pkg/compiler/test/jumps/jump_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.

 // @dart = 2.7

 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/elements/entities.dart';
 import 'package:compiler/src/elements/jumps.dart';
 import 'package:compiler/src/js_model/element_map.dart';
 import 'package:compiler/src/js_model/js_world.dart';
 import 'package:compiler/src/js_model/locals.dart';
 import '../equivalence/id_equivalence.dart';
 import '../equivalence/id_equivalence_helper.dart';
 import 'package:kernel/ast.dart' as ir;

 main(List<String> args) {
   asyncTest(() async {
     Directory dataDir = new Directory.fromUri(Platform.script.resolve('data'));
     await checkTests(dataDir, const JumpDataComputer(),
         options: [stopAfterTypeInference], args: args);
   });
 }

 class JumpDataComputer extends DataComputer<String> {
   const JumpDataComputer();

   /// Compute closure data mapping for [member] as a kernel based element.
   ///
   /// Fills [actualMap] with the data and [sourceSpanMap] with the source spans
   /// for the data origin.
   @override
   void computeMemberData(Compiler compiler, MemberEntity member,
       Map<Id, ActualData<String>> actualMap,
       {bool verbose: false}) {
     JsClosedWorld closedWorld = compiler.backendClosedWorldForTesting;
     JsToElementMap elementMap = closedWorld.elementMap;
     GlobalLocalsMap localsMap =
         compiler.globalInference.resultsForTesting.globalLocalsMap;
     MemberDefinition definition = elementMap.getMemberDefinition(member);
     new JumpsIrChecker(
             compiler.reporter, actualMap, localsMap.getLocalsMap(member))
         .run(definition.node);
   }

   @override
   DataInterpreter<String> get dataValidator => const StringDataInterpreter();
 }

 class TargetData {
   final int index;
   final NodeId id;
   final SourceSpan sourceSpan;
   final JumpTarget target;

   TargetData(this.index, this.id, this.sourceSpan, this.target);

   @override
   String toString() => 'TargetData(index=$index,id=$id,'
       'sourceSpan=$sourceSpan,target=$target)';
 }

 class GotoData {
   final NodeId id;
   final SourceSpan sourceSpan;
   final JumpTarget target;

   GotoData(this.id, this.sourceSpan, this.target);

   @override
   String toString() => 'GotoData(id=$id,sourceSpan=$sourceSpan,target=$target)';
 }

 /// Kernel IR visitor for computing jump data.
 class JumpsIrChecker extends IrDataExtractor<String> {
   final KernelToLocalsMap _localsMap;

   int index = 0;
   Map<JumpTarget, TargetData> targets = <JumpTarget, TargetData>{};
   List<GotoData> gotos = <GotoData>[];

   JumpsIrChecker(DiagnosticReporter reporter,
       Map<Id, ActualData<String>> actualMap, this._localsMap)
       : super(reporter, actualMap);

   void processData() {
     targets.forEach((JumpTarget target, TargetData data) {
       StringBuffer sb = new StringBuffer();
       sb.write(data.index);
       sb.write('@');
       bool needsComma = false;
       if (target.isBreakTarget) {
         sb.write('break');
         needsComma = true;
       }
       if (target.isContinueTarget) {
         if (needsComma) {
           sb.write(',');
         }
         sb.write('continue');
         needsComma = true;
       }
       String value = sb.toString();
       registerValue(
           data.sourceSpan.uri, data.sourceSpan.begin, data.id, value, target);
     });
     gotos.forEach((GotoData data) {
       StringBuffer sb = new StringBuffer();
       sb.write('target=');
       TargetData targetData = targets[data.target];
       assert(targetData != null, "No TargetData for ${data.target}");
       sb.write(targetData.index);
       String value = sb.toString();
       registerValue(
           data.sourceSpan.uri, data.sourceSpan.begin, data.id, value, data);
     });
   }

   @override
   void run(ir.Node root) {
     super.run(root);
     processData();
   }

   @override
   String computeNodeValue(Id id, ir.Node node) {
     // Node values are computed post-visit in [processData].
     return null;
   }

   void addTargetData(ir.TreeNode node, NodeId id, JumpTarget target) {
     if (target != null) {
       SourceSpan sourceSpan = computeSourceSpan(node);
       targets[target] = new TargetData(index++, id, sourceSpan, target);
     }
   }

   @override
   visitForStatement(ir.ForStatement node) {
     addTargetData(
         node, createLoopId(node), _localsMap.getJumpTargetForFor(node));
     super.visitForStatement(node);
   }

   @override
   visitForInStatement(ir.ForInStatement node) {
     addTargetData(
         node, createLoopId(node), _localsMap.getJumpTargetForForIn(node));
     super.visitForInStatement(node);
   }

   @override
   visitWhileStatement(ir.WhileStatement node) {
     addTargetData(
         node, createLoopId(node), _localsMap.getJumpTargetForWhile(node));
     super.visitWhileStatement(node);
   }

   @override
   visitDoStatement(ir.DoStatement node) {
     addTargetData(
         node, createLoopId(node), _localsMap.getJumpTargetForDo(node));
     super.visitDoStatement(node);
   }

   @override
   visitBreakStatement(ir.BreakStatement node) {
     JumpTarget target = _localsMap.getJumpTargetForBreak(node);
     assert(target != null, 'No target for $node.');
     NodeId id = createGotoId(node);
     SourceSpan sourceSpan = computeSourceSpan(node);
     gotos.add(new GotoData(id, sourceSpan, target));
     super.visitBreakStatement(node);
   }

   @override
   visitLabeledStatement(ir.LabeledStatement node) {
     JumpTarget target = _localsMap.getJumpTargetForLabel(node);
     if (target != null) {
       NodeId id = createLabeledStatementId(node);
       SourceSpan sourceSpan = computeSourceSpan(node);
       targets[target] = new TargetData(index++, id, sourceSpan, target);
     }
     super.visitLabeledStatement(node);
   }

   @override
   visitSwitchStatement(ir.SwitchStatement node) {
     addTargetData(
         node, createSwitchId(node), _localsMap.getJumpTargetForSwitch(node));
     super.visitSwitchStatement(node);
   }

   @override
   visitSwitchCase(ir.SwitchCase node) {
     addTargetData(node, createSwitchCaseId(node),
         _localsMap.getJumpTargetForSwitchCase(node));
     super.visitSwitchCase(node);
   }

   @override
   visitContinueSwitchStatement(ir.ContinueSwitchStatement node) {
     JumpTarget target = _localsMap.getJumpTargetForContinueSwitch(node);
     assert(target != null, 'No target for $node.');
     NodeId id = createGotoId(node);
     SourceSpan sourceSpan = computeSourceSpan(node);
     gotos.add(new GotoData(id, sourceSpan, target));
     super.visitContinueSwitchStatement(node);
   }
 }
	// 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.

	// @dart = 2.7

	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/elements/entities.dart';
	import 'package:compiler/src/elements/jumps.dart';
	import 'package:compiler/src/js_model/element_map.dart';
	import 'package:compiler/src/js_model/js_world.dart';
	import 'package:compiler/src/js_model/locals.dart';
	import '../equivalence/id_equivalence.dart';
	import '../equivalence/id_equivalence_helper.dart';
	import 'package:kernel/ast.dart' as ir;

	main(List<String> args) {
	asyncTest(() async {
	Directory dataDir = new Directory.fromUri(Platform.script.resolve('data'));
	await checkTests(dataDir, const JumpDataComputer(),
	options: [stopAfterTypeInference], args: args);
	});
	}

	class JumpDataComputer extends DataComputer<String> {
	const JumpDataComputer();

	/// Compute closure data mapping for [member] as a kernel based element.
	///
	/// Fills [actualMap] with the data and [sourceSpanMap] with the source spans
	/// for the data origin.
	@override
	void computeMemberData(Compiler compiler, MemberEntity member,
	Map<Id, ActualData<String>> actualMap,
	{bool verbose: false}) {
	JsClosedWorld closedWorld = compiler.backendClosedWorldForTesting;
	JsToElementMap elementMap = closedWorld.elementMap;
	GlobalLocalsMap localsMap =
	compiler.globalInference.resultsForTesting.globalLocalsMap;
	MemberDefinition definition = elementMap.getMemberDefinition(member);
	new JumpsIrChecker(
	compiler.reporter, actualMap, localsMap.getLocalsMap(member))
	.run(definition.node);
	}

	@override
	DataInterpreter<String> get dataValidator => const StringDataInterpreter();
	}

	class TargetData {
	final int index;
	final NodeId id;
	final SourceSpan sourceSpan;
	final JumpTarget target;

	TargetData(this.index, this.id, this.sourceSpan, this.target);

	@override
	String toString() => 'TargetData(index=$index,id=$id,'
	'sourceSpan=$sourceSpan,target=$target)';
	}

	class GotoData {
	final NodeId id;
	final SourceSpan sourceSpan;
	final JumpTarget target;

	GotoData(this.id, this.sourceSpan, this.target);

