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// Copyright (c) 2014, 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.
library analyzer.test.generated.parser_test;
import 'package:analyzer/dart/ast/ast.dart';
import 'package:analyzer/dart/ast/token.dart';
import 'package:analyzer/dart/ast/visitor.dart';
import 'package:analyzer/src/dart/ast/token.dart';
import 'package:analyzer/src/dart/ast/utilities.dart';
import 'package:analyzer/src/dart/scanner/reader.dart';
import 'package:analyzer/src/dart/scanner/scanner.dart';
import 'package:analyzer/src/generