Google Git
Sign in
dart / sdk.git / 1ceb8ba8c70c643255abea9aed86feef5b439294 / . / pkg / analyzer / lib / src / error / duplicate_definition_verifier.dart
blob: c0759955ed091845cd9218a98b675fd800f43b1d [file] [log] [blame]
// Copyright (c) 2019, 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.
// ignore_for_file: analyzer_use_new_elements
import 'dart:collection';
import 'package:analyzer/dart/analysis/features.dart';
import 'package:analyzer/dart/ast/token.dart';
import 'package:analyzer/dart/element/element.dart';
import 'package:analyzer/error/error.dart';
import 'package:analyzer/error/listener.dart';
import 'package:analyzer/src/dart/analysis/file_analysis.dart';
import 'package:analyzer/src/dart/analysis/file_state.dart';
import 'package:analyzer/src/dart/ast/ast.dart';
import 'package:analyzer/src/dart/element/element.dart';
import 'package:analyzer/src/dart/element/extensions.dart';
import 'package:analyzer/src/dart/element/inheritance_manager3.dart';
import 'package:analyzer/src/diagnostic/diagnostic_factory.dart';
import 'package:analyzer/src/error/codes.dart';
import 'package:analyzer/src/generated/error_verifier.dart';
import 'package:analyzer/src/utilities/extensions/element.dart';
class DuplicateDefinitionVerifier {
final LibraryElementImpl _currentLibrary;
final ErrorReporter _errorReporter;
final DuplicationDefinitionContext context;
final DiagnosticFactory _diagnosticFactory = DiagnosticFactory();
DuplicateDefinitionVerifier(
this._currentLibrary,
this._errorReporter,
this.context,
);
/// Check that the exception and stack trace parameters have different names.
void checkCatchClause(CatchClause node) {
var exceptionParameter = node.exceptionParameter;
var stackTraceParameter = node.stackTraceParameter;
if (exceptionParameter != null && stackTraceParameter != null) {
var element = exceptionParameter.declaredElement;
if (element != null && element.isWildcardVariable) return;
String exceptionName = exceptionParameter.name.lexeme;
if (exceptionName == stackTraceParameter.name.lexeme) {
_errorReporter.reportError(_diagnosticFactory
.duplicateDefinitionForNodes(
_errorReporter.source,
CompileTimeErrorCode.DUPLICATE_DEFINITION,
stackTraceParameter,
exceptionParameter,
[exceptionName]));
}
}
}
/// Check that the given list of variable declarations does not define
/// multiple variables of the same name.
void checkForVariables(VariableDeclarationList node) {
Map<String, Element> definedNames = HashMap<String, Element>();
for (VariableDeclaration variable in node.variables) {
_checkDuplicateIdentifier(definedNames, variable.name,
element: variable.declaredElement!);
}
}
/// Check that all of the parameters have unique names.
void checkParameters(FormalParameterList node) {
Map<String, Element> definedNames = HashMap<String, Element>();
for (FormalParameter parameter in node.parameters) {
var identifier = parameter.name;
if (identifier != null) {
// The identifier can be null if this is a parameter list for a generic
// function type.
// Skip wildcard `super._`.
if (!_isSuperFormalWildcard(parameter, identifier)) {
_checkDuplicateIdentifier(definedNames, identifier,
element: parameter.declaredElement!);
}
}
}
}
/// Check that all of the variables have unique names.
void checkStatements(List<Statement> statements) {
Map<String, Element> definedNames = HashMap<String, Element>();
for (Statement statement in statements) {
if (statement is VariableDeclarationStatement) {
for (VariableDeclaration variable in statement.variables.variables) {
_checkDuplicateIdentifier(definedNames, variable.name,
element: variable.declaredElement!);
}
} else if (statement is FunctionDeclarationStatement) {
if (!_isWildCardFunction(statement)) {
_checkDuplicateIdentifier(
definedNames,
statement.functionDeclaration.name,
element: statement.functionDeclaration.declaredElement!,
);
}
} else if (statement is PatternVariableDeclarationStatementImpl) {
for (var variable in statement.declaration.elements) {
_checkDuplicateIdentifier(definedNames, variable.node.name,
element: variable.asElement);
}
}
}
}
/// Check that all of the parameters have unique names.
