| // Copyright (c) 2021, the Dart project authors. Please see the AUTHORS file |
| // for details. All rights reserved. Use of this source code is governed by a |
| // BSD-style license that can be found in the LICENSE file. |
| |
| import 'package:analyzer/dart/ast/ast.dart'; |
| import 'package:analyzer/src/dart/error/syntactic_errors.dart'; |
| import 'package:test/test.dart'; |
| import 'package:test_reflective_loader/test_reflective_loader.dart'; |
| |
| import 'parser_test_base.dart'; |
| |
| main() { |
| defineReflectiveSuite(() { |
| defineReflectiveTests(FunctionReferenceParserTest); |
| }); |
| } |
| |
| /// Tests exercising the fasta parser's handling of generic instantiations. |
| @reflectiveTest |
| class FunctionReferenceParserTest extends FastaParserTestCase { |
| /// Verifies that the given [node] matches `f<a, b>`. |
| void expect_f_a_b(AstNode node) { |
| var functionReference = node as FunctionReference; |
| expect((functionReference.function as SimpleIdentifier).name, 'f'); |
| var typeArgs = functionReference.typeArguments!.arguments; |
| expect(typeArgs, hasLength(2)); |
| expect(((typeArgs[0] as TypeName).name as SimpleIdentifier).name, 'a'); |
| expect(((typeArgs[1] as TypeName).name as SimpleIdentifier).name, 'b'); |
| } |
| |
| void expect_two_args(MethodInvocation methodInvocation) { |
| var arguments = methodInvocation.argumentList.arguments; |
| expect(arguments, hasLength(2)); |
| expect(arguments[0], TypeMatcher<BinaryExpression>()); |
| expect(arguments[1], TypeMatcher<BinaryExpression>()); |
| } |
| |
| void test_feature_disabled() { |
| expect_f_a_b((parseStatement('f<a, b>;', featureSet: preConstructorTearoffs) |
| as ExpressionStatement) |
| .expression); |
| listener.assertErrors([ |
| expectedError(ParserErrorCode.EXPERIMENT_NOT_ENABLED, 1, 6), |
| ]); |
| } |
| |
| void test_followingToken_accepted_ampersand() { |
| expect_f_a_b( |
| (parseExpression('f<a, b> & 0', featureSet: constructorTearoffs) |
| as BinaryExpression) |
| .leftOperand); |
| } |
| |
| void test_followingToken_accepted_asterisk() { |
| expect_f_a_b( |
| (parseExpression('f<a, b> * 0', featureSet: constructorTearoffs) |
| as BinaryExpression) |
| .leftOperand); |
| } |
| |
| void test_followingToken_accepted_bar() { |
| expect_f_a_b( |
| (parseExpression('f<a, b> | 0', featureSet: constructorTearoffs) |
| as BinaryExpression) |
| .leftOperand); |
| } |
| |
| void test_followingToken_accepted_caret() { |
| expect_f_a_b( |
| (parseExpression('f<a, b> ^ 0', featureSet: constructorTearoffs) |
| as BinaryExpression) |
| .leftOperand); |
| } |
| |
| void test_followingToken_accepted_closeBrace() { |
| expect_f_a_b((parseExpression('{f<a, b>}', featureSet: constructorTearoffs) |
| as SetOrMapLiteral) |
| .elements[0]); |
| } |
| |
| void test_followingToken_accepted_closeBracket() { |
| expect_f_a_b((parseExpression('[f<a, b>]', featureSet: constructorTearoffs) |
| as ListLiteral) |
| .elements[0]); |
| } |
| |
| void test_followingToken_accepted_closeParen() { |
| expect_f_a_b((parseExpression('g(f<a, b>)', featureSet: constructorTearoffs) |
| as MethodInvocation) |
| .argumentList |
| .arguments[0]); |
| } |
| |
| void test_followingToken_accepted_colon() { |
| expect_f_a_b( |
| ((parseExpression('{f<a, b>: null}', featureSet: constructorTearoffs) |
| as SetOrMapLiteral) |
| .elements[0] as MapLiteralEntry) |
| .key); |
| } |
| |
| void test_followingToken_accepted_comma() { |
| expect_f_a_b( |
| (parseExpression('[f<a, b>, null]', featureSet: constructorTearoffs) |
| as ListLiteral) |
| .elements[0]); |
| } |
| |
| void test_followingToken_accepted_equals() { |
| expect_f_a_b( |
| (parseExpression('f<a, b> == null', featureSet: constructorTearoffs) |
| as BinaryExpression) |
| .leftOperand); |
| } |
| |
| void test_followingToken_accepted_not_equals() { |
| expect_f_a_b( |
| (parseExpression('f<a, b> != null', featureSet: constructorTearoffs) |
| as BinaryExpression) |
| .leftOperand); |
| } |
| |
| void test_followingToken_accepted_openParen() { |
| // This is a special case because when a `(` follows `<typeArguments>` it is |
