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dart / sdk.git / e21735ab664532299b3c243cb35c3ed926245e02 / . / pkg / front_end / lib / src / fasta / kernel / inference_visitor.dart
blob: b411490206f7ecd8ea3d94f28fac3cd6a2e97d0a [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.
part of "kernel_shadow_ast.dart";
class InferenceVisitor
implements
ExpressionVisitor1<ExpressionInferenceResult, DartType>,
StatementVisitor<void>,
InitializerVisitor<void> {
final TypeInferrerImpl inferrer;
Class mapEntryClass;
// Stores the offset of the map entry found by inferMapEntry.
int mapEntryOffset = null;
// Stores the offset of the map spread found by inferMapEntry.
int mapSpreadOffset = null;
// Stores the offset of the iterable spread found by inferMapEntry.
int iterableSpreadOffset = null;
// Stores the type of the iterable spread found by inferMapEntry.
DartType iterableSpreadType = null;
InferenceVisitor(this.inferrer);
ExpressionInferenceResult _unhandledExpression(
Expression node, DartType typeContext) {
unhandled("${node.runtimeType}", "InferenceVisitor", node.fileOffset,
inferrer.helper.uri);
return new ExpressionInferenceResult(const InvalidType(), node);
}
@override
ExpressionInferenceResult defaultExpression(
Expression node, DartType typeContext) {
if (node is InternalExpression) {
switch (node.kind) {
case InternalExpressionKind.Cascade:
return visitCascade(node, typeContext);
case InternalExpressionKind.CompoundExtensionIndexSet:
return visitCompoundExtensionIndexSet(node, typeContext);
case InternalExpressionKind.CompoundExtensionSet:
return visitCompoundExtensionSet(node, typeContext);
case InternalExpressionKind.CompoundIndexSet:
return visitCompoundIndexSet(node, typeContext);
case InternalExpressionKind.CompoundPropertySet:
return visitCompoundPropertySet(node, typeContext);
case InternalExpressionKind.CompoundSuperIndexSet:
return visitCompoundSuperIndexSet(node, typeContext);
case InternalExpressionKind.DeferredCheck:
return visitDeferredCheck(node, typeContext);
case InternalExpressionKind.ExtensionIndexSet:
return visitExtensionIndexSet(node, typeContext);
case InternalExpressionKind.ExtensionTearOff:
return visitExtensionTearOff(node, typeContext);
case InternalExpressionKind.ExtensionSet:
return visitExtensionSet(node, typeContext);
case InternalExpressionKind.IfNull:
return visitIfNullExpression(node, typeContext);
case InternalExpressionKind.IfNullExtensionIndexSet:
return visitIfNullExtensionIndexSet(node, typeContext);
case InternalExpressionKind.IfNullIndexSet:
return visitIfNullIndexSet(node, typeContext);
case InternalExpressionKind.IfNullPropertySet:
return visitIfNullPropertySet(node, typeContext);
case InternalExpressionKind.IfNullSet:
return visitIfNullSet(node, typeContext);
case InternalExpressionKind.IfNullSuperIndexSet:
return visitIfNullSuperIndexSet(node, typeContext);
case InternalExpressionKind.IndexSet:
return visitIndexSet(node, typeContext);
case InternalExpressionKind.LoadLibraryTearOff:
return visitLoadLibraryTearOff(node, typeContext);
case InternalExpressionKind.LocalPostIncDec:
return visitLocalPostIncDec(node, typeContext);
case InternalExpressionKind.NullAwareCompoundSet:
return visitNullAwareCompoundSet(node, typeContext);
case InternalExpressionKind.NullAwareExtension:
return visitNullAwareExtension(node, typeContext);
case InternalExpressionKind.NullAwareIfNullSet:
return visitNullAwareIfNullSet(node, typeContext);
case InternalExpressionKind.NullAwareMethodInvocation:
return visitNullAwareMethodInvocation(node, typeContext);
case InternalExpressionKind.NullAwarePropertyGet:
return visitNullAwarePropertyGet(node, typeContext);
case InternalExpressionKind.NullAwarePropertySet:
return visitNullAwarePropertySet(node, typeContext);
case InternalExpressionKind.PropertyPostIncDec:
return visitPropertyPostIncDec(node, typeContext);
case InternalExpressionKind.StaticPostIncDec:
return visitStaticPostIncDec(node, typeContext);
case InternalExpressionKind.SuperIndexSet:
return visitSuperIndexSet(node, typeContext);
case InternalExpressionKind.SuperPostIncDec:
return visitSuperPostIncDec(node, typeContext);
}
}
return _unhandledExpression(node, typeContext);
}
@override
ExpressionInferenceResult defaultBasicLiteral(
BasicLiteral node, DartType typeContext) {
return _unhandledExpression(node, typeContext);
}
@override
ExpressionInferenceResult visitBlockExpression(
BlockExpression node, DartType typeContext) {
return _unhandledExpression(node, typeContext);
}
@override
ExpressionInferenceResult visitConstantExpression(
ConstantExpression node, DartType typeContext) {
return _unhandledExpression(node, typeContext);
}
@override
ExpressionInferenceResult visitDirectMethodInvocation(
DirectMethodInvocation node, DartType typeContext) {
return _unhandledExpression(node, typeContext);
}
@override
ExpressionInferenceResult visitDirectPropertyGet(
DirectPropertyGet node, DartType typeContext) {
return _unhandledExpression(node, typeContext);
}
@override
ExpressionInferenceResult visitDirectPropertySet(
DirectPropertySet node, DartType typeContext) {
return _unhandledExpression(node, typeContext);
}
@override
ExpressionInferenceResult visitFileUriExpression(
FileUriExpression node, DartType typeContext) {
return _unhandledExpression(node, typeContext);
}
@override
ExpressionInferenceResult visitInstanceCreation(
InstanceCreation node, DartType typeContext) {
return _unhandledExpression(node, typeContext);
}
@override
ExpressionInferenceResult visitInstantiation(
Instantiation node, DartType typeContext) {
return _unhandledExpression(node, typeContext);
}
@override
ExpressionInferenceResult visitListConcatenation(
ListConcatenation node, DartType typeContext) {
return _unhandledExpression(node, typeContext);
}
@override
ExpressionInferenceResult visitMapConcatenation(
MapConcatenation node, DartType typeContext) {
return _unhandledExpression(node, typeContext);
}
@override
ExpressionInferenceResult visitSetConcatenation(
SetConcatenation node, DartType typeContext) {
return _unhandledExpression(node, typeContext);
}
void _unhandledStatement(Statement node) {
unhandled("${node.runtimeType}", "InferenceVisitor", node.fileOffset,
inferrer.helper.uri);
}
@override
void defaultStatement(Statement node) {
_unhandledStatement(node);
}
@override
void visitAssertBlock(AssertBlock node) {
_unhandledStatement(node);
}
void _unhandledInitializer(Initializer node) {
unhandled("${node.runtimeType}", "InferenceVisitor", node.fileOffset,
node.location.file);
}
@override
void defaultInitializer(Initializer node) {
_unhandledInitializer(node);
}
@override
void visitInvalidInitializer(Initializer node) {
_unhandledInitializer(node);
}
@override
void visitLocalInitializer(LocalInitializer node) {
_unhandledInitializer(node);
}
@override
ExpressionInferenceResult visitInvalidExpression(
InvalidExpression node, DartType typeContext) {
// TODO(johnniwinther): The inferred type should be an InvalidType. Using
// BottomType leads to cascading errors so we use DynamicType for now.
return new ExpressionInferenceResult(const DynamicType(), node);
}
@override
ExpressionInferenceResult visitIntLiteral(
IntLiteral node, DartType typeContext) {
return new ExpressionInferenceResult(
inferrer.coreTypes.intRawType(inferrer.library.nonNullable), node);
}
@override
ExpressionInferenceResult visitAsExpression(
AsExpression node, DartType typeContext) {
ExpressionInferenceResult operandResult = inferrer.inferExpression(
node.operand, const UnknownType(), !inferrer.isTopLevel,
isVoidAllowed: true);
node.operand = operandResult.expression..parent = node;
return new ExpressionInferenceResult(node.type, node);
}
@override
void visitAssertInitializer(AssertInitializer node) {
inferrer.inferStatement(node.statement);
}
@override
void visitAssertStatement(AssertStatement node) {
InterfaceType expectedType =
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable);
inferrer.flowAnalysis.assert_begin();
ExpressionInferenceResult conditionResult = inferrer.inferExpression(
node.condition, expectedType, !inferrer.isTopLevel,
isVoidAllowed: true);
Expression condition =
inferrer.ensureAssignableResult(expectedType, conditionResult);
node.condition = condition..parent = node;
inferrer.flowAnalysis.assert_afterCondition(node.condition);
if (node.message != null) {
ExpressionInferenceResult messageResult = inferrer.inferExpression(
node.message, const UnknownType(), !inferrer.isTopLevel,
isVoidAllowed: true);
node.message = messageResult.expression..parent = node;
}
inferrer.flowAnalysis.assert_end();
}
@override
ExpressionInferenceResult visitAwaitExpression(
AwaitExpression node, DartType typeContext) {
if (!inferrer.typeSchemaEnvironment.isEmptyContext(typeContext)) {
typeContext = inferrer.wrapFutureOrType(typeContext);
}
ExpressionInferenceResult operandResult = inferrer
.inferExpression(node.operand, typeContext, true, isVoidAllowed: true);
DartType inferredType =
inferrer.typeSchemaEnvironment.unfutureType(operandResult.inferredType);
node.operand = operandResult.expression..parent = node;
return new ExpressionInferenceResult(inferredType, node);
}
@override
void visitBlock(Block node) {
inferrer.registerIfUnreachableForTesting(node);
for (Statement statement in node.statements) {
inferrer.inferStatement(statement);
}
}
@override
ExpressionInferenceResult visitBoolLiteral(
BoolLiteral node, DartType typeContext) {
inferrer.flowAnalysis.booleanLiteral(node, node.value);
return new ExpressionInferenceResult(
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable), node);
}
@override
void visitBreakStatement(BreakStatement node) {
// No inference needs to be done.
}
ExpressionInferenceResult visitCascade(Cascade node, DartType typeContext) {
ExpressionInferenceResult result = inferrer.inferExpression(
node.variable.initializer, typeContext, true,
isVoidAllowed: false);
node.variable.initializer = result.expression..parent = node.variable;
node.variable.type = result.inferredType;
List<ExpressionInferenceResult> expressionResults =
<ExpressionInferenceResult>[];
for (Expression expression in node.expressions) {
expressionResults.add(inferrer.inferExpression(
expression, const UnknownType(), !inferrer.isTopLevel,
isVoidAllowed: true));
}
Expression replacement = createVariableGet(node.variable);
for (int index = expressionResults.length - 1; index >= 0; index--) {
replacement = createLet(
createVariable(expressionResults[index].expression, const VoidType()),
replacement);
}
replacement = new Let(node.variable, replacement)
..fileOffset = node.fileOffset;
return new ExpressionInferenceResult(result.inferredType, replacement);
}
@override
ExpressionInferenceResult visitConditionalExpression(
ConditionalExpression node, DartType typeContext) {
InterfaceType expectedType =
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable);
ExpressionInferenceResult conditionResult = inferrer.inferExpression(
node.condition, expectedType, !inferrer.isTopLevel,
isVoidAllowed: true);
Expression condition =
inferrer.ensureAssignableResult(expectedType, conditionResult);
node.condition = condition..parent = node;
inferrer.flowAnalysis.conditional_thenBegin(node.condition);
bool isThenReachable = inferrer.flowAnalysis.isReachable;
ExpressionInferenceResult thenResult = inferrer
.inferExpression(node.then, typeContext, true, isVoidAllowed: true);
node.then = thenResult.expression..parent = node;
inferrer.registerIfUnreachableForTesting(node.then,
isReachable: isThenReachable);
inferrer.flowAnalysis.conditional_elseBegin(node.then);
bool isOtherwiseReachable = inferrer.flowAnalysis.isReachable;
ExpressionInferenceResult otherwiseResult = inferrer.inferExpression(
node.otherwise, typeContext, true,
isVoidAllowed: true);
node.otherwise = otherwiseResult.expression..parent = node;
inferrer.registerIfUnreachableForTesting(node.otherwise,
isReachable: isOtherwiseReachable);
inferrer.flowAnalysis.conditional_end(node.condition, node.otherwise);
DartType inferredType = inferrer.typeSchemaEnvironment
.getStandardUpperBound(
thenResult.inferredType, otherwiseResult.inferredType);
node.staticType = inferredType;
return new ExpressionInferenceResult(inferredType, node);
}
@override
ExpressionInferenceResult visitConstructorInvocation(
ConstructorInvocation node, DartType typeContext) {
LibraryBuilder library = inferrer.engine.beingInferred[node.target];
if (library != null) {
// There is a cyclic dependency where inferring the types of the
// initializing formals of a constructor required us to infer the
// corresponding field type which required us to know the type of the
// constructor.
String name = node.target.enclosingClass.name;
if (node.target.name.name.isNotEmpty) {
// TODO(ahe): Use `inferrer.helper.constructorNameForDiagnostics`
// instead. However, `inferrer.helper` may be null.
name += ".${node.target.name.name}";
}
library.addProblem(
templateCantInferTypeDueToCircularity.withArguments(name),
node.target.fileOffset,
name.length,
node.target.fileUri);
for (VariableDeclaration declaration
in node.target.function.positionalParameters) {
declaration.type ??= const InvalidType();
}
for (VariableDeclaration declaration
in node.target.function.namedParameters) {
declaration.type ??= const InvalidType();
}
} else if ((library = inferrer.engine.toBeInferred[node.target]) != null) {
inferrer.engine.toBeInferred.remove(node.target);
inferrer.engine.beingInferred[node.target] = library;
for (VariableDeclaration declaration
in node.target.function.positionalParameters) {
inferrer.engine.inferInitializingFormal(declaration, node.target);
}
for (VariableDeclaration declaration
in node.target.function.namedParameters) {
inferrer.engine.inferInitializingFormal(declaration, node.target);
}
inferrer.engine.beingInferred.remove(node.target);
}
bool hasExplicitTypeArguments =
getExplicitTypeArguments(node.arguments) != null;
DartType inferredType = inferrer.inferInvocation(typeContext,
node.fileOffset, node.target.function.thisFunctionType, node.arguments,
returnType: computeConstructorReturnType(node.target),
isConst: node.isConst);
if (!inferrer.isTopLevel) {
SourceLibraryBuilder library = inferrer.library;
if (!hasExplicitTypeArguments) {
library.checkBoundsInConstructorInvocation(
node, inferrer.typeSchemaEnvironment, inferrer.helper.uri,
inferred: true);
}
}
return new ExpressionInferenceResult(inferredType, node);
}
@override
void visitContinueSwitchStatement(ContinueSwitchStatement node) {
// No inference needs to be done.
}
ExpressionInferenceResult visitExtensionTearOff(
ExtensionTearOff node, DartType typeContext) {
FunctionType calleeType = node.target != null
? node.target.function.functionType
: new FunctionType([], const DynamicType());
TypeArgumentsInfo typeArgumentsInfo = getTypeArgumentsInfo(node.arguments);
DartType inferredType = inferrer.inferInvocation(
typeContext, node.fileOffset, calleeType, node.arguments);
Expression replacement = new StaticInvocation(node.target, node.arguments);
if (!inferrer.isTopLevel && node.target != null) {
inferrer.library.checkBoundsInStaticInvocation(
replacement,
inferrer.typeSchemaEnvironment,
inferrer.helper.uri,
typeArgumentsInfo);
}
return inferrer.instantiateTearOff(inferredType, typeContext, replacement);
}
ExpressionInferenceResult visitExtensionSet(
ExtensionSet node, DartType typeContext) {
ExpressionInferenceResult receiverResult = inferrer.inferExpression(
node.receiver, const UnknownType(), true,
isVoidAllowed: false);
List<DartType> extensionTypeArguments =
inferrer.computeExtensionTypeArgument(node.extension,
node.explicitTypeArguments, receiverResult.inferredType);
DartType receiverType = inferrer.getExtensionReceiverType(
node.extension, extensionTypeArguments);
Expression receiver =
inferrer.ensureAssignableResult(receiverType, receiverResult);
ObjectAccessTarget target = new ExtensionAccessTarget(
node.target, null, ProcedureKind.Setter, extensionTypeArguments);
DartType valueType =
inferrer.getSetterType(target, receiverResult.inferredType);
ExpressionInferenceResult valueResult = inferrer.inferExpression(
node.value, const UnknownType(), true,
isVoidAllowed: false);
Expression value = inferrer.ensureAssignableResult(valueType, valueResult);
VariableDeclaration valueVariable;
if (node.forEffect) {
// No need for value variable.
} else {
valueVariable = createVariable(value, valueResult.inferredType);
value = createVariableGet(valueVariable);
}
VariableDeclaration receiverVariable;
if (node.forEffect || node.readOnlyReceiver) {
// No need for receiver variable.
} else {
receiverVariable = createVariable(receiver, receiverResult.inferredType);
receiver = createVariableGet(receiverVariable);
}
Expression assignment = new StaticInvocation(
node.target,
new Arguments(<Expression>[receiver, value],
types: extensionTypeArguments)
..fileOffset = node.fileOffset)
..fileOffset = node.fileOffset;
Expression replacement;
if (node.forEffect) {
assert(receiverVariable == null);
assert(valueVariable == null);
replacement = assignment;
} else {
assert(valueVariable != null);
VariableDeclaration assignmentVariable =
createVariable(assignment, const VoidType());
replacement = createLet(valueVariable,
createLet(assignmentVariable, createVariableGet(valueVariable)));
if (receiverVariable != null) {
replacement = createLet(receiverVariable, replacement);
}
}
replacement.fileOffset = node.fileOffset;
return new ExpressionInferenceResult(valueResult.inferredType, replacement);
}
ExpressionInferenceResult visitCompoundExtensionSet(
CompoundExtensionSet node, DartType typeContext) {
ExpressionInferenceResult receiverResult = inferrer.inferExpression(
node.receiver, const UnknownType(), true,
isVoidAllowed: false);
List<DartType> extensionTypeArguments =
inferrer.computeExtensionTypeArgument(node.extension,
node.explicitTypeArguments, receiverResult.inferredType);
DartType receiverType = inferrer.getExtensionReceiverType(
node.extension, extensionTypeArguments);
Expression receiver =
inferrer.ensureAssignableResult(receiverType, receiverResult);
VariableDeclaration receiverVariable;
Expression readReceiver;
Expression writeReceiver;
if (node.readOnlyReceiver && identical(receiver, node.receiver)) {
readReceiver = receiver;
writeReceiver = receiver.accept<TreeNode>(new CloneVisitor());
} else {
receiverVariable = createVariable(receiver, receiverType);
readReceiver = createVariableGet(receiverVariable);
writeReceiver = createVariableGet(receiverVariable);
}
ObjectAccessTarget readTarget = node.getter == null
? const ObjectAccessTarget.missing()
: new ExtensionAccessTarget(
node.getter, null, ProcedureKind.Getter, extensionTypeArguments);
DartType readType = inferrer.getGetterType(readTarget, receiverType);
Expression read;
if (readTarget.isMissing) {
read = inferrer.createMissingPropertyGet(
node.readOffset, readReceiver, readType, node.propertyName);
} else {
assert(readTarget.isExtensionMember);
read = new StaticInvocation(
readTarget.member,
new Arguments(<Expression>[
readReceiver,
], types: readTarget.inferredExtensionTypeArguments)
..fileOffset = node.readOffset)
..fileOffset = node.readOffset;
}
ExpressionInferenceResult binaryResult = _computeBinaryExpression(
node.binaryOffset, read, readType, node.binaryName, node.rhs);
Expression binary = binaryResult.expression;
DartType binaryType = binaryResult.inferredType;
ObjectAccessTarget writeTarget = node.setter == null
? const ObjectAccessTarget.missing()
: new ExtensionAccessTarget(
node.setter, null, ProcedureKind.Setter, extensionTypeArguments);
DartType valueType = inferrer.getSetterType(writeTarget, receiverType);
Expression value = inferrer.ensureAssignable(valueType, binaryType, binary,
isVoidAllowed: true);
VariableDeclaration valueVariable;
if (node.forEffect) {
// No need for value variable.
