pkg/kernel/test/class_hierarchy_basic.dart - sdk - Git at Google

 // Copyright (c) 2016, 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.

 library kernel.class_hierarchy_basic;

 import 'package:kernel/class_hierarchy.dart';
 import 'package:kernel/type_algebra.dart';
 import 'package:kernel/ast.dart';

 /// A simple implementation of the class hierarchy interface using
 /// hash tables for everything.
 class BasicClassHierarchy implements ClassHierarchy {
   final Map<Class, Set<Class>> superclasses = <Class, Set<Class>>{};
   final Map<Class, Set<Class>> superMixtures = <Class, Set<Class>>{};
   final Map<Class, Set<Class>> supertypes = <Class, Set<Class>>{};
   final Map<Class, Map<Class, Supertype>> supertypeInstantiations =
       <Class, Map<Class, Supertype>>{};
   final Map<Class, Map<Name, Member>> gettersAndCalls =
       <Class, Map<Name, Member>>{};
   final Map<Class, Map<Name, Member>> setters = <Class, Map<Name, Member>>{};
   final Map<Class, Map<Name, List<Member>>> interfaceGettersAndCalls =
       <Class, Map<Name, List<Member>>>{};
   final Map<Class, Map<Name, List<Member>>> interfaceSetters =
       <Class, Map<Name, List<Member>>>{};
   final List<Class> classes = <Class>[];
   final Map<Class, int> classIndex = <Class, int>{};

   BasicClassHierarchy(Component component) {
     for (var library in component.libraries) {
       for (var classNode in library.classes) {
         buildSuperTypeSets(classNode);
         buildSuperTypeInstantiations(classNode);
         buildDispatchTable(classNode);
         buildInterfaceTable(classNode);
       }
     }
   }

   void forEachOverridePair(
       Class class_, callback(Member member, Member superMember, bool setter)) {
     void report(Member member, Member superMember, bool setter) {
       if (!identical(member, superMember)) {
         callback(member, superMember, setter);
       }
     }

     // Report declared members overriding inheritable members.
     for (var member in class_.mixin.members) {
       for (var supertype in class_.supers) {
         if (member.hasGetter) {
           for (var superMember
               in getInterfaceMembersByName(supertype.classNode, member.name)) {
             report(member, superMember, false);
           }
         }
         if (member.hasSetter) {
           for (var superMember in getInterfaceMembersByName(
               supertype.classNode, member.name,
               setter: true)) {
             report(member, superMember, true);
           }
         }
       }
     }
     // Report inherited non-abstract members overriding inheritable or
     // declared members.
     for (var setter in [true, false]) {
       for (var member in getDispatchTargets(class_, setters: setter)) {
         // Report overriding inheritable members.
         for (var supertype in class_.supers) {
           for (var superMember in getInterfaceMembersByName(
               supertype.classNode, member.name,
               setter: setter)) {
             report(member, superMember, setter);
           }
         }
         // Report overriding declared abstract members.
         if (!class_.isAbstract && member.enclosingClass != class_.mixin) {
           for (var declaredMember in getInterfaceMembersByName(
               class_, member.name,
               setter: setter)) {
             report(member, declaredMember, setter);
           }
         }
       }
     }
   }

   void buildSuperTypeSets(Class node) {
     if (superclasses.containsKey(node)) return;
     superclasses[node] = new Set<Class>()..add(node);
     superMixtures[node] = new Set<Class>()..add(node);
     supertypes[node] = new Set<Class>()..add(node);
     if (node.supertype != null) {
       buildSuperTypeSets(node.supertype.classNode);
       superclasses[node].addAll(superclasses[node.supertype.classNode]);
       superMixtures[node].addAll(superMixtures[node.supertype.classNode]);
       supertypes[node].addAll(supertypes[node.supertype.classNode]);
     }
     if (node.mixedInType != null) {
       buildSuperTypeSets(node.mixedInType.classNode);
       superMixtures[node].addAll(superMixtures[node.mixedInType.classNode]);
       supertypes[node].addAll(supertypes[node.mixedInType.classNode]);
     }
     for (var supertype in node.implementedTypes) {
       buildSuperTypeSets(supertype.classNode);
       supertypes[node].addAll(supertypes[supertype.classNode]);
     }
     classes.add(node);
     classIndex[node] = classes.length - 1;
   }

   void buildSuperTypeInstantiations(Class node) {
     if (supertypeInstantiations.containsKey(node)) return;
     supertypeInstantiations[node] = <Class, Supertype>{
       node: node.asThisSupertype
     };
     for (var supertype in node.supers) {
       var superclass = supertype.classNode;
       buildSuperTypeInstantiations(superclass);
       var substitution = Substitution.fromPairs(
           superclass.typeParameters, supertype.typeArguments);
       supertypeInstantiations[superclass].forEach((key, type) {
         supertypeInstantiations[node][key] =
             substitution.substituteSupertype(type);
       });
     }
   }