void checkTypeParameters(TypeParameterList node) {
Map<String, Element> definedNames = HashMap<String, Element>();
for (TypeParameter parameter in node.typeParameters) {
_checkDuplicateIdentifier(definedNames, parameter.name,
element: parameter.declaredElement!);
}
}
/// Check that there are no members with the same name.
void checkUnit(CompilationUnitImpl node) {
var fragment = node.declaredElement!;
var definedGetters = <String, Element>{};
var definedSetters = <String, Element>{};
void addWithoutChecking(CompilationUnitElement element) {
for (PropertyAccessorElement accessor in element.accessors) {
String name = accessor.name;
if (accessor.isSetter) {
name += '=';
}
definedGetters[name] = accessor;
}
for (var class_ in element.classes) {
definedGetters[class_.name] = class_;
}
for (var enum_ in element.enums) {
definedGetters[enum_.name] = enum_;
}
for (var extension_ in element.extensions) {
if (extension_.name case var name?) {
definedGetters[name] = extension_;
}
}
for (var extensionType in element.extensionTypes) {
definedGetters[extensionType.name] = extensionType;
}
for (var function in element.functions) {
definedGetters[function.name] = function;
}
for (var mixin_ in element.mixins) {
definedGetters[mixin_.name] = mixin_;
}
for (var variable in element.topLevelVariables) {
definedGetters[variable.name] = variable;
if (!variable.isFinal && !variable.isConst) {
definedGetters['${variable.name}='] = variable;
}
}
for (var alias in element.typeAliases) {
definedGetters[alias.name] = alias;
}
}
var libraryDeclarations = _currentLibrary.libraryDeclarations;
for (var importPrefix in fragment.libraryImportPrefixes) {
var name = importPrefix.name;
if (libraryDeclarations.withName(name) case var existing?) {
_errorReporter.reportError(
_diagnosticFactory.duplicateDefinition(
CompileTimeErrorCode.PREFIX_COLLIDES_WITH_TOP_LEVEL_MEMBER,
importPrefix.asElement2,
existing,
[name],
),
);
}
}
CompilationUnitElement element = node.declaredElement!;
if (element != _currentLibrary.definingCompilationUnit) {
addWithoutChecking(_currentLibrary.definingCompilationUnit);
for (var unitElement in _currentLibrary.units) {
if (element == unitElement) {
break;
}
addWithoutChecking(unitElement);
}
}
for (CompilationUnitMember member in node.declarations) {
if (member is ExtensionDeclaration) {
var identifier = member.name;
if (identifier != null) {
_checkDuplicateIdentifier(definedGetters, identifier,
element: member.declaredElement!, setterScope: definedSetters);
}
} else if (member is NamedCompilationUnitMember) {
_checkDuplicateIdentifier(definedGetters, member.name,
element: member.declaredElement!, setterScope: definedSetters);
} else if (member is TopLevelVariableDeclaration) {
for (VariableDeclaration variable in member.variables.variables) {
_checkDuplicateIdentifier(definedGetters, variable.name,
element: variable.declaredElement!, setterScope: definedSetters);
}
}
}
}
/// Check whether the given [element] defined by the [identifier] is already
/// in one of the scopes - [getterScope] or [setterScope], and produce an
/// error if it is.
void _checkDuplicateIdentifier(
Map<String, Element> getterScope, Token identifier,
{required Element element, Map<String, Element>? setterScope}) {
if (identifier.isSynthetic || element.isWildcardVariable) {
return;
}
switch (element) {
case ExecutableElement _:
if (element.isAugmentation) return;
case FieldElement _:
if (element.isAugmentation) return;
case InstanceElement _:
if (element.isAugmentation) return;
case TypeAliasElement _:
if (element.isAugmentation) return;
case TopLevelVariableElement _:
if (element.isAugmentation) return;
}
// Fields define getters and setters, so check them separately.
