pkg/js_ast/lib/src/equivalence_visitor.dart - sdk.git - Git at Google

 // Copyright (c) 2014, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 part of js_ast;

 /// Visitor that computes whether two [Node]s are structurally equivalent.
 class EquivalenceVisitor implements NodeVisitor1<bool, Node> {
   const EquivalenceVisitor();

   /// Called when [node1] and [node2] are not equivalent.
   ///
   /// Override this to collect or report information on the inequivalent nodes.
   bool failAt(Node node1, Node node2) => false;

   /// Returns whether the non-node values [value1] and [value2] are equivalent.
   bool testValues(Node node1, Object value1, Node node2, Object value2) =>
       value1 == value2;

   /// Returns whether the labels [label1] and [label2] are equivalent.
   bool testLabels(Node node1, String label1, Node node2, String label2) =>
       label1 == label2;

   bool testNodes(Node node1, Node node2) {
     if (identical(node1, node2)) return true;
     if (node1 == null || node2 == null) return failAt(node1, node2);
     return node1.accept1(this, node2);
   }

   bool testNodeLists(List<Node> list1, List<Node> list2) {
     int index = 0;
     while (index < list1.length && index < list2.length) {
       if (!testNodes(list1[index], list2[index])) return false;
       index++;
     }
     if (index < list1.length) {
       return failAt(list1[index], null);
     } else if (index < list2.length) {
       return failAt(list2[index], null);
     }
     return true;
   }

   @override
   bool visitProgram(Program node, Node arg) {
     if (arg is! Program) return failAt(node, arg);
     Program other = arg;
     return testNodeLists(node.body, other.body);
   }

   @override
   bool visitInterpolatedDeclaration(InterpolatedDeclaration node, Node arg) {
     if (arg is! InterpolatedDeclaration) return failAt(node, arg);
     InterpolatedDeclaration other = arg;
     return testValues(node, node.nameOrPosition, other, other.nameOrPosition);
   }

   @override
   bool visitInterpolatedStatement(InterpolatedStatement node, Node arg) {
     if (arg is! InterpolatedStatement) return failAt(node, arg);
     InterpolatedStatement other = arg;
     return testValues(node, node.nameOrPosition, other, other.nameOrPosition);
   }

   @override
   bool visitInterpolatedSelector(InterpolatedSelector node, Node arg) {
     if (arg is! InterpolatedSelector) return failAt(node, arg);
     InterpolatedSelector other = arg;
     return testValues(node, node.nameOrPosition, other, other.nameOrPosition);
   }

   @override
   bool visitInterpolatedParameter(InterpolatedParameter node, Node arg) {
     if (arg is! InterpolatedParameter) return failAt(node, arg);
     InterpolatedParameter other = arg;
     return testValues(node, node.nameOrPosition, other, other.nameOrPosition);
   }

   @override
   bool visitInterpolatedLiteral(InterpolatedLiteral node, Node arg) {
     if (arg is! InterpolatedLiteral) return failAt(node, arg);
     InterpolatedLiteral other = arg;
     return testValues(node, node.nameOrPosition, other, other.nameOrPosition);
   }

   @override
   bool visitInterpolatedExpression(InterpolatedExpression node, Node arg) {
     if (arg is! InterpolatedExpression) return failAt(node, arg);
     InterpolatedExpression other = arg;
     return testValues(node, node.nameOrPosition, other, other.nameOrPosition);
   }

   @override
   bool visitComment(Comment node, Node arg) {
     if (arg is! Comment) return failAt(node, arg);
     Comment other = arg;
     return testValues(node, node.comment, other, other.comment);
   }

   @override
   bool visitAwait(Await node, Node arg) {
     if (arg is! Await) return failAt(node, arg);
     Await other = arg;
     return testNodes(node.expression, other.expression);
   }

   @override
   bool visitRegExpLiteral(RegExpLiteral node, Node arg) {
     if (arg is! RegExpLiteral) return failAt(node, arg);
     RegExpLiteral other = arg;
     return testValues(node, node.pattern, other, other.pattern);
   }

   @override
   bool visitProperty(Property node, Node arg) {
     if (arg is! Property) return failAt(node, arg);
     Property other = arg;
     return testNodes(node.name, other.name) &&
         testNodes(node.value, other.value);
   }