} else {
valueVariable = createVariable(value, valueType);
value = createVariableGet(valueVariable);
}
Expression write;
if (writeTarget.isMissing) {
write = inferrer.createMissingPropertySet(
node.writeOffset, writeReceiver, readType, node.propertyName, value);
} else {
assert(writeTarget.isExtensionMember);
write = new StaticInvocation(
writeTarget.member,
new Arguments(<Expression>[
writeReceiver,
value,
], types: writeTarget.inferredExtensionTypeArguments)
..fileOffset = node.writeOffset)
..fileOffset = node.writeOffset;
}
Expression replacement;
if (node.forEffect) {
assert(valueVariable == null);
replacement = write;
} else {
assert(valueVariable != null);
VariableDeclaration writeVariable =
createVariable(write, const VoidType());
replacement = createLet(valueVariable,
createLet(writeVariable, createVariableGet(valueVariable)));
}
if (receiverVariable != null) {
replacement = createLet(receiverVariable, replacement);
}
replacement.fileOffset = node.fileOffset;
return new ExpressionInferenceResult(valueType, replacement);
}
ExpressionInferenceResult visitDeferredCheck(
DeferredCheck node, DartType typeContext) {
// Since the variable is not used in the body we don't need to type infer
// it. We can just type infer the body.
ExpressionInferenceResult result = inferrer.inferExpression(
node.expression, typeContext, true,
isVoidAllowed: true);
Expression replacement = new Let(node.variable, result.expression)
..fileOffset = node.fileOffset;
return new ExpressionInferenceResult(result.inferredType, replacement);
}
@override
void visitDoStatement(DoStatement node) {
inferrer.flowAnalysis.doStatement_bodyBegin(node);
inferrer.inferStatement(node.body);
inferrer.flowAnalysis.doStatement_conditionBegin();
InterfaceType boolType =
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable);
ExpressionInferenceResult conditionResult = inferrer.inferExpression(
node.condition, boolType, !inferrer.isTopLevel,
isVoidAllowed: true);
Expression condition =
inferrer.ensureAssignableResult(boolType, conditionResult);
node.condition = condition..parent = node;
inferrer.flowAnalysis.doStatement_end(condition);
}
ExpressionInferenceResult visitDoubleLiteral(
DoubleLiteral node, DartType typeContext) {
return new ExpressionInferenceResult(
inferrer.coreTypes.doubleRawType(inferrer.library.nonNullable), node);
}
@override
void visitEmptyStatement(EmptyStatement node) {
// No inference needs to be done.
}
@override
void visitExpressionStatement(ExpressionStatement node) {
ExpressionInferenceResult result = inferrer.inferExpression(
node.expression, const UnknownType(), !inferrer.isTopLevel,
isVoidAllowed: true);
node.expression = result.expression..parent = node;
}
ExpressionInferenceResult visitFactoryConstructorInvocationJudgment(
FactoryConstructorInvocationJudgment node, DartType typeContext) {
bool hadExplicitTypeArguments =
getExplicitTypeArguments(node.arguments) != null;
DartType inferredType = inferrer.inferInvocation(typeContext,
node.fileOffset, node.target.function.thisFunctionType, node.arguments,
returnType: computeConstructorReturnType(node.target),
isConst: node.isConst);
node.hasBeenInferred = true;
if (!inferrer.isTopLevel) {
SourceLibraryBuilder library = inferrer.library;
if (!hadExplicitTypeArguments) {
library.checkBoundsInFactoryInvocation(
node, inferrer.typeSchemaEnvironment, inferrer.helper.uri,
inferred: true);
}
}
return new ExpressionInferenceResult(inferredType, node);
}
@override
void visitFieldInitializer(FieldInitializer node) {
ExpressionInferenceResult initializerResult =
inferrer.inferExpression(node.value, node.field.type, true);
Expression initializer = inferrer.ensureAssignableResult(
node.field.type, initializerResult,
fileOffset: node.fileOffset);
node.value = initializer..parent = node;
}
ForInResult handleForInDeclaringVariable(
VariableDeclaration variable, Expression iterable, Statement body,
{bool isAsync: false}) {
DartType elementType;
bool typeNeeded = false;
bool typeChecksNeeded = !inferrer.isTopLevel;
if (VariableDeclarationImpl.isImplicitlyTyped(variable)) {
typeNeeded = true;
elementType = const UnknownType();
} else {
elementType = variable.type;
}
ExpressionInferenceResult iterableResult = inferForInIterable(
iterable, elementType, typeNeeded || typeChecksNeeded,
isAsync: isAsync);
DartType inferredType = iterableResult.inferredType;
if (typeNeeded) {
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
variable.fileOffset,
'type',
new InstrumentationValueForType(inferredType));
variable.type = inferredType;
}
if (body != null) {
inferrer.flowAnalysis
.forEach_bodyBegin(body?.parent, variable, variable.type);
inferrer.inferStatement(body);
inferrer.flowAnalysis.forEach_end();
}
VariableDeclaration tempVariable =
new VariableDeclaration(null, type: inferredType, isFinal: true);
VariableGet variableGet = new VariableGet(tempVariable)
..fileOffset = variable.fileOffset;
TreeNode parent = variable.parent;
Expression implicitDowncast = inferrer.ensureAssignable(
variable.type, inferredType, variableGet,
fileOffset: parent.fileOffset,
template: templateForInLoopElementTypeNotAssignable);
if (!identical(implicitDowncast, variableGet)) {
variable.initializer = implicitDowncast..parent = variable;
if (body == null) {
assert(
parent is ForInElement || parent is ForInMapEntry,
"Unexpected missing for-in body for "
"$parent (${parent.runtimeType}).");
body = variable;
} else {
body = combineStatements(variable, body);
}
variable = tempVariable;
}
return new ForInResult(variable, iterableResult.expression, body);
}
ExpressionInferenceResult inferForInIterable(
Expression iterable, DartType elementType, bool typeNeeded,
{bool isAsync: false}) {
Class iterableClass = isAsync
? inferrer.coreTypes.streamClass
: inferrer.coreTypes.iterableClass;
DartType context = inferrer.wrapType(elementType, iterableClass);
ExpressionInferenceResult iterableResult = inferrer
.inferExpression(iterable, context, typeNeeded, isVoidAllowed: false);
DartType iterableType = iterableResult.inferredType;
iterable = iterableResult.expression;
DartType inferredExpressionType =
inferrer.resolveTypeParameter(iterableType);
iterable = inferrer.ensureAssignable(
inferrer.wrapType(const DynamicType(), iterableClass),
inferredExpressionType,
iterable,
template: templateForInLoopTypeNotIterable);
DartType inferredType;
if (typeNeeded) {
inferredType = const DynamicType();
if (inferredExpressionType is InterfaceType) {
InterfaceType supertype = inferrer.classHierarchy
.getTypeAsInstanceOf(inferredExpressionType, iterableClass);
if (supertype != null) {
inferredType = supertype.typeArguments[0];
}
}
}
return new ExpressionInferenceResult(inferredType, iterable);
}
ForInResult handleForInWithoutVariable(
VariableDeclaration variable, Expression iterable, Statement body,
{bool isAsync: false}) {
DartType elementType;
bool typeChecksNeeded = !inferrer.isTopLevel;
DartType syntheticWriteType;
Expression rhs;
// If `true`, the synthetic statement should not be visited.
bool skipStatement = false;
ExpressionStatement syntheticStatement =
body is Block ? body.statements.first : body;
Expression statementExpression = syntheticStatement.expression;
// TODO(johnniwinther): Refactor handling of synthetic assignment to avoid
// case handling here.
Expression syntheticAssignment = statementExpression;
VariableSet syntheticVariableSet;
PropertySet syntheticPropertySet;
SuperPropertySet syntheticSuperPropertySet;
StaticSet syntheticStaticSet;
if (syntheticAssignment is VariableSet) {
syntheticVariableSet = syntheticAssignment;
syntheticWriteType = elementType = syntheticVariableSet.variable.type;
rhs = syntheticVariableSet.value;
// This expression is fully handled in this method so we should not
// visit the synthetic statement.
skipStatement = true;
} else if (syntheticAssignment is PropertySet) {
syntheticPropertySet = syntheticAssignment;
ExpressionInferenceResult receiverResult = inferrer.inferExpression(
syntheticPropertySet.receiver, const UnknownType(), true);
syntheticPropertySet.receiver = receiverResult.expression
..parent = syntheticPropertySet;
DartType receiverType = receiverResult.inferredType;
ObjectAccessTarget writeTarget = inferrer.findInterfaceMember(
receiverType,
syntheticPropertySet.name,
syntheticPropertySet.fileOffset,
setter: true,
instrumented: true,
includeExtensionMethods: true);
syntheticWriteType =
elementType = inferrer.getSetterType(writeTarget, receiverType);
Expression error = inferrer.reportMissingInterfaceMember(
writeTarget,
receiverType,
syntheticPropertySet.name,
syntheticPropertySet.fileOffset,
templateUndefinedSetter);
if (error != null) {
rhs = error;
} else {
if (writeTarget.isInstanceMember) {
if (inferrer.instrumentation != null &&
receiverType == const DynamicType()) {
inferrer.instrumentation.record(
inferrer.uriForInstrumentation,
syntheticPropertySet.fileOffset,
'target',
new InstrumentationValueForMember(writeTarget.member));
}
syntheticPropertySet.interfaceTarget = writeTarget.member;
}
rhs = syntheticPropertySet.value;
}
} else if (syntheticAssignment is SuperPropertySet) {
syntheticSuperPropertySet = syntheticAssignment;
DartType receiverType = inferrer.thisType;
ObjectAccessTarget writeTarget = inferrer.findInterfaceMember(
receiverType,
syntheticSuperPropertySet.name,
syntheticSuperPropertySet.fileOffset,
setter: true,
instrumented: true);
if (writeTarget.isInstanceMember) {
syntheticSuperPropertySet.interfaceTarget = writeTarget.member;
}
syntheticWriteType =
elementType = inferrer.getSetterType(writeTarget, receiverType);
rhs = syntheticSuperPropertySet.value;
} else if (syntheticAssignment is StaticSet) {
syntheticStaticSet = syntheticAssignment;
syntheticWriteType = elementType = syntheticStaticSet.target.setterType;
rhs = syntheticStaticSet.value;
} else if (syntheticAssignment is InvalidExpression) {
elementType = const UnknownType();
} else {
unhandled(
"${syntheticAssignment.runtimeType}",
"handleForInStatementWithoutVariable",
syntheticAssignment.fileOffset,
inferrer.helper.uri);
}
ExpressionInferenceResult iterableResult = inferForInIterable(
iterable, elementType, typeChecksNeeded,
isAsync: isAsync);
DartType inferredType = iterableResult.inferredType;
if (typeChecksNeeded) {
variable.type = inferredType;
}
inferrer.flowAnalysis
.forEach_bodyBegin(body.parent, variable, variable.type);
if (body is Block) {
for (Statement statement in body.statements) {
if (!skipStatement || statement != syntheticStatement) {
inferrer.inferStatement(statement);
}
}
} else {
if (!skipStatement) {
inferrer.inferStatement(body);
}
}
inferrer.flowAnalysis.forEach_end();
if (syntheticWriteType != null) {
rhs = inferrer.ensureAssignable(
greatestClosure(inferrer.coreTypes, syntheticWriteType),
variable.type,
rhs,
template: templateForInLoopElementTypeNotAssignable,
isVoidAllowed: true);
if (syntheticVariableSet != null) {
syntheticVariableSet.value = rhs..parent = syntheticVariableSet;
} else if (syntheticPropertySet != null) {
syntheticPropertySet.value = rhs..parent = syntheticPropertySet;
} else if (syntheticSuperPropertySet != null) {
syntheticSuperPropertySet.value = rhs
..parent = syntheticSuperPropertySet;
} else if (syntheticStaticSet != null) {
syntheticStaticSet.value = rhs..parent = syntheticStaticSet;
}
}
return new ForInResult(variable, iterableResult.expression, body);
}
@override
void visitForInStatement(ForInStatement node) {
ForInResult result;
if (node.variable.name == null) {
result = handleForInWithoutVariable(
node.variable, node.iterable, node.body,
isAsync: node.isAsync);
} else {
result = handleForInDeclaringVariable(
node.variable, node.iterable, node.body,
isAsync: node.isAsync);
}
node.variable = result.variable..parent = node;
node.iterable = result.iterable..parent = node;
node.body = result.body..parent = node;
}
@override
void visitForStatement(ForStatement node) {
for (VariableDeclaration variable in node.variables) {
if (variable.name == null) {
if (variable.initializer != null) {
ExpressionInferenceResult result = inferrer.inferExpression(
variable.initializer, const UnknownType(), true,
isVoidAllowed: true);
variable.initializer = result.expression..parent = variable;
variable.type = result.inferredType;
}
} else {
inferrer.inferStatement(variable);
}
}
inferrer.flowAnalysis.for_conditionBegin(node);
if (node.condition != null) {
InterfaceType expectedType =
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable);
ExpressionInferenceResult conditionResult = inferrer.inferExpression(
node.condition, expectedType, !inferrer.isTopLevel,
isVoidAllowed: true);
Expression condition =
inferrer.ensureAssignableResult(expectedType, conditionResult);
node.condition = condition..parent = node;
}
inferrer.flowAnalysis.for_bodyBegin(node.body, node.condition);
inferrer.inferStatement(node.body);
inferrer.flowAnalysis.for_updaterBegin();
for (int index = 0; index < node.updates.length; index++) {
ExpressionInferenceResult updateResult = inferrer.inferExpression(
node.updates[index], const UnknownType(), !inferrer.isTopLevel,
isVoidAllowed: true);
node.updates[index] = updateResult.expression..parent = node;
}
inferrer.flowAnalysis.for_end();
}
DartType visitFunctionNode(FunctionNode node, DartType typeContext,
DartType returnContext, int returnTypeInstrumentationOffset) {
return inferrer.inferLocalFunction(
node, typeContext, returnTypeInstrumentationOffset, returnContext);
}
@override
void visitFunctionDeclaration(covariant FunctionDeclarationImpl node) {
inferrer.inferMetadataKeepingHelper(
node.variable, node.variable.annotations);
DartType returnContext =
node._hasImplicitReturnType ? null : node.function.returnType;
DartType inferredType =
visitFunctionNode(node.function, null, returnContext, node.fileOffset);
node.variable.type = inferredType;
}
@override
ExpressionInferenceResult visitFunctionExpression(
FunctionExpression node, DartType typeContext) {
DartType inferredType =
visitFunctionNode(node.function, typeContext, null, node.fileOffset);
return new ExpressionInferenceResult(inferredType, node);
}
void visitInvalidSuperInitializerJudgment(
InvalidSuperInitializerJudgment node) {
Substitution substitution = Substitution.fromSupertype(
inferrer.classHierarchy.getClassAsInstanceOf(
inferrer.thisType.classNode, node.target.enclosingClass));
inferrer.inferInvocation(
null,
node.fileOffset,
substitution.substituteType(
node.target.function.thisFunctionType.withoutTypeParameters),
node.argumentsJudgment,
returnType: inferrer.thisType,
skipTypeArgumentInference: true);
}
ExpressionInferenceResult visitIfNullExpression(
IfNullExpression node, DartType typeContext) {
// To infer `e0 ?? e1` in context K:
// - Infer e0 in context K to get T0
ExpressionInferenceResult lhsResult = inferrer
.inferExpression(node.left, typeContext, true, isVoidAllowed: false);
Member equalsMember = inferrer
.findInterfaceMember(
lhsResult.inferredType, equalsName, node.fileOffset)
.member;
// - Let J = T0 if K is `?` else K.
// - Infer e1 in context J to get T1
ExpressionInferenceResult rhsResult;
if (typeContext is UnknownType) {
rhsResult = inferrer.inferExpression(
node.right, lhsResult.inferredType, true,
isVoidAllowed: true);
} else {
rhsResult = inferrer.inferExpression(node.right, typeContext, true,
isVoidAllowed: true);
}
// - Let T = greatest closure of K with respect to `?` if K is not `_`, else
// UP(t0, t1)
// - Then the inferred type is T.
DartType inferredType = inferrer.typeSchemaEnvironment
.getStandardUpperBound(lhsResult.inferredType, rhsResult.inferredType);
VariableDeclaration variable =
createVariable(lhsResult.expression, lhsResult.inferredType);
MethodInvocation equalsNull = createEqualsNull(
lhsResult.expression.fileOffset,
createVariableGet(variable),
equalsMember);
ConditionalExpression conditional = new ConditionalExpression(equalsNull,
rhsResult.expression, createVariableGet(variable), inferredType);
Expression replacement = new Let(variable, conditional)
..fileOffset = node.fileOffset;
return new ExpressionInferenceResult(inferredType, replacement);
}
@override
void visitIfStatement(IfStatement node) {
InterfaceType expectedType =
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable);
ExpressionInferenceResult conditionResult = inferrer.inferExpression(
node.condition, expectedType, !inferrer.isTopLevel,
isVoidAllowed: true);
Expression condition =
inferrer.ensureAssignableResult(expectedType, conditionResult);
node.condition = condition..parent = node;
inferrer.flowAnalysis.ifStatement_thenBegin(condition);
inferrer.inferStatement(node.then);
if (node.otherwise != null) {
inferrer.flowAnalysis.ifStatement_elseBegin();
inferrer.inferStatement(node.otherwise);
}
inferrer.flowAnalysis.ifStatement_end(node.otherwise != null);
}
ExpressionInferenceResult visitIntJudgment(
IntJudgment node, DartType typeContext) {
if (inferrer.isDoubleContext(typeContext)) {
double doubleValue = node.asDouble();
if (doubleValue != null) {
Expression replacement = new DoubleLiteral(doubleValue)
..fileOffset = node.fileOffset;
DartType inferredType =
inferrer.coreTypes.doubleRawType(inferrer.library.nonNullable);
return new ExpressionInferenceResult(inferredType, replacement);
}
}
Expression error = checkWebIntLiteralsErrorIfUnexact(
inferrer, node.value, node.literal, node.fileOffset);
if (error != null) {
return new ExpressionInferenceResult(const DynamicType(), error);
}
DartType inferredType =
inferrer.coreTypes.intRawType(inferrer.library.nonNullable);
return new ExpressionInferenceResult(inferredType, node);
}
ExpressionInferenceResult visitShadowLargeIntLiteral(
ShadowLargeIntLiteral node, DartType typeContext) {
if (inferrer.isDoubleContext(typeContext)) {
double doubleValue = node.asDouble();
if (doubleValue != null) {
Expression replacement = new DoubleLiteral(doubleValue)
..fileOffset = node.fileOffset;
DartType inferredType =
inferrer.coreTypes.doubleRawType(inferrer.library.nonNullable);
return new ExpressionInferenceResult(inferredType, replacement);
}
}
int intValue = node.asInt64();
if (intValue == null) {
Expression replacement = inferrer.helper.buildProblem(
templateIntegerLiteralIsOutOfRange.withArguments(node.literal),
node.fileOffset,
node.literal.length);
return new ExpressionInferenceResult(const DynamicType(), replacement);
}
Expression error = checkWebIntLiteralsErrorIfUnexact(
inferrer, intValue, node.literal, node.fileOffset);
if (error != null) {
return new ExpressionInferenceResult(const DynamicType(), error);
}
Expression replacement = new IntLiteral(intValue);
DartType inferredType =
inferrer.coreTypes.intRawType(inferrer.library.nonNullable);
return new ExpressionInferenceResult(inferredType, replacement);
}
void visitShadowInvalidInitializer(ShadowInvalidInitializer node) {
inferrer.inferExpression(
node.variable.initializer, const UnknownType(), !inferrer.isTopLevel,
isVoidAllowed: false);
}
void visitShadowInvalidFieldInitializer(ShadowInvalidFieldInitializer node) {
ExpressionInferenceResult initializerResult = inferrer.inferExpression(
node.value, node.field.type, !inferrer.isTopLevel,
isVoidAllowed: false);
node.value = initializerResult.expression..parent = node;
}
@override
ExpressionInferenceResult visitIsExpression(
IsExpression node, DartType typeContext) {
ExpressionInferenceResult operandResult = inferrer.inferExpression(
node.operand, const UnknownType(), !inferrer.isTopLevel,
isVoidAllowed: false);
node.operand = operandResult.expression..parent = node;
return new ExpressionInferenceResult(
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable), node);
}
@override
void visitLabeledStatement(LabeledStatement node) {
inferrer.inferStatement(node.body);
}
DartType getSpreadElementType(DartType spreadType, bool isNullAware) {
if (spreadType is InterfaceType) {
InterfaceType supertype = inferrer.typeSchemaEnvironment
.getTypeAsInstanceOf(spreadType, inferrer.coreTypes.iterableClass);
if (supertype != null) return supertype.typeArguments[0];
if (spreadType.classNode == inferrer.coreTypes.nullClass && isNullAware) {
return spreadType;
}
return null;
}
if (spreadType is DynamicType) return const DynamicType();
return null;
}
ExpressionInferenceResult inferElement(
Expression element,
DartType inferredTypeArgument,
Map<TreeNode, DartType> inferredSpreadTypes,
Map<Expression, DartType> inferredConditionTypes,
bool inferenceNeeded,
bool typeChecksNeeded) {
if (element is SpreadElement) {
ExpressionInferenceResult spreadResult = inferrer.inferExpression(
element.expression,
new InterfaceType(inferrer.coreTypes.iterableClass,
<DartType>[inferredTypeArgument]),
inferenceNeeded || typeChecksNeeded,
isVoidAllowed: true);
element.expression = spreadResult.expression..parent = element;
DartType spreadType = spreadResult.inferredType;
inferredSpreadTypes[element.expression] = spreadType;
Expression replacement = element;
if (typeChecksNeeded) {
DartType spreadElementType =
getSpreadElementType(spreadType, element.isNullAware);
if (spreadElementType == null) {
if (spreadType is InterfaceType &&
spreadType.classNode == inferrer.coreTypes.nullClass &&
!element.isNullAware) {
replacement = inferrer.helper.buildProblem(
messageNonNullAwareSpreadIsNull,
element.expression.fileOffset,
1);
} else {
replacement = inferrer.helper.buildProblem(
templateSpreadTypeMismatch.withArguments(spreadType),
element.expression.fileOffset,
1);
}
} else if (spreadType is InterfaceType) {
if (!inferrer.isAssignable(inferredTypeArgument, spreadElementType)) {
replacement = inferrer.helper.buildProblem(
templateSpreadElementTypeMismatch.withArguments(
spreadElementType, inferredTypeArgument),
element.expression.fileOffset,
1);
}
}
}
// Use 'dynamic' for error recovery.