if (element is PropertyInducingElement) {
_checkDuplicateIdentifier(getterScope, identifier,
element: element.getter!, setterScope: setterScope);
var setter = element.setter;
if (setter != null && setter.isSynthetic) {
_checkDuplicateIdentifier(getterScope, identifier,
element: setter, setterScope: setterScope);
}
return;
}
ErrorCode getError(Element previous, Element current) {
if (previous is FieldFormalParameterElement &&
current is FieldFormalParameterElement) {
return CompileTimeErrorCode.DUPLICATE_FIELD_FORMAL_PARAMETER;
}
return CompileTimeErrorCode.DUPLICATE_DEFINITION;
}
var name = identifier.lexeme;
if (element is MethodElement) {
name = element.name;
}
var previous = getterScope[name];
if (previous != null) {
if (!_isGetterSetterPair(element, previous)) {
_errorReporter.reportError(_diagnosticFactory.duplicateDefinition(
getError(previous, element),
element.asElement2!,
previous.asElement2!,
[name],
));
}
} else {
getterScope[name] = element;
}
if (setterScope != null) {
if (element is PropertyAccessorElement && element.isSetter) {
previous = setterScope[name];
if (previous != null) {
_errorReporter.reportError(_diagnosticFactory.duplicateDefinition(
getError(previous, element),
element.asElement2,
previous.asElement2!,
[name],
));
} else {
setterScope[name] = element;
}
}
}
}
bool _isSuperFormalWildcard(FormalParameter parameter, Token identifier) {
if (parameter is DefaultFormalParameter) {
parameter = parameter.parameter;
}
return parameter is SuperFormalParameter &&
identifier.lexeme == '_' &&
_currentLibrary.featureSet.isEnabled(Feature.wildcard_variables);
}
bool _isWildCardFunction(FunctionDeclarationStatement statement) =>
statement.functionDeclaration.name.lexeme == '_' &&
_currentLibrary.hasWildcardVariablesFeatureEnabled;
static bool _isGetterSetterPair(Element a, Element b) {
if (a is PropertyAccessorElement && b is PropertyAccessorElement) {
return a.isGetter && b.isSetter || a.isSetter && b.isGetter;
}
return false;
}
}
/// Information to pass from declarations to augmentations.
class DuplicationDefinitionContext {
final Map<InstanceElement, _InstanceElementContext> _instanceElementContexts =
{};
}
class MemberDuplicateDefinitionVerifier {
final InheritanceManager3 _inheritanceManager;
final LibraryElement _currentLibrary;
final CompilationUnitElementImpl _currentUnit;
final ErrorReporter _errorReporter;
final DuplicationDefinitionContext context;
final DiagnosticFactory _diagnosticFactory = DiagnosticFactory();
MemberDuplicateDefinitionVerifier._(
this._inheritanceManager,
this._currentLibrary,
this._currentUnit,
this._errorReporter,
this.context,
);
void _checkClass(ClassDeclaration node) {
_checkClassMembers(node.declaredElement!, node.members);
}
/// Check that there are no members with the same name.
void _checkClassMembers(
InstanceElement fragment,
List<ClassMember> members,
) {
var declarationElement = fragment.augmented.firstFragment;
var elementContext = _getElementContext(declarationElement);
var constructorNames = elementContext.constructorNames;
var instanceGetters = elementContext.instanceGetters;
var instanceSetters = elementContext.instanceSetters;
var staticGetters = elementContext.staticGetters;
var staticSetters = elementContext.staticSetters;
for (ClassMember member in members) {
switch (member) {
case ConstructorDeclaration():
// Augmentations are not declarations, can have multiple.