   @override
   bool visitObjectInitializer(ObjectInitializer node, Node arg) {
     if (arg is! ObjectInitializer) return failAt(node, arg);
     ObjectInitializer other = arg;
     return testNodeLists(node.properties, other.properties);
   }

   @override
   bool visitArrayHole(ArrayHole node, Node arg) {
     if (arg is! ArrayHole) return failAt(node, arg);
     return true;
   }

   @override
   bool visitArrayInitializer(ArrayInitializer node, Node arg) {
     if (arg is! ArrayInitializer) return failAt(node, arg);
     ArrayInitializer other = arg;
     return testNodeLists(node.elements, other.elements);
   }

   @override
   bool visitName(Name node, Node arg) {
     if (arg is! Name) return failAt(node, arg);
     Name other = arg;
     return testValues(node, node.key, other, other.key);
   }

   @override
   bool visitParentheses(Parentheses node, Node arg) {
     if (arg is! Parentheses) return failAt(node, arg);
     Parentheses other = arg;
     return testValues(node, node.enclosed, other, other.enclosed);
   }

   @override
   bool visitStringConcatenation(StringConcatenation node, Node arg) {
     if (arg is! StringConcatenation) return failAt(node, arg);
     StringConcatenation other = arg;
     return testNodeLists(node.parts, other.parts);
   }

   @override
   bool visitLiteralNull(LiteralNull node, Node arg) {
     if (arg is! LiteralNull) return failAt(node, arg);
     return true;
   }

   @override
   bool visitLiteralNumber(LiteralNumber node, Node arg) {
     if (arg is! LiteralNumber) return failAt(node, arg);
     LiteralNumber other = arg;
     return testValues(node, node.value, other, other.value);
   }

   @override
   bool visitLiteralString(LiteralString node, Node arg) {
     if (arg is! LiteralString) return failAt(node, arg);
     LiteralString other = arg;
     return testValues(node, node.value, other, other.value);
   }

   @override
   bool visitLiteralBool(LiteralBool node, Node arg) {
     if (arg is! LiteralBool) return failAt(node, arg);
     LiteralBool other = arg;
     return testValues(node, node.value, other, other.value);
   }

   @override
   bool visitDeferredString(DeferredString node, Node arg) {
     if (arg is! DeferredString) return failAt(node, arg);
     DeferredString other = arg;
     return testValues(node, node.value, other, other.value);
   }

   @override
   bool visitDeferredNumber(DeferredNumber node, Node arg) {
     if (arg is! DeferredNumber) return failAt(node, arg);
     DeferredNumber other = arg;
     return testValues(node, node.value, other, other.value);
   }

   @override
   bool visitDeferredExpression(DeferredExpression node, Node arg) {
     if (arg is! DeferredExpression) return failAt(node, arg);
     DeferredExpression other = arg;
     return testNodes(node.value, other.value);
   }

   @override
   bool visitFun(Fun node, Node arg) {
     if (arg is! Fun) return failAt(node, arg);
     Fun other = arg;
     return testNodeLists(node.params, other.params) &&
         testNodes(node.body, other.body) &&
         testValues(node, node.asyncModifier, other, other.asyncModifier);
   }

   @override
   bool visitNamedFunction(NamedFunction node, Node arg) {
     if (arg is! NamedFunction) return failAt(node, arg);
     NamedFunction other = arg;
     return testNodes(node.name, other.name) &&
         testNodes(node.function, other.function);
   }

   @override
   bool visitAccess(PropertyAccess node, Node arg) {
     if (arg is! PropertyAccess) return failAt(node, arg);
     PropertyAccess other = arg;
     return testNodes(node.receiver, other.receiver) &&
         testNodes(node.selector, other.selector);
   }

   @override
   bool visitParameter(Parameter node, Node arg) {
     if (arg is! Parameter) return failAt(node, arg);
     Parameter other = arg;
     return testValues(node, node.name, other, other.name);
   }

   @override
   bool visitVariableDeclaration(VariableDeclaration node, Node arg) {
     if (arg is! VariableDeclaration) return failAt(node, arg);
     VariableDeclaration other = arg;
     return testValues(node, node.name, other, other.name) &&
         testValues(node, node.allowRename, other, other.allowRename);
   }