element.elementType =
getSpreadElementType(spreadType, element.isNullAware) ??
const DynamicType();
return new ExpressionInferenceResult(element.elementType, replacement);
} else if (element is IfElement) {
DartType boolType =
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable);
ExpressionInferenceResult conditionResult = inferrer.inferExpression(
element.condition, boolType, typeChecksNeeded,
isVoidAllowed: false);
Expression condition =
inferrer.ensureAssignableResult(boolType, conditionResult);
element.condition = condition..parent = element;
ExpressionInferenceResult thenResult = inferElement(
element.then,
inferredTypeArgument,
inferredSpreadTypes,
inferredConditionTypes,
inferenceNeeded,
typeChecksNeeded);
element.then = thenResult.expression..parent = element;
ExpressionInferenceResult otherwiseResult;
if (element.otherwise != null) {
otherwiseResult = inferElement(
element.otherwise,
inferredTypeArgument,
inferredSpreadTypes,
inferredConditionTypes,
inferenceNeeded,
typeChecksNeeded);
element.otherwise = otherwiseResult.expression..parent = element;
}
return new ExpressionInferenceResult(
otherwiseResult == null
? thenResult.inferredType
: inferrer.typeSchemaEnvironment.getStandardUpperBound(
thenResult.inferredType, otherwiseResult.inferredType),
element);
} else if (element is ForElement) {
for (VariableDeclaration declaration in element.variables) {
if (declaration.name == null) {
if (declaration.initializer != null) {
ExpressionInferenceResult initializerResult =
inferrer.inferExpression(declaration.initializer,
declaration.type, inferenceNeeded || typeChecksNeeded,
isVoidAllowed: true);
declaration.initializer = initializerResult.expression
..parent = declaration;
declaration.type = initializerResult.inferredType;
}
} else {
inferrer.inferStatement(declaration);
}
}
inferrer.flowAnalysis.for_conditionBegin(element);
if (element.condition != null) {
ExpressionInferenceResult conditionResult = inferrer.inferExpression(
element.condition,
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable),
inferenceNeeded || typeChecksNeeded,
isVoidAllowed: false);
element.condition = conditionResult.expression..parent = element;
inferredConditionTypes[element.condition] =
conditionResult.inferredType;
}
inferrer.flowAnalysis.for_bodyBegin(null, element.condition);
ExpressionInferenceResult bodyResult = inferElement(
element.body,
inferredTypeArgument,
inferredSpreadTypes,
inferredConditionTypes,
inferenceNeeded,
typeChecksNeeded);
element.body = bodyResult.expression..parent = element;
inferrer.flowAnalysis.for_updaterBegin();
for (int index = 0; index < element.updates.length; index++) {
ExpressionInferenceResult updateResult = inferrer.inferExpression(
element.updates[index],
const UnknownType(),
inferenceNeeded || typeChecksNeeded,
isVoidAllowed: true);
element.updates[index] = updateResult.expression..parent = element;
}
inferrer.flowAnalysis.for_end();
return new ExpressionInferenceResult(bodyResult.inferredType, element);
} else if (element is ForInElement) {
ForInResult result;
if (element.variable.name == null) {
result = handleForInWithoutVariable(
element.variable, element.iterable, element.prologue,
isAsync: element.isAsync);
} else {
result = handleForInDeclaringVariable(
element.variable, element.iterable, element.prologue,
isAsync: element.isAsync);
}
element.variable = result.variable..parent = element;
element.iterable = result.iterable..parent = element;
// TODO(johnniwinther): Use ?.. here instead.
element.prologue = result.body;
result.body?.parent = element;
if (element.problem != null) {
ExpressionInferenceResult problemResult = inferrer.inferExpression(
element.problem,
const UnknownType(),
inferenceNeeded || typeChecksNeeded,
isVoidAllowed: true);
element.problem = problemResult.expression..parent = element;
}
inferrer.flowAnalysis
.forEach_bodyBegin(element, element.variable, element.variable.type);
ExpressionInferenceResult bodyResult = inferElement(
element.body,
inferredTypeArgument,
inferredSpreadTypes,
inferredConditionTypes,
inferenceNeeded,
typeChecksNeeded);
element.body = bodyResult.expression..parent = element;
inferrer.flowAnalysis.forEach_end();
return new ExpressionInferenceResult(bodyResult.inferredType, element);
} else {
ExpressionInferenceResult result = inferrer.inferExpression(
element, inferredTypeArgument, inferenceNeeded || typeChecksNeeded,
isVoidAllowed: true);
Expression replacement;
if (inferredTypeArgument is! UnknownType) {
replacement = inferrer.ensureAssignableResult(
inferredTypeArgument, result,
isVoidAllowed: inferredTypeArgument is VoidType);
} else {
replacement = result.expression;
}
return new ExpressionInferenceResult(result.inferredType, replacement);
}
}
void checkElement(
Expression item,
Expression parent,
DartType typeArgument,
Map<TreeNode, DartType> inferredSpreadTypes,
Map<Expression, DartType> inferredConditionTypes) {
if (item is SpreadElement) {
DartType spreadType = inferredSpreadTypes[item.expression];
if (spreadType is DynamicType) {
Expression expression = inferrer.ensureAssignable(
inferrer.coreTypes.iterableRawType(
inferrer.library.nullableIfTrue(item.isNullAware)),
spreadType,
item.expression);
item.expression = expression..parent = item;
}
} else if (item is IfElement) {
checkElement(item.then, item, typeArgument, inferredSpreadTypes,
inferredConditionTypes);
if (item.otherwise != null) {
checkElement(item.otherwise, item, typeArgument, inferredSpreadTypes,
inferredConditionTypes);
}
} else if (item is ForElement) {
if (item.condition != null) {
DartType conditionType = inferredConditionTypes[item.condition];
Expression condition = inferrer.ensureAssignable(
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable),
conditionType,
item.condition);
item.condition = condition..parent = item;
}
checkElement(item.body, item, typeArgument, inferredSpreadTypes,
inferredConditionTypes);
} else if (item is ForInElement) {
checkElement(item.body, item, typeArgument, inferredSpreadTypes,
inferredConditionTypes);
} else {
// Do nothing. Assignability checks are done during type inference.
}
}
@override
ExpressionInferenceResult visitListLiteral(
ListLiteral node, DartType typeContext) {
Class listClass = inferrer.coreTypes.listClass;
InterfaceType listType = listClass.thisType;
List<DartType> inferredTypes;
DartType inferredTypeArgument;
List<DartType> formalTypes;
List<DartType> actualTypes;
bool inferenceNeeded = node.typeArgument is ImplicitTypeArgument;
bool typeChecksNeeded = !inferrer.isTopLevel;
Map<TreeNode, DartType> inferredSpreadTypes;
Map<Expression, DartType> inferredConditionTypes;
if (inferenceNeeded || typeChecksNeeded) {
formalTypes = [];
actualTypes = [];
inferredSpreadTypes = new Map<TreeNode, DartType>.identity();
inferredConditionTypes = new Map<Expression, DartType>.identity();
}
if (inferenceNeeded) {
inferredTypes = [const UnknownType()];
inferrer.typeSchemaEnvironment.inferGenericFunctionOrType(listType,
listClass.typeParameters, null, null, typeContext, inferredTypes,
isConst: node.isConst);
inferredTypeArgument = inferredTypes[0];
} else {
inferredTypeArgument = node.typeArgument;
}
if (inferenceNeeded || typeChecksNeeded) {
for (int index = 0; index < node.expressions.length; ++index) {
ExpressionInferenceResult result = inferElement(
node.expressions[index],
inferredTypeArgument,
inferredSpreadTypes,
inferredConditionTypes,
inferenceNeeded,
typeChecksNeeded);
node.expressions[index] = result.expression..parent = node;
actualTypes.add(result.inferredType);
if (inferenceNeeded) {
formalTypes.add(listType.typeArguments[0]);
}
}
}
if (inferenceNeeded) {
inferrer.typeSchemaEnvironment.inferGenericFunctionOrType(
listType,
listClass.typeParameters,
formalTypes,
actualTypes,
typeContext,
inferredTypes);
inferredTypeArgument = inferredTypes[0];
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
node.fileOffset,
'typeArgs',
new InstrumentationValueForTypeArgs([inferredTypeArgument]));
node.typeArgument = inferredTypeArgument;
}
if (typeChecksNeeded) {
for (int i = 0; i < node.expressions.length; i++) {
checkElement(node.expressions[i], node, node.typeArgument,
inferredSpreadTypes, inferredConditionTypes);
}
}
DartType inferredType =
new InterfaceType(listClass, [inferredTypeArgument]);
if (!inferrer.isTopLevel) {
SourceLibraryBuilder library = inferrer.library;
if (inferenceNeeded) {
library.checkBoundsInListLiteral(
node, inferrer.typeSchemaEnvironment, inferrer.helper.uri,
inferred: true);
}
}
return new ExpressionInferenceResult(inferredType, node);
}
@override
ExpressionInferenceResult visitLogicalExpression(
LogicalExpression node, DartType typeContext) {
InterfaceType boolType =
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable);
ExpressionInferenceResult leftResult = inferrer.inferExpression(
node.left, boolType, !inferrer.isTopLevel,
isVoidAllowed: false);
ExpressionInferenceResult rightResult = inferrer.inferExpression(
node.right, boolType, !inferrer.isTopLevel,
isVoidAllowed: false);
Expression left = inferrer.ensureAssignableResult(boolType, leftResult);
node.left = left..parent = node;
Expression right = inferrer.ensureAssignableResult(boolType, rightResult);
node.right = right..parent = node;
return new ExpressionInferenceResult(boolType, node);
}
// Calculates the key and the value type of a spread map entry of type
// spreadMapEntryType and stores them in output in positions offset and offset
// + 1. If the types can't be calculated, for example, if spreadMapEntryType
// is a function type, the original values in output are preserved.
void storeSpreadMapEntryElementTypes(DartType spreadMapEntryType,
bool isNullAware, List<DartType> output, int offset) {
if (spreadMapEntryType is InterfaceType) {
InterfaceType supertype = inferrer.typeSchemaEnvironment
.getTypeAsInstanceOf(spreadMapEntryType, inferrer.coreTypes.mapClass);
if (supertype != null) {
output[offset] = supertype.typeArguments[0];
output[offset + 1] = supertype.typeArguments[1];
} else if (spreadMapEntryType.classNode == inferrer.coreTypes.nullClass &&
isNullAware) {
output[offset] = output[offset + 1] = spreadMapEntryType;
}
}
if (spreadMapEntryType is DynamicType) {
output[offset] = output[offset + 1] = const DynamicType();
}
}
// Note that inferMapEntry adds exactly two elements to actualTypes -- the
// actual types of the key and the value. The same technique is used for
// actualTypesForSet, only inferMapEntry adds exactly one element to that
// list: the actual type of the iterable spread elements in case the map
// literal will be disambiguated as a set literal later.
MapEntry inferMapEntry(
MapEntry entry,
TreeNode parent,
DartType inferredKeyType,
DartType inferredValueType,
DartType spreadContext,
List<DartType> actualTypes,
List<DartType> actualTypesForSet,
Map<TreeNode, DartType> inferredSpreadTypes,
Map<Expression, DartType> inferredConditionTypes,
bool inferenceNeeded,
bool typeChecksNeeded) {
if (entry is SpreadMapEntry) {
ExpressionInferenceResult spreadResult = inferrer.inferExpression(
entry.expression, spreadContext, inferenceNeeded || typeChecksNeeded,
isVoidAllowed: true);
entry.expression = spreadResult.expression..parent = entry;
DartType spreadType = spreadResult.inferredType;
inferredSpreadTypes[entry.expression] = spreadType;
int length = actualTypes.length;
actualTypes.add(null);
actualTypes.add(null);
storeSpreadMapEntryElementTypes(
spreadType, entry.isNullAware, actualTypes, length);
DartType actualKeyType = actualTypes[length];
DartType actualValueType = actualTypes[length + 1];
DartType actualElementType =
getSpreadElementType(spreadType, entry.isNullAware);
MapEntry replacement = entry;
if (typeChecksNeeded) {
if (actualKeyType == null) {
if (spreadType is InterfaceType &&
spreadType.classNode == inferrer.coreTypes.nullClass &&
!entry.isNullAware) {
replacement = new MapEntry(
inferrer.helper.buildProblem(messageNonNullAwareSpreadIsNull,
entry.expression.fileOffset, 1),
new NullLiteral())
..fileOffset = entry.fileOffset;
} else if (actualElementType != null) {
// Don't report the error here, it might be an ambiguous Set. The
// error is reported in checkMapEntry if it's disambiguated as map.
iterableSpreadType = spreadType;
} else {
replacement = new MapEntry(
inferrer.helper.buildProblem(
templateSpreadMapEntryTypeMismatch
.withArguments(spreadType),
entry.expression.fileOffset,
1),
new NullLiteral())
..fileOffset = entry.fileOffset;
}
} else if (spreadType is InterfaceType) {
Expression keyError;
Expression valueError;
if (!inferrer.isAssignable(inferredKeyType, actualKeyType)) {
keyError = inferrer.helper.buildProblem(
templateSpreadMapEntryElementKeyTypeMismatch.withArguments(
actualKeyType, inferredKeyType),
entry.expression.fileOffset,
1);
}
if (!inferrer.isAssignable(inferredValueType, actualValueType)) {
valueError = inferrer.helper.buildProblem(
templateSpreadMapEntryElementValueTypeMismatch.withArguments(
actualValueType, inferredValueType),
entry.expression.fileOffset,
1);
}
if (keyError != null || valueError != null) {
keyError ??= new NullLiteral();
valueError ??= new NullLiteral();
replacement = new MapEntry(keyError, valueError)
..fileOffset = entry.fileOffset;
}
}
}
// Use 'dynamic' for error recovery.
if (actualKeyType == null) {
actualKeyType = actualTypes[length] = const DynamicType();
actualValueType = actualTypes[length + 1] = const DynamicType();
}
// Store the type in case of an ambiguous Set. Use 'dynamic' for error
// recovery.
actualTypesForSet.add(actualElementType ?? const DynamicType());
mapEntryClass ??=
inferrer.coreTypes.index.getClass('dart:core', 'MapEntry');
// TODO(dmitryas): Handle the case of an ambiguous Set.
entry.entryType = new InterfaceType(
mapEntryClass, <DartType>[actualKeyType, actualValueType]);
bool isMap = inferrer.typeSchemaEnvironment.isSubtypeOf(
spreadType,
inferrer.coreTypes.mapRawType(inferrer.library.nullable),
SubtypeCheckMode.ignoringNullabilities);
bool isIterable = inferrer.typeSchemaEnvironment.isSubtypeOf(
spreadType,
inferrer.coreTypes.iterableRawType(inferrer.library.nullable),
SubtypeCheckMode.ignoringNullabilities);
if (isMap && !isIterable) {
mapSpreadOffset = entry.fileOffset;
}
if (!isMap && isIterable) {
iterableSpreadOffset = entry.expression.fileOffset;
}
return replacement;
} else if (entry is IfMapEntry) {
DartType boolType =
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable);
ExpressionInferenceResult conditionResult = inferrer.inferExpression(
entry.condition, boolType, typeChecksNeeded,
isVoidAllowed: false);
Expression condition =
inferrer.ensureAssignableResult(boolType, conditionResult);
entry.condition = condition..parent = entry;
// Note that this recursive invocation of inferMapEntry will add two types
// to actualTypes; they are the actual types of the current invocation if
// the 'else' branch is empty.
MapEntry then = inferMapEntry(
entry.then,
entry,
inferredKeyType,
inferredValueType,
spreadContext,
actualTypes,
actualTypesForSet,
inferredSpreadTypes,
inferredConditionTypes,
inferenceNeeded,
typeChecksNeeded);
entry.then = then..parent = entry;
MapEntry otherwise;
if (entry.otherwise != null) {
// We need to modify the actual types added in the recursive call to
// inferMapEntry.
DartType actualValueType = actualTypes.removeLast();
DartType actualKeyType = actualTypes.removeLast();
DartType actualTypeForSet = actualTypesForSet.removeLast();
otherwise = inferMapEntry(
entry.otherwise,
entry,
inferredKeyType,
inferredValueType,
spreadContext,
actualTypes,
actualTypesForSet,
inferredSpreadTypes,
inferredConditionTypes,
inferenceNeeded,
typeChecksNeeded);
int length = actualTypes.length;
actualTypes[length - 2] = inferrer.typeSchemaEnvironment
.getStandardUpperBound(actualKeyType, actualTypes[length - 2]);
actualTypes[length - 1] = inferrer.typeSchemaEnvironment
.getStandardUpperBound(actualValueType, actualTypes[length - 1]);
int lengthForSet = actualTypesForSet.length;
actualTypesForSet[lengthForSet - 1] = inferrer.typeSchemaEnvironment
.getStandardUpperBound(
actualTypeForSet, actualTypesForSet[lengthForSet - 1]);
entry.otherwise = otherwise..parent = entry;
}
return entry;
} else if (entry is ForMapEntry) {
for (VariableDeclaration declaration in entry.variables) {
if (declaration.name == null) {
if (declaration.initializer != null) {
ExpressionInferenceResult result = inferrer.inferExpression(
declaration.initializer,
declaration.type,
inferenceNeeded || typeChecksNeeded,
isVoidAllowed: true);
declaration.initializer = result.expression..parent = declaration;
declaration.type = result.inferredType;
}
} else {
inferrer.inferStatement(declaration);
}
}
inferrer.flowAnalysis.for_conditionBegin(entry);
if (entry.condition != null) {
ExpressionInferenceResult conditionResult = inferrer.inferExpression(
entry.condition,
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable),
inferenceNeeded || typeChecksNeeded,
isVoidAllowed: false);
entry.condition = conditionResult.expression..parent = entry;
// TODO(johnniwinther): Ensure assignability of condition?
inferredConditionTypes[entry.condition] = conditionResult.inferredType;
}
inferrer.flowAnalysis.for_bodyBegin(null, entry.condition);
// Actual types are added by the recursive call.