if (member.augmentKeyword != null) {
continue;
}
if (member.returnType.name != declarationElement.name) {
// [member] is erroneous; do not count it as a possible duplicate.
continue;
}
var name = member.name?.lexeme ?? '';
if (name == 'new') {
name = '';
}
if (!constructorNames.add(name)) {
if (name.isEmpty) {
_errorReporter.atConstructorDeclaration(
member,
CompileTimeErrorCode.DUPLICATE_CONSTRUCTOR_DEFAULT,
);
} else {
_errorReporter.atConstructorDeclaration(
member,
CompileTimeErrorCode.DUPLICATE_CONSTRUCTOR_NAME,
arguments: [name],
);
}
}
case FieldDeclaration():
for (VariableDeclaration field in member.fields.variables) {
_checkDuplicateIdentifier(
member.isStatic ? staticGetters : instanceGetters,
field.name,
element: field.declaredElement!,
setterScope: member.isStatic ? staticSetters : instanceSetters,
);
if (fragment is EnumElement) {
_checkValuesDeclarationInEnum(field.name);
}
}
case MethodDeclaration():
_checkDuplicateIdentifier(
member.isStatic ? staticGetters : instanceGetters,
member.name,
element: member.declaredElement!,
setterScope: member.isStatic ? staticSetters : instanceSetters,
);
if (fragment is EnumElement) {
if (!(member.isStatic && member.isSetter)) {
_checkValuesDeclarationInEnum(member.name);
}
}
}
}
if (declarationElement is InterfaceElement) {
_checkConflictingConstructorAndStatic(
interfaceElement: declarationElement,
staticGetters: staticGetters,
staticSetters: staticSetters,
);
}
}
void _checkClassStatic(
InstanceElement fragment,
List<ClassMember> members,
) {
var declarationElement = fragment.augmented.firstFragment;
var elementContext = _getElementContext(declarationElement);
var instanceGetters = elementContext.instanceGetters;
var instanceSetters = elementContext.instanceSetters;
// Check for local static members conflicting with local instance members.
// TODO(scheglov): This code is duplicated for enums. But for classes it is
// separated also into ErrorVerifier - where we check inherited.
for (ClassMember member in members) {
if (member is FieldDeclaration) {
if (member.isStatic) {
for (VariableDeclaration field in member.fields.variables) {
var identifier = field.name;
String name = identifier.lexeme;
if (instanceGetters.containsKey(name) ||
instanceSetters.containsKey(name)) {
if (declarationElement is InterfaceElement) {
String className = declarationElement.name;
_errorReporter.atToken(
identifier,
CompileTimeErrorCode.CONFLICTING_STATIC_AND_INSTANCE,
arguments: [className, name, className],
);
}
}
}
}
} else if (member is MethodDeclaration) {
if (member.isStatic) {
var identifier = member.name;
String name = identifier.lexeme;
if (instanceGetters.containsKey(name) ||
instanceSetters.containsKey(name)) {
if (declarationElement is InterfaceElement) {
String className = declarationElement.name;
_errorReporter.atToken(
identifier,
CompileTimeErrorCode.CONFLICTING_STATIC_AND_INSTANCE,
arguments: [className, name, className],
);
}
}
}
}
}
}
void _checkConflictingConstructorAndStatic({
required InterfaceElement interfaceElement,
required Map<String, Element> staticGetters,
required Map<String, Element> staticSetters,
}) {
for (var constructor in interfaceElement.constructors) {
var name = constructor.name;
var staticMember = staticGetters[name] ?? staticSetters[name];
if (staticMember is PropertyAccessorElement) {
CompileTimeErrorCode errorCode;
if (staticMember.isSynthetic) {
errorCode =
CompileTimeErrorCode.CONFLICTING_CONSTRUCTOR_AND_STATIC_FIELD;
} else if (staticMember.isGetter) {
errorCode =
CompileTimeErrorCode.CONFLICTING_CONSTRUCTOR_AND_STATIC_GETTER;
} else {
errorCode =
CompileTimeErrorCode.CONFLICTING_CONSTRUCTOR_AND_STATIC_SETTER;
}
_errorReporter.atElement(
constructor,
errorCode,
arguments: [name],
);
} else if (staticMember is MethodElement) {
_errorReporter.atElement(
constructor,
CompileTimeErrorCode.CONFLICTING_CONSTRUCTOR_AND_STATIC_METHOD,
arguments: [name],
);
}
}
}
/// Check whether the given [element] defined by the [identifier] is already
/// in one of the scopes - [getterScope] or [setterScope], and produce an
/// error if it is.