   @override
   bool visitThis(This node, Node arg) {
     if (arg is! This) return failAt(node, arg);
     return true;
   }

   @override
   bool visitVariableUse(VariableUse node, Node arg) {
     if (arg is! VariableUse) return failAt(node, arg);
     VariableUse other = arg;
     return testValues(node, node.name, other, other.name);
   }

   @override
   bool visitPostfix(Postfix node, Node arg) {
     if (arg is! Postfix) return failAt(node, arg);
     Postfix other = arg;
     return testValues(node, node.op, other, other.op) &&
         testNodes(node.argument, other.argument);
   }

   @override
   bool visitPrefix(Prefix node, Node arg) {
     if (arg is! Prefix) return failAt(node, arg);
     Prefix other = arg;
     return testValues(node, node.op, other, other.op) &&
         testNodes(node.argument, other.argument);
   }

   @override
   bool visitBinary(Binary node, Node arg) {
     if (arg is! Binary) return failAt(node, arg);
     Binary other = arg;
     return testNodes(node.left, other.left) &&
         testValues(node, node.op, other, other.op) &&
         testNodes(node.right, other.right);
   }

   @override
   bool visitCall(Call node, Node arg) {
     if (arg is! Call) return failAt(node, arg);
     Call other = arg;
     return testNodes(node.target, other.target) &&
         testNodeLists(node.arguments, other.arguments);
   }

   @override
   bool visitNew(New node, Node arg) {
     if (arg is! New) return failAt(node, arg);
     New other = arg;
     return testNodes(node.target, other.target) &&
         testNodeLists(node.arguments, other.arguments);
   }

   @override
   bool visitConditional(Conditional node, Node arg) {
     if (arg is! Conditional) return failAt(node, arg);
     Conditional other = arg;
     return testNodes(node.condition, other.condition) &&
         testNodes(node.then, other.then) &&
         testNodes(node.otherwise, other.otherwise);
   }

   @override
   bool visitVariableInitialization(VariableInitialization node, Node arg) {
     if (arg is! VariableInitialization) return failAt(node, arg);
     VariableInitialization other = arg;
     return testNodes(node.declaration, other.declaration) &&
         testNodes(node.leftHandSide, other.leftHandSide) &&
         testValues(node, node.op, other, other.op) &&
         testNodes(node.value, other.value);
   }

   @override
   bool visitAssignment(Assignment node, Node arg) {
     if (arg is! Assignment) return failAt(node, arg);
     Assignment other = arg;
     return testNodes(node.leftHandSide, other.leftHandSide) &&
         testValues(node, node.op, other, other.op) &&
         testNodes(node.value, other.value);
   }

   @override
   bool visitVariableDeclarationList(VariableDeclarationList node, Node arg) {
     if (arg is! VariableDeclarationList) return failAt(node, arg);
     VariableDeclarationList other = arg;
     return testNodeLists(node.declarations, other.declarations);
   }

   @override
   bool visitLiteralExpression(LiteralExpression node, Node arg) {
     if (arg is! LiteralExpression) return failAt(node, arg);
     LiteralExpression other = arg;
     return testValues(node, node.template, other, other.template) &&
         testNodeLists(node.inputs, other.inputs);
   }

   @override
   bool visitDartYield(DartYield node, Node arg) {
     if (arg is! DartYield) return failAt(node, arg);
     DartYield other = arg;
     return testNodes(node.expression, other.expression) &&
         testValues(node, node.hasStar, other, other.hasStar);
   }

   @override
   bool visitLiteralStatement(LiteralStatement node, Node arg) {
     if (arg is! LiteralStatement) return failAt(node, arg);
     LiteralStatement other = arg;
     return testValues(node, node.code, other, other.code);
   }

   @override
   bool visitLabeledStatement(LabeledStatement node, Node arg) {
     if (arg is! LabeledStatement) return failAt(node, arg);
     LabeledStatement other = arg;
     return testLabels(node, node.label, other, other.label) &&
         testNodes(node.body, other.body);
   }