MapEntry body = inferMapEntry(
entry.body,
entry,
inferredKeyType,
inferredValueType,
spreadContext,
actualTypes,
actualTypesForSet,
inferredSpreadTypes,
inferredConditionTypes,
inferenceNeeded,
typeChecksNeeded);
entry.body = body..parent = entry;
inferrer.flowAnalysis.for_updaterBegin();
for (int index = 0; index < entry.updates.length; index++) {
ExpressionInferenceResult updateResult = inferrer.inferExpression(
entry.updates[index],
const UnknownType(),
inferenceNeeded || typeChecksNeeded,
isVoidAllowed: true);
entry.updates[index] = updateResult.expression..parent = entry;
}
inferrer.flowAnalysis.for_end();
return entry;
} else if (entry is ForInMapEntry) {
ForInResult result;
if (entry.variable.name == null) {
result = handleForInWithoutVariable(
entry.variable, entry.iterable, entry.prologue,
isAsync: entry.isAsync);
} else {
result = handleForInDeclaringVariable(
entry.variable, entry.iterable, entry.prologue,
isAsync: entry.isAsync);
}
entry.variable = result.variable..parent = entry;
entry.iterable = result.iterable..parent = entry;
// TODO(johnniwinther): Use ?.. here instead.
entry.prologue = result.body;
result.body?.parent = entry;
if (entry.problem != null) {
ExpressionInferenceResult problemResult = inferrer.inferExpression(
entry.problem,
const UnknownType(),
inferenceNeeded || typeChecksNeeded,
isVoidAllowed: true);
entry.problem = problemResult.expression..parent = entry;
}
inferrer.flowAnalysis
.forEach_bodyBegin(entry, entry.variable, entry.variable.type);
// Actual types are added by the recursive call.
MapEntry body = inferMapEntry(
entry.body,
entry,
inferredKeyType,
inferredValueType,
spreadContext,
actualTypes,
actualTypesForSet,
inferredSpreadTypes,
inferredConditionTypes,
inferenceNeeded,
typeChecksNeeded);
entry.body = body..parent = entry;
inferrer.flowAnalysis.forEach_end();
return entry;
} else {
ExpressionInferenceResult keyResult = inferrer.inferExpression(
entry.key, inferredKeyType, true,
isVoidAllowed: true);
Expression key = inferrer.ensureAssignableResult(
inferredKeyType, keyResult,
isVoidAllowed: inferredKeyType is VoidType);
entry.key = key..parent = entry;
ExpressionInferenceResult valueResult = inferrer.inferExpression(
entry.value, inferredValueType, true,
isVoidAllowed: true);
Expression value = inferrer.ensureAssignableResult(
inferredValueType, valueResult,
isVoidAllowed: inferredValueType is VoidType);
entry.value = value..parent = entry;
actualTypes.add(keyResult.inferredType);
actualTypes.add(valueResult.inferredType);
// Use 'dynamic' for error recovery.
actualTypesForSet.add(const DynamicType());
mapEntryOffset = entry.fileOffset;
return entry;
}
}
MapEntry checkMapEntry(
MapEntry entry,
DartType keyType,
DartType valueType,
Map<TreeNode, DartType> inferredSpreadTypes,
Map<Expression, DartType> inferredConditionTypes) {
// It's disambiguated as a map literal.
MapEntry replacement = entry;
if (iterableSpreadOffset != null) {
replacement = new MapEntry(
inferrer.helper.buildProblem(
templateSpreadMapEntryTypeMismatch
.withArguments(iterableSpreadType),
iterableSpreadOffset,
1),
new NullLiteral());
}
if (entry is SpreadMapEntry) {
DartType spreadType = inferredSpreadTypes[entry.expression];
if (spreadType is DynamicType) {
Expression expression = inferrer.ensureAssignable(
inferrer.coreTypes
.mapRawType(inferrer.library.nullableIfTrue(entry.isNullAware)),
spreadType,
entry.expression);
entry.expression = expression..parent = entry;
}
} else if (entry is IfMapEntry) {
MapEntry then = checkMapEntry(entry.then, keyType, valueType,
inferredSpreadTypes, inferredConditionTypes);
entry.then = then..parent = entry;
if (entry.otherwise != null) {
MapEntry otherwise = checkMapEntry(entry.otherwise, keyType, valueType,
inferredSpreadTypes, inferredConditionTypes);
entry.otherwise = otherwise..parent = entry;
}
} else if (entry is ForMapEntry) {
if (entry.condition != null) {
DartType conditionType = inferredConditionTypes[entry.condition];
Expression condition = inferrer.ensureAssignable(
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable),
conditionType,
entry.condition);
entry.condition = condition..parent = entry;
}
MapEntry body = checkMapEntry(entry.body, keyType, valueType,
inferredSpreadTypes, inferredConditionTypes);
entry.body = body..parent = entry;
} else if (entry is ForInMapEntry) {
MapEntry body = checkMapEntry(entry.body, keyType, valueType,
inferredSpreadTypes, inferredConditionTypes);
entry.body = body..parent = entry;
} else {
// Do nothing. Assignability checks are done during type inference.
}
return replacement;
}
@override
ExpressionInferenceResult visitMapLiteral(
MapLiteral node, DartType typeContext) {
Class mapClass = inferrer.coreTypes.mapClass;
InterfaceType mapType = mapClass.thisType;
List<DartType> inferredTypes;
DartType inferredKeyType;
DartType inferredValueType;
List<DartType> formalTypes;
List<DartType> actualTypes;
List<DartType> actualTypesForSet;
assert((node.keyType is ImplicitTypeArgument) ==
(node.valueType is ImplicitTypeArgument));
bool inferenceNeeded = node.keyType is ImplicitTypeArgument;
bool typeContextIsMap = node.keyType is! ImplicitTypeArgument;
bool typeContextIsIterable = false;
if (!inferrer.isTopLevel && inferenceNeeded) {
// Ambiguous set/map literal
DartType context =
inferrer.typeSchemaEnvironment.unfutureType(typeContext);
if (context is InterfaceType) {
typeContextIsMap = typeContextIsMap ||
inferrer.classHierarchy
.isSubtypeOf(context.classNode, inferrer.coreTypes.mapClass);
typeContextIsIterable = typeContextIsIterable ||
inferrer.classHierarchy.isSubtypeOf(
context.classNode, inferrer.coreTypes.iterableClass);
if (node.entries.isEmpty &&
typeContextIsIterable &&
!typeContextIsMap) {
// Set literal
SetLiteral setLiteral = new SetLiteral([],
typeArgument: const ImplicitTypeArgument(), isConst: node.isConst)
..fileOffset = node.fileOffset;
return visitSetLiteral(setLiteral, typeContext);
}
}
}
bool typeChecksNeeded = !inferrer.isTopLevel;
Map<TreeNode, DartType> inferredSpreadTypes;
Map<Expression, DartType> inferredConditionTypes;
if (inferenceNeeded || typeChecksNeeded) {
formalTypes = [];
actualTypes = [];
actualTypesForSet = [];
inferredSpreadTypes = new Map<TreeNode, DartType>.identity();
inferredConditionTypes = new Map<Expression, DartType>.identity();
}
if (inferenceNeeded) {
inferredTypes = [const UnknownType(), const UnknownType()];
inferrer.typeSchemaEnvironment.inferGenericFunctionOrType(mapType,
mapClass.typeParameters, null, null, typeContext, inferredTypes,
isConst: node.isConst);
inferredKeyType = inferredTypes[0];
inferredValueType = inferredTypes[1];
} else {
inferredKeyType = node.keyType;
inferredValueType = node.valueType;
}
bool hasMapEntry = false;
bool hasMapSpread = false;
bool hasIterableSpread = false;
if (inferenceNeeded || typeChecksNeeded) {
mapEntryOffset = null;
mapSpreadOffset = null;
iterableSpreadOffset = null;
iterableSpreadType = null;
DartType spreadTypeContext = const UnknownType();
if (typeContextIsIterable && !typeContextIsMap) {
spreadTypeContext = inferrer.typeSchemaEnvironment
.getTypeAsInstanceOf(typeContext, inferrer.coreTypes.iterableClass);
} else if (!typeContextIsIterable && typeContextIsMap) {
spreadTypeContext = new InterfaceType(inferrer.coreTypes.mapClass,
<DartType>[inferredKeyType, inferredValueType]);
}
for (int index = 0; index < node.entries.length; ++index) {
MapEntry entry = node.entries[index];
entry = inferMapEntry(
entry,
node,
inferredKeyType,
inferredValueType,
spreadTypeContext,
actualTypes,
actualTypesForSet,
inferredSpreadTypes,
inferredConditionTypes,
inferenceNeeded,
typeChecksNeeded);
node.entries[index] = entry..parent = node;
if (inferenceNeeded) {
formalTypes.add(mapType.typeArguments[0]);
formalTypes.add(mapType.typeArguments[1]);
}
}
hasMapEntry = mapEntryOffset != null;
hasMapSpread = mapSpreadOffset != null;
hasIterableSpread = iterableSpreadOffset != null;
}
if (inferenceNeeded) {
bool canBeSet = !hasMapSpread && !hasMapEntry && !typeContextIsMap;
bool canBeMap = !hasIterableSpread && !typeContextIsIterable;
if (canBeSet && !canBeMap) {
List<Expression> setElements = <Expression>[];
List<DartType> formalTypesForSet = <DartType>[];
InterfaceType setType = inferrer.coreTypes.setClass.thisType;
for (int i = 0; i < node.entries.length; ++i) {
setElements.add(convertToElement(node.entries[i], inferrer.helper,
inferrer.assignedVariables.reassignInfo));
formalTypesForSet.add(setType.typeArguments[0]);
}
List<DartType> inferredTypesForSet = <DartType>[const UnknownType()];
inferrer.typeSchemaEnvironment.inferGenericFunctionOrType(
setType,
inferrer.coreTypes.setClass.typeParameters,
null,
null,
typeContext,
inferredTypesForSet,
isConst: node.isConst);
inferrer.typeSchemaEnvironment.inferGenericFunctionOrType(
inferrer.coreTypes.setClass.thisType,
inferrer.coreTypes.setClass.typeParameters,
formalTypesForSet,
actualTypesForSet,
typeContext,
inferredTypesForSet);
DartType inferredTypeArgument = inferredTypesForSet[0];
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
node.fileOffset,
'typeArgs',
new InstrumentationValueForTypeArgs([inferredTypeArgument]));
SetLiteral setLiteral = new SetLiteral(setElements,
typeArgument: inferredTypeArgument, isConst: node.isConst)
..fileOffset = node.fileOffset;
if (typeChecksNeeded) {
for (int i = 0; i < setLiteral.expressions.length; i++) {
checkElement(
setLiteral.expressions[i],
setLiteral,
setLiteral.typeArgument,
inferredSpreadTypes,
inferredConditionTypes);
}
}
DartType inferredType =
new InterfaceType(inferrer.coreTypes.setClass, inferredTypesForSet);
return new ExpressionInferenceResult(inferredType, setLiteral);
}
if (canBeSet && canBeMap && node.entries.isNotEmpty) {
Expression error = inferrer.helper.buildProblem(
messageCantDisambiguateNotEnoughInformation, node.fileOffset, 1);
return new ExpressionInferenceResult(const BottomType(), error);
}
if (!canBeSet && !canBeMap) {
Expression replacement = node;
if (!inferrer.isTopLevel) {
replacement = inferrer.helper.buildProblem(
messageCantDisambiguateAmbiguousInformation, node.fileOffset, 1);
}
return new ExpressionInferenceResult(const BottomType(), replacement);
}
inferrer.typeSchemaEnvironment.inferGenericFunctionOrType(
mapType,
mapClass.typeParameters,
formalTypes,
actualTypes,
typeContext,
inferredTypes);
inferredKeyType = inferredTypes[0];
inferredValueType = inferredTypes[1];
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
node.fileOffset,
'typeArgs',
new InstrumentationValueForTypeArgs(
[inferredKeyType, inferredValueType]));
node.keyType = inferredKeyType;
node.valueType = inferredValueType;
}
if (typeChecksNeeded) {
for (int index = 0; index < node.entries.length; ++index) {
MapEntry entry = checkMapEntry(node.entries[index], node.keyType,
node.valueType, inferredSpreadTypes, inferredConditionTypes);
node.entries[index] = entry..parent = node;
}
}
DartType inferredType =
new InterfaceType(mapClass, [inferredKeyType, inferredValueType]);
if (!inferrer.isTopLevel) {
SourceLibraryBuilder library = inferrer.library;
// Either both [_declaredKeyType] and [_declaredValueType] are omitted or
// none of them, so we may just check one.
if (inferenceNeeded) {
library.checkBoundsInMapLiteral(
node, inferrer.typeSchemaEnvironment, inferrer.helper.uri,
inferred: true);
}
}
return new ExpressionInferenceResult(inferredType, node);
}
@override
ExpressionInferenceResult visitMethodInvocation(
covariant MethodInvocationImpl node, DartType typeContext) {
if (node.name.name == 'unary-' &&
node.arguments.types.isEmpty &&
node.arguments.positional.isEmpty &&
node.arguments.named.isEmpty) {
// Replace integer literals in a double context with the corresponding
// double literal if it's exact. For double literals, the negation is
// folded away. In any non-double context, or if there is no exact
// double value, then the corresponding integer literal is left. The
// negation is not folded away so that platforms with web literals can
// distinguish between (non-negated) 0x8000000000000000 represented as
// integer literal -9223372036854775808 which should be a positive number,
// and negated 9223372036854775808 represented as
// -9223372036854775808.unary-() which should be a negative number.
if (node.receiver is IntJudgment) {
IntJudgment receiver = node.receiver;
if (inferrer.isDoubleContext(typeContext)) {
double doubleValue = receiver.asDouble(negated: true);
if (doubleValue != null) {
Expression replacement = new DoubleLiteral(doubleValue)
..fileOffset = node.fileOffset;
DartType inferredType =
inferrer.coreTypes.doubleRawType(inferrer.library.nonNullable);
return new ExpressionInferenceResult(inferredType, replacement);
}
}
Expression error = checkWebIntLiteralsErrorIfUnexact(
inferrer, receiver.value, receiver.literal, receiver.fileOffset);
if (error != null) {
return new ExpressionInferenceResult(const DynamicType(), error);
}
} else if (node.receiver is ShadowLargeIntLiteral) {
ShadowLargeIntLiteral receiver = node.receiver;
if (!receiver.isParenthesized) {
if (inferrer.isDoubleContext(typeContext)) {
double doubleValue = receiver.asDouble(negated: true);
if (doubleValue != null) {
Expression replacement = new DoubleLiteral(doubleValue)
..fileOffset = node.fileOffset;
DartType inferredType = inferrer.coreTypes
.doubleRawType(inferrer.library.nonNullable);
return new ExpressionInferenceResult(inferredType, replacement);
}
}
int intValue = receiver.asInt64(negated: true);
if (intValue == null) {
Expression error = inferrer.helper.buildProblem(
templateIntegerLiteralIsOutOfRange
.withArguments(receiver.literal),
receiver.fileOffset,
receiver.literal.length);
return new ExpressionInferenceResult(const DynamicType(), error);
}
if (intValue != null) {
Expression error = checkWebIntLiteralsErrorIfUnexact(
inferrer, intValue, receiver.literal, receiver.fileOffset);
if (error != null) {
return new ExpressionInferenceResult(const DynamicType(), error);
}
node.receiver = new IntLiteral(-intValue)
..fileOffset = node.receiver.fileOffset
..parent = node;
}
}
}
}
return inferrer.inferMethodInvocation(node, typeContext);
}
ExpressionInferenceResult visitNamedFunctionExpressionJudgment(
NamedFunctionExpressionJudgment node, DartType typeContext) {
ExpressionInferenceResult initializerResult =
inferrer.inferExpression(node.variable.initializer, typeContext, true);
node.variable.initializer = initializerResult.expression
..parent = node.variable;
node.variable.type = initializerResult.inferredType;
return new ExpressionInferenceResult(initializerResult.inferredType, node);
}
@override
ExpressionInferenceResult visitNot(Not node, DartType typeContext) {
InterfaceType boolType =
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable);
ExpressionInferenceResult operandResult =
inferrer.inferExpression(node.operand, boolType, !inferrer.isTopLevel);
Expression operand = inferrer.ensureAssignableResult(
boolType, operandResult,
fileOffset: node.fileOffset);
node.operand = operand..parent = node;
return new ExpressionInferenceResult(boolType, node);
}
@override
ExpressionInferenceResult visitNullCheck(
NullCheck node, DartType typeContext) {
// TODO(johnniwinther): Should the typeContext for the operand be
// `Nullable(typeContext)`?
ExpressionInferenceResult operandResult = inferrer.inferExpression(
node.operand, typeContext, !inferrer.isTopLevel);
node.operand = operandResult.expression..parent = node;
// TODO(johnniwinther): Check that the inferred type is potentially
// nullable.
// TODO(johnniwinther): Return `NonNull(inferredType)`.
