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dart / sdk.git / 306a4fb55d7da6475f7f2e644ba2a4ef9a2332d9 / . / pkg / compiler / lib / src / js_model / js_world.dart
blob: 868ef6fca2f3714b59c558bb098017434b63e571 [file] [log] [blame]
// Copyright (c) 2018, 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 'package:kernel/ast.dart' as ir;
import 'package:front_end/src/api_unstable/dart2js.dart' show Link;
import '../closure.dart';
import '../common.dart';
import '../common/names.dart';
import '../common_elements.dart' show JCommonElements, JElementEnvironment;
import '../deferred_load.dart';
import '../diagnostics/diagnostic_listener.dart';
import '../elements/entities.dart';
import '../elements/entity_utils.dart' as utils;
import '../elements/names.dart';
import '../elements/types.dart';
import '../environment.dart';
import '../inferrer/abstract_value_domain.dart';
import '../js_emitter/sorter.dart';
import '../js_backend/annotations.dart';
import '../js_backend/field_analysis.dart';
import '../js_backend/backend_usage.dart';
import '../js_backend/interceptor_data.dart';
import '../js_backend/native_data.dart';
import '../js_backend/no_such_method_registry.dart';
import '../js_backend/runtime_types_resolution.dart';
import '../js_model/locals.dart';
import '../ordered_typeset.dart';
import '../options.dart';
import '../serialization/serialization.dart';
import '../universe/class_hierarchy.dart';
import '../universe/class_set.dart';
import '../universe/function_set.dart' show FunctionSet;
import '../universe/member_usage.dart';
import '../universe/selector.dart';
import '../world.dart';
import 'element_map.dart';
import 'element_map_impl.dart';
import 'locals.dart';
class JsClosedWorld implements JClosedWorld {
static const String tag = 'closed-world';
@override
final NativeData nativeData;
@override
final InterceptorData interceptorData;
@override
final BackendUsage backendUsage;
@override
final NoSuchMethodData noSuchMethodData;
FunctionSet _allFunctions;
final Map<ClassEntity, Set<ClassEntity>> mixinUses;
Map<ClassEntity, List<ClassEntity>> _liveMixinUses;
final Map<ClassEntity, Set<ClassEntity>> typesImplementedBySubclasses;
final Map<ClassEntity, Map<ClassEntity, bool>> _subtypeCoveredByCache =
<ClassEntity, Map<ClassEntity, bool>>{};
// TODO(johnniwinther): Can this be derived from [ClassSet]s?
final Set<ClassEntity> implementedClasses;
final Set<MemberEntity> liveInstanceMembers;
/// Members that are written either directly or through a setter selector.
final Set<MemberEntity> assignedInstanceMembers;
@override
final Set<ClassEntity> liveNativeClasses;
@override
final Set<MemberEntity> processedMembers;
@override
final Set<ClassEntity> extractTypeArgumentsInterfacesNewRti;
@override
final ClassHierarchy classHierarchy;
final JsKernelToElementMap elementMap;
@override
final RuntimeTypesNeed rtiNeed;
AbstractValueDomain _abstractValueDomain;
@override
final JFieldAnalysis fieldAnalysis;
@override
final AnnotationsData annotationsData;
@override
final ClosureData closureDataLookup;
@override
final OutputUnitData outputUnitData;
Sorter _sorter;
final Map<MemberEntity, MemberAccess> memberAccess;
JsClosedWorld(
this.elementMap,
this.nativeData,
this.interceptorData,
this.backendUsage,
this.rtiNeed,
this.fieldAnalysis,
this.noSuchMethodData,
this.implementedClasses,
this.liveNativeClasses,
this.liveInstanceMembers,
this.assignedInstanceMembers,
this.processedMembers,
this.extractTypeArgumentsInterfacesNewRti,
this.mixinUses,
this.typesImplementedBySubclasses,
this.classHierarchy,
AbstractValueStrategy abstractValueStrategy,
this.annotationsData,
this.closureDataLookup,
this.outputUnitData,
this.memberAccess) {
_abstractValueDomain = abstractValueStrategy.createDomain(this);
}
/// Deserializes a [JsClosedWorld] object from [source].
factory JsClosedWorld.readFromDataSource(
CompilerOptions options,
DiagnosticReporter reporter,
Environment environment,
AbstractValueStrategy abstractValueStrategy,
ir.Component component,
DataSource source) {
source.begin(tag);
JsKernelToElementMap elementMap =
new JsKernelToElementMap.readFromDataSource(
options, reporter, environment, component, source);
ClassHierarchy classHierarchy = new ClassHierarchy.readFromDataSource(
source, elementMap.commonElements);
NativeData nativeData = new NativeData.readFromDataSource(
source, elementMap.elementEnvironment);
elementMap.nativeData = nativeData;
InterceptorData interceptorData = new InterceptorData.readFromDataSource(
source, nativeData, elementMap.commonElements);
BackendUsage backendUsage = new BackendUsage.readFromDataSource(source);
RuntimeTypesNeed rtiNeed = new RuntimeTypesNeed.readFromDataSource(
source, elementMap.elementEnvironment);
JFieldAnalysis allocatorAnalysis =
new JFieldAnalysis.readFromDataSource(source, options);
NoSuchMethodData noSuchMethodData =
new NoSuchMethodData.readFromDataSource(source);
Set<ClassEntity> implementedClasses = source.readClasses().toSet();
Set<ClassEntity> liveNativeClasses = source.readClasses().toSet();
Set<ClassEntity> extractTypeArgumentsInterfacesNewRti =
source.readClasses().toSet();
Set<MemberEntity> liveInstanceMembers = source.readMembers().toSet();
Set<MemberEntity> assignedInstanceMembers = source.readMembers().toSet();
Set<MemberEntity> processedMembers = source.readMembers().toSet();
Map<ClassEntity, Set<ClassEntity>> mixinUses =
source.readClassMap(() => source.readClasses().toSet());
Map<ClassEntity, Set<ClassEntity>> typesImplementedBySubclasses =
source.readClassMap(() => source.readClasses().toSet());
AnnotationsData annotationsData =
new AnnotationsData.readFromDataSource(options, source);
ClosureData closureData =
new ClosureData.readFromDataSource(elementMap, source);
OutputUnitData outputUnitData =
new OutputUnitData.readFromDataSource(source);
elementMap.lateOutputUnitDataBuilder =
new LateOutputUnitDataBuilder(outputUnitData);
Map<MemberEntity, MemberAccess> memberAccess = source.readMemberMap(
(MemberEntity member) => new MemberAccess.readFromDataSource(source));
source.end(tag);
return new JsClosedWorld(
elementMap,
nativeData,
interceptorData,
backendUsage,
rtiNeed,
allocatorAnalysis,
noSuchMethodData,
implementedClasses,
liveNativeClasses,
liveInstanceMembers,
assignedInstanceMembers,
processedMembers,
extractTypeArgumentsInterfacesNewRti,
mixinUses,
typesImplementedBySubclasses,
classHierarchy,
abstractValueStrategy,
annotationsData,
closureData,
outputUnitData,
memberAccess);
}
/// Serializes this [JsClosedWorld] to [sink].