	@override
	String toString() => 'GotoData(id=$id,sourceSpan=$sourceSpan,target=$target)';
	}

	/// Kernel IR visitor for computing jump data.
	class JumpsIrChecker extends IrDataExtractor<String> {
	final KernelToLocalsMap _localsMap;

	int index = 0;
	Map<JumpTarget, TargetData> targets = <JumpTarget, TargetData>{};
	List<GotoData> gotos = <GotoData>[];

	JumpsIrChecker(DiagnosticReporter reporter,
	Map<Id, ActualData<String>> actualMap, this._localsMap)
	: super(reporter, actualMap);

	void processData() {
	targets.forEach((JumpTarget target, TargetData data) {
	StringBuffer sb = new StringBuffer();
	sb.write(data.index);
	sb.write('@');
	bool needsComma = false;
	if (target.isBreakTarget) {
	sb.write('break');
	needsComma = true;
	}
	if (target.isContinueTarget) {
	if (needsComma) {
	sb.write(',');
	}
	sb.write('continue');
	needsComma = true;
	}
	String value = sb.toString();
	registerValue(
	data.sourceSpan.uri, data.sourceSpan.begin, data.id, value, target);
	});
	gotos.forEach((GotoData data) {
	StringBuffer sb = new StringBuffer();
	sb.write('target=');
	TargetData targetData = targets[data.target];
	assert(targetData != null, "No TargetData for ${data.target}");
	sb.write(targetData.index);
	String value = sb.toString();
	registerValue(
	data.sourceSpan.uri, data.sourceSpan.begin, data.id, value, data);
	});
	}

	@override
	void run(ir.Node root) {
	super.run(root);
	processData();
	}

	@override
	String computeNodeValue(Id id, ir.Node node) {
	// Node values are computed post-visit in [processData].
	return null;
	}

	void addTargetData(ir.TreeNode node, NodeId id, JumpTarget target) {
	if (target != null) {
	SourceSpan sourceSpan = computeSourceSpan(node);
	targets[target] = new TargetData(index++, id, sourceSpan, target);
	}
	}

	@override
	visitForStatement(ir.ForStatement node) {
	addTargetData(
	node, createLoopId(node), _localsMap.getJumpTargetForFor(node));
	super.visitForStatement(node);
	}

	@override
	visitForInStatement(ir.ForInStatement node) {
	addTargetData(
	node, createLoopId(node), _localsMap.getJumpTargetForForIn(node));
	super.visitForInStatement(node);
	}

	@override
	visitWhileStatement(ir.WhileStatement node) {
	addTargetData(
	node, createLoopId(node), _localsMap.getJumpTargetForWhile(node));
	super.visitWhileStatement(node);
	}

	@override
	visitDoStatement(ir.DoStatement node) {
	addTargetData(
	node, createLoopId(node), _localsMap.getJumpTargetForDo(node));
	super.visitDoStatement(node);
	}

	@override
	visitBreakStatement(ir.BreakStatement node) {
	JumpTarget target = _localsMap.getJumpTargetForBreak(node);
	assert(target != null, 'No target for $node.');
	NodeId id = createGotoId(node);
	SourceSpan sourceSpan = computeSourceSpan(node);
	gotos.add(new GotoData(id, sourceSpan, target));
	super.visitBreakStatement(node);
	}

	@override
	visitLabeledStatement(ir.LabeledStatement node) {
	JumpTarget target = _localsMap.getJumpTargetForLabel(node);
	if (target != null) {
	NodeId id = createLabeledStatementId(node);
	SourceSpan sourceSpan = computeSourceSpan(node);
	targets[target] = new TargetData(index++, id, sourceSpan, target);
	}
	super.visitLabeledStatement(node);
	}

	@override
	visitSwitchStatement(ir.SwitchStatement node) {
	addTargetData(
	node, createSwitchId(node), _localsMap.getJumpTargetForSwitch(node));
	super.visitSwitchStatement(node);
	}

	@override
	visitSwitchCase(ir.SwitchCase node) {
	addTargetData(node, createSwitchCaseId(node),
	_localsMap.getJumpTargetForSwitchCase(node));
	super.visitSwitchCase(node);
	}

	@override
	visitContinueSwitchStatement(ir.ContinueSwitchStatement node) {
	JumpTarget target = _localsMap.getJumpTargetForContinueSwitch(node);
	assert(target != null, 'No target for $node.');
	NodeId id = createGotoId(node);
	SourceSpan sourceSpan = computeSourceSpan(node);
	gotos.add(new GotoData(id, sourceSpan, target));
	super.visitContinueSwitchStatement(node);
	}
	}