tests/compiler/dart2js/equivalence/id_equivalence_test.dart - sdk.git - Git at Google

 // Copyright (c) 2017, 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.

 import 'dart:io';
 import 'package:async_helper/async_helper.dart';
 import 'package:compiler/src/common.dart';
 import 'package:compiler/src/compiler.dart';
 import 'package:compiler/src/diagnostics/diagnostic_listener.dart';
 import 'package:compiler/src/elements/elements.dart';
 import 'package:compiler/src/elements/entities.dart';
 import 'package:compiler/src/kernel/element_map.dart';
 import 'package:compiler/src/kernel/kernel_backend_strategy.dart';
 import 'package:compiler/src/resolution/access_semantics.dart';
 import 'package:compiler/src/resolution/send_structure.dart';
 import 'package:compiler/src/tree/nodes.dart' as ast;
 import 'package:expect/expect.dart';
 import 'package:kernel/ast.dart' as ir;
 import '../equivalence/id_equivalence.dart';
 import '../equivalence/id_equivalence_helper.dart';

 const List<String> dataDirectories = const <String>[
   '../closure/data',
   '../inference/data',
   '../jumps/data',
 ];

 main() {
   asyncTest(() async {
     for (String path in dataDirectories) {
       Directory dataDir = new Directory.fromUri(Platform.script.resolve(path));
       await for (FileSystemEntity entity in dataDir.list()) {
         print('Checking ${entity.uri}');
         String annotatedCode =
             await new File.fromUri(entity.uri).readAsString();
         IdData data1 = await computeData(
             annotatedCode, computeAstMemberData, compileFromSource);
         IdData data2 = await computeData(
             annotatedCode, computeIrMemberData, compileFromDill);
         data1.actualMap.forEach((Id id, ActualData actualData1) {
           String value1 = actualData1.value;
           String value2 = data2.actualMap[id]?.value;
           if (value1 != value2) {
             reportHere(data1.compiler.reporter, actualData1.sourceSpan,
                 '$id: from source:${value1},from dill:${value2}');
             print('--annotations diff----------------------------------------');
             print(data1.computeDiffCodeFor(data2));
             print('----------------------------------------------------------');
           }
           Expect.equals(value1, value2, 'Value mismatch for $id');
         });
         data2.actualMap.forEach((Id id, ActualData actualData2) {
           String value2 = actualData2.value;
           String value1 = data1.actualMap[id]?.value;
           if (value1 != value2) {
             reportHere(data2.compiler.reporter, actualData2.sourceSpan,
                 '$id: from source:${value1},from dill:${value2}');
             print('--annotations diff----------------------------------------');
             print(data1.computeDiffCodeFor(data2));
             print('----------------------------------------------------------');
           }
           Expect.equals(value1, value2, 'Value mismatch for $id');
         });
       }
     }
   });
 }

 /// Compute a descriptive mapping of the [Id]s in [_member] as a
 /// [MemberElement].
 ///
 /// Fills [actualMap] with the data and [sourceSpanMap] with the source spans
 /// for the data origin.
 void computeAstMemberData(
     Compiler compiler, MemberEntity _member, Map<Id, ActualData> actualMap,
     {bool verbose: false}) {
   MemberElement member = _member;
   ResolvedAst resolvedAst = member.resolvedAst;
   if (resolvedAst.kind != ResolvedAstKind.PARSED) return;
   new ResolvedAstComputer(compiler.reporter, actualMap, resolvedAst).run();
 }

 /// Mixin used for0computing a descriptive mapping of the [Id]s in a member.
 class ComputerMixin {
   String computeMemberName(String className, String memberName) {
     if (className != null) {
       return 'member:$className.$memberName';
     }
     return 'member:$memberName';
   }

   String computeLocalName(String localName) {
     return 'local:$localName';
   }

   String computeGetName(String propertyName) {
     return 'get:$propertyName';
   }

   String computeInvokeName(String propertyName) {
     return 'invoke:$propertyName';
   }

   String get loopName => 'loop';

   String get gotoName => 'goto';
 }

 /// AST visitor for computing a descriptive mapping of the [Id]s in a member.
 class ResolvedAstComputer extends AstDataExtractor with ComputerMixin {
   ResolvedAstComputer(DiagnosticReporter reporter,
       Map<Id, ActualData> actualMap, ResolvedAst resolvedAst)
       : super(reporter, actualMap, resolvedAst);