void _checkDuplicateIdentifier(
Map<String, Element> getterScope, Token identifier,
{required Element element, Map<String, Element>? setterScope}) {
if (identifier.isSynthetic || element.isWildcardVariable) {
return;
}
switch (element) {
case ExecutableElement _:
if (element.isAugmentation) return;
case FieldElement _:
if (element.isAugmentation) return;
case InstanceElement _:
if (element.isAugmentation) return;
case TypeAliasElement _:
if (element.isAugmentation) return;
case TopLevelVariableElement _:
if (element.isAugmentation) return;
}
// Fields define getters and setters, so check them separately.
if (element is PropertyInducingElement) {
_checkDuplicateIdentifier(getterScope, identifier,
element: element.getter!, setterScope: setterScope);
var setter = element.setter;
if (setter != null && setter.isSynthetic) {
_checkDuplicateIdentifier(getterScope, identifier,
element: setter, setterScope: setterScope);
}
return;
}
var name = switch (element) {
MethodElement() => element.name,
_ => identifier.lexeme,
};
var previous = getterScope[name];
if (previous != null) {
if (!_isGetterSetterPair(element, previous)) {
_errorReporter.reportError(
_diagnosticFactory.duplicateDefinition(
CompileTimeErrorCode.DUPLICATE_DEFINITION,
element.asElement2!,
previous.asElement2!,
[name],
),
);
}
} else {
getterScope[name] = element;
}
if (setterScope != null) {
if (element is PropertyAccessorElement && element.isSetter) {
previous = setterScope[name];
if (previous != null) {
_errorReporter.reportError(
_diagnosticFactory.duplicateDefinition(
CompileTimeErrorCode.DUPLICATE_DEFINITION,
element.asElement2,
previous.asElement2!,
[name],
),
);
} else {
setterScope[name] = element;
}
}
}
}
/// Check that there are no members with the same name.
void _checkEnum(EnumDeclaration node) {
var fragment = node.declaredElement!;
var declarationElement = fragment.augmented.firstFragment;
var declarationName = declarationElement.name;
var elementContext = _getElementContext(declarationElement);
var staticGetters = elementContext.staticGetters;
for (EnumConstantDeclaration constant in node.constants) {
if (constant.name.lexeme == declarationName) {
_errorReporter.atToken(
constant.name,
CompileTimeErrorCode.ENUM_CONSTANT_SAME_NAME_AS_ENCLOSING,
);
}
_checkDuplicateIdentifier(staticGetters, constant.name,
element: constant.declaredElement!);
_checkValuesDeclarationInEnum(constant.name);
}
_checkClassMembers(fragment, node.members);
if (declarationName == 'values') {
_errorReporter.atToken(
node.name,
CompileTimeErrorCode.ENUM_WITH_NAME_VALUES,
);
}
for (var accessor in fragment.accessors) {
if (accessor.isStatic) {
continue;
}
if (accessor.source != _currentUnit.source) {
continue;
}
var baseName = accessor.displayName;
var inherited = _getInheritedMember(declarationElement, baseName);
if (inherited is MethodElement) {
_errorReporter.atElement(
accessor,
CompileTimeErrorCode.CONFLICTING_FIELD_AND_METHOD,
arguments: [
declarationElement.displayName,
baseName,
inherited.enclosingElement3.displayName,
],
);
}
}
for (var method in fragment.methods) {
if (method.isStatic) {
continue;
}
if (method.source != _currentUnit.source) {
continue;
}
var baseName = method.displayName;
var inherited = _getInheritedMember(declarationElement, baseName);
if (inherited is PropertyAccessorElement) {
_errorReporter.atElement(
method,
CompileTimeErrorCode.CONFLICTING_METHOD_AND_FIELD,
arguments: [
declarationElement.displayName,
baseName,
inherited.enclosingElement3.displayName,
],
);
}
}
}
void _checkEnumStatic(EnumDeclarationImpl node) {
var fragment = node.declaredElement!;
var declarationElement = fragment.augmented.firstFragment;
var declarationName = declarationElement.name;
for (var accessor in fragment.accessors) {
if (accessor.source != _currentUnit.source) {
continue;
}
var baseName = accessor.displayName;
if (accessor.isStatic) {
var instance = _getInterfaceMember(declarationElement, baseName);
if (instance != null && baseName != 'values') {
_errorReporter.atElement(
accessor,
CompileTimeErrorCode.CONFLICTING_STATIC_AND_INSTANCE,
arguments: [declarationName, baseName, declarationName],
);
}
}
}
for (var method in fragment.methods) {
if (method.source != _currentUnit.source) {
continue;
}
var baseName = method.displayName;
if (method.isStatic) {
var instance = _getInterfaceMember(declarationElement, baseName);
if (instance != null) {
_errorReporter.atElement(
method,
CompileTimeErrorCode.CONFLICTING_STATIC_AND_INSTANCE,
arguments: [declarationName, baseName, declarationName],
);
}
}
}
}
/// Check that there are no members with the same name.
void _checkExtension(ExtensionDeclaration node) {
var fragment = node.declaredElement!;
_checkClassMembers(fragment, node.members);
}
void _checkExtensionStatic(ExtensionDeclaration node) {
var fragment = node.declaredElement!;
var declarationElement = fragment.augmented.firstFragment;
var elementContext = _getElementContext(declarationElement);
var instanceGetters = elementContext.instanceGetters;
var instanceSetters = elementContext.instanceSetters;
for (var member in node.members) {
if (member is FieldDeclaration) {
if (member.isStatic) {
for (var field in member.fields.variables) {
var identifier = field.name;
var name = identifier.lexeme;
if (instanceGetters.containsKey(name) ||
instanceSetters.containsKey(name)) {
_errorReporter.atToken(
identifier,
CompileTimeErrorCode.EXTENSION_CONFLICTING_STATIC_AND_INSTANCE,
arguments: [name],
);
}
}
}
} else if (member is MethodDeclaration) {
if (member.isStatic) {
var identifier = member.name;
var name = identifier.lexeme;
if (instanceGetters.containsKey(name) ||
instanceSetters.containsKey(name)) {
_errorReporter.atToken(
identifier,
CompileTimeErrorCode.EXTENSION_CONFLICTING_STATIC_AND_INSTANCE,
arguments: [name],
);
}
}
}
}
}
void _checkExtensionType(ExtensionTypeDeclarationImpl node) {
var fragment = node.declaredElement!;
var element = fragment.augmented.firstFragment;
var primaryConstructorName = element.constructors.first.name;
var representationGetter = element.representation.getter!;
_getElementContext(element)
..constructorNames.add(primaryConstructorName)
..instanceGetters[representationGetter.name] = representationGetter;
_checkClassMembers(element, node.members);
}
void _checkMixin(MixinDeclaration node) {
_checkClassMembers(node.declaredElement!, node.members);
}
void _checkUnit(CompilationUnitImpl node) {
for (var node in node.declarations) {
switch (node) {
case ClassDeclarationImpl():
_checkClass(node);
case ExtensionDeclarationImpl():
_checkExtension(node);
case EnumDeclarationImpl():
_checkEnum(node);
case ExtensionTypeDeclarationImpl():
_checkExtensionType(node);
case MixinDeclarationImpl():
_checkMixin(node);
case ClassTypeAliasImpl():
case FunctionDeclarationImpl():
case FunctionTypeAliasImpl():
case GenericTypeAliasImpl():
case TopLevelVariableDeclarationImpl():
// Do nothing.
