@NotNull protected JetTypeInfo visitAssignment( JetBinaryExpression expression, ExpressionTypingContext contextWithExpectedType) { ExpressionTypingContext context = contextWithExpectedType.replaceExpectedType(TypeUtils.NO_EXPECTED_TYPE).replaceScope(scope); JetExpression left = context.expressionTypingServices.deparenthesize(expression.getLeft(), context); JetExpression right = expression.getRight(); if (left instanceof JetArrayAccessExpression) { JetArrayAccessExpression arrayAccessExpression = (JetArrayAccessExpression) left; if (right == null) return JetTypeInfo.create(null, context.dataFlowInfo); JetTypeInfo typeInfo = basic.resolveArrayAccessSetMethod(arrayAccessExpression, right, context, context.trace); basic.checkLValue(context.trace, arrayAccessExpression); return JetTypeInfo.create( checkAssignmentType(typeInfo.getType(), expression, contextWithExpectedType), typeInfo.getDataFlowInfo()); } JetTypeInfo leftInfo = facade.getTypeInfo(expression.getLeft(), context); JetType leftType = leftInfo.getType(); DataFlowInfo dataFlowInfo = leftInfo.getDataFlowInfo(); if (right != null) { JetTypeInfo rightInfo = facade.getTypeInfo( right, context.replaceDataFlowInfo(dataFlowInfo).replaceExpectedType(leftType)); dataFlowInfo = rightInfo.getDataFlowInfo(); } if (leftType != null) { // if leftType == null, some another error has been generated basic.checkLValue(context.trace, expression.getLeft()); } return DataFlowUtils.checkStatementType(expression, contextWithExpectedType, dataFlowInfo); }
@Override public JetTypeInfo visitBinaryExpression( JetBinaryExpression expression, ExpressionTypingContext context) { JetSimpleNameExpression operationSign = expression.getOperationReference(); IElementType operationType = operationSign.getReferencedNameElementType(); JetTypeInfo result; if (operationType == JetTokens.EQ) { result = visitAssignment(expression, context); } else if (OperatorConventions.ASSIGNMENT_OPERATIONS.containsKey(operationType)) { result = visitAssignmentOperation(expression, context); } else { return facade.getTypeInfo(expression, context); } return DataFlowUtils.checkType(result.getType(), expression, context, result.getDataFlowInfo()); }
@NotNull protected JetTypeInfo visitAssignmentOperation( JetBinaryExpression expression, ExpressionTypingContext contextWithExpectedType) { // There is a temporary binding trace for an opportunity to resolve set method for array if // needed (the initial trace should be used there) TemporaryBindingTrace temporaryBindingTrace = TemporaryBindingTrace.create( contextWithExpectedType.trace, "trace to resolve array set method for binary expression", expression); ExpressionTypingContext context = contextWithExpectedType .replaceExpectedType(TypeUtils.NO_EXPECTED_TYPE) .replaceBindingTrace(temporaryBindingTrace); JetSimpleNameExpression operationSign = expression.getOperationReference(); IElementType operationType = operationSign.getReferencedNameElementType(); JetTypeInfo leftInfo = facade.getTypeInfo(expression.getLeft(), context); JetType leftType = leftInfo.getType(); DataFlowInfo dataFlowInfo = leftInfo.getDataFlowInfo(); JetExpression right = expression.getRight(); JetExpression left = JetPsiUtil.deparenthesizeWithNoTypeResolution(expression.getLeft()); if (right == null || left == null) { temporaryBindingTrace.commit(); return JetTypeInfo.create(null, dataFlowInfo); } if (leftType == null) { dataFlowInfo = facade.getTypeInfo(right, context.replaceDataFlowInfo(dataFlowInfo)).getDataFlowInfo(); context.trace.report(UNRESOLVED_REFERENCE.on(operationSign)); temporaryBindingTrace.commit(); return JetTypeInfo.create(null, dataFlowInfo); } ExpressionReceiver receiver = new ExpressionReceiver(left, leftType); // We check that defined only one of '+=' and '+' operations, and call it (in the case '+' we // then also assign) // Check for '+=' Name name = OperatorConventions.ASSIGNMENT_OPERATIONS.get(operationType); TemporaryBindingTrace assignmentOperationTrace = TemporaryBindingTrace.create( context.trace, "trace to check assignment operation like '+=' for", expression); OverloadResolutionResults<FunctionDescriptor> assignmentOperationDescriptors = basic.getResolutionResultsForBinaryCall( scope, name, context.replaceBindingTrace(assignmentOperationTrace), expression, receiver); JetType assignmentOperationType = OverloadResolutionResultsUtil.getResultType(assignmentOperationDescriptors); // Check for '+' Name counterpartName = OperatorConventions.BINARY_OPERATION_NAMES.get( OperatorConventions.ASSIGNMENT_OPERATION_COUNTERPARTS.get(operationType)); TemporaryBindingTrace binaryOperationTrace = TemporaryBindingTrace.create( context.trace, "trace to check binary operation like '+' for", expression); OverloadResolutionResults<FunctionDescriptor> binaryOperationDescriptors = basic.getResolutionResultsForBinaryCall( scope, counterpartName, context.replaceBindingTrace(binaryOperationTrace), expression, receiver); JetType binaryOperationType = OverloadResolutionResultsUtil.getResultType(binaryOperationDescriptors); JetType type = assignmentOperationType != null ? assignmentOperationType : binaryOperationType; if (assignmentOperationType != null && binaryOperationType != null) { OverloadResolutionResults<FunctionDescriptor> ambiguityResolutionResults = OverloadResolutionResultsUtil.ambiguity( assignmentOperationDescriptors, binaryOperationDescriptors); context.trace.report( ASSIGN_OPERATOR_AMBIGUITY.on( operationSign, ambiguityResolutionResults.getResultingCalls())); Collection<DeclarationDescriptor> descriptors = Sets.newHashSet(); for (ResolvedCall<? extends FunctionDescriptor> call : ambiguityResolutionResults.getResultingCalls()) { descriptors.add(call.getResultingDescriptor()); } dataFlowInfo = facade.getTypeInfo(right, context.replaceDataFlowInfo(dataFlowInfo)).getDataFlowInfo(); context.trace.record(AMBIGUOUS_REFERENCE_TARGET, operationSign, descriptors); } else if (assignmentOperationType != null) { assignmentOperationTrace.commit(); if (!KotlinBuiltIns.getInstance().isUnit(assignmentOperationType)) { context.trace.report( ASSIGNMENT_OPERATOR_SHOULD_RETURN_UNIT.on( operationSign, assignmentOperationDescriptors.getResultingDescriptor(), operationSign)); } } else { binaryOperationTrace.commit(); context.trace.record(VARIABLE_REASSIGNMENT, expression); if (left instanceof JetArrayAccessExpression) { ExpressionTypingContext contextForResolve = context .replaceScope(scope) .replaceBindingTrace( TemporaryBindingTrace.create( contextWithExpectedType.trace, "trace to resolve array set method for assignment", expression)); basic.resolveArrayAccessSetMethod( (JetArrayAccessExpression) left, right, contextForResolve, context.trace); } dataFlowInfo = facade.getTypeInfo(right, context.replaceDataFlowInfo(dataFlowInfo)).getDataFlowInfo(); } basic.checkLValue(context.trace, expression.getLeft()); temporaryBindingTrace.commit(); return JetTypeInfo.create( checkAssignmentType(type, expression, contextWithExpectedType), dataFlowInfo); }