   @override
   String computeNodeValue(ast.Node node, AstElement element) {
     if (element != null && element.isLocal) {
       return computeLocalName(element.name);
     }
     if (node is ast.Loop) {
       return loopName;
     } else if (node is ast.GotoStatement) {
       return gotoName;
     }

     dynamic sendStructure;
     if (node is ast.Send) {
       sendStructure = elements.getSendStructure(node);
       if (sendStructure == null) return null;

       String getDynamicName() {
         switch (sendStructure.semantics.kind) {
           case AccessKind.PARAMETER:
           case AccessKind.FINAL_PARAMETER:
           case AccessKind.LOCAL_VARIABLE:
           case AccessKind.FINAL_LOCAL_VARIABLE:
           case AccessKind.LOCAL_FUNCTION:
             return sendStructure.semantics.element.name;
           case AccessKind.DYNAMIC_PROPERTY:
             DynamicAccess access = sendStructure.semantics;
             return access.name.text;
           default:
             return null;
         }
       }

       switch (sendStructure.kind) {
         case SendStructureKind.GET:
           String dynamicName = getDynamicName();
           if (dynamicName != null) return computeGetName(dynamicName);
           break;
         case SendStructureKind.BINARY:
           return computeInvokeName(sendStructure.operator.selectorName);
         case SendStructureKind.EQUALS:
           return computeInvokeName('==');
         case SendStructureKind.NOT_EQUALS:
           return computeInvokeName('!=');
         case SendStructureKind.INVOKE:
           String dynamicName = getDynamicName();
           if (dynamicName != null) return computeInvokeName(dynamicName);
           break;
         default:
       }
     }
     if (sendStructure != null) {
       return '<unknown:$node (${node.runtimeType}) $sendStructure>';
     }
     return '<unknown:$node (${node.runtimeType})>';
   }

   @override
   String computeElementValue(AstElement element) {
     return computeMemberName(element.enclosingClass?.name, element.name);
   }
 }

 /// Compute a descriptive mapping of the [Id]s in [member] as a kernel based
 /// member.
 ///
 /// Fills [actualMap] with the data and [sourceSpanMap] with the source spans
 /// for the data origin.
 void computeIrMemberData(
     Compiler compiler, MemberEntity member, Map<Id, ActualData> actualMap,
     {bool verbose: false}) {
   KernelBackendStrategy backendStrategy = compiler.backendStrategy;
   KernelToElementMapForBuilding elementMap = backendStrategy.elementMap;
   MemberDefinition definition = elementMap.getMemberDefinition(member);
   assert(definition.kind == MemberKind.regular,
       failedAt(member, "Unexpected member definition $definition"));
   new IrComputer(actualMap).run(definition.node);
 }

 /// IR visitor for computing a descriptive mapping of the [Id]s in a member.
 class IrComputer extends IrDataExtractor with ComputerMixin {
   IrComputer(Map<Id, ActualData> actualMap) : super(actualMap);

   @override
   String computeNodeValue(ir.TreeNode node) {
     if (node is ir.VariableDeclaration) {
       return computeLocalName(node.name);
     } else if (node is ir.FunctionDeclaration) {
       return computeLocalName(node.variable.name);
     } else if (node is ir.FunctionExpression) {
       return computeLocalName('');
     } else if (node is ir.MethodInvocation) {
       return computeInvokeName(node.name.name);
     } else if (node is ir.PropertyGet) {
       return computeGetName(node.name.name);
     } else if (node is ir.VariableGet) {
       return computeGetName(node.variable.name);
     } else if (node is ir.DoStatement) {
       return loopName;
     } else if (node is ir.ForStatement) {
       return loopName;
     } else if (node is ir.ForInStatement) {
       return loopName;
     } else if (node is ir.WhileStatement) {
       return loopName;
     } else if (node is ir.BreakStatement) {
       return gotoName;
     }
     return '<unknown:$node (${node.runtimeType})>';
   }