}
}
}
void _checkUnitStatic(CompilationUnitImpl node) {
for (var declaration in node.declarations) {
switch (declaration) {
case ClassDeclarationImpl():
var fragment = declaration.declaredElement!;
_checkClassStatic(fragment, declaration.members);
case EnumDeclarationImpl():
_checkEnumStatic(declaration);
case ExtensionDeclarationImpl():
_checkExtensionStatic(declaration);
case ExtensionTypeDeclarationImpl():
var fragment = declaration.declaredElement!;
_checkClassStatic(fragment, declaration.members);
case MixinDeclarationImpl():
var fragment = declaration.declaredElement!;
_checkClassStatic(fragment, declaration.members);
case ClassTypeAliasImpl():
case FunctionDeclarationImpl():
case FunctionTypeAliasImpl():
case GenericTypeAliasImpl():
case TopLevelVariableDeclarationImpl():
// Do nothing.
}
}
}
void _checkValuesDeclarationInEnum(Token name) {
if (name.lexeme == 'values') {
_errorReporter.atToken(
name,
CompileTimeErrorCode.VALUES_DECLARATION_IN_ENUM,
);
}
}
_InstanceElementContext _getElementContext(InstanceElement element) {
return context._instanceElementContexts[element] ??=
_InstanceElementContext();
}
ExecutableElement? _getInheritedMember(
InterfaceElement element, String baseName) {
var libraryUri = _currentLibrary.source.uri;
var getterName = Name(libraryUri, baseName);
var getter = _inheritanceManager.getInherited2(element, getterName);
if (getter != null) {
return getter;
}
var setterName = Name(libraryUri, '$baseName=');
return _inheritanceManager.getInherited2(element, setterName);
}
ExecutableElement? _getInterfaceMember(
InterfaceElement element, String baseName) {
var libraryUri = _currentLibrary.source.uri;
var getterName = Name(libraryUri, baseName);
var getter = _inheritanceManager.getMember2(element, getterName);
if (getter != null) {
return getter;
}
var setterName = Name(libraryUri, '$baseName=');
return _inheritanceManager.getMember2(element, setterName);
}
static void checkLibrary({
required InheritanceManager3 inheritance,
required LibraryVerificationContext libraryVerificationContext,
required LibraryElement libraryElement,
required Map<FileState, FileAnalysis> files,
}) {
MemberDuplicateDefinitionVerifier forUnit(FileAnalysis fileAnalysis) {
return MemberDuplicateDefinitionVerifier._(
inheritance,
libraryElement,
fileAnalysis.element,
fileAnalysis.errorReporter,
libraryVerificationContext.duplicationDefinitionContext,
);
}
// Check all instance members.
for (var fileAnalysis in files.values) {
forUnit(fileAnalysis)._checkUnit(fileAnalysis.unit);
}
// Check all static members.
for (var fileAnalysis in files.values) {
forUnit(fileAnalysis)._checkUnitStatic(fileAnalysis.unit);
}
}
static bool _isGetterSetterPair(Element a, Element b) {
if (a is PropertyAccessorElement && b is PropertyAccessorElement) {
return a.isGetter && b.isSetter || a.isSetter && b.isGetter;
}
return false;
}
}
/// Information accumulated for a single declaration and its augmentations.
class _InstanceElementContext {
final Set<String> constructorNames = {};
final Map<String, Element> instanceGetters = {};
final Map<String, Element> instanceSetters = {};
final Map<String, Element> staticGetters = {};
final Map<String, Element> staticSetters = {};
}