void writeToDataSink(DataSink sink) {
sink.begin(tag);
elementMap.writeToDataSink(sink);
classHierarchy.writeToDataSink(sink);
nativeData.writeToDataSink(sink);
interceptorData.writeToDataSink(sink);
backendUsage.writeToDataSink(sink);
rtiNeed.writeToDataSink(sink);
fieldAnalysis.writeToDataSink(sink);
noSuchMethodData.writeToDataSink(sink);
sink.writeClasses(implementedClasses);
sink.writeClasses(liveNativeClasses);
sink.writeClasses(extractTypeArgumentsInterfacesNewRti);
sink.writeMembers(liveInstanceMembers);
sink.writeMembers(assignedInstanceMembers);
sink.writeMembers(processedMembers);
sink.writeClassMap(
mixinUses, (Set<ClassEntity> set) => sink.writeClasses(set));
sink.writeClassMap(typesImplementedBySubclasses,
(Set<ClassEntity> set) => sink.writeClasses(set));
annotationsData.writeToDataSink(sink);
closureDataLookup.writeToDataSink(sink);
outputUnitData.writeToDataSink(sink);
sink.writeMemberMap(
memberAccess,
(MemberEntity member, MemberAccess access) =>
access.writeToDataSink(sink));
sink.end(tag);
}
@override
JElementEnvironment get elementEnvironment => elementMap.elementEnvironment;
@override
JCommonElements get commonElements => elementMap.commonElements;
@override
DartTypes get dartTypes => elementMap.types;
@override
bool isImplemented(ClassEntity cls) {
return implementedClasses.contains(cls);
}
@override
ClassEntity getLubOfInstantiatedSubclasses(ClassEntity cls) {
if (nativeData.isJsInteropClass(cls)) {
return getLubOfInstantiatedSubclasses(
commonElements.jsJavaScriptObjectClass);
}
ClassHierarchyNode hierarchy = classHierarchy.getClassHierarchyNode(cls);
return hierarchy?.getLubOfInstantiatedSubclasses();
}
@override
ClassEntity getLubOfInstantiatedSubtypes(ClassEntity cls) {
if (nativeData.isJsInteropClass(cls)) {
return getLubOfInstantiatedSubtypes(
commonElements.jsJavaScriptObjectClass);
}
ClassSet classSet = classHierarchy.getClassSet(cls);
return classSet?.getLubOfInstantiatedSubtypes();
}
@override
bool isUsedAsMixin(ClassEntity cls) {
return !mixinUsesOf(cls).isEmpty;
}
@override
bool hasAnySubclassOfMixinUseThatImplements(
ClassEntity cls, ClassEntity type) {
return mixinUsesOf(cls)
.any((use) => hasAnySubclassThatImplements(use, type));
}
@override
bool everySubtypeIsSubclassOfOrMixinUseOf(ClassEntity x, ClassEntity y) {
Map<ClassEntity, bool> secondMap =
_subtypeCoveredByCache[x] ??= <ClassEntity, bool>{};
return secondMap[y] ??= classHierarchy.subtypesOf(x).every(
(ClassEntity cls) =>
classHierarchy.isSubclassOf(cls, y) ||
isSubclassOfMixinUseOf(cls, y));
}
@override
bool hasAnySubclassThatImplements(ClassEntity superclass, ClassEntity type) {
Set<ClassEntity> subclasses = typesImplementedBySubclasses[superclass];
if (subclasses == null) return false;
return subclasses.contains(type);
}
@override
bool needsNoSuchMethod(
ClassEntity base, Selector selector, ClassQuery query) {
/// Returns `true` if subclasses in the [rootNode] tree needs noSuchMethod
/// handling.
bool subclassesNeedNoSuchMethod(ClassHierarchyNode rootNode) {
if (!rootNode.isInstantiated) {
// No subclass needs noSuchMethod handling since they are all
// uninstantiated.
return false;
}
ClassEntity rootClass = rootNode.cls;
if (_hasConcreteMatch(rootClass, selector)) {
// The root subclass has a concrete implementation so no subclass needs
// noSuchMethod handling.
return false;
} else if (rootNode.isExplicitlyInstantiated) {
// The root class need noSuchMethod handling.
return true;
}
IterationStep result = rootNode.forEachSubclass((ClassEntity subclass) {
if (_hasConcreteMatch(subclass, selector,
stopAtSuperclass: rootClass)) {
// Found a match - skip all subclasses.
return IterationStep.SKIP_SUBCLASSES;
} else {
// Stop fast - we found a need for noSuchMethod handling.
return IterationStep.STOP;
}
}, ClassHierarchyNode.EXPLICITLY_INSTANTIATED, strict: true);
// We stopped fast so we need noSuchMethod handling.