   void buildDispatchTable(Class node) {
     if (gettersAndCalls.containsKey(node)) return;
     gettersAndCalls[node] = <Name, Member>{};
     setters[node] = <Name, Member>{};
     if (node.supertype != null) {
       buildDispatchTable(node.supertype.classNode);
       gettersAndCalls[node].addAll(gettersAndCalls[node.supertype.classNode]);
       setters[node].addAll(setters[node.supertype.classNode]);
     }
     // Overwrite map entries with declared members.
     Class mixin = node.mixedInType?.classNode ?? node;
     for (Procedure procedure in mixin.procedures) {
       if (procedure.isStatic || procedure.isAbstract) continue;
       if (procedure.kind == ProcedureKind.Setter) {
         setters[node][procedure.name] = procedure;
       } else {
         gettersAndCalls[node][procedure.name] = procedure;
       }
     }
     for (Field field in mixin.fields) {
       if (field.isStatic) continue;
       gettersAndCalls[node][field.name] = field;
       if (!field.isFinal) {
         setters[node][field.name] = field;
       }
     }
   }

   void mergeMaps(
       Map<Name, List<Member>> source, Map<Name, List<Member>> destination) {
     for (var name in source.keys) {
       destination.putIfAbsent(name, () => <Member>[]).addAll(source[name]);
     }
   }

   void buildInterfaceTable(Class node) {
     if (interfaceGettersAndCalls.containsKey(node)) return;
     interfaceGettersAndCalls[node] = <Name, List<Member>>{};
     interfaceSetters[node] = <Name, List<Member>>{};
     void inheritFrom(Supertype type) {
       if (type == null) return;
       buildInterfaceTable(type.classNode);
       mergeMaps(interfaceGettersAndCalls[type.classNode],
           interfaceGettersAndCalls[node]);
       mergeMaps(interfaceSetters[type.classNode], interfaceSetters[node]);
     }

     inheritFrom(node.supertype);
     inheritFrom(node.mixedInType);
     node.implementedTypes.forEach(inheritFrom);
     // Overwrite map entries with declared members.
     for (Procedure procedure in node.mixin.procedures) {
       if (procedure.isStatic) continue;
       if (procedure.kind == ProcedureKind.Setter) {
         interfaceSetters[node][procedure.name] = <Member>[procedure];
       } else {
         interfaceGettersAndCalls[node][procedure.name] = <Member>[procedure];
       }
     }
     for (Field field in node.mixin.fields) {
       if (field.isStatic) continue;
       interfaceGettersAndCalls[node][field.name] = <Member>[field];
       if (!field.isFinal) {
         interfaceSetters[node][field.name] = <Member>[field];
       }
     }
   }

   bool isSubclassOf(Class subtype, Class supertype) {
     return superclasses[subtype].contains(supertype);
   }

   bool isSubmixtureOf(Class subtype, Class supertype) {
     return superMixtures[subtype].contains(supertype);
   }

   bool isSubtypeOf(Class subtype, Class supertype) {
     return supertypes[subtype].contains(supertype);
   }

   Supertype getClassAsInstanceOf(Class type, Class supertype) {
     return supertypeInstantiations[type][supertype];
   }

   Member getDispatchTarget(Class class_, Name name, {bool setter: false}) {
     return setter ? setters[class_][name] : gettersAndCalls[class_][name];
   }

   List<Member> getDispatchTargets(Class class_, {bool setters: false}) {
     return setters
         ? this.setters[class_].values
         : gettersAndCalls[class_].values;
   }

   Member tryFirst(List<Member> members) {
     return (members == null || members.isEmpty) ? null : members[0];
   }

   Member getInterfaceMember(Class class_, Name name, {bool setter: false}) {
     return tryFirst(getInterfaceMembersByName(class_, name, setter: setter));
   }

   Iterable<Member> getInterfaceMembersByName(Class class_, Name name,
       {bool setter: false}) {
     var iterable = setter
         ? interfaceSetters[class_][name]
         : interfaceGettersAndCalls[class_][name];
     return iterable == null ? const <Member>[] : iterable;
   }

   List<Member> getInterfaceMembers(Class class_, {bool setters: false}) {
     return setters
         ? interfaceSetters[class_].values.expand((x) => x)
         : interfaceGettersAndCalls[class_].values.expand((x) => x);
   }

   int getClassIndex(Class node) {
     return classIndex[node];
   }

   List<int> getExpenseHistogram() => <int>[];
   double getCompressionRatio() => 0.0;
   int getSuperTypeHashTableSize() => 0;

   noSuchMethod(inv) => super.noSuchMethod(inv);
 }
	// Copyright (c) 2016, 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.