   @override
   bool visitFunctionDeclaration(FunctionDeclaration node, Node arg) {
     if (arg is! FunctionDeclaration) return failAt(node, arg);
     FunctionDeclaration other = arg;
     return testNodes(node.name, other.name) &&
         testNodes(node.function, other.function);
   }

   @override
   bool visitDefault(Default node, Node arg) {
     if (arg is! Default) return failAt(node, arg);
     Default other = arg;
     return testNodes(node.body, other.body);
   }

   @override
   bool visitCase(Case node, Node arg) {
     if (arg is! Case) return failAt(node, arg);
     Case other = arg;
     return testNodes(node.expression, other.expression) &&
         testNodes(node.body, other.body);
   }

   @override
   bool visitSwitch(Switch node, Node arg) {
     if (arg is! Switch) return failAt(node, arg);
     Switch other = arg;
     return testNodes(node.key, other.key) &&
         testNodeLists(node.cases, other.cases);
   }

   @override
   bool visitCatch(Catch node, Node arg) {
     if (arg is! Catch) return failAt(node, arg);
     Catch other = arg;
     return testNodes(node.declaration, other.declaration) &&
         testNodes(node.body, other.body);
   }

   @override
   bool visitTry(Try node, Node arg) {
     if (arg is! Try) return failAt(node, arg);
     Try other = arg;
     return testNodes(node.body, other.body) &&
         testNodes(node.catchPart, other.catchPart) &&
         testNodes(node.finallyPart, other.finallyPart);
   }

   @override
   bool visitThrow(Throw node, Node arg) {
     if (arg is! Throw) return failAt(node, arg);
     Throw other = arg;
     return testNodes(node.expression, other.expression);
   }

   @override
   bool visitReturn(Return node, Node arg) {
     if (arg is! Return) return failAt(node, arg);
     Return other = arg;
     return testNodes(node.value, other.value);
   }

   @override
   bool visitBreak(Break node, Node arg) {
     if (arg is! Break) return failAt(node, arg);
     Break other = arg;
     return testLabels(node, node.targetLabel, other, other.targetLabel);
   }

   @override
   bool visitContinue(Continue node, Node arg) {
     if (arg is! Continue) return failAt(node, arg);
     Continue other = arg;
     return testLabels(node, node.targetLabel, other, other.targetLabel);
   }

   @override
   bool visitDo(Do node, Node arg) {
     if (arg is! Do) return failAt(node, arg);
     Do other = arg;
     return testNodes(node.condition, other.condition) &&
         testNodes(node.body, other.body);
   }

   @override
   bool visitWhile(While node, Node arg) {
     if (arg is! While) return failAt(node, arg);
     While other = arg;
     return testNodes(node.condition, other.condition) &&
         testNodes(node.body, other.body);
   }

   @override
   bool visitForIn(ForIn node, Node arg) {
     if (arg is! ForIn) return failAt(node, arg);
     ForIn other = arg;
     return testNodes(node.leftHandSide, other.leftHandSide) &&
         testNodes(node.object, other.object) &&
         testNodes(node.body, other.body);
   }

   @override
   bool visitFor(For node, Node arg) {
     if (arg is! For) return failAt(node, arg);
     For other = arg;
     return testNodes(node.init, other.init) &&
         testNodes(node.condition, other.condition) &&
         testNodes(node.update, other.update) &&
         testNodes(node.body, other.body);
   }

   @override
   bool visitIf(If node, Node arg) {
     if (arg is! If) return failAt(node, arg);
     If other = arg;
     return testNodes(node.condition, other.condition) &&
         testNodes(node.then, other.then) &&
         testNodes(node.otherwise, other.otherwise);
   }

   @override
   bool visitEmptyStatement(EmptyStatement node, Node arg) {
     if (arg is! EmptyStatement) return failAt(node, arg);
     return true;
   }

   @override
   bool visitExpressionStatement(ExpressionStatement node, Node arg) {
     if (arg is! ExpressionStatement) return failAt(node, arg);
     ExpressionStatement other = arg;
     return testNodes(node.expression, other.expression);
   }

   @override
   bool visitBlock(Block node, Node arg) {
     if (arg is! Block) return failAt(node, arg);
     Block other = arg;
     return testNodeLists(node.statements, other.statements);
   }
 }
	// Copyright (c) 2014, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	part of js_ast;