return result == IterationStep.STOP;
}
ClassSet classSet = classHierarchy.getClassSet(base);
assert(classSet != null, failedAt(base, "No class set for $base."));
ClassHierarchyNode node = classSet.node;
if (query == ClassQuery.EXACT) {
return node.isExplicitlyInstantiated &&
!_hasConcreteMatch(base, selector);
} else if (query == ClassQuery.SUBCLASS) {
return subclassesNeedNoSuchMethod(node);
} else {
if (subclassesNeedNoSuchMethod(node)) return true;
for (ClassHierarchyNode subtypeNode in classSet.subtypeNodes) {
if (subclassesNeedNoSuchMethod(subtypeNode)) return true;
}
return false;
}
}
@override
Iterable<ClassEntity> commonSupertypesOf(Iterable<ClassEntity> classes) {
Iterator<ClassEntity> iterator = classes.iterator;
if (!iterator.moveNext()) return const <ClassEntity>[];
ClassEntity cls = iterator.current;
OrderedTypeSet typeSet = elementMap.getOrderedTypeSet(cls);
if (!iterator.moveNext()) return typeSet.types.map((type) => type.element);
int depth = typeSet.maxDepth;
Link<OrderedTypeSet> otherTypeSets = const Link<OrderedTypeSet>();
do {
ClassEntity otherClass = iterator.current;
OrderedTypeSet otherTypeSet = elementMap.getOrderedTypeSet(otherClass);
otherTypeSets = otherTypeSets.prepend(otherTypeSet);
if (otherTypeSet.maxDepth < depth) {
depth = otherTypeSet.maxDepth;
}
} while (iterator.moveNext());
List<ClassEntity> commonSupertypes = <ClassEntity>[];
OUTER:
for (Link<InterfaceType> link = typeSet[depth];
link.head.element != commonElements.objectClass;
link = link.tail) {
ClassEntity cls = link.head.element;
for (Link<OrderedTypeSet> link = otherTypeSets;
!link.isEmpty;
link = link.tail) {
if (link.head.asInstanceOf(cls, elementMap.getHierarchyDepth(cls)) ==
null) {
continue OUTER;
}
}
commonSupertypes.add(cls);
}
commonSupertypes.add(commonElements.objectClass);
return commonSupertypes;
}
@override
Iterable<ClassEntity> mixinUsesOf(ClassEntity cls) {
if (_liveMixinUses == null) {
_liveMixinUses = new Map<ClassEntity, List<ClassEntity>>();
for (ClassEntity mixin in mixinUses.keys) {
List<ClassEntity> uses = <ClassEntity>[];
void addLiveUse(ClassEntity mixinApplication) {
if (classHierarchy.isInstantiated(mixinApplication)) {
uses.add(mixinApplication);
} else if (_isNamedMixinApplication(mixinApplication)) {
Set<ClassEntity> next = mixinUses[mixinApplication];
if (next != null) {
next.forEach(addLiveUse);
}
}
}
mixinUses[mixin].forEach(addLiveUse);
if (uses.isNotEmpty) {
_liveMixinUses[mixin] = uses;
}
}
}
Iterable<ClassEntity> uses = _liveMixinUses[cls];
return uses != null ? uses : const <ClassEntity>[];
}
@override
bool hasAnySubclassThatMixes(ClassEntity superclass, ClassEntity mixin) {
return mixinUsesOf(mixin).any((ClassEntity each) {
return classHierarchy.isSubclassOf(each, superclass);
});
}
@override
bool isSubclassOfMixinUseOf(ClassEntity cls, ClassEntity mixin) {
if (isUsedAsMixin(mixin)) {
ClassEntity current = cls;
while (current != null) {
ClassEntity currentMixin = elementMap.getAppliedMixin(current);
if (currentMixin == mixin) return true;
current = elementEnvironment.getSuperClass(current);
}
}
return false;
}
void _ensureFunctionSet() {
if (_allFunctions == null) {
// [FunctionSet] is created lazily because it is not used when we switch
// from a frontend to a backend model before inference.