return new ExpressionInferenceResult(operandResult.inferredType, node);
}
ExpressionInferenceResult visitNullAwareMethodInvocation(
NullAwareMethodInvocation node, DartType typeContext) {
inferrer.inferStatement(node.variable);
ExpressionInferenceResult invocationResult = inferrer.inferExpression(
node.invocation, typeContext, true,
isVoidAllowed: true);
Member equalsMember = inferrer
.findInterfaceMember(node.variable.type, equalsName, node.fileOffset)
.member;
return new ExpressionInferenceResult.nullAware(
invocationResult.inferredType,
invocationResult.expression,
new NullAwareGuard(node.variable, node.fileOffset, equalsMember));
}
ExpressionInferenceResult visitNullAwarePropertyGet(
NullAwarePropertyGet node, DartType typeContext) {
inferrer.inferStatement(node.variable);
ExpressionInferenceResult readResult =
inferrer.inferExpression(node.read, const UnknownType(), true);
Member equalsMember = inferrer
.findInterfaceMember(node.variable.type, equalsName, node.fileOffset)
.member;
return new ExpressionInferenceResult.nullAware(
readResult.inferredType,
readResult.expression,
new NullAwareGuard(node.variable, node.fileOffset, equalsMember));
}
ExpressionInferenceResult visitNullAwarePropertySet(
NullAwarePropertySet node, DartType typeContext) {
inferrer.inferStatement(node.variable);
ExpressionInferenceResult writeResult =
inferrer.inferExpression(node.write, typeContext, true);
Member equalsMember = inferrer
.findInterfaceMember(node.variable.type, equalsName, node.fileOffset)
.member;
return new ExpressionInferenceResult.nullAware(
writeResult.inferredType,
writeResult.expression,
new NullAwareGuard(node.variable, node.fileOffset, equalsMember));
}
ExpressionInferenceResult visitNullAwareExtension(
NullAwareExtension node, DartType typeContext) {
inferrer.inferStatement(node.variable);
ExpressionInferenceResult expressionResult =
inferrer.inferExpression(node.expression, const UnknownType(), true);
Member equalsMember = inferrer
.findInterfaceMember(node.variable.type, equalsName, node.fileOffset)
.member;
return new ExpressionInferenceResult.nullAware(
expressionResult.inferredType,
expressionResult.expression,
new NullAwareGuard(node.variable, node.fileOffset, equalsMember));
}
ExpressionInferenceResult visitStaticPostIncDec(
StaticPostIncDec node, DartType typeContext) {
inferrer.inferStatement(node.read);
inferrer.inferStatement(node.write);
DartType inferredType = node.read.type;
Expression replacement =
new Let(node.read, createLet(node.write, createVariableGet(node.read)))
..fileOffset = node.fileOffset;
return new ExpressionInferenceResult(inferredType, replacement);
}
ExpressionInferenceResult visitSuperPostIncDec(
SuperPostIncDec node, DartType typeContext) {
inferrer.inferStatement(node.read);
inferrer.inferStatement(node.write);
DartType inferredType = node.read.type;
Expression replacement =
new Let(node.read, createLet(node.write, createVariableGet(node.read)))
..fileOffset = node.fileOffset;
return new ExpressionInferenceResult(inferredType, replacement);
}
ExpressionInferenceResult visitLocalPostIncDec(
LocalPostIncDec node, DartType typeContext) {
inferrer.inferStatement(node.read);
inferrer.inferStatement(node.write);
DartType inferredType = node.read.type;
Expression replacement =
new Let(node.read, createLet(node.write, createVariableGet(node.read)))
..fileOffset = node.fileOffset;
return new ExpressionInferenceResult(inferredType, replacement);
}
ExpressionInferenceResult visitPropertyPostIncDec(
PropertyPostIncDec node, DartType typeContext) {
inferrer.inferStatement(node.variable);
inferrer.inferStatement(node.read);
inferrer.inferStatement(node.write);
DartType inferredType = node.read.type;
Expression replacement;
if (node.variable != null) {
replacement = new Let(
node.variable,
createLet(
node.read, createLet(node.write, createVariableGet(node.read))))
..fileOffset = node.fileOffset;
} else {
replacement = new Let(
node.read, createLet(node.write, createVariableGet(node.read)))
..fileOffset = node.fileOffset;
}
return new ExpressionInferenceResult(inferredType, replacement);
}
ExpressionInferenceResult visitCompoundPropertySet(
CompoundPropertySet node, DartType typeContext) {
ExpressionInferenceResult receiverResult = inferrer.inferExpression(
node.receiver, const UnknownType(), true,
isVoidAllowed: false);
NullAwareGuard nullAwareGuard;
Expression receiver;
if (inferrer.isNonNullableByDefault) {
nullAwareGuard = receiverResult.nullAwareGuard;
receiver = receiverResult.nullAwareAction;
} else {
receiver = receiverResult.expression;
}
DartType receiverType = receiverResult.inferredType;
VariableDeclaration receiverVariable;
Expression readReceiver;
Expression writeReceiver;
if (node.readOnlyReceiver && identical(receiver, node.receiver)) {
readReceiver = receiver;
writeReceiver = receiver.accept<TreeNode>(new CloneVisitor());
} else {
receiverVariable = createVariable(receiver, receiverType);
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
receiverVariable.fileOffset,
'type',
new InstrumentationValueForType(receiverType));
readReceiver = createVariableGet(receiverVariable);
writeReceiver = createVariableGet(receiverVariable);
}
ExpressionInferenceResult readResult = _computePropertyGet(node.readOffset,
readReceiver, receiverType, node.propertyName, const UnknownType(),
isThisReceiver: node.receiver is ThisExpression);
Expression read = readResult.expression;
DartType readType = readResult.inferredType;
ExpressionInferenceResult binaryResult = _computeBinaryExpression(
node.binaryOffset, read, readType, node.binaryName, node.rhs);
DartType binaryType = binaryResult.inferredType;
ObjectAccessTarget writeTarget = inferrer.findInterfaceMember(
receiverType, node.propertyName, node.writeOffset,
setter: true, instrumented: true, includeExtensionMethods: true);
DartType writeType = inferrer.getSetterType(writeTarget, receiverType);
Expression binary =
inferrer.ensureAssignableResult(writeType, binaryResult);
Expression write = _computePropertySet(node.writeOffset, writeReceiver,
receiverType, node.propertyName, writeTarget, binary,
valueType: binaryType, forEffect: node.forEffect);
Expression replacement = write;
if (receiverVariable != null) {
replacement = createLet(receiverVariable, replacement);
}
replacement.fileOffset = node.fileOffset;
return new ExpressionInferenceResult.nullAware(
binaryType, replacement, nullAwareGuard);
}
ExpressionInferenceResult visitIfNullPropertySet(
IfNullPropertySet node, DartType typeContext) {
inferrer.inferStatement(node.variable);
ExpressionInferenceResult readResult = inferrer.inferExpression(
node.read, const UnknownType(), true,
isVoidAllowed: true);
ExpressionInferenceResult writeResult = inferrer
.inferExpression(node.write, typeContext, true, isVoidAllowed: true);
Member equalsMember = inferrer
.findInterfaceMember(
readResult.inferredType, equalsName, node.fileOffset)
.member;
DartType inferredType = inferrer.typeSchemaEnvironment
.getStandardUpperBound(
readResult.inferredType, writeResult.inferredType);
Expression replacement;
if (node.forEffect) {
// Encode `o.a ??= b` as:
//
// let v1 = o in v1.a == null ? v1.a = b : null
//
MethodInvocation equalsNull = createEqualsNull(
node.fileOffset, readResult.expression, equalsMember);
ConditionalExpression conditional = new ConditionalExpression(
equalsNull,
writeResult.expression,
new NullLiteral()..fileOffset = node.fileOffset,
inferredType)
..fileOffset = node.fileOffset;
replacement =
new Let(node.variable, conditional..fileOffset = node.fileOffset);
} else {
// Encode `o.a ??= b` as:
//
// let v1 = o in let v2 = v1.a in v2 == null ? v1.a = b : v2
//
VariableDeclaration readVariable =
createVariable(readResult.expression, readResult.inferredType);
MethodInvocation equalsNull = createEqualsNull(
node.fileOffset, createVariableGet(readVariable), equalsMember);
ConditionalExpression conditional = new ConditionalExpression(equalsNull,
writeResult.expression, createVariableGet(readVariable), inferredType)
..fileOffset = node.fileOffset;
replacement = new Let(node.variable, createLet(readVariable, conditional))
..fileOffset = node.fileOffset;
}
return new ExpressionInferenceResult(inferredType, replacement);
}
ExpressionInferenceResult visitIfNullSet(
IfNullSet node, DartType typeContext) {
ExpressionInferenceResult readResult =
inferrer.inferExpression(node.read, const UnknownType(), true);
ExpressionInferenceResult writeResult = inferrer
.inferExpression(node.write, typeContext, true, isVoidAllowed: true);
Member equalsMember = inferrer
.findInterfaceMember(
readResult.inferredType, equalsName, node.fileOffset)
.member;
DartType inferredType = inferrer.typeSchemaEnvironment
.getStandardUpperBound(
readResult.inferredType, writeResult.inferredType);
Expression replacement;
if (node.forEffect) {
// Encode `a ??= b` as:
//
// a == null ? a = b : null
//
MethodInvocation equalsNull = createEqualsNull(
node.fileOffset, readResult.expression, equalsMember);
replacement = new ConditionalExpression(
equalsNull,
writeResult.expression,
new NullLiteral()..fileOffset = node.fileOffset,
inferredType)
..fileOffset = node.fileOffset;
} else {
// Encode `a ??= b` as:
//
// let v1 = a in v1 == null ? a = b : v1
//
VariableDeclaration readVariable =
createVariable(readResult.expression, readResult.inferredType);
MethodInvocation equalsNull = createEqualsNull(
node.fileOffset, createVariableGet(readVariable), equalsMember);
ConditionalExpression conditional = new ConditionalExpression(equalsNull,
writeResult.expression, createVariableGet(readVariable), inferredType)
..fileOffset = node.fileOffset;
replacement = new Let(readVariable, conditional)
..fileOffset = node.fileOffset;
}
return new ExpressionInferenceResult(inferredType, replacement);
}
ExpressionInferenceResult visitIndexSet(IndexSet node, DartType typeContext) {
ExpressionInferenceResult receiverResult = inferrer.inferExpression(
node.receiver, const UnknownType(), true,
isVoidAllowed: true);
Expression receiver;
NullAwareGuard nullAwareGuard;
if (inferrer.isNonNullableByDefault) {
nullAwareGuard = receiverResult.nullAwareGuard;
receiver = receiverResult.nullAwareAction;
} else {
receiver = receiverResult.expression;
}
DartType receiverType = receiverResult.inferredType;
VariableDeclaration receiverVariable =
createVariable(receiver, receiverType);
ObjectAccessTarget indexSetTarget = inferrer.findInterfaceMember(
receiverType, indexSetName, node.fileOffset,
includeExtensionMethods: true);
DartType indexType = inferrer.getIndexKeyType(indexSetTarget, receiverType);
DartType valueType =
inferrer.getIndexSetValueType(indexSetTarget, receiverType);
ExpressionInferenceResult indexResult = inferrer
.inferExpression(node.index, indexType, true, isVoidAllowed: true);
Expression index = inferrer.ensureAssignableResult(indexType, indexResult);
VariableDeclaration indexVariable =
createVariable(index, indexResult.inferredType);
ExpressionInferenceResult valueResult = inferrer
.inferExpression(node.value, valueType, true, isVoidAllowed: true);
Expression value = inferrer.ensureAssignableResult(valueType, valueResult);
VariableDeclaration valueVariable =
createVariable(value, valueResult.inferredType);
// The inferred type is that inferred type of the value expression and not
// the type of the value parameter.
DartType inferredType = valueResult.inferredType;
Expression assignment = _computeIndexSet(
node.fileOffset,
createVariableGet(receiverVariable),
receiverType,
indexSetTarget,
createVariableGet(indexVariable),
createVariableGet(valueVariable));
VariableDeclaration assignmentVariable =
createVariable(assignment, const VoidType());
Expression replacement = new Let(
receiverVariable,
createLet(
indexVariable,
createLet(
valueVariable,
createLet(
assignmentVariable, createVariableGet(valueVariable))))
..fileOffset = node.fileOffset);
return new ExpressionInferenceResult.nullAware(
inferredType, replacement, nullAwareGuard);
}
ExpressionInferenceResult visitSuperIndexSet(
SuperIndexSet node, DartType typeContext) {
ObjectAccessTarget indexSetTarget = node.setter != null
? new ObjectAccessTarget.interfaceMember(node.setter)
: const ObjectAccessTarget.missing();
DartType indexType =
inferrer.getIndexKeyType(indexSetTarget, inferrer.thisType);
DartType valueType =
inferrer.getIndexSetValueType(indexSetTarget, inferrer.thisType);
ExpressionInferenceResult indexResult = inferrer
.inferExpression(node.index, indexType, true, isVoidAllowed: true);
Expression index = inferrer.ensureAssignableResult(indexType, indexResult);
VariableDeclaration indexVariable =
createVariable(index, indexResult.inferredType);
ExpressionInferenceResult valueResult = inferrer
.inferExpression(node.value, valueType, true, isVoidAllowed: true);
Expression value = inferrer.ensureAssignableResult(valueType, valueResult);
VariableDeclaration valueVariable =
createVariable(value, valueResult.inferredType);
// The inferred type is that inferred type of the value expression and not
// the type of the value parameter.
DartType inferredType = valueResult.inferredType;
Expression assignment;
if (indexSetTarget.isMissing) {
assignment = inferrer.createMissingSuperIndexSet(node.fileOffset,
createVariableGet(indexVariable), createVariableGet(valueVariable));
} else {
assert(indexSetTarget.isInstanceMember);
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
node.fileOffset,
'target',
new InstrumentationValueForMember(node.setter));
assignment = new SuperMethodInvocation(
indexSetName,
new Arguments(<Expression>[
createVariableGet(indexVariable),
createVariableGet(valueVariable)
])
..fileOffset = node.fileOffset,
indexSetTarget.member)
..fileOffset = node.fileOffset;
}
VariableDeclaration assignmentVariable =
createVariable(assignment, const VoidType());
Expression replacement = new Let(
indexVariable,
createLet(valueVariable,
createLet(assignmentVariable, createVariableGet(valueVariable))))
..fileOffset = node.fileOffset;
return new ExpressionInferenceResult(inferredType, replacement);
}
ExpressionInferenceResult visitExtensionIndexSet(
ExtensionIndexSet node, DartType typeContext) {
ExpressionInferenceResult receiverResult = inferrer.inferExpression(
node.receiver, const UnknownType(), true,
isVoidAllowed: false);
List<DartType> extensionTypeArguments =
inferrer.computeExtensionTypeArgument(node.extension,
node.explicitTypeArguments, receiverResult.inferredType);
DartType receiverType = inferrer.getExtensionReceiverType(
node.extension, extensionTypeArguments);
Expression receiver =
inferrer.ensureAssignableResult(receiverType, receiverResult);
VariableDeclaration receiverVariable =
createVariable(receiver, receiverType);
ObjectAccessTarget target = new ExtensionAccessTarget(
node.setter, null, ProcedureKind.Operator, extensionTypeArguments);
DartType indexType = inferrer.getIndexKeyType(target, receiverType);
DartType valueType = inferrer.getIndexSetValueType(target, receiverType);
ExpressionInferenceResult indexResult = inferrer
.inferExpression(node.index, indexType, true, isVoidAllowed: true);
Expression index = inferrer.ensureAssignableResult(indexType, indexResult);
VariableDeclaration indexVariable =
createVariable(index, indexResult.inferredType);
ExpressionInferenceResult valueResult = inferrer
.inferExpression(node.value, valueType, true, isVoidAllowed: true);
Expression value = inferrer.ensureAssignableResult(valueType, valueResult);
VariableDeclaration valueVariable =
createVariable(value, valueResult.inferredType);
// The inferred type is that inferred type of the value expression and not
// the type of the value parameter.
DartType inferredType = valueResult.inferredType;
Expression assignment = _computeIndexSet(
node.fileOffset,
createVariableGet(receiverVariable),
receiverType,
target,
createVariableGet(indexVariable),
createVariableGet(valueVariable));
VariableDeclaration assignmentVariable =
createVariable(assignment, const VoidType());
Expression replacement = new Let(
receiverVariable,
createLet(
indexVariable,
createLet(
valueVariable,
createLet(
assignmentVariable, createVariableGet(valueVariable)))))
..fileOffset = node.fileOffset;
return new ExpressionInferenceResult(inferredType, replacement);
}
ExpressionInferenceResult visitIfNullIndexSet(
IfNullIndexSet node, DartType typeContext) {
ExpressionInferenceResult receiverResult = inferrer.inferExpression(
node.receiver, const UnknownType(), true,
isVoidAllowed: true);
Expression receiver;
NullAwareGuard nullAwareGuard;
if (inferrer.isNonNullableByDefault) {
nullAwareGuard = receiverResult.nullAwareGuard;
receiver = receiverResult.nullAwareAction;
} else {
receiver = receiverResult.expression;
}
DartType receiverType = receiverResult.inferredType;
VariableDeclaration receiverVariable;
Expression readReceiver = receiver;
Expression writeReceiver;
if (node.readOnlyReceiver) {
writeReceiver = readReceiver.accept<TreeNode>(new CloneVisitor());
} else {
receiverVariable = createVariable(readReceiver, receiverType);
readReceiver = createVariableGet(receiverVariable);
writeReceiver = createVariableGet(receiverVariable);
}
ObjectAccessTarget readTarget = inferrer.findInterfaceMember(
receiverType, indexGetName, node.readOffset,
includeExtensionMethods: true);
MethodContravarianceCheckKind checkKind =
inferrer.preCheckInvocationContravariance(receiverType, readTarget,
isThisReceiver: node.receiver is ThisExpression);
DartType readIndexType = inferrer.getIndexKeyType(readTarget, receiverType);
ObjectAccessTarget writeTarget = inferrer.findInterfaceMember(
receiverType, indexSetName, node.writeOffset,
includeExtensionMethods: true);
DartType writeIndexType =
inferrer.getIndexKeyType(writeTarget, receiverType);
DartType valueType =
inferrer.getIndexSetValueType(writeTarget, receiverType);
ExpressionInferenceResult indexResult = inferrer
.inferExpression(node.index, readIndexType, true, isVoidAllowed: true);
VariableDeclaration indexVariable = createVariableForResult(indexResult);
Expression readIndex = createVariableGet(indexVariable);
readIndex = inferrer.ensureAssignable(
readIndexType, indexResult.inferredType, readIndex);
ExpressionInferenceResult readResult = _computeIndexGet(node.readOffset,
readReceiver, receiverType, readTarget, readIndex, checkKind);
Expression read = readResult.expression;
DartType readType = readResult.inferredType;
Member equalsMember = inferrer
.findInterfaceMember(readType, equalsName, node.testOffset)
.member;
Expression writeIndex = createVariableGet(indexVariable);
writeIndex = inferrer.ensureAssignable(
writeIndexType, indexResult.inferredType, writeIndex);
ExpressionInferenceResult valueResult = inferrer
.inferExpression(node.value, valueType, true, isVoidAllowed: true);
Expression value = inferrer.ensureAssignableResult(valueType, valueResult);
DartType inferredType = inferrer.typeSchemaEnvironment
.getStandardUpperBound(readType, valueResult.inferredType);
VariableDeclaration valueVariable;
if (node.forEffect) {
// No need for value variable.
} else {
valueVariable = createVariable(value, valueResult.inferredType);
value = createVariableGet(valueVariable);
}
Expression write = _computeIndexSet(node.writeOffset, writeReceiver,
receiverType, writeTarget, writeIndex, value);
Expression inner;
if (node.forEffect) {
// Encode `Extension(o)[a] ??= b`, if `node.readOnlyReceiver` is false,
// as:
//
// let receiverVariable = o in
// let indexVariable = a in
// receiverVariable[indexVariable] == null
// ? receiverVariable.[]=(indexVariable, b) : null
//
// and if `node.readOnlyReceiver` is true as:
//
// let indexVariable = a in
// o[indexVariable] == null ? o.[]=(indexVariable, b) : null
//
MethodInvocation equalsNull =
createEqualsNull(node.testOffset, read, equalsMember);
ConditionalExpression conditional = new ConditionalExpression(equalsNull,
write, new NullLiteral()..fileOffset = node.testOffset, inferredType)
..fileOffset = node.testOffset;
inner = createLet(indexVariable, conditional);
} else {
// Encode `Extension(o)[a] ??= b` as, if `node.readOnlyReceiver` is false,
// as:
//
// let receiverVariable = o in
// let indexVariable = a in
// let readVariable = receiverVariable[indexVariable] in
// readVariable == null
// ? (let valueVariable = b in
// let writeVariable =
// receiverVariable.[]=(indexVariable, valueVariable) in
// valueVariable)
// : readVariable
//
// and if `node.readOnlyReceiver` is true as:
//
// let indexVariable = a in
// let readVariable = o[indexVariable] in
// readVariable == null
// ? (let valueVariable = b in
// let writeVariable = o.[]=(indexVariable, valueVariable) in
// valueVariable)
// : readVariable
//
//
assert(valueVariable != null);
VariableDeclaration readVariable = createVariable(read, readType);
MethodInvocation equalsNull = createEqualsNull(
node.testOffset, createVariableGet(readVariable), equalsMember);
VariableDeclaration writeVariable =
createVariable(write, const VoidType());
ConditionalExpression conditional = new ConditionalExpression(
equalsNull,
createLet(valueVariable,
createLet(writeVariable, createVariableGet(valueVariable))),
createVariableGet(readVariable),
inferredType)
..fileOffset = node.fileOffset;
inner = createLet(indexVariable, createLet(readVariable, conditional));
}
Expression replacement;
if (receiverVariable != null) {
replacement = new Let(receiverVariable, inner)
..fileOffset = node.fileOffset;
} else {
replacement = inner;
}
return new ExpressionInferenceResult.nullAware(
inferredType, replacement, nullAwareGuard);
}
ExpressionInferenceResult visitIfNullSuperIndexSet(
IfNullSuperIndexSet node, DartType typeContext) {
ObjectAccessTarget readTarget = node.getter != null
? new ObjectAccessTarget.interfaceMember(node.getter)
: const ObjectAccessTarget.missing();
DartType readType = inferrer.getReturnType(readTarget, inferrer.thisType);
DartType readIndexType =
inferrer.getIndexKeyType(readTarget, inferrer.thisType);
Member equalsMember = inferrer
.findInterfaceMember(readType, equalsName, node.testOffset)
.member;
ObjectAccessTarget writeTarget = node.setter != null
? new ObjectAccessTarget.interfaceMember(node.setter)
: const ObjectAccessTarget.missing();
DartType writeIndexType =
inferrer.getIndexKeyType(writeTarget, inferrer.thisType);
DartType valueType =
inferrer.getIndexSetValueType(writeTarget, inferrer.thisType);
ExpressionInferenceResult indexResult = inferrer
.inferExpression(node.index, readIndexType, true, isVoidAllowed: true);
VariableDeclaration indexVariable = createVariableForResult(indexResult);
Expression readIndex = createVariableGet(indexVariable);
readIndex = inferrer.ensureAssignable(
readIndexType, indexResult.inferredType, readIndex);
Expression writeIndex = createVariableGet(indexVariable);
writeIndex = inferrer.ensureAssignable(
writeIndexType, indexResult.inferredType, writeIndex);
ExpressionInferenceResult valueResult = inferrer
.inferExpression(node.value, valueType, true, isVoidAllowed: true);
Expression value = inferrer.ensureAssignableResult(valueType, valueResult);
DartType inferredType = inferrer.typeSchemaEnvironment
.getStandardUpperBound(readType, valueResult.inferredType);
Expression read;
if (readTarget.isMissing) {
read = inferrer.createMissingSuperIndexGet(node.readOffset, readIndex);
} else {
assert(readTarget.isInstanceMember);
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
node.readOffset,
'target',
new InstrumentationValueForMember(node.getter));
read = new SuperMethodInvocation(
indexGetName,
new Arguments(<Expression>[
readIndex,
])
..fileOffset = node.readOffset,
readTarget.member)
..fileOffset = node.readOffset;
}
VariableDeclaration valueVariable;
if (node.forEffect) {
// No need for a value variable.