	/// Visitor that computes whether two [Node]s are structurally equivalent.
	class EquivalenceVisitor implements NodeVisitor1<bool, Node> {
	const EquivalenceVisitor();

	/// Called when [node1] and [node2] are not equivalent.
	///
	/// Override this to collect or report information on the inequivalent nodes.
	bool failAt(Node node1, Node node2) => false;

	/// Returns whether the non-node values [value1] and [value2] are equivalent.
	bool testValues(Node node1, Object value1, Node node2, Object value2) =>
	value1 == value2;

	/// Returns whether the labels [label1] and [label2] are equivalent.
	bool testLabels(Node node1, String label1, Node node2, String label2) =>
	label1 == label2;

	bool testNodes(Node node1, Node node2) {
	if (identical(node1, node2)) return true;
	if (node1 == null \|\| node2 == null) return failAt(node1, node2);
	return node1.accept1(this, node2);
	}

	bool testNodeLists(List<Node> list1, List<Node> list2) {
	int index = 0;
	while (index < list1.length && index < list2.length) {
	if (!testNodes(list1[index], list2[index])) return false;
	index++;
	}
	if (index < list1.length) {
	return failAt(list1[index], null);
	} else if (index < list2.length) {
	return failAt(list2[index], null);
	}
	return true;
	}

	@override
	bool visitProgram(Program node, Node arg) {
	if (arg is! Program) return failAt(node, arg);
	Program other = arg;
	return testNodeLists(node.body, other.body);
	}

	@override
	bool visitInterpolatedDeclaration(InterpolatedDeclaration node, Node arg) {
	if (arg is! InterpolatedDeclaration) return failAt(node, arg);
	InterpolatedDeclaration other = arg;
	return testValues(node, node.nameOrPosition, other, other.nameOrPosition);
	}

	@override
	bool visitInterpolatedStatement(InterpolatedStatement node, Node arg) {
	if (arg is! InterpolatedStatement) return failAt(node, arg);
	InterpolatedStatement other = arg;
	return testValues(node, node.nameOrPosition, other, other.nameOrPosition);
	}

	@override
	bool visitInterpolatedSelector(InterpolatedSelector node, Node arg) {
	if (arg is! InterpolatedSelector) return failAt(node, arg);
	InterpolatedSelector other = arg;
	return testValues(node, node.nameOrPosition, other, other.nameOrPosition);
	}

	@override
	bool visitInterpolatedParameter(InterpolatedParameter node, Node arg) {
	if (arg is! InterpolatedParameter) return failAt(node, arg);
	InterpolatedParameter other = arg;
	return testValues(node, node.nameOrPosition, other, other.nameOrPosition);
	}

	@override
	bool visitInterpolatedLiteral(InterpolatedLiteral node, Node arg) {
	if (arg is! InterpolatedLiteral) return failAt(node, arg);
	InterpolatedLiteral other = arg;
	return testValues(node, node.nameOrPosition, other, other.nameOrPosition);
	}

	@override
	bool visitInterpolatedExpression(InterpolatedExpression node, Node arg) {
	if (arg is! InterpolatedExpression) return failAt(node, arg);
	InterpolatedExpression other = arg;
	return testValues(node, node.nameOrPosition, other, other.nameOrPosition);
	}

	@override
	bool visitComment(Comment node, Node arg) {
	if (arg is! Comment) return failAt(node, arg);
	Comment other = arg;
	return testValues(node, node.comment, other, other.comment);
	}

	@override
	bool visitAwait(Await node, Node arg) {
	if (arg is! Await) return failAt(node, arg);
	Await other = arg;
	return testNodes(node.expression, other.expression);
	}

	@override
	bool visitRegExpLiteral(RegExpLiteral node, Node arg) {
	if (arg is! RegExpLiteral) return failAt(node, arg);
	RegExpLiteral other = arg;
	return testValues(node, node.pattern, other, other.pattern);
	}

	@override
	bool visitProperty(Property node, Node arg) {
	if (arg is! Property) return failAt(node, arg);
	Property other = arg;
	return testNodes(node.name, other.name) &&
	testNodes(node.value, other.value);
	}