| // parsed as a MethodInvocation rather than a GenericInstantiation. |
| var methodInvocation = |
| parseExpression('f<a, b>()', featureSet: constructorTearoffs) |
| as MethodInvocation; |
| expect(methodInvocation.methodName.name, 'f'); |
| var typeArgs = methodInvocation.typeArguments!.arguments; |
| expect(typeArgs, hasLength(2)); |
| expect(((typeArgs[0] as TypeName).name as SimpleIdentifier).name, 'a'); |
| expect(((typeArgs[1] as TypeName).name as SimpleIdentifier).name, 'b'); |
| expect(methodInvocation.argumentList.arguments, isEmpty); |
| } |
| |
| void test_followingToken_accepted_percent() { |
| expect_f_a_b( |
| (parseExpression('f<a, b> % 0', featureSet: constructorTearoffs) |
| as BinaryExpression) |
| .leftOperand); |
| } |
| |
| void test_followingToken_accepted_period_methodInvocation() { |
| // This is a special case because `f<a, b>.methodName(...)` is parsed as an |
| // InstanceCreationExpression. |
| var instanceCreationExpression = |
| parseExpression('f<a, b>.toString()', featureSet: constructorTearoffs) |
| as InstanceCreationExpression; |
| var constructorName = instanceCreationExpression.constructorName; |
| var type = constructorName.type; |
| expect((type.name as SimpleIdentifier).name, 'f'); |
| var typeArgs = type.typeArguments!.arguments; |
| expect(typeArgs, hasLength(2)); |
| expect(((typeArgs[0] as TypeName).name as SimpleIdentifier).name, 'a'); |
| expect(((typeArgs[1] as TypeName).name as SimpleIdentifier).name, 'b'); |
| expect(constructorName.name!.name, 'toString'); |
| expect(instanceCreationExpression.argumentList.arguments, isEmpty); |
| } |
| |
| void test_followingToken_accepted_period_methodInvocation_generic() { |
| expect_f_a_b( |
| (parseExpression('f<a, b>.foo<c>()', featureSet: constructorTearoffs) |
| as MethodInvocation) |
| .target!); |
| } |
| |
| void test_followingToken_accepted_period_period() { |
| expect_f_a_b( |
| (parseExpression('f<a, b>..toString()', featureSet: constructorTearoffs) |
| as CascadeExpression) |
| .target); |
| } |
| |
| void test_followingToken_accepted_period_propertyAccess() { |
| expect_f_a_b( |
| (parseExpression('f<a, b>.hashCode', featureSet: constructorTearoffs) |
| as PropertyAccess) |
| .target!); |
| } |
| |
| void test_followingToken_accepted_plus() { |
| expect_f_a_b( |
| (parseExpression('f<a, b> + 0', featureSet: constructorTearoffs) |
| as BinaryExpression) |
| .leftOperand); |
| } |
| |
| void test_followingToken_accepted_question() { |
| expect_f_a_b((parseExpression('f<a, b> ? null : null', |
| featureSet: constructorTearoffs) as ConditionalExpression) |
| .condition); |
| } |
| |
| void test_followingToken_accepted_question_period_methodInvocation() { |
| expect_f_a_b( |
| (parseExpression('f<a, b>?.toString()', featureSet: constructorTearoffs) |
| as MethodInvocation) |
| .target!); |
| } |
| |
| void test_followingToken_accepted_question_period_methodInvocation_generic() { |
| expect_f_a_b( |
| (parseExpression('f<a, b>?.foo<c>()', featureSet: constructorTearoffs) |
| as MethodInvocation) |
| .target!); |
| } |
| |
| void test_followingToken_accepted_question_period_period() { |
| expect_f_a_b((parseExpression('f<a, b>?..toString()', |
| featureSet: constructorTearoffs) as CascadeExpression) |
| .target); |
| } |
| |
| void test_followingToken_accepted_question_period_propertyAccess() { |
| expect_f_a_b( |
| (parseExpression('f<a, b>?.hashCode', featureSet: constructorTearoffs) |
| as PropertyAccess) |
| .target!); |
| } |
| |
| void test_followingToken_accepted_question_question() { |
| expect_f_a_b( |
| (parseExpression('f<a, b> ?? 0', featureSet: constructorTearoffs) |
| as BinaryExpression) |
| .leftOperand); |
| } |
| |
| void test_followingToken_accepted_semicolon() { |
| expect_f_a_b((parseStatement('f<a, b>;', featureSet: constructorTearoffs) |
| as ExpressionStatement) |
| .expression); |
| listener.assertNoErrors(); |
| } |
| |
| void test_followingToken_accepted_slash() { |
| expect_f_a_b( |
| (parseExpression('f<a, b> / 1', featureSet: constructorTearoffs) |
| as BinaryExpression) |
| .leftOperand); |