} else {
valueVariable = createVariable(value, valueResult.inferredType);
value = createVariableGet(valueVariable);
}
Expression write;
if (writeTarget.isMissing) {
write = inferrer.createMissingSuperIndexSet(
node.writeOffset, writeIndex, value);
} else {
assert(writeTarget.isInstanceMember);
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
node.writeOffset,
'target',
new InstrumentationValueForMember(node.setter));
write = new SuperMethodInvocation(
indexSetName,
new Arguments(<Expression>[writeIndex, value])
..fileOffset = node.writeOffset,
writeTarget.member)
..fileOffset = node.writeOffset;
}
Expression replacement;
if (node.forEffect) {
// Encode `o[a] ??= b` as:
//
// let v1 = a in
// super[v1] == null ? super.[]=(v1, b) : null
//
MethodInvocation equalsNull =
createEqualsNull(node.testOffset, read, equalsMember);
ConditionalExpression conditional = new ConditionalExpression(equalsNull,
write, new NullLiteral()..fileOffset = node.testOffset, inferredType)
..fileOffset = node.testOffset;
replacement = createLet(indexVariable, conditional);
} else {
// Encode `o[a] ??= b` as:
//
// let v1 = a in
// let v2 = super[v1] in
// v2 == null
// ? (let v3 = b in
// let _ = super.[]=(v1, v3) in
// v3)
// : v2
//
assert(valueVariable != null);
VariableDeclaration readVariable = createVariable(read, readType);
MethodInvocation equalsNull = createEqualsNull(
node.testOffset, createVariableGet(readVariable), equalsMember);
VariableDeclaration writeVariable =
createVariable(write, const VoidType());
ConditionalExpression conditional = new ConditionalExpression(
equalsNull,
createLet(valueVariable,
createLet(writeVariable, createVariableGet(valueVariable))),
createVariableGet(readVariable),
inferredType)
..fileOffset = node.fileOffset;
replacement =
createLet(indexVariable, createLet(readVariable, conditional));
}
return new ExpressionInferenceResult(inferredType, replacement);
}
ExpressionInferenceResult visitIfNullExtensionIndexSet(
IfNullExtensionIndexSet node, DartType typeContext) {
ExpressionInferenceResult receiverResult = inferrer.inferExpression(
node.receiver, const UnknownType(), true,
isVoidAllowed: false);
List<DartType> extensionTypeArguments =
inferrer.computeExtensionTypeArgument(node.extension,
node.explicitTypeArguments, receiverResult.inferredType);
DartType receiverType = inferrer.getExtensionReceiverType(
node.extension, extensionTypeArguments);
Expression receiver =
inferrer.ensureAssignableResult(receiverType, receiverResult);
VariableDeclaration receiverVariable =
createVariable(receiver, receiverType);
ObjectAccessTarget readTarget = node.getter != null
? new ExtensionAccessTarget(
node.getter, null, ProcedureKind.Operator, extensionTypeArguments)
: const ObjectAccessTarget.missing();
DartType readIndexType = inferrer.getIndexKeyType(readTarget, receiverType);
ObjectAccessTarget writeTarget = node.setter != null
? new ExtensionAccessTarget(
node.setter, null, ProcedureKind.Operator, extensionTypeArguments)
: const ObjectAccessTarget.missing();
DartType writeIndexType =
inferrer.getIndexKeyType(writeTarget, receiverType);
DartType valueType =
inferrer.getIndexSetValueType(writeTarget, receiverType);
ExpressionInferenceResult indexResult = inferrer
.inferExpression(node.index, readIndexType, true, isVoidAllowed: true);
VariableDeclaration indexVariable = createVariableForResult(indexResult);
Expression readIndex = createVariableGet(indexVariable);
readIndex = inferrer.ensureAssignable(
readIndexType, indexResult.inferredType, readIndex);
ExpressionInferenceResult readResult = _computeIndexGet(
node.readOffset,
createVariableGet(receiverVariable),
receiverType,
readTarget,
readIndex,
MethodContravarianceCheckKind.none);
Expression read = readResult.expression;
DartType readType = readResult.inferredType;
Member equalsMember = inferrer
.findInterfaceMember(readType, equalsName, node.testOffset)
.member;
Expression writeIndex = createVariableGet(indexVariable);
writeIndex = inferrer.ensureAssignable(
writeIndexType, indexResult.inferredType, writeIndex);
ExpressionInferenceResult valueResult = inferrer
.inferExpression(node.value, valueType, true, isVoidAllowed: true);
Expression value = inferrer.ensureAssignableResult(valueType, valueResult);
DartType inferredType = inferrer.typeSchemaEnvironment
.getStandardUpperBound(readType, valueResult.inferredType);
VariableDeclaration valueVariable;
if (node.forEffect) {
// No need for a value variable.
} else {
valueVariable = createVariable(value, valueResult.inferredType);
value = createVariableGet(valueVariable);
}
Expression write = _computeIndexSet(
node.writeOffset,
createVariableGet(receiverVariable),
receiverType,
writeTarget,
writeIndex,
value);
Expression inner;
if (node.forEffect) {
// Encode `Extension(o)[a] ??= b` as:
//
// let receiverVariable = o;
// let indexVariable = a in
// receiverVariable[indexVariable] == null
// ? receiverVariable.[]=(indexVariable, b) : null
//
MethodInvocation equalsNull =
createEqualsNull(node.testOffset, read, equalsMember);
ConditionalExpression conditional = new ConditionalExpression(equalsNull,
write, new NullLiteral()..fileOffset = node.testOffset, inferredType)
..fileOffset = node.testOffset;
inner = createLet(indexVariable, conditional);
} else {
// Encode `Extension(o)[a] ??= b` as:
//
// let receiverVariable = o;
// let indexVariable = a in
// let readVariable = receiverVariable[indexVariable] in
// readVariable == null
// ? (let valueVariable = b in
// let writeVariable =
// receiverVariable.[]=(indexVariable, valueVariable) in
// valueVariable)
// : readVariable
//
assert(valueVariable != null);
VariableDeclaration readVariable = createVariable(read, readType);
MethodInvocation equalsNull = createEqualsNull(
node.testOffset, createVariableGet(readVariable), equalsMember);
VariableDeclaration writeVariable =
createVariable(write, const VoidType());
ConditionalExpression conditional = new ConditionalExpression(
equalsNull,
createLet(valueVariable,
createLet(writeVariable, createVariableGet(valueVariable))),
createVariableGet(readVariable),
inferredType)
..fileOffset = node.fileOffset;
inner = createLet(indexVariable, createLet(readVariable, conditional));
}
Expression replacement = new Let(receiverVariable, inner)
..fileOffset = node.fileOffset;
return new ExpressionInferenceResult(inferredType, replacement);
}
/// Creates a binary expression of the binary operator with [binaryName] using
/// [left] and [right] as operands.
///
/// [fileOffset] is used as the file offset for created nodes. [leftType] is
/// the already inferred type of the [left] expression. The inferred type of
/// [right] is computed by this method.
ExpressionInferenceResult _computeBinaryExpression(int fileOffset,
Expression left, DartType leftType, Name binaryName, Expression right) {
ObjectAccessTarget binaryTarget = inferrer.findInterfaceMember(
leftType, binaryName, fileOffset,
includeExtensionMethods: true);
MethodContravarianceCheckKind binaryCheckKind =
inferrer.preCheckInvocationContravariance(leftType, binaryTarget,
isThisReceiver: false);
DartType binaryType = inferrer.getReturnType(binaryTarget, leftType);
DartType rightType =
inferrer.getPositionalParameterTypeForTarget(binaryTarget, leftType, 0);
ExpressionInferenceResult rightResult =
inferrer.inferExpression(right, rightType, true, isVoidAllowed: true);
right = inferrer.ensureAssignableResult(rightType, rightResult);
if (inferrer.isOverloadedArithmeticOperatorAndType(
binaryTarget, leftType)) {
binaryType = inferrer.typeSchemaEnvironment
.getTypeOfOverloadedArithmetic(leftType, rightResult.inferredType);
}
Expression binary;
if (binaryTarget.isMissing) {
binary = inferrer.createMissingBinary(
fileOffset, left, leftType, binaryName, right);
} else if (binaryTarget.isExtensionMember) {
assert(binaryTarget.extensionMethodKind != ProcedureKind.Setter);
binary = new StaticInvocation(
binaryTarget.member,
new Arguments(<Expression>[
left,
right,
], types: binaryTarget.inferredExtensionTypeArguments)
..fileOffset = fileOffset)
..fileOffset = fileOffset;
} else {
binary = new MethodInvocation(
left,
binaryName,
new Arguments(<Expression>[
right,
])
..fileOffset = fileOffset,
binaryTarget.member)
..fileOffset = fileOffset;
if (binaryCheckKind == MethodContravarianceCheckKind.checkMethodReturn) {
if (inferrer.instrumentation != null) {
inferrer.instrumentation.record(
inferrer.uriForInstrumentation,
fileOffset,
'checkReturn',
new InstrumentationValueForType(binaryType));
}
binary = new AsExpression(binary, binaryType)
..isTypeError = true
..fileOffset = fileOffset;
}
}
return new ExpressionInferenceResult(binaryType, binary);
}
/// Creates an index operation of [readTarget] on [receiver] using [index] as
/// the argument.
///
/// [fileOffset] is used as the file offset for created nodes. [receiverType]
/// is the already inferred type of the [receiver] expression. The inferred
/// type of [index] must already have been computed.
ExpressionInferenceResult _computeIndexGet(
int fileOffset,
Expression readReceiver,
DartType receiverType,
ObjectAccessTarget readTarget,
Expression readIndex,
MethodContravarianceCheckKind readCheckKind) {
Expression read;
DartType readType = inferrer.getReturnType(readTarget, receiverType);
if (readTarget.isMissing) {
read = inferrer.createMissingIndexGet(
fileOffset, readReceiver, receiverType, readIndex);
} else if (readTarget.isExtensionMember) {
read = new StaticInvocation(
readTarget.member,
new Arguments(<Expression>[
readReceiver,
readIndex,
], types: readTarget.inferredExtensionTypeArguments)
..fileOffset = fileOffset)
..fileOffset = fileOffset;
} else {
read = new MethodInvocation(
readReceiver,
indexGetName,
new Arguments(<Expression>[
readIndex,
])
..fileOffset = fileOffset,
readTarget.member)
..fileOffset = fileOffset;
if (readCheckKind == MethodContravarianceCheckKind.checkMethodReturn) {
if (inferrer.instrumentation != null) {
inferrer.instrumentation.record(
inferrer.uriForInstrumentation,
fileOffset,
'checkReturn',
new InstrumentationValueForType(readType));
}
read = new AsExpression(read, readType)
..isTypeError = true
..fileOffset = fileOffset;
}
}
return new ExpressionInferenceResult(readType, read);
}
/// Creates an index set operation of [writeTarget] on [receiver] using
/// [index] and [value] as the arguments.
///
/// [fileOffset] is used as the file offset for created nodes. [receiverType]
/// is the already inferred type of the [receiver] expression. The inferred
/// type of [index] and [value] must already have been computed.
Expression _computeIndexSet(
int fileOffset,
Expression receiver,
DartType receiverType,
ObjectAccessTarget writeTarget,
Expression index,
Expression value) {
Expression write;
if (writeTarget.isMissing) {
write = inferrer.createMissingIndexSet(
fileOffset, receiver, receiverType, index, value);
} else if (writeTarget.isExtensionMember) {
assert(writeTarget.extensionMethodKind != ProcedureKind.Setter);
write = new StaticInvocation(
writeTarget.member,
new Arguments(<Expression>[receiver, index, value],
types: writeTarget.inferredExtensionTypeArguments)
..fileOffset = fileOffset)
..fileOffset = fileOffset;
} else {
write = new MethodInvocation(
receiver,
indexSetName,
new Arguments(<Expression>[index, value])..fileOffset = fileOffset,
writeTarget.member)
..fileOffset = fileOffset;
}
return write;
}
/// Creates a property get of [propertyName] on [receiver] of type
/// [receiverType].
///
/// [fileOffset] is used as the file offset for created nodes. [receiverType]
/// is the already inferred type of the [receiver] expression. The
/// [typeContext] is used to create implicit generic tearoff instantiation
/// if necessary. [isThisReceiver] must be set to `true` if the receiver is a
/// `this` expression.
ExpressionInferenceResult _computePropertyGet(
int fileOffset,
Expression receiver,
DartType receiverType,
Name propertyName,
DartType typeContext,
{bool isThisReceiver}) {
assert(isThisReceiver != null);
ObjectAccessTarget readTarget = inferrer.findInterfaceMember(
receiverType, propertyName, fileOffset,
includeExtensionMethods: true);
DartType readType = inferrer.getGetterType(readTarget, receiverType);
Expression read;
if (readTarget.isMissing) {
read = inferrer.createMissingPropertyGet(
fileOffset, receiver, receiverType, propertyName);
} else if (readTarget.isExtensionMember) {
switch (readTarget.extensionMethodKind) {
case ProcedureKind.Getter:
read = new StaticInvocation(
readTarget.member,
new Arguments(<Expression>[
receiver,
], types: readTarget.inferredExtensionTypeArguments)
..fileOffset = fileOffset)
..fileOffset = fileOffset;
break;
case ProcedureKind.Method:
read = new StaticInvocation(
readTarget.tearoffTarget,
new Arguments(<Expression>[
receiver,
], types: readTarget.inferredExtensionTypeArguments)
..fileOffset = fileOffset)
..fileOffset = fileOffset;
return inferrer.instantiateTearOff(readType, typeContext, read);
case ProcedureKind.Setter:
case ProcedureKind.Factory:
case ProcedureKind.Operator:
unhandled('$readTarget', "inferPropertyGet", null, null);
break;
}
} else {
if (readTarget.isInstanceMember &&
inferrer.instrumentation != null &&
receiverType == const DynamicType()) {
inferrer.instrumentation.record(
inferrer.uriForInstrumentation,
fileOffset,
'target',
new InstrumentationValueForMember(readTarget.member));
}
read = new PropertyGet(receiver, propertyName, readTarget.member)
..fileOffset = fileOffset;
bool checkReturn = false;
if (readTarget.isInstanceMember && !isThisReceiver) {
Member interfaceMember = readTarget.member;
if (interfaceMember is Procedure) {
checkReturn =
TypeInferrerImpl.returnedTypeParametersOccurNonCovariantly(
interfaceMember.enclosingClass,
interfaceMember.function.returnType);
} else if (interfaceMember is Field) {
checkReturn =
TypeInferrerImpl.returnedTypeParametersOccurNonCovariantly(
interfaceMember.enclosingClass, interfaceMember.type);
}
}
if (checkReturn) {
if (inferrer.instrumentation != null) {
inferrer.instrumentation.record(
inferrer.uriForInstrumentation,
fileOffset,
'checkReturn',
new InstrumentationValueForType(readType));
}
read = new AsExpression(read, readType)
..isTypeError = true
..fileOffset = fileOffset;
}
Member member = readTarget.member;
if (member is Procedure && member.kind == ProcedureKind.Method) {
return inferrer.instantiateTearOff(readType, typeContext, read);
}
}
return new ExpressionInferenceResult(readType, read);
}
/// Creates a property set operation of [writeTarget] on [receiver] using
/// [value] as the right-hand side.
///
/// [fileOffset] is used as the file offset for created nodes. [propertyName]
/// is used for error reporting. [receiverType] is the already inferred type
/// of the [receiver] expression. The inferred type of [value] must already
/// have been computed.
///
/// If [forEffect] the resulting expression is ensured to return the [value]
/// of static type [valueType]. This is needed for extension setters which are
/// encoded as static method calls that do not implicitly return the value.