	@override
	bool visitObjectInitializer(ObjectInitializer node, Node arg) {
	if (arg is! ObjectInitializer) return failAt(node, arg);
	ObjectInitializer other = arg;
	return testNodeLists(node.properties, other.properties);
	}

	@override
	bool visitArrayHole(ArrayHole node, Node arg) {
	if (arg is! ArrayHole) return failAt(node, arg);
	return true;
	}

	@override
	bool visitArrayInitializer(ArrayInitializer node, Node arg) {
	if (arg is! ArrayInitializer) return failAt(node, arg);
	ArrayInitializer other = arg;
	return testNodeLists(node.elements, other.elements);
	}

	@override
	bool visitName(Name node, Node arg) {
	if (arg is! Name) return failAt(node, arg);
	Name other = arg;
	return testValues(node, node.key, other, other.key);
	}

	@override
	bool visitParentheses(Parentheses node, Node arg) {
	if (arg is! Parentheses) return failAt(node, arg);
	Parentheses other = arg;
	return testValues(node, node.enclosed, other, other.enclosed);
	}

	@override
	bool visitStringConcatenation(StringConcatenation node, Node arg) {
	if (arg is! StringConcatenation) return failAt(node, arg);
	StringConcatenation other = arg;
	return testNodeLists(node.parts, other.parts);
	}

	@override
	bool visitLiteralNull(LiteralNull node, Node arg) {
	if (arg is! LiteralNull) return failAt(node, arg);
	return true;
	}

	@override
	bool visitLiteralNumber(LiteralNumber node, Node arg) {
	if (arg is! LiteralNumber) return failAt(node, arg);
	LiteralNumber other = arg;
	return testValues(node, node.value, other, other.value);
	}

	@override
	bool visitLiteralString(LiteralString node, Node arg) {
	if (arg is! LiteralString) return failAt(node, arg);
	LiteralString other = arg;
	return testValues(node, node.value, other, other.value);
	}

	@override
	bool visitLiteralBool(LiteralBool node, Node arg) {
	if (arg is! LiteralBool) return failAt(node, arg);
	LiteralBool other = arg;
	return testValues(node, node.value, other, other.value);
	}

	@override
	bool visitDeferredString(DeferredString node, Node arg) {
	if (arg is! DeferredString) return failAt(node, arg);
	DeferredString other = arg;
	return testValues(node, node.value, other, other.value);
	}

	@override
	bool visitDeferredNumber(DeferredNumber node, Node arg) {
	if (arg is! DeferredNumber) return failAt(node, arg);
	DeferredNumber other = arg;
	return testValues(node, node.value, other, other.value);
	}

	@override
	bool visitDeferredExpression(DeferredExpression node, Node arg) {
	if (arg is! DeferredExpression) return failAt(node, arg);
	DeferredExpression other = arg;
	return testNodes(node.value, other.value);
	}

	@override
	bool visitFun(Fun node, Node arg) {
	if (arg is! Fun) return failAt(node, arg);
	Fun other = arg;
	return testNodeLists(node.params, other.params) &&
	testNodes(node.body, other.body) &&
	testValues(node, node.asyncModifier, other, other.asyncModifier);
	}

	@override
	bool visitNamedFunction(NamedFunction node, Node arg) {
	if (arg is! NamedFunction) return failAt(node, arg);
	NamedFunction other = arg;
	return testNodes(node.name, other.name) &&
	testNodes(node.function, other.function);
	}

	@override
	bool visitAccess(PropertyAccess node, Node arg) {
	if (arg is! PropertyAccess) return failAt(node, arg);
	PropertyAccess other = arg;
	return testNodes(node.receiver, other.receiver) &&
	testNodes(node.selector, other.selector);
	}

	@override
	bool visitParameter(Parameter node, Node arg) {
	if (arg is! Parameter) return failAt(node, arg);
	Parameter other = arg;
	return testValues(node, node.name, other, other.name);
	}

	@override
	bool visitVariableDeclaration(VariableDeclaration node, Node arg) {
	if (arg is! VariableDeclaration) return failAt(node, arg);
	VariableDeclaration other = arg;
	return testValues(node, node.name, other, other.name) &&
	testValues(node, node.allowRename, other, other.allowRename);
	}