	library kernel.class_hierarchy_basic;

	import 'package:kernel/class_hierarchy.dart';
	import 'package:kernel/type_algebra.dart';
	import 'package:kernel/ast.dart';

	/// A simple implementation of the class hierarchy interface using
	/// hash tables for everything.
	class BasicClassHierarchy implements ClassHierarchy {
	final Map<Class, Set<Class>> superclasses = <Class, Set<Class>>{};
	final Map<Class, Set<Class>> superMixtures = <Class, Set<Class>>{};
	final Map<Class, Set<Class>> supertypes = <Class, Set<Class>>{};
	final Map<Class, Map<Class, Supertype>> supertypeInstantiations =
	<Class, Map<Class, Supertype>>{};
	final Map<Class, Map<Name, Member>> gettersAndCalls =
	<Class, Map<Name, Member>>{};
	final Map<Class, Map<Name, Member>> setters = <Class, Map<Name, Member>>{};
	final Map<Class, Map<Name, List<Member>>> interfaceGettersAndCalls =
	<Class, Map<Name, List<Member>>>{};
	final Map<Class, Map<Name, List<Member>>> interfaceSetters =
	<Class, Map<Name, List<Member>>>{};
	final List<Class> classes = <Class>[];
	final Map<Class, int> classIndex = <Class, int>{};

	BasicClassHierarchy(Component component) {
	for (var library in component.libraries) {
	for (var classNode in library.classes) {
	buildSuperTypeSets(classNode);
	buildSuperTypeInstantiations(classNode);
	buildDispatchTable(classNode);
	buildInterfaceTable(classNode);
	}
	}
	}

	void forEachOverridePair(
	Class class_, callback(Member member, Member superMember, bool setter)) {
	void report(Member member, Member superMember, bool setter) {
	if (!identical(member, superMember)) {
	callback(member, superMember, setter);
	}
	}

	// Report declared members overriding inheritable members.
	for (var member in class_.mixin.members) {
	for (var supertype in class_.supers) {
	if (member.hasGetter) {
	for (var superMember
	in getInterfaceMembersByName(supertype.classNode, member.name)) {
	report(member, superMember, false);
	}
	}
	if (member.hasSetter) {
	for (var superMember in getInterfaceMembersByName(
	supertype.classNode, member.name,
	setter: true)) {
	report(member, superMember, true);
	}
	}
	}
	}
	// Report inherited non-abstract members overriding inheritable or
	// declared members.
	for (var setter in [true, false]) {
	for (var member in getDispatchTargets(class_, setters: setter)) {
	// Report overriding inheritable members.
	for (var supertype in class_.supers) {
	for (var superMember in getInterfaceMembersByName(
	supertype.classNode, member.name,
	setter: setter)) {
	report(member, superMember, setter);
	}
	}
	// Report overriding declared abstract members.
	if (!class_.isAbstract && member.enclosingClass != class_.mixin) {
	for (var declaredMember in getInterfaceMembersByName(
	class_, member.name,
	setter: setter)) {
	report(member, declaredMember, setter);
	}
	}
	}
	}
	}

	void buildSuperTypeSets(Class node) {
	if (superclasses.containsKey(node)) return;
	superclasses[node] = new Set<Class>()..add(node);
	superMixtures[node] = new Set<Class>()..add(node);
	supertypes[node] = new Set<Class>()..add(node);
	if (node.supertype != null) {
	buildSuperTypeSets(node.supertype.classNode);
	superclasses[node].addAll(superclasses[node.supertype.classNode]);
	superMixtures[node].addAll(superMixtures[node.supertype.classNode]);
	supertypes[node].addAll(supertypes[node.supertype.classNode]);
	}
	if (node.mixedInType != null) {
	buildSuperTypeSets(node.mixedInType.classNode);
	superMixtures[node].addAll(superMixtures[node.mixedInType.classNode]);
	supertypes[node].addAll(supertypes[node.mixedInType.classNode]);
	}
	for (var supertype in node.implementedTypes) {
	buildSuperTypeSets(supertype.classNode);
	supertypes[node].addAll(supertypes[supertype.classNode]);
	}
	classes.add(node);
	classIndex[node] = classes.length - 1;
	}

	void buildSuperTypeInstantiations(Class node) {
	if (supertypeInstantiations.containsKey(node)) return;
	supertypeInstantiations[node] = <Class, Supertype>{
	node: node.asThisSupertype
	};
	for (var supertype in node.supers) {
	var superclass = supertype.classNode;
	buildSuperTypeInstantiations(superclass);
	var substitution = Substitution.fromPairs(
	superclass.typeParameters, supertype.typeArguments);
	supertypeInstantiations[superclass].forEach((key, type) {
	supertypeInstantiations[node][key] =
	substitution.substituteSupertype(type);
	});
	}
	}