| } |
| |
| void test_followingToken_accepted_tilde_slash() { |
| expect_f_a_b( |
| (parseExpression('f<a, b> ~/ 1', featureSet: constructorTearoffs) |
| as BinaryExpression) |
| .leftOperand); |
| } |
| |
| void test_followingToken_rejected_bang_openBracket() { |
| expect_two_args( |
| parseExpression('f(a<b,c>![d])', featureSet: constructorTearoffs) |
| as MethodInvocation); |
| } |
| |
| void test_followingToken_rejected_bang_paren() { |
| expect_two_args( |
| parseExpression('f(a<b,c>!(d))', featureSet: constructorTearoffs) |
| as MethodInvocation); |
| } |
| |
| void test_followingToken_rejected_lessThan() { |
| // Note: in principle we could parse this as a generic instantiation of a |
| // generic instantiation, but such an expression would be meaningless so we |
| // reject it at the parser level. |
| parseExpression('f<a><b>', featureSet: constructorTearoffs, errors: [ |
| expectedError(ParserErrorCode.EQUALITY_CANNOT_BE_EQUALITY_OPERAND, 3, 1), |
| expectedError(ParserErrorCode.EXPECTED_TOKEN, 7, 0), |
| ]); |
| } |
| |
| void test_followingToken_rejected_minus() { |
| expect_two_args( |
| parseExpression('f(a<b,c>-d)', featureSet: constructorTearoffs) |
| as MethodInvocation); |
| } |
| |
| void test_followingToken_rejected_openBracket() { |
| expect_two_args( |
| parseExpression('f(a<b,c>[d])', featureSet: constructorTearoffs) |
| as MethodInvocation); |
| } |
| |
| void test_followingToken_rejected_openBracket_error() { |
| // Note that theoretically this could be successfully parsed by interpreting |
| // `<` and `>` as delimiting type arguments, but the parser doesn't have |
| // enough lookahead to see that this is the only possible error-free parse; |
| // it commits to interpreting `<` and `>` as operators when it sees the `[`. |
| expect_two_args(parseExpression('f(a<b,c>[d]>e)', |
| featureSet: constructorTearoffs, |
| errors: [ |
| expectedError( |
| ParserErrorCode.EQUALITY_CANNOT_BE_EQUALITY_OPERAND, 11, 1), |
| ]) as MethodInvocation); |
| } |
| |
| void test_followingToken_rejected_openBracket_unambiguous() { |
| expect_two_args( |
| parseExpression('f(a<b,c>[d, e])', featureSet: constructorTearoffs) |
| as MethodInvocation); |
| } |
| |
| void test_methodTearoff() { |
| var functionReference = |
| parseExpression('f().m<a, b>', featureSet: constructorTearoffs) |
| as FunctionReference; |
| var function = functionReference.function as PropertyAccess; |
| var target = function.target as MethodInvocation; |
| expect(target.methodName.name, 'f'); |
| expect(function.propertyName.name, 'm'); |
| var typeArgs = functionReference.typeArguments!.arguments; |
| expect(typeArgs, hasLength(2)); |
| expect(((typeArgs[0] as TypeName).name as SimpleIdentifier).name, 'a'); |
| expect(((typeArgs[1] as TypeName).name as SimpleIdentifier).name, 'b'); |
| } |
| |
| void test_prefixedIdentifier() { |
| var functionReference = |
| parseExpression('prefix.f<a, b>', featureSet: constructorTearoffs) |
| as FunctionReference; |
| var function = functionReference.function as PrefixedIdentifier; |
| expect(function.prefix.name, 'prefix'); |
| expect(function.identifier.name, 'f'); |
| var typeArgs = functionReference.typeArguments!.arguments; |
| expect(typeArgs, hasLength(2)); |
| expect(((typeArgs[0] as TypeName).name as SimpleIdentifier).name, 'a'); |
| expect(((typeArgs[1] as TypeName).name as SimpleIdentifier).name, 'b'); |
| } |
| |
| void test_three_identifiers() { |
| var functionReference = parseExpression('prefix.ClassName.m<a, b>', |
| featureSet: constructorTearoffs) as FunctionReference; |
| var function = functionReference.function as PropertyAccess; |
| var target = function.target as PrefixedIdentifier; |
| expect(target.prefix.name, 'prefix'); |
| expect(target.identifier.name, 'ClassName'); |
| expect(function.propertyName.name, 'm'); |
| var typeArgs = functionReference.typeArguments!.arguments; |
| expect(typeArgs, hasLength(2)); |
| expect(((typeArgs[0] as TypeName).name as SimpleIdentifier).name, 'a'); |
| expect(((typeArgs[1] as TypeName).name as SimpleIdentifier).name, 'b'); |
| } |
| } |