	@override
	bool visitThis(This node, Node arg) {
	if (arg is! This) return failAt(node, arg);
	return true;
	}

	@override
	bool visitVariableUse(VariableUse node, Node arg) {
	if (arg is! VariableUse) return failAt(node, arg);
	VariableUse other = arg;
	return testValues(node, node.name, other, other.name);
	}

	@override
	bool visitPostfix(Postfix node, Node arg) {
	if (arg is! Postfix) return failAt(node, arg);
	Postfix other = arg;
	return testValues(node, node.op, other, other.op) &&
	testNodes(node.argument, other.argument);
	}

	@override
	bool visitPrefix(Prefix node, Node arg) {
	if (arg is! Prefix) return failAt(node, arg);
	Prefix other = arg;
	return testValues(node, node.op, other, other.op) &&
	testNodes(node.argument, other.argument);
	}

	@override
	bool visitBinary(Binary node, Node arg) {
	if (arg is! Binary) return failAt(node, arg);
	Binary other = arg;
	return testNodes(node.left, other.left) &&
	testValues(node, node.op, other, other.op) &&
	testNodes(node.right, other.right);
	}

	@override
	bool visitCall(Call node, Node arg) {
	if (arg is! Call) return failAt(node, arg);
	Call other = arg;
	return testNodes(node.target, other.target) &&
	testNodeLists(node.arguments, other.arguments);
	}

	@override
	bool visitNew(New node, Node arg) {
	if (arg is! New) return failAt(node, arg);
	New other = arg;
	return testNodes(node.target, other.target) &&
	testNodeLists(node.arguments, other.arguments);
	}

	@override
	bool visitConditional(Conditional node, Node arg) {
	if (arg is! Conditional) return failAt(node, arg);
	Conditional other = arg;
	return testNodes(node.condition, other.condition) &&
	testNodes(node.then, other.then) &&
	testNodes(node.otherwise, other.otherwise);
	}

	@override
	bool visitVariableInitialization(VariableInitialization node, Node arg) {
	if (arg is! VariableInitialization) return failAt(node, arg);
	VariableInitialization other = arg;
	return testNodes(node.declaration, other.declaration) &&
	testNodes(node.leftHandSide, other.leftHandSide) &&
	testValues(node, node.op, other, other.op) &&
	testNodes(node.value, other.value);
	}

	@override
	bool visitAssignment(Assignment node, Node arg) {
	if (arg is! Assignment) return failAt(node, arg);
	Assignment other = arg;
	return testNodes(node.leftHandSide, other.leftHandSide) &&
	testValues(node, node.op, other, other.op) &&
	testNodes(node.value, other.value);
	}

	@override
	bool visitVariableDeclarationList(VariableDeclarationList node, Node arg) {
	if (arg is! VariableDeclarationList) return failAt(node, arg);
	VariableDeclarationList other = arg;
	return testNodeLists(node.declarations, other.declarations);
	}

	@override
	bool visitLiteralExpression(LiteralExpression node, Node arg) {
	if (arg is! LiteralExpression) return failAt(node, arg);
	LiteralExpression other = arg;
	return testValues(node, node.template, other, other.template) &&
	testNodeLists(node.inputs, other.inputs);
	}

	@override
	bool visitDartYield(DartYield node, Node arg) {
	if (arg is! DartYield) return failAt(node, arg);
	DartYield other = arg;
	return testNodes(node.expression, other.expression) &&
	testValues(node, node.hasStar, other, other.hasStar);
	}

	@override
	bool visitLiteralStatement(LiteralStatement node, Node arg) {
	if (arg is! LiteralStatement) return failAt(node, arg);
	LiteralStatement other = arg;
	return testValues(node, node.code, other, other.code);
	}

	@override
	bool visitLabeledStatement(LabeledStatement node, Node arg) {
	if (arg is! LabeledStatement) return failAt(node, arg);
	LabeledStatement other = arg;
	return testLabels(node, node.label, other, other.label) &&
	testNodes(node.body, other.body);
	}