	void buildDispatchTable(Class node) {
	if (gettersAndCalls.containsKey(node)) return;
	gettersAndCalls[node] = <Name, Member>{};
	setters[node] = <Name, Member>{};
	if (node.supertype != null) {
	buildDispatchTable(node.supertype.classNode);
	gettersAndCalls[node].addAll(gettersAndCalls[node.supertype.classNode]);
	setters[node].addAll(setters[node.supertype.classNode]);
	}
	// Overwrite map entries with declared members.
	Class mixin = node.mixedInType?.classNode ?? node;
	for (Procedure procedure in mixin.procedures) {
	if (procedure.isStatic \|\| procedure.isAbstract) continue;
	if (procedure.kind == ProcedureKind.Setter) {
	setters[node][procedure.name] = procedure;
	} else {
	gettersAndCalls[node][procedure.name] = procedure;
	}
	}
	for (Field field in mixin.fields) {
	if (field.isStatic) continue;
	gettersAndCalls[node][field.name] = field;
	if (!field.isFinal) {
	setters[node][field.name] = field;
	}
	}
	}

	void mergeMaps(
	Map<Name, List<Member>> source, Map<Name, List<Member>> destination) {
	for (var name in source.keys) {
	destination.putIfAbsent(name, () => <Member>[]).addAll(source[name]);
	}
	}

	void buildInterfaceTable(Class node) {
	if (interfaceGettersAndCalls.containsKey(node)) return;
	interfaceGettersAndCalls[node] = <Name, List<Member>>{};
	interfaceSetters[node] = <Name, List<Member>>{};
	void inheritFrom(Supertype type) {
	if (type == null) return;
	buildInterfaceTable(type.classNode);
	mergeMaps(interfaceGettersAndCalls[type.classNode],
	interfaceGettersAndCalls[node]);
	mergeMaps(interfaceSetters[type.classNode], interfaceSetters[node]);
	}

	inheritFrom(node.supertype);
	inheritFrom(node.mixedInType);
	node.implementedTypes.forEach(inheritFrom);
	// Overwrite map entries with declared members.
	for (Procedure procedure in node.mixin.procedures) {
	if (procedure.isStatic) continue;
	if (procedure.kind == ProcedureKind.Setter) {
	interfaceSetters[node][procedure.name] = <Member>[procedure];
	} else {
	interfaceGettersAndCalls[node][procedure.name] = <Member>[procedure];
	}
	}
	for (Field field in node.mixin.fields) {
	if (field.isStatic) continue;
	interfaceGettersAndCalls[node][field.name] = <Member>[field];
	if (!field.isFinal) {
	interfaceSetters[node][field.name] = <Member>[field];
	}
	}
	}

	bool isSubclassOf(Class subtype, Class supertype) {
	return superclasses[subtype].contains(supertype);
	}

	bool isSubmixtureOf(Class subtype, Class supertype) {
	return superMixtures[subtype].contains(supertype);
	}

	bool isSubtypeOf(Class subtype, Class supertype) {
	return supertypes[subtype].contains(supertype);
	}

	Supertype getClassAsInstanceOf(Class type, Class supertype) {
	return supertypeInstantiations[type][supertype];
	}

	Member getDispatchTarget(Class class_, Name name, {bool setter: false}) {
	return setter ? setters[class_][name] : gettersAndCalls[class_][name];
	}

	List<Member> getDispatchTargets(Class class_, {bool setters: false}) {
	return setters
	? this.setters[class_].values
	: gettersAndCalls[class_].values;
	}

	Member tryFirst(List<Member> members) {
	return (members == null \|\| members.isEmpty) ? null : members[0];
	}

	Member getInterfaceMember(Class class_, Name name, {bool setter: false}) {
	return tryFirst(getInterfaceMembersByName(class_, name, setter: setter));
	}

	Iterable<Member> getInterfaceMembersByName(Class class_, Name name,
	{bool setter: false}) {
	var iterable = setter
	? interfaceSetters[class_][name]
	: interfaceGettersAndCalls[class_][name];
	return iterable == null ? const <Member>[] : iterable;
	}

	List<Member> getInterfaceMembers(Class class_, {bool setters: false}) {
	return setters
	? interfaceSetters[class_].values.expand((x) => x)
	: interfaceGettersAndCalls[class_].values.expand((x) => x);
	}

	int getClassIndex(Class node) {
	return classIndex[node];
	}

	List<int> getExpenseHistogram() => <int>[];
	double getCompressionRatio() => 0.0;
	int getSuperTypeHashTableSize() => 0;

	noSuchMethod(inv) => super.noSuchMethod(inv);
	}