   @override
   String computeMemberValue(ir.Member member) {
     return computeMemberName(member.enclosingClass?.name, member.name.name);
   }
 }
	// Copyright (c) 2017, 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.

	import 'dart:io';
	import 'package:async_helper/async_helper.dart';
	import 'package:compiler/src/common.dart';
	import 'package:compiler/src/compiler.dart';
	import 'package:compiler/src/diagnostics/diagnostic_listener.dart';
	import 'package:compiler/src/elements/elements.dart';
	import 'package:compiler/src/elements/entities.dart';
	import 'package:compiler/src/kernel/element_map.dart';
	import 'package:compiler/src/kernel/kernel_backend_strategy.dart';
	import 'package:compiler/src/resolution/access_semantics.dart';
	import 'package:compiler/src/resolution/send_structure.dart';
	import 'package:compiler/src/tree/nodes.dart' as ast;
	import 'package:expect/expect.dart';
	import 'package:kernel/ast.dart' as ir;
	import '../equivalence/id_equivalence.dart';
	import '../equivalence/id_equivalence_helper.dart';

	const List<String> dataDirectories = const <String>[
	'../closure/data',
	'../inference/data',
	'../jumps/data',
	];

	main() {
	asyncTest(() async {
	for (String path in dataDirectories) {
	Directory dataDir = new Directory.fromUri(Platform.script.resolve(path));
	await for (FileSystemEntity entity in dataDir.list()) {
	print('Checking ${entity.uri}');
	String annotatedCode =
	await new File.fromUri(entity.uri).readAsString();
	IdData data1 = await computeData(
	annotatedCode, computeAstMemberData, compileFromSource);
	IdData data2 = await computeData(
	annotatedCode, computeIrMemberData, compileFromDill);
	data1.actualMap.forEach((Id id, ActualData actualData1) {
	String value1 = actualData1.value;
	String value2 = data2.actualMap[id]?.value;
	if (value1 != value2) {
	reportHere(data1.compiler.reporter, actualData1.sourceSpan,
	'$id: from source:${value1},from dill:${value2}');
	print('--annotations diff----------------------------------------');
	print(data1.computeDiffCodeFor(data2));
	print('----------------------------------------------------------');
	}
	Expect.equals(value1, value2, 'Value mismatch for $id');
	});
	data2.actualMap.forEach((Id id, ActualData actualData2) {
	String value2 = actualData2.value;
	String value1 = data1.actualMap[id]?.value;
	if (value1 != value2) {
	reportHere(data2.compiler.reporter, actualData2.sourceSpan,
	'$id: from source:${value1},from dill:${value2}');
	print('--annotations diff----------------------------------------');
	print(data1.computeDiffCodeFor(data2));
	print('----------------------------------------------------------');
	}
	Expect.equals(value1, value2, 'Value mismatch for $id');
	});
	}
	}
	});
	}

	/// Compute a descriptive mapping of the [Id]s in [_member] as a
	/// [MemberElement].
	///
	/// Fills [actualMap] with the data and [sourceSpanMap] with the source spans
	/// for the data origin.
	void computeAstMemberData(
	Compiler compiler, MemberEntity _member, Map<Id, ActualData> actualMap,
	{bool verbose: false}) {
	MemberElement member = _member;
	ResolvedAst resolvedAst = member.resolvedAst;
	if (resolvedAst.kind != ResolvedAstKind.PARSED) return;
	new ResolvedAstComputer(compiler.reporter, actualMap, resolvedAst).run();
	}

	/// Mixin used for0computing a descriptive mapping of the [Id]s in a member.
	class ComputerMixin {
	String computeMemberName(String className, String memberName) {
	if (className != null) {
	return 'member:$className.$memberName';
	}
	return 'member:$memberName';
	}

	String computeLocalName(String localName) {
	return 'local:$localName';
	}

	String computeGetName(String propertyName) {
	return 'get:$propertyName';
	}

	String computeInvokeName(String propertyName) {
	return 'invoke:$propertyName';
	}

	String get loopName => 'loop';

	String get gotoName => 'goto';
	}

	/// AST visitor for computing a descriptive mapping of the [Id]s in a member.
	class ResolvedAstComputer extends AstDataExtractor with ComputerMixin {
	ResolvedAstComputer(DiagnosticReporter reporter,
	Map<Id, ActualData> actualMap, ResolvedAst resolvedAst)
	: super(reporter, actualMap, resolvedAst);