	@override
	bool visitFunctionDeclaration(FunctionDeclaration node, Node arg) {
	if (arg is! FunctionDeclaration) return failAt(node, arg);
	FunctionDeclaration other = arg;
	return testNodes(node.name, other.name) &&
	testNodes(node.function, other.function);
	}

	@override
	bool visitDefault(Default node, Node arg) {
	if (arg is! Default) return failAt(node, arg);
	Default other = arg;
	return testNodes(node.body, other.body);
	}

	@override
	bool visitCase(Case node, Node arg) {
	if (arg is! Case) return failAt(node, arg);
	Case other = arg;
	return testNodes(node.expression, other.expression) &&
	testNodes(node.body, other.body);
	}

	@override
	bool visitSwitch(Switch node, Node arg) {
	if (arg is! Switch) return failAt(node, arg);
	Switch other = arg;
	return testNodes(node.key, other.key) &&
	testNodeLists(node.cases, other.cases);
	}

	@override
	bool visitCatch(Catch node, Node arg) {
	if (arg is! Catch) return failAt(node, arg);
	Catch other = arg;
	return testNodes(node.declaration, other.declaration) &&
	testNodes(node.body, other.body);
	}

	@override
	bool visitTry(Try node, Node arg) {
	if (arg is! Try) return failAt(node, arg);
	Try other = arg;
	return testNodes(node.body, other.body) &&
	testNodes(node.catchPart, other.catchPart) &&
	testNodes(node.finallyPart, other.finallyPart);
	}

	@override
	bool visitThrow(Throw node, Node arg) {
	if (arg is! Throw) return failAt(node, arg);
	Throw other = arg;
	return testNodes(node.expression, other.expression);
	}

	@override
	bool visitReturn(Return node, Node arg) {
	if (arg is! Return) return failAt(node, arg);
	Return other = arg;
	return testNodes(node.value, other.value);
	}

	@override
	bool visitBreak(Break node, Node arg) {
	if (arg is! Break) return failAt(node, arg);
	Break other = arg;
	return testLabels(node, node.targetLabel, other, other.targetLabel);
	}

	@override
	bool visitContinue(Continue node, Node arg) {
	if (arg is! Continue) return failAt(node, arg);
	Continue other = arg;
	return testLabels(node, node.targetLabel, other, other.targetLabel);
	}

	@override
	bool visitDo(Do node, Node arg) {
	if (arg is! Do) return failAt(node, arg);
	Do other = arg;
	return testNodes(node.condition, other.condition) &&
	testNodes(node.body, other.body);
	}

	@override
	bool visitWhile(While node, Node arg) {
	if (arg is! While) return failAt(node, arg);
	While other = arg;
	return testNodes(node.condition, other.condition) &&
	testNodes(node.body, other.body);
	}

	@override
	bool visitForIn(ForIn node, Node arg) {
	if (arg is! ForIn) return failAt(node, arg);
	ForIn other = arg;
	return testNodes(node.leftHandSide, other.leftHandSide) &&
	testNodes(node.object, other.object) &&
	testNodes(node.body, other.body);
	}

	@override
	bool visitFor(For node, Node arg) {
	if (arg is! For) return failAt(node, arg);
	For other = arg;
	return testNodes(node.init, other.init) &&
	testNodes(node.condition, other.condition) &&
	testNodes(node.update, other.update) &&
	testNodes(node.body, other.body);
	}

	@override
	bool visitIf(If node, Node arg) {
	if (arg is! If) return failAt(node, arg);
	If other = arg;
	return testNodes(node.condition, other.condition) &&
	testNodes(node.then, other.then) &&
	testNodes(node.otherwise, other.otherwise);
	}

	@override
	bool visitEmptyStatement(EmptyStatement node, Node arg) {
	if (arg is! EmptyStatement) return failAt(node, arg);
	return true;
	}

	@override
	bool visitExpressionStatement(ExpressionStatement node, Node arg) {
	if (arg is! ExpressionStatement) return failAt(node, arg);
	ExpressionStatement other = arg;
	return testNodes(node.expression, other.expression);
	}

	@override
	bool visitBlock(Block node, Node arg) {
	if (arg is! Block) return failAt(node, arg);
	Block other = arg;
	return testNodeLists(node.statements, other.statements);
	}
	}