_allFunctions = new FunctionSet(liveInstanceMembers);
}
}
ClassEntity __functionLub;
ClassEntity get _functionLub => __functionLub ??=
getLubOfInstantiatedSubtypes(commonElements.functionClass);
@override
bool includesClosureCallInDomain(Selector selector, AbstractValue receiver,
AbstractValueDomain abstractValueDomain) {
return selector.name == Identifiers.call &&
(receiver == null ||
// This is logically equivalent to the former implementation using
// `abstractValueDomain.contains` (which wrapped `containsMask`).
// The switch to `abstractValueDomain.containsType` is because
// `contains` was generally unsound but happened to work correctly
// here. See https://dart-review.googlesource.com/c/sdk/+/130565
// for further discussion.
//
// This checks if the receiver mask contains the entire type cone
// originating from [_functionLub] and may therefore be unsound if
// the receiver mask contains only part of the type cone. (Is this
// possible?)
//
// TODO(fishythefish): Use `isDisjoint` or equivalent instead of
// `containsType` once we can ensure it's fast enough.
abstractValueDomain
.containsType(receiver, _functionLub)
.isPotentiallyTrue);
}
@override
bool includesClosureCall(Selector selector, AbstractValue receiver) {
return includesClosureCallInDomain(selector, receiver, abstractValueDomain);
}
@override
AbstractValue computeReceiverType(Selector selector, AbstractValue receiver) {
_ensureFunctionSet();
if (includesClosureCall(selector, receiver)) {
return abstractValueDomain.dynamicType;
}
return _allFunctions.receiverType(selector, receiver, abstractValueDomain);
}
@override
Iterable<MemberEntity> locateMembersInDomain(Selector selector,
AbstractValue receiver, AbstractValueDomain abstractValueDomain) {
_ensureFunctionSet();
return _allFunctions.filter(selector, receiver, abstractValueDomain);
}
@override
Iterable<MemberEntity> locateMembers(
Selector selector, AbstractValue receiver) {
return locateMembersInDomain(selector, receiver, abstractValueDomain);
}
bool hasAnyUserDefinedGetter(Selector selector, AbstractValue receiver) {
_ensureFunctionSet();
return _allFunctions
.filter(selector, receiver, abstractValueDomain)
.any((each) => each.isGetter);
}
@override
MemberEntity locateSingleMember(Selector selector, AbstractValue receiver) {
if (includesClosureCall(selector, receiver)) {
return null;
}
receiver ??= abstractValueDomain.dynamicType;
return abstractValueDomain.locateSingleMember(receiver, selector);
}
@override
bool fieldNeverChanges(MemberEntity element) {
if (!element.isField) return false;
if (nativeData.isNativeMember(element)) {
// Some native fields are views of data that may be changed by operations.
// E.g. node.firstChild depends on parentNode.removeBefore(n1, n2).
// TODO(sra): Refine the effect classification so that native effects are
// distinct from ordinary Dart effects.
return false;
}
if (!element.isAssignable) {
return true;
}
if (element.isInstanceMember) {
return !assignedInstanceMembers.contains(element);
}
return false;
}
@override
Sorter get sorter {
return _sorter ??= new KernelSorter(elementMap);
}
@override
AbstractValueDomain get abstractValueDomain {
return _abstractValueDomain;
}
@override
bool hasElementIn(ClassEntity cls, Name name, Entity element) {
while (cls != null) {
MemberEntity member = elementEnvironment
.lookupLocalClassMember(cls, name.text, setter: name.isSetter);
if (member != null &&
!member.isAbstract &&
(!name.isPrivate || member.library == name.library)) {
return member == element;
}
cls = elementEnvironment.getSuperClass(cls);
}
return false;
}
/// Returns whether a [selector] call on an instance of [cls]
/// will hit a method at runtime, and not go through [noSuchMethod].