	@override
	String computeNodeValue(ast.Node node, AstElement element) {
	if (element != null && element.isLocal) {
	return computeLocalName(element.name);
	}
	if (node is ast.Loop) {
	return loopName;
	} else if (node is ast.GotoStatement) {
	return gotoName;
	}

	dynamic sendStructure;
	if (node is ast.Send) {
	sendStructure = elements.getSendStructure(node);
	if (sendStructure == null) return null;

	String getDynamicName() {
	switch (sendStructure.semantics.kind) {
	case AccessKind.PARAMETER:
	case AccessKind.FINAL_PARAMETER:
	case AccessKind.LOCAL_VARIABLE:
	case AccessKind.FINAL_LOCAL_VARIABLE:
	case AccessKind.LOCAL_FUNCTION:
	return sendStructure.semantics.element.name;
	case AccessKind.DYNAMIC_PROPERTY:
	DynamicAccess access = sendStructure.semantics;
	return access.name.text;
	default:
	return null;
	}
	}

	switch (sendStructure.kind) {
	case SendStructureKind.GET:
	String dynamicName = getDynamicName();
	if (dynamicName != null) return computeGetName(dynamicName);
	break;
	case SendStructureKind.BINARY:
	return computeInvokeName(sendStructure.operator.selectorName);
	case SendStructureKind.EQUALS:
	return computeInvokeName('==');
	case SendStructureKind.NOT_EQUALS:
	return computeInvokeName('!=');
	case SendStructureKind.INVOKE:
	String dynamicName = getDynamicName();
	if (dynamicName != null) return computeInvokeName(dynamicName);
	break;
	default:
	}
	}
	if (sendStructure != null) {
	return '<unknown:$node (${node.runtimeType}) $sendStructure>';
	}
	return '<unknown:$node (${node.runtimeType})>';
	}

	@override
	String computeElementValue(AstElement element) {
	return computeMemberName(element.enclosingClass?.name, element.name);
	}
	}

	/// Compute a descriptive mapping of the [Id]s in [member] as a kernel based
	/// member.
	///
	/// Fills [actualMap] with the data and [sourceSpanMap] with the source spans
	/// for the data origin.
	void computeIrMemberData(
	Compiler compiler, MemberEntity member, Map<Id, ActualData> actualMap,
	{bool verbose: false}) {
	KernelBackendStrategy backendStrategy = compiler.backendStrategy;
	KernelToElementMapForBuilding elementMap = backendStrategy.elementMap;
	MemberDefinition definition = elementMap.getMemberDefinition(member);
	assert(definition.kind == MemberKind.regular,
	failedAt(member, "Unexpected member definition $definition"));
	new IrComputer(actualMap).run(definition.node);
	}

	/// IR visitor for computing a descriptive mapping of the [Id]s in a member.
	class IrComputer extends IrDataExtractor with ComputerMixin {
	IrComputer(Map<Id, ActualData> actualMap) : super(actualMap);

	@override
	String computeNodeValue(ir.TreeNode node) {
	if (node is ir.VariableDeclaration) {
	return computeLocalName(node.name);
	} else if (node is ir.FunctionDeclaration) {
	return computeLocalName(node.variable.name);
	} else if (node is ir.FunctionExpression) {
	return computeLocalName('');
	} else if (node is ir.MethodInvocation) {
	return computeInvokeName(node.name.name);
	} else if (node is ir.PropertyGet) {
	return computeGetName(node.name.name);
	} else if (node is ir.VariableGet) {
	return computeGetName(node.variable.name);
	} else if (node is ir.DoStatement) {
	return loopName;
	} else if (node is ir.ForStatement) {
	return loopName;
	} else if (node is ir.ForInStatement) {
	return loopName;
	} else if (node is ir.WhileStatement) {
	return loopName;
	} else if (node is ir.BreakStatement) {
	return gotoName;
	}
	return '<unknown:$node (${node.runtimeType})>';
	}

	@override
	String computeMemberValue(ir.Member member) {
	return computeMemberName(member.enclosingClass?.name, member.name.name);
	}
	}