMatcher)))),
	hasCondition(anyOf(
	binaryOperator(hasOperatorName("!="),
	hasLHS(IteratorComparisonMatcher),
	hasRHS(IteratorBoundMatcher)),
	binaryOperator(hasOperatorName("!="),
	hasLHS(IteratorBoundMatcher),
	hasRHS(IteratorComparisonMatcher)),
	OverloadedNEQMatcher)),
	hasIncrement(anyOf(
	unaryOperator(hasOperatorName("++"),
	hasUnaryOperand(declRefExpr(to(
	varDecl(hasType(pointsTo(AnyType)))
	.bind(IncrementVarName))))),
	operatorCallExpr(
	hasOverloadedOperatorName("++"),
	hasArgument(0, declRefExpr(to(
	varDecl().bind(IncrementVarName))))))))
	.bind(LoopName);
	}

	/// \brief The matcher used for array-like containers (pseudoarrays).
	///
	/// This matcher is more flexible than array-based loops. It will match
	/// loops of the following textual forms (regardless of whether the
	/// iterator type is actually a pointer type or a class type):
	///
	/// Assuming f, g, and h are of type containerType::iterator,
	/// \code
	/// for (int i = 0, j = container.size(); f < g; ++h) { ... }
	/// for (int i = 0; f < container.size(); ++h) { ... }
	/// \endcode
	/// The following string identifiers are bound to the parts of the AST:
	/// InitVarName: 'i' (as a VarDecl)
	/// ConditionVarName: 'f' (as a VarDecl)
	/// LoopName: The entire for loop (as a ForStmt)
	/// In the first example only:
	/// EndVarName: 'j' (as a VarDecl)
	/// ConditionEndVarName: 'g' (as a VarDecl)
	/// In the second example only:
	/// EndCallName: 'container.size()' (as a CXXMemberCallExpr)
	///
	/// Client code will need to make sure that:
	/// - The index variables 'i', 'f', and 'h' are the same
	/// - The containers on which 'size()' is called is the container indexed
	/// - The index variable is only used in overloaded operator[] or
	/// container.at()
	/// - If the end iterator variable 'g' is defined, it is the same as 'j'
	/// - The container's iterators would not be invalidated during the loop
	StatementMatcher makePseudoArrayLoopMatcher() {
	StatementMatcher SizeCallMatcher =
	memberCallExpr(argumentCountIs(0),
	callee(methodDecl(anyOf(hasName("size"),
	hasName("length")))));

	StatementMatcher EndInitMatcher =
	expr(anyOf(
	ignoringParenImpCasts(expr(SizeCallMatcher).bind(EndCallName)),
	explicitCastExpr(hasSourceExpression(ignoringParenImpCasts(
	expr(SizeCallMatcher).bind(EndCallName))))));

	DeclarationMatcher EndDeclMatcher =
	varDecl(hasInitializer(EndInitMatcher)).bind(EndVarName);

	StatementMatcher IndexBoundMatcher =
	expr(anyOf(
	ignoringParenImpCasts(declRefExpr(to(
	varDecl(hasType(isInteger())).bind(ConditionEndVarName)))),
	EndInitMatcher));

	return forStmt(
	hasLoopInit(anyOf(
	declStmt(declCountIs(2),
	containsDeclaration(0, InitToZeroMatcher),
	containsDeclaration(1, EndDeclMatcher)),
	declStmt(hasSingleDecl(InitToZeroMatcher)))),
	hasCondition(anyOf(
	binaryOperator(hasOperatorName("<"),
	hasLHS(IntegerComparisonMatcher),
	hasRHS(IndexBoundMatcher)),
	binaryOperator(hasOperatorName(">"),
	hasLHS(IndexBoundMatcher),
	hasRHS(IntegerComparisonMatcher)))),
	hasIncrement(unaryOperator(
	hasOperatorName("++"),
	hasUnaryOperand(IncrementVarMatcher))))
	.bind(LoopName);
	}

	} // namespace loop_migrate
	} // namespace clang