Expression _computePropertySet(
int fileOffset,
Expression receiver,
DartType receiverType,
Name propertyName,
ObjectAccessTarget writeTarget,
Expression value,
{DartType valueType,
bool forEffect}) {
assert(forEffect != null);
assert(forEffect || valueType != null,
"No value type provided for property set needed for value.");
Expression write;
if (writeTarget.isMissing) {
write = inferrer.createMissingPropertySet(
fileOffset, receiver, receiverType, propertyName, value,
forEffect: forEffect);
} else if (writeTarget.isExtensionMember) {
if (forEffect) {
write = new StaticInvocation(
writeTarget.member,
new Arguments(<Expression>[receiver, value],
types: writeTarget.inferredExtensionTypeArguments)
..fileOffset = fileOffset)
..fileOffset = fileOffset;
} else {
VariableDeclaration valueVariable = createVariable(value, valueType);
VariableDeclaration assignmentVariable = createVariable(
new StaticInvocation(
writeTarget.member,
new Arguments(
<Expression>[receiver, createVariableGet(valueVariable)],
types: writeTarget.inferredExtensionTypeArguments)
..fileOffset = fileOffset)
..fileOffset = fileOffset,
const VoidType());
write = createLet(valueVariable,
createLet(assignmentVariable, createVariableGet(valueVariable)))
..fileOffset = fileOffset;
}
} else {
write = new PropertySet(receiver, propertyName, value, writeTarget.member)
..fileOffset = fileOffset;
}
return write;
}
ExpressionInferenceResult visitCompoundIndexSet(
CompoundIndexSet node, DartType typeContext) {
ExpressionInferenceResult receiverResult = inferrer.inferExpression(
node.receiver, const UnknownType(), true,
isVoidAllowed: true);
Expression receiver;
NullAwareGuard nullAwareGuard;
if (inferrer.isNonNullableByDefault) {
nullAwareGuard = receiverResult.nullAwareGuard;
receiver = receiverResult.nullAwareAction;
} else {
receiver = receiverResult.expression;
}
VariableDeclaration receiverVariable;
DartType receiverType = receiverResult.inferredType;
Expression readReceiver = receiver;
Expression writeReceiver;
if (node.readOnlyReceiver) {
writeReceiver = readReceiver.accept<TreeNode>(new CloneVisitor());
} else {
receiverVariable = createVariable(readReceiver, receiverType);
readReceiver = createVariableGet(receiverVariable);
writeReceiver = createVariableGet(receiverVariable);
}
ObjectAccessTarget readTarget = inferrer.findInterfaceMember(
receiverType, indexGetName, node.readOffset,
includeExtensionMethods: true);
MethodContravarianceCheckKind readCheckKind =
inferrer.preCheckInvocationContravariance(receiverType, readTarget,
isThisReceiver: node.receiver is ThisExpression);
DartType readIndexType = inferrer.getPositionalParameterTypeForTarget(
readTarget, receiverType, 0);
ExpressionInferenceResult indexResult = inferrer
.inferExpression(node.index, readIndexType, true, isVoidAllowed: true);
VariableDeclaration indexVariable = createVariableForResult(indexResult);
Expression readIndex = createVariableGet(indexVariable);
readIndex = inferrer.ensureAssignable(
readIndexType, indexResult.inferredType, readIndex);
ExpressionInferenceResult readResult = _computeIndexGet(node.readOffset,
readReceiver, receiverType, readTarget, readIndex, readCheckKind);
Expression read = readResult.expression;
DartType readType = readResult.inferredType;
VariableDeclaration leftVariable;
Expression left;
if (node.forEffect) {
left = read;
} else if (node.forPostIncDec) {
leftVariable = createVariable(read, readType);
left = createVariableGet(leftVariable);
} else {
left = read;
}
ExpressionInferenceResult binaryResult = _computeBinaryExpression(
node.binaryOffset, left, readType, node.binaryName, node.rhs);
Expression binary = binaryResult.expression;
DartType binaryType = binaryResult.inferredType;
ObjectAccessTarget writeTarget = inferrer.findInterfaceMember(
receiverType, indexSetName, node.writeOffset,
includeExtensionMethods: true);
DartType writeIndexType = inferrer.getPositionalParameterTypeForTarget(
writeTarget, receiverType, 0);
Expression writeIndex = createVariableGet(indexVariable);
writeIndex = inferrer.ensureAssignable(
writeIndexType, indexResult.inferredType, writeIndex);
DartType valueType =
inferrer.getIndexSetValueType(writeTarget, receiverType);
binary = inferrer.ensureAssignable(valueType, binaryType, binary,
fileOffset: node.fileOffset);
VariableDeclaration valueVariable;
Expression valueExpression;
if (node.forEffect || node.forPostIncDec) {
valueExpression = binary;
} else {
valueVariable = createVariable(binary, binaryType);
valueExpression = createVariableGet(valueVariable);
}
Expression write = _computeIndexSet(node.writeOffset, writeReceiver,
receiverType, writeTarget, writeIndex, valueExpression);
Expression inner;
if (node.forEffect) {
assert(leftVariable == null);
assert(valueVariable == null);
// Encode `o[a] += b` as:
//
// let v1 = o in let v2 = a in v1.[]=(v2, v1.[](v2) + b)
//
inner = createLet(indexVariable, write);
} else if (node.forPostIncDec) {
// Encode `o[a]++` as:
//
// let v1 = o in
// let v2 = a in
// let v3 = v1.[](v2)
// let v4 = v1.[]=(v2, c3 + b) in v3
//
assert(leftVariable != null);
assert(valueVariable == null);
VariableDeclaration writeVariable =
createVariable(write, const VoidType());
inner = createLet(
indexVariable,
createLet(leftVariable,
createLet(writeVariable, createVariableGet(leftVariable))));
} else {
// Encode `o[a] += b` as:
//
// let v1 = o in
// let v2 = a in
// let v3 = v1.[](v2) + b
// let v4 = v1.[]=(v2, c3) in v3
//
assert(leftVariable == null);
assert(valueVariable != null);
VariableDeclaration writeVariable =
createVariable(write, const VoidType());
inner = createLet(
indexVariable,
createLet(valueVariable,
createLet(writeVariable, createVariableGet(valueVariable))));
}
Expression replacement;
if (receiverVariable != null) {
replacement = new Let(receiverVariable, inner)
..fileOffset = node.fileOffset;
} else {
replacement = inner;
}
return new ExpressionInferenceResult.nullAware(
node.forPostIncDec ? readType : binaryType,
replacement,
nullAwareGuard);
}
ExpressionInferenceResult visitNullAwareCompoundSet(
NullAwareCompoundSet node, DartType typeContext) {
ExpressionInferenceResult receiverResult = inferrer.inferExpression(
node.receiver, const UnknownType(), true,
isVoidAllowed: true);
DartType receiverType = receiverResult.inferredType;
VariableDeclaration receiverVariable =
createVariableForResult(receiverResult);
Expression readReceiver = createVariableGet(receiverVariable);
Expression writeReceiver = createVariableGet(receiverVariable);
Member equalsMember = inferrer
.findInterfaceMember(receiverType, equalsName, node.receiver.fileOffset)
.member;
ExpressionInferenceResult readResult = _computePropertyGet(node.readOffset,
readReceiver, receiverType, node.propertyName, const UnknownType(),
isThisReceiver: node.receiver is ThisExpression);
Expression read = readResult.expression;
DartType readType = readResult.inferredType;
VariableDeclaration leftVariable;
Expression left;
if (node.forEffect) {
left = read;
} else if (node.forPostIncDec) {
leftVariable = createVariable(read, readType);
left = createVariableGet(leftVariable);
} else {
left = read;
}
ExpressionInferenceResult binaryResult = _computeBinaryExpression(
node.binaryOffset, left, readType, node.binaryName, node.rhs);
Expression binary = binaryResult.expression;
DartType binaryType = binaryResult.inferredType;
ObjectAccessTarget writeTarget = inferrer.findInterfaceMember(
receiverType, node.propertyName, node.writeOffset,
setter: true, includeExtensionMethods: true);
DartType valueType = inferrer.getSetterType(writeTarget, receiverType);
binary = inferrer.ensureAssignable(valueType, binaryType, binary,
fileOffset: node.fileOffset);
VariableDeclaration valueVariable;
Expression valueExpression;
if (node.forEffect || node.forPostIncDec) {
valueExpression = binary;
} else {
valueVariable = createVariable(binary, binaryType);
valueExpression = createVariableGet(valueVariable);
}
Expression write = _computePropertySet(node.writeOffset, writeReceiver,
receiverType, node.propertyName, writeTarget, valueExpression,
forEffect: true);
DartType resultType = node.forPostIncDec ? readType : binaryType;
Expression action;
if (node.forEffect) {
assert(leftVariable == null);
assert(valueVariable == null);
// Encode `receiver?.propertyName binaryName= rhs` as:
//
// let receiverVariable = receiver in
// receiverVariable == null ? null :
// receiverVariable.propertyName =
// receiverVariable.propertyName + rhs
//
action = write;
} else if (node.forPostIncDec) {
// Encode `receiver?.propertyName binaryName= rhs` from a postfix
// expression like `o?.a++` as:
//
// let receiverVariable = receiver in
// receiverVariable == null ? null :
// let leftVariable = receiverVariable.propertyName in
// let writeVariable =
// receiverVariable.propertyName =
// leftVariable binaryName rhs in
// leftVariable
//
assert(leftVariable != null);
assert(valueVariable == null);
VariableDeclaration writeVariable =
createVariable(write, const VoidType());
action = createLet(leftVariable,
createLet(writeVariable, createVariableGet(leftVariable)));
} else {
// Encode `receiver?.propertyName binaryName= rhs` as:
//
// let receiverVariable = receiver in
// receiverVariable == null ? null :
// let leftVariable = receiverVariable.propertyName in
// let valueVariable = leftVariable binaryName rhs in
// let writeVariable =
// receiverVariable.propertyName = valueVariable in
// valueVariable
//
// TODO(johnniwinther): Do we need the `leftVariable` in this case?
assert(leftVariable == null);
assert(valueVariable != null);
VariableDeclaration writeVariable =
createVariable(write, const VoidType());
action = createLet(valueVariable,
createLet(writeVariable, createVariableGet(valueVariable)));
}
return new ExpressionInferenceResult.nullAware(resultType, action,
new NullAwareGuard(receiverVariable, node.fileOffset, equalsMember));
}
ExpressionInferenceResult visitCompoundSuperIndexSet(
CompoundSuperIndexSet node, DartType typeContext) {
ObjectAccessTarget readTarget = node.getter != null
? new ObjectAccessTarget.interfaceMember(node.getter)
: const ObjectAccessTarget.missing();
DartType readType = inferrer.getReturnType(readTarget, inferrer.thisType);
DartType readIndexType = inferrer.getPositionalParameterTypeForTarget(
readTarget, inferrer.thisType, 0);
ExpressionInferenceResult indexResult = inferrer
.inferExpression(node.index, readIndexType, true, isVoidAllowed: true);
VariableDeclaration indexVariable = createVariableForResult(indexResult);
Expression readIndex = createVariableGet(indexVariable);
readIndex = inferrer.ensureAssignable(
readIndexType, indexResult.inferredType, readIndex);
Expression read;
if (readTarget.isMissing) {
read = inferrer.createMissingSuperIndexGet(node.readOffset, readIndex);
} else {
assert(readTarget.isInstanceMember);
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
node.readOffset,
'target',
new InstrumentationValueForMember(node.getter));
read = new SuperMethodInvocation(
indexGetName,
new Arguments(<Expression>[
readIndex,
])
..fileOffset = node.readOffset,
readTarget.member)
..fileOffset = node.readOffset;
}
VariableDeclaration leftVariable;
Expression left;
if (node.forEffect) {
left = read;
} else if (node.forPostIncDec) {
leftVariable = createVariable(read, readType);
left = createVariableGet(leftVariable);
} else {
left = read;
}
ExpressionInferenceResult binaryResult = _computeBinaryExpression(
node.binaryOffset, left, readType, node.binaryName, node.rhs);
Expression binary = binaryResult.expression;
DartType binaryType = binaryResult.inferredType;
ObjectAccessTarget writeTarget = node.setter != null
? new ObjectAccessTarget.interfaceMember(node.setter)
: const ObjectAccessTarget.missing();
DartType writeIndexType = inferrer.getPositionalParameterTypeForTarget(
writeTarget, inferrer.thisType, 0);
Expression writeIndex = createVariableGet(indexVariable);
writeIndex = inferrer.ensureAssignable(
writeIndexType, indexResult.inferredType, writeIndex);
DartType valueType =
inferrer.getIndexSetValueType(writeTarget, inferrer.thisType);
Expression binaryReplacement = inferrer.ensureAssignable(
valueType, binaryType, binary,
fileOffset: node.fileOffset);
if (binaryReplacement != null) {
binary = binaryReplacement;
}
VariableDeclaration valueVariable;
Expression valueExpression;
if (node.forEffect || node.forPostIncDec) {
valueExpression = binary;
} else {
valueVariable = createVariable(binary, binaryType);
valueExpression = createVariableGet(valueVariable);
}
Expression write;
if (writeTarget.isMissing) {
write = inferrer.createMissingSuperIndexSet(
node.writeOffset, writeIndex, valueExpression);
} else {
assert(writeTarget.isInstanceMember);
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
node.writeOffset,
'target',
new InstrumentationValueForMember(node.setter));
write = new SuperMethodInvocation(
indexSetName,
new Arguments(<Expression>[writeIndex, valueExpression])
..fileOffset = node.writeOffset,
writeTarget.member)
..fileOffset = node.writeOffset;
}
Expression replacement;
if (node.forEffect) {
assert(leftVariable == null);
assert(valueVariable == null);
// Encode `super[a] += b` as:
//
// let v1 = a in super.[]=(v1, super.[](v1) + b)
//
replacement = createLet(indexVariable, write);
} else if (node.forPostIncDec) {
// Encode `super[a]++` as:
//
// let v2 = a in
// let v3 = v1.[](v2)
// let v4 = v1.[]=(v2, v3 + 1) in v3
//
assert(leftVariable != null);
assert(valueVariable == null);
VariableDeclaration writeVariable =
createVariable(write, const VoidType());
replacement = createLet(
indexVariable,
createLet(leftVariable,
createLet(writeVariable, createVariableGet(leftVariable))));
} else {
// Encode `super[a] += b` as:
//
// let v1 = o in
// let v2 = a in
// let v3 = v1.[](v2) + b
// let v4 = v1.[]=(v2, c3) in v3
//
assert(leftVariable == null);
assert(valueVariable != null);
VariableDeclaration writeVariable =
createVariable(write, const VoidType());
replacement = createLet(
indexVariable,
createLet(valueVariable,
createLet(writeVariable, createVariableGet(valueVariable))));
}
return new ExpressionInferenceResult(
node.forPostIncDec ? readType : binaryType, replacement);
}
ExpressionInferenceResult visitCompoundExtensionIndexSet(
CompoundExtensionIndexSet node, DartType typeContext) {
ExpressionInferenceResult receiverResult = inferrer.inferExpression(
node.receiver, const UnknownType(), true,
isVoidAllowed: false);
List<DartType> extensionTypeArguments =
inferrer.computeExtensionTypeArgument(node.extension,
node.explicitTypeArguments, receiverResult.inferredType);
ObjectAccessTarget readTarget = node.getter != null
? new ExtensionAccessTarget(
node.getter, null, ProcedureKind.Operator, extensionTypeArguments)
: const ObjectAccessTarget.missing();
DartType receiverType = inferrer.getPositionalParameterTypeForTarget(
readTarget, receiverResult.inferredType, 0);
Expression receiver =
inferrer.ensureAssignableResult(receiverType, receiverResult);
VariableDeclaration receiverVariable =
createVariable(receiver, receiverType);
DartType readIndexType = inferrer.getPositionalParameterTypeForTarget(
readTarget, receiverType, 0);
ExpressionInferenceResult indexResult = inferrer
.inferExpression(node.index, readIndexType, true, isVoidAllowed: true);
VariableDeclaration indexVariable = createVariableForResult(indexResult);
Expression readIndex = createVariableGet(indexVariable);
readIndex = inferrer.ensureAssignable(
readIndexType, indexResult.inferredType, readIndex);
ExpressionInferenceResult readResult = _computeIndexGet(
node.readOffset,
createVariableGet(receiverVariable),
receiverType,
readTarget,
readIndex,
MethodContravarianceCheckKind.none);
Expression read = readResult.expression;
DartType readType = readResult.inferredType;
VariableDeclaration leftVariable;
Expression left;
if (node.forEffect) {
left = read;
} else if (node.forPostIncDec) {
leftVariable = createVariable(read, readType);
left = createVariableGet(leftVariable);
} else {
left = read;
}
ExpressionInferenceResult binaryResult = _computeBinaryExpression(
node.binaryOffset, left, readType, node.binaryName, node.rhs);
Expression binary = binaryResult.expression;
DartType binaryType = binaryResult.inferredType;
ObjectAccessTarget writeTarget = node.setter != null
? new ExtensionAccessTarget(
node.setter, null, ProcedureKind.Operator, extensionTypeArguments)
: const ObjectAccessTarget.missing();
DartType writeIndexType = inferrer.getPositionalParameterTypeForTarget(
writeTarget, receiverType, 0);
Expression writeIndex = createVariableGet(indexVariable);
writeIndex = inferrer.ensureAssignable(
writeIndexType, indexResult.inferredType, writeIndex);
DartType valueType =
inferrer.getIndexSetValueType(writeTarget, inferrer.thisType);
binary = inferrer.ensureAssignable(valueType, binaryType, binary,
fileOffset: node.fileOffset);
VariableDeclaration valueVariable;
Expression valueExpression;
if (node.forEffect || node.forPostIncDec) {
valueExpression = binary;
} else {
valueVariable = createVariable(binary, binaryType);
valueExpression = createVariableGet(valueVariable);
}
Expression write = _computeIndexSet(
node.writeOffset,
createVariableGet(receiverVariable),
receiverType,
writeTarget,
writeIndex,
valueExpression);
Expression inner;
if (node.forEffect) {
assert(leftVariable == null);
assert(valueVariable == null);
// Encode `Extension(o)[a] += b` as:
//
// let receiverVariable = o in
// let indexVariable = a in
// receiverVariable.[]=(receiverVariable, o.[](indexVariable) + b)
//
inner = createLet(indexVariable, write);
} else if (node.forPostIncDec) {
// Encode `Extension(o)[a]++` as:
//
// let receiverVariable = o in
// let indexVariable = a in
// let leftVariable = receiverVariable.[](indexVariable)
// let writeVariable =
// receiverVariable.[]=(indexVariable, leftVariable + 1) in
// leftVariable
//
assert(leftVariable != null);
assert(valueVariable == null);
VariableDeclaration writeVariable =
createVariable(write, const VoidType());
inner = createLet(
indexVariable,
createLet(leftVariable,
createLet(writeVariable, createVariableGet(leftVariable))));
} else {
// Encode `Extension(o)[a] += b` as:
//
// let receiverVariable = o in
// let indexVariable = a in
// let valueVariable = receiverVariable.[](indexVariable) + b
// let writeVariable =
// receiverVariable.[]=(indexVariable, valueVariable) in
// valueVariable
//
assert(leftVariable == null);
assert(valueVariable != null);
VariableDeclaration writeVariable =
createVariable(write, const VoidType());
inner = createLet(
indexVariable,
createLet(valueVariable,
createLet(writeVariable, createVariableGet(valueVariable))));
}
Expression replacement = new Let(receiverVariable, inner)
..fileOffset = node.fileOffset;
return new ExpressionInferenceResult(
node.forPostIncDec ? readType : binaryType, replacement);
}
@override
ExpressionInferenceResult visitNullLiteral(
NullLiteral node, DartType typeContext) {
return new ExpressionInferenceResult(inferrer.coreTypes.nullType, node);
}
@override
ExpressionInferenceResult visitLet(Let node, DartType typeContext) {
DartType variableType = node.variable.type;
ExpressionInferenceResult initializerResult = inferrer.inferExpression(
node.variable.initializer, variableType, true,
isVoidAllowed: true);
node.variable.initializer = initializerResult.expression
..parent = node.variable;
ExpressionInferenceResult bodyResult = inferrer
.inferExpression(node.body, typeContext, true, isVoidAllowed: true);
node.body = bodyResult.expression..parent = node;
DartType inferredType = bodyResult.inferredType;
return new ExpressionInferenceResult(inferredType, node);
}
@override
ExpressionInferenceResult visitPropertySet(
covariant PropertySetImpl node, DartType typeContext) {
ExpressionInferenceResult receiverResult = inferrer.inferExpression(
node.receiver, const UnknownType(), true,
isVoidAllowed: false);
DartType receiverType = receiverResult.inferredType;
Expression receiver;
NullAwareGuard nullAwareGuard;
if (inferrer.isNonNullableByDefault) {
nullAwareGuard = receiverResult.nullAwareGuard;
receiver = receiverResult.nullAwareAction;
} else {
receiver = receiverResult.expression;
}
ObjectAccessTarget target = inferrer.findInterfaceMember(
receiverType, node.name, node.fileOffset,
setter: true, instrumented: true, includeExtensionMethods: true);
if (target.isInstanceMember) {
if (inferrer.instrumentation != null &&
receiverType == const DynamicType()) {
inferrer.instrumentation.record(
inferrer.uriForInstrumentation,
node.fileOffset,
'target',
new InstrumentationValueForMember(target.member));
}
node.interfaceTarget = target.member;
}
DartType writeContext = inferrer.getSetterType(target, receiverType);
ExpressionInferenceResult rhsResult = inferrer.inferExpression(
node.value, writeContext ?? const UnknownType(), true,
isVoidAllowed: true);
DartType rhsType = rhsResult.inferredType;
Expression rhs = inferrer.ensureAssignableResult(writeContext, rhsResult,
fileOffset: node.fileOffset, isVoidAllowed: writeContext is VoidType);
Expression replacement = _computePropertySet(
node.fileOffset, receiver, receiverType, node.name, target, rhs,
valueType: rhsType, forEffect: node.forEffect);
return new ExpressionInferenceResult.nullAware(
rhsType, replacement, nullAwareGuard);
}
ExpressionInferenceResult visitNullAwareIfNullSet(
NullAwareIfNullSet node, DartType typeContext) {
ExpressionInferenceResult receiverResult = inferrer.inferExpression(
node.receiver, const UnknownType(), true,
isVoidAllowed: false);
DartType receiverType = receiverResult.inferredType;
VariableDeclaration receiverVariable =
createVariableForResult(receiverResult);
Expression readReceiver = createVariableGet(receiverVariable);
Expression writeReceiver = createVariableGet(receiverVariable);
Member receiverEqualsMember = inferrer
.findInterfaceMember(receiverType, equalsName, node.receiver.fileOffset)
.member;
ExpressionInferenceResult readResult = _computePropertyGet(
node.readOffset, readReceiver, receiverType, node.name, typeContext,
isThisReceiver: node.receiver is ThisExpression);
Expression read = readResult.expression;
DartType readType = readResult.inferredType;
Member readEqualsMember = inferrer
.findInterfaceMember(readType, equalsName, node.testOffset)
.member;
VariableDeclaration readVariable;
if (!node.forEffect) {
readVariable = createVariable(read, readType);
read = createVariableGet(readVariable);
}
ObjectAccessTarget writeTarget = inferrer.findInterfaceMember(
receiverType, node.name, node.writeOffset,
setter: true, includeExtensionMethods: true);
DartType valueType = inferrer.getSetterType(writeTarget, receiverType);
ExpressionInferenceResult valueResult = inferrer
.inferExpression(node.value, valueType, true, isVoidAllowed: true);
Expression value = inferrer.ensureAssignableResult(valueType, valueResult);
Expression write = _computePropertySet(node.writeOffset, writeReceiver,
receiverType, node.name, writeTarget, value,
valueType: valueResult.inferredType, forEffect: node.forEffect);
DartType inferredType = inferrer.typeSchemaEnvironment
.getStandardUpperBound(readType, valueResult.inferredType);
Expression replacement;
if (node.forEffect) {
assert(readVariable == null);
// Encode `receiver?.name ??= value` as:
//
// let receiverVariable = receiver in
// receiverVariable == null ? null :
// (receiverVariable.name == null ?
// receiverVariable.name = value : null)
//
MethodInvocation receiverEqualsNull = createEqualsNull(
receiverVariable.fileOffset,
createVariableGet(receiverVariable),
receiverEqualsMember);
MethodInvocation readEqualsNull =
createEqualsNull(node.readOffset, read, readEqualsMember);
ConditionalExpression innerCondition = new ConditionalExpression(
readEqualsNull,
write,
new NullLiteral()..fileOffset = node.writeOffset,
inferredType);
ConditionalExpression outerCondition = new ConditionalExpression(
receiverEqualsNull,
new NullLiteral()..fileOffset = node.readOffset,
innerCondition,
inferredType);
replacement = createLet(receiverVariable, outerCondition);
} else {
// Encode `receiver?.name ??= value` as:
//
// let receiverVariable = receiver in
// receiverVariable == null ? null :
// (let readVariable = receiverVariable.name in
// readVariable == null ?