bool _hasConcreteMatch(ClassEntity cls, Selector selector,
{ClassEntity stopAtSuperclass}) {
assert(classHierarchy.isInstantiated(cls),
failedAt(cls, '$cls has not been instantiated.'));
MemberEntity element = elementEnvironment
.lookupClassMember(cls, selector.name, setter: selector.isSetter);
if (element == null) return false;
if (element.isAbstract) {
ClassEntity enclosingClass = element.enclosingClass;
return _hasConcreteMatch(
elementEnvironment.getSuperClass(enclosingClass), selector);
}
return selector.appliesUnnamed(element);
}
bool _isNamedMixinApplication(ClassEntity cls) {
return elementEnvironment.isMixinApplication(cls) &&
!elementEnvironment.isUnnamedMixinApplication(cls);
}
@override
MemberAccess getMemberAccess(MemberEntity member) {
return memberAccess[member];
}
@override
void registerExtractTypeArguments(ClassEntity interface) {
extractTypeArgumentsInterfacesNewRti.add(interface);
}
}
class KernelSorter implements Sorter {
final JsToElementMap elementMap;
KernelSorter(this.elementMap);
int _compareLibraries(LibraryEntity a, LibraryEntity b) {
return utils.compareLibrariesUris(a.canonicalUri, b.canonicalUri);
}
int _compareSourceSpans(Entity entity1, SourceSpan sourceSpan1,
Entity entity2, SourceSpan sourceSpan2) {
int r = utils.compareSourceUris(sourceSpan1.uri, sourceSpan2.uri);
if (r != 0) return r;
return utils.compareEntities(
entity1, sourceSpan1.begin, null, entity2, sourceSpan2.begin, null);
}
@override
Iterable<LibraryEntity> sortLibraries(Iterable<LibraryEntity> libraries) {
return libraries.toList()..sort(_compareLibraries);
}
@override
Iterable<T> sortMembers<T extends MemberEntity>(Iterable<T> members) {
return members.toList()..sort(compareMembersByLocation);
}
@override
Iterable<ClassEntity> sortClasses(Iterable<ClassEntity> classes) {
List<ClassEntity> regularClasses = <ClassEntity>[];
List<ClassEntity> unnamedMixins = <ClassEntity>[];
for (ClassEntity cls in classes) {
if (elementMap.elementEnvironment.isUnnamedMixinApplication(cls)) {
unnamedMixins.add(cls);
} else {
regularClasses.add(cls);
}
}
List<ClassEntity> sorted = <ClassEntity>[];
regularClasses.sort(compareClassesByLocation);
sorted.addAll(regularClasses);
unnamedMixins.sort((a, b) {
int result = _compareLibraries(a.library, b.library);
if (result != 0) return result;
result = a.name.compareTo(b.name);
assert(result != 0,
failedAt(a, "Multiple mixins named ${a.name}: $a vs $b."));
return result;
});
sorted.addAll(unnamedMixins);
return sorted;
}
@override
int compareLibrariesByLocation(LibraryEntity a, LibraryEntity b) {
return _compareLibraries(a, b);
}
@override
int compareClassesByLocation(ClassEntity a, ClassEntity b) {
int r = _compareLibraries(a.library, b.library);
if (r != 0) return r;
ClassDefinition definition1 = elementMap.getClassDefinition(a);
ClassDefinition definition2 = elementMap.getClassDefinition(b);
return _compareSourceSpans(
a, definition1.location, b, definition2.location);
}
@override
int compareMembersByLocation(MemberEntity a, MemberEntity b) {
int r = _compareLibraries(a.library, b.library);
if (r != 0) return r;
MemberDefinition definition1 = elementMap.getMemberDefinition(a);
MemberDefinition definition2 = elementMap.getMemberDefinition(b);
return _compareSourceSpans(
a, definition1.location, b, definition2.location);
}
}
/// [LocalLookup] implementation used to deserialize [JsClosedWorld].
class LocalLookupImpl implements LocalLookup {
final GlobalLocalsMap _globalLocalsMap;
LocalLookupImpl(this._globalLocalsMap);
@override
Local getLocalByIndex(MemberEntity memberContext, int index) {
KernelToLocalsMapImpl map = _globalLocalsMap.getLocalsMap(memberContext);
return map.getLocalByIndex(index);
}
}