// receiverVariable.name = value : readVariable)
//
assert(readVariable != null);
MethodInvocation receiverEqualsNull = createEqualsNull(
receiverVariable.fileOffset,
createVariableGet(receiverVariable),
receiverEqualsMember);
MethodInvocation readEqualsNull =
createEqualsNull(receiverVariable.fileOffset, read, readEqualsMember);
ConditionalExpression innerCondition = new ConditionalExpression(
readEqualsNull, write, createVariableGet(readVariable), inferredType);
ConditionalExpression outerCondition = new ConditionalExpression(
receiverEqualsNull,
new NullLiteral()..fileOffset = node.readOffset,
createLet(readVariable, innerCondition),
inferredType);
replacement = createLet(receiverVariable, outerCondition);
}
return new ExpressionInferenceResult(inferredType, replacement);
}
@override
ExpressionInferenceResult visitPropertyGet(
PropertyGet node, DartType typeContext) {
ExpressionInferenceResult result =
inferrer.inferExpression(node.receiver, const UnknownType(), true);
NullAwareGuard nullAwareGuard;
Expression receiver;
if (inferrer.isNonNullableByDefault) {
nullAwareGuard = result.nullAwareGuard;
receiver = result.nullAwareAction;
} else {
receiver = result.expression;
}
node.receiver = receiver..parent = node;
DartType receiverType = result.inferredType;
ExpressionInferenceResult readResult = _computePropertyGet(
node.fileOffset, receiver, receiverType, node.name, typeContext,
isThisReceiver: node.receiver is ThisExpression);
return new ExpressionInferenceResult.nullAware(
readResult.inferredType, readResult.expression, nullAwareGuard);
}
@override
void visitRedirectingInitializer(RedirectingInitializer node) {
List<TypeParameter> classTypeParameters =
node.target.enclosingClass.typeParameters;
List<DartType> typeArguments =
new List<DartType>(classTypeParameters.length);
for (int i = 0; i < typeArguments.length; i++) {
typeArguments[i] = new TypeParameterType(classTypeParameters[i]);
}
ArgumentsImpl.setNonInferrableArgumentTypes(node.arguments, typeArguments);
inferrer.inferInvocation(null, node.fileOffset,
node.target.function.thisFunctionType, node.arguments,
returnType: node.target.enclosingClass.thisType,
skipTypeArgumentInference: true);
ArgumentsImpl.removeNonInferrableArgumentTypes(node.arguments);
}
@override
ExpressionInferenceResult visitRethrow(Rethrow node, DartType typeContext) {
inferrer.flowAnalysis.handleExit();
return new ExpressionInferenceResult(const BottomType(), node);
}
@override
void visitReturnStatement(covariant ReturnStatementImpl node) {
ClosureContext closureContext = inferrer.closureContext;
DartType typeContext = !closureContext.isGenerator
? closureContext.returnOrYieldContext
: const UnknownType();
DartType inferredType;
if (node.expression != null) {
ExpressionInferenceResult expressionResult = inferrer.inferExpression(
node.expression, typeContext, true,
isVoidAllowed: true);
node.expression = expressionResult.expression..parent = node;
inferredType = expressionResult.inferredType;
} else {
inferredType = inferrer.coreTypes.nullType;
}
closureContext.handleReturn(inferrer, node, inferredType, node.isArrow);
inferrer.flowAnalysis.handleExit();
}
@override
ExpressionInferenceResult visitSetLiteral(
SetLiteral node, DartType typeContext) {
Class setClass = inferrer.coreTypes.setClass;
InterfaceType setType = setClass.thisType;
List<DartType> inferredTypes;
DartType inferredTypeArgument;
List<DartType> formalTypes;
List<DartType> actualTypes;
bool inferenceNeeded = node.typeArgument is ImplicitTypeArgument;
bool typeChecksNeeded = !inferrer.isTopLevel;
Map<TreeNode, DartType> inferredSpreadTypes;
Map<Expression, DartType> inferredConditionTypes;
if (inferenceNeeded || typeChecksNeeded) {
formalTypes = [];
actualTypes = [];
inferredSpreadTypes = new Map<TreeNode, DartType>.identity();
inferredConditionTypes = new Map<Expression, DartType>.identity();
}
if (inferenceNeeded) {
inferredTypes = [const UnknownType()];
inferrer.typeSchemaEnvironment.inferGenericFunctionOrType(setType,
setClass.typeParameters, null, null, typeContext, inferredTypes,
isConst: node.isConst);
inferredTypeArgument = inferredTypes[0];
} else {
inferredTypeArgument = node.typeArgument;
}
if (inferenceNeeded || typeChecksNeeded) {
for (int index = 0; index < node.expressions.length; ++index) {
ExpressionInferenceResult result = inferElement(
node.expressions[index],
inferredTypeArgument,
inferredSpreadTypes,
inferredConditionTypes,
inferenceNeeded,
typeChecksNeeded);
node.expressions[index] = result.expression..parent = node;
actualTypes.add(result.inferredType);
if (inferenceNeeded) {
formalTypes.add(setType.typeArguments[0]);
}
}
}
if (inferenceNeeded) {
inferrer.typeSchemaEnvironment.inferGenericFunctionOrType(
setType,
setClass.typeParameters,
formalTypes,
actualTypes,
typeContext,
inferredTypes);
inferredTypeArgument = inferredTypes[0];
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
node.fileOffset,
'typeArgs',
new InstrumentationValueForTypeArgs([inferredTypeArgument]));
node.typeArgument = inferredTypeArgument;
}
if (typeChecksNeeded) {
for (int i = 0; i < node.expressions.length; i++) {
checkElement(node.expressions[i], node, node.typeArgument,
inferredSpreadTypes, inferredConditionTypes);
}
}
DartType inferredType = new InterfaceType(setClass, [inferredTypeArgument]);
if (!inferrer.isTopLevel) {
SourceLibraryBuilder library = inferrer.library;
if (inferenceNeeded) {
library.checkBoundsInSetLiteral(
node, inferrer.typeSchemaEnvironment, inferrer.helper.uri,
inferred: true);
}
if (!library.loader.target.backendTarget.supportsSetLiterals) {
inferrer.helper.transformSetLiterals = true;
}
}
return new ExpressionInferenceResult(inferredType, node);
}
@override
ExpressionInferenceResult visitStaticSet(
StaticSet node, DartType typeContext) {
Member writeMember = node.target;
DartType writeContext = writeMember.setterType;
TypeInferenceEngine.resolveInferenceNode(writeMember);
ExpressionInferenceResult rhsResult = inferrer.inferExpression(
node.value, writeContext ?? const UnknownType(), true,
isVoidAllowed: true);
Expression rhs = inferrer.ensureAssignableResult(writeContext, rhsResult,
fileOffset: node.fileOffset, isVoidAllowed: writeContext is VoidType);
node.value = rhs..parent = node;
DartType rhsType = rhsResult.inferredType;
return new ExpressionInferenceResult(rhsType, node);
}
@override
ExpressionInferenceResult visitStaticGet(
StaticGet node, DartType typeContext) {
Member target = node.target;
TypeInferenceEngine.resolveInferenceNode(target);
DartType type = target.getterType;
if (target is Procedure && target.kind == ProcedureKind.Method) {
return inferrer.instantiateTearOff(type, typeContext, node);
} else {
return new ExpressionInferenceResult(type, node);
}
}
@override
ExpressionInferenceResult visitStaticInvocation(
StaticInvocation node, DartType typeContext) {
FunctionType calleeType = node.target != null
? node.target.function.functionType
: new FunctionType([], const DynamicType());
TypeArgumentsInfo typeArgumentsInfo = getTypeArgumentsInfo(node.arguments);
DartType inferredType = inferrer.inferInvocation(
typeContext, node.fileOffset, calleeType, node.arguments);
if (!inferrer.isTopLevel && node.target != null) {
inferrer.library.checkBoundsInStaticInvocation(
node,
inferrer.typeSchemaEnvironment,
inferrer.helper.uri,
typeArgumentsInfo);
}
return new ExpressionInferenceResult(inferredType, node);
}
@override
ExpressionInferenceResult visitStringConcatenation(
StringConcatenation node, DartType typeContext) {
if (!inferrer.isTopLevel) {
for (int index = 0; index < node.expressions.length; index++) {
ExpressionInferenceResult result = inferrer.inferExpression(
node.expressions[index], const UnknownType(), !inferrer.isTopLevel,
isVoidAllowed: false);
node.expressions[index] = result.expression..parent = node;
}
}
return new ExpressionInferenceResult(
inferrer.coreTypes.stringRawType(inferrer.library.nonNullable), node);
}
@override
ExpressionInferenceResult visitStringLiteral(
StringLiteral node, DartType typeContext) {
return new ExpressionInferenceResult(
inferrer.coreTypes.stringRawType(inferrer.library.nonNullable), node);
}
@override
void visitSuperInitializer(SuperInitializer node) {
Substitution substitution = Substitution.fromSupertype(
inferrer.classHierarchy.getClassAsInstanceOf(
inferrer.thisType.classNode, node.target.enclosingClass));
inferrer.inferInvocation(
null,
node.fileOffset,
substitution.substituteType(
node.target.function.thisFunctionType.withoutTypeParameters),
node.arguments,
returnType: inferrer.thisType,
skipTypeArgumentInference: true);
}
@override
ExpressionInferenceResult visitSuperMethodInvocation(
SuperMethodInvocation node, DartType typeContext) {
if (node.interfaceTarget != null) {
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
node.fileOffset,
'target',
new InstrumentationValueForMember(node.interfaceTarget));
}
return inferrer.inferSuperMethodInvocation(
node,
typeContext,
node.interfaceTarget != null
? new ObjectAccessTarget.interfaceMember(node.interfaceTarget)
: const ObjectAccessTarget.unresolved());
}
@override
ExpressionInferenceResult visitSuperPropertyGet(
SuperPropertyGet node, DartType typeContext) {
if (node.interfaceTarget != null) {
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
node.fileOffset,
'target',
new InstrumentationValueForMember(node.interfaceTarget));
}
return inferrer.inferSuperPropertyGet(
node,
typeContext,
node.interfaceTarget != null
? new ObjectAccessTarget.interfaceMember(node.interfaceTarget)
: const ObjectAccessTarget.unresolved());
}
@override
ExpressionInferenceResult visitSuperPropertySet(
SuperPropertySet node, DartType typeContext) {
DartType receiverType = inferrer.classHierarchy.getTypeAsInstanceOf(
inferrer.thisType, inferrer.thisType.classNode.supertype.classNode);
ObjectAccessTarget writeTarget = inferrer.findInterfaceMember(
receiverType, node.name, node.fileOffset,
setter: true, instrumented: true);
if (writeTarget.isInstanceMember) {
node.interfaceTarget = writeTarget.member;
}
DartType writeContext = inferrer.getSetterType(writeTarget, receiverType);
ExpressionInferenceResult rhsResult = inferrer.inferExpression(
node.value, writeContext ?? const UnknownType(), true,
isVoidAllowed: true);
Expression rhs = inferrer.ensureAssignableResult(writeContext, rhsResult,
fileOffset: node.fileOffset, isVoidAllowed: writeContext is VoidType);
node.value = rhs..parent = node;
return new ExpressionInferenceResult(rhsResult.inferredType, node);
}
@override
void visitSwitchStatement(SwitchStatement node) {
ExpressionInferenceResult expressionResult = inferrer.inferExpression(
node.expression, const UnknownType(), true,
isVoidAllowed: false);
node.expression = expressionResult.expression..parent = node;
DartType expressionType = expressionResult.inferredType;
inferrer.flowAnalysis.switchStatement_expressionEnd(node);
bool hasDefault = false;
for (SwitchCase switchCase in node.cases) {
hasDefault = hasDefault || switchCase.isDefault;
// TODO(dmitryas): Pass in the actual value for the first parameter.
inferrer.flowAnalysis.switchStatement_beginCase(false, node);
for (int index = 0; index < switchCase.expressions.length; index++) {
ExpressionInferenceResult caseExpressionResult =
inferrer.inferExpression(
switchCase.expressions[index], expressionType, true,
isVoidAllowed: false);
Expression caseExpression = caseExpressionResult.expression;
switchCase.expressions[index] = caseExpression..parent = switchCase;
DartType caseExpressionType = caseExpressionResult.inferredType;
// Check whether the expression type is assignable to the case
// expression type.
if (!inferrer.isAssignable(expressionType, caseExpressionType)) {
inferrer.helper.addProblem(
templateSwitchExpressionNotAssignable.withArguments(
expressionType, caseExpressionType),
caseExpression.fileOffset,
noLength,
context: [
messageSwitchExpressionNotAssignableCause.withLocation(
inferrer.uriForInstrumentation,
node.expression.fileOffset,
noLength)
]);
}
}
inferrer.inferStatement(switchCase.body);
}
inferrer.flowAnalysis.switchStatement_end(hasDefault);
}
@override
ExpressionInferenceResult visitSymbolLiteral(
SymbolLiteral node, DartType typeContext) {
DartType inferredType =
inferrer.coreTypes.symbolRawType(inferrer.library.nonNullable);
return new ExpressionInferenceResult(inferredType, node);
}
ExpressionInferenceResult visitThisExpression(
ThisExpression node, DartType typeContext) {
return new ExpressionInferenceResult(inferrer.thisType, node);
}
@override
ExpressionInferenceResult visitThrow(Throw node, DartType typeContext) {
ExpressionInferenceResult expressionResult = inferrer.inferExpression(
node.expression, const UnknownType(), !inferrer.isTopLevel,
isVoidAllowed: false);
node.expression = expressionResult.expression..parent = node;
inferrer.flowAnalysis.handleExit();
return new ExpressionInferenceResult(const BottomType(), node);
}
void visitCatch(Catch node) {
inferrer.inferStatement(node.body);
}
@override
void visitTryCatch(TryCatch node) {
inferrer.flowAnalysis.tryCatchStatement_bodyBegin();
inferrer.inferStatement(node.body);
inferrer.flowAnalysis.tryCatchStatement_bodyEnd(node.body);
for (Catch catch_ in node.catches) {
inferrer.flowAnalysis
.tryCatchStatement_catchBegin(catch_.exception, catch_.stackTrace);
inferrer.flowAnalysis.initialize(catch_.exception);
inferrer.flowAnalysis.initialize(catch_.stackTrace);
visitCatch(catch_);
inferrer.flowAnalysis.tryCatchStatement_catchEnd();
}
inferrer.flowAnalysis.tryCatchStatement_end();
}
@override
void visitTryFinally(TryFinally node) {
inferrer.flowAnalysis.tryFinallyStatement_bodyBegin();
inferrer.inferStatement(node.body);
inferrer.flowAnalysis.tryFinallyStatement_finallyBegin(node.finalizer);
inferrer.inferStatement(node.finalizer);
inferrer.flowAnalysis.tryFinallyStatement_end(node.finalizer);
}
@override
ExpressionInferenceResult visitTypeLiteral(
TypeLiteral node, DartType typeContext) {
DartType inferredType =
inferrer.coreTypes.typeRawType(inferrer.library.nonNullable);
return new ExpressionInferenceResult(inferredType, node);
}
@override
ExpressionInferenceResult visitVariableSet(
VariableSet node, DartType typeContext) {
DartType writeContext = node.variable.type;
ExpressionInferenceResult rhsResult = inferrer.inferExpression(
node.value, writeContext ?? const UnknownType(), true,
isVoidAllowed: true);
Expression rhs = inferrer.ensureAssignableResult(writeContext, rhsResult,
fileOffset: node.fileOffset, isVoidAllowed: writeContext is VoidType);
node.value = rhs..parent = node;
return new ExpressionInferenceResult(rhsResult.inferredType, node);
}
@override
void visitVariableDeclaration(covariant VariableDeclarationImpl node) {
DartType declaredType =
node._implicitlyTyped ? const UnknownType() : node.type;
DartType inferredType;
ExpressionInferenceResult initializerResult;
if (node.initializer != null) {
initializerResult = inferrer.inferExpression(node.initializer,
declaredType, !inferrer.isTopLevel || node._implicitlyTyped,
isVoidAllowed: true);
inferredType =
inferrer.inferDeclarationType(initializerResult.inferredType);
} else {
inferredType = const DynamicType();
}
if (node._implicitlyTyped) {
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
node.fileOffset,
'type',
new InstrumentationValueForType(inferredType));
node.type = inferredType;
}
if (initializerResult != null) {
Expression initializer = inferrer.ensureAssignableResult(
node.type, initializerResult,
fileOffset: node.fileOffset, isVoidAllowed: node.type is VoidType);
node.initializer = initializer..parent = node;
}
if (!inferrer.isTopLevel) {
SourceLibraryBuilder library = inferrer.library;
if (node._implicitlyTyped) {
library.checkBoundsInVariableDeclaration(
node, inferrer.typeSchemaEnvironment, inferrer.helper.uri,
inferred: true);
}
}
}
@override
ExpressionInferenceResult visitVariableGet(
covariant VariableGetImpl node, DartType typeContext) {
VariableDeclarationImpl variable = node.variable;
bool mutatedInClosure = variable._mutatedInClosure;
DartType declaredOrInferredType = variable.type;
DartType promotedType = inferrer.typePromoter
.computePromotedType(node._fact, node._scope, mutatedInClosure);
if (promotedType != null) {
inferrer.instrumentation?.record(
inferrer.uriForInstrumentation,
node.fileOffset,
'promotedType',
new InstrumentationValueForType(promotedType));
}
node.promotedType = promotedType;
DartType type = promotedType ?? declaredOrInferredType;
if (variable._isLocalFunction) {
return inferrer.instantiateTearOff(type, typeContext, node);
} else {
return new ExpressionInferenceResult(type, node);
}
}
@override
void visitWhileStatement(WhileStatement node) {
InterfaceType expectedType =
inferrer.coreTypes.boolRawType(inferrer.library.nonNullable);
ExpressionInferenceResult conditionResult = inferrer.inferExpression(
node.condition, expectedType, !inferrer.isTopLevel,
isVoidAllowed: false);
Expression condition =
inferrer.ensureAssignableResult(expectedType, conditionResult);
node.condition = condition..parent = node;
inferrer.inferStatement(node.body);
}
@override
void visitYieldStatement(YieldStatement node) {
ClosureContext closureContext = inferrer.closureContext;
ExpressionInferenceResult expressionResult;
if (closureContext.isGenerator) {
DartType typeContext = closureContext.returnOrYieldContext;
if (node.isYieldStar && typeContext != null) {
typeContext = inferrer.wrapType(
typeContext,
closureContext.isAsync
? inferrer.coreTypes.streamClass
: inferrer.coreTypes.iterableClass);
}
expressionResult = inferrer.inferExpression(
node.expression, typeContext, true,
isVoidAllowed: true);
} else {
expressionResult = inferrer.inferExpression(
node.expression, const UnknownType(), true,
isVoidAllowed: true);
}
closureContext.handleYield(inferrer, node, expressionResult);
}
@override
ExpressionInferenceResult visitLoadLibrary(
covariant LoadLibraryImpl node, DartType typeContext) {
DartType inferredType = inferrer.typeSchemaEnvironment
.futureType(const DynamicType(), Nullability.legacy);
if (node.arguments != null) {
FunctionType calleeType = new FunctionType([], inferredType);
inferrer.inferInvocation(
typeContext, node.fileOffset, calleeType, node.arguments);
}
return new ExpressionInferenceResult(inferredType, node);
}
ExpressionInferenceResult visitLoadLibraryTearOff(
LoadLibraryTearOff node, DartType typeContext) {
DartType inferredType = new FunctionType(
[],
inferrer.typeSchemaEnvironment
.futureType(const DynamicType(), Nullability.legacy));
Expression replacement = new StaticGet(node.target)
..fileOffset = node.fileOffset;
return new ExpressionInferenceResult(inferredType, replacement);
}
@override
ExpressionInferenceResult visitCheckLibraryIsLoaded(
CheckLibraryIsLoaded node, DartType typeContext) {
// TODO(dmitryas): Figure out the suitable nullability for that.
return new ExpressionInferenceResult(
inferrer.coreTypes.objectRawType(inferrer.library.nullable), node);
}
}
class ForInResult {
final VariableDeclaration variable;
final Expression iterable;
final Statement body;
ForInResult(this.variable, this.iterable, this.body);
String toString() => 'ForInResult($variable,$iterable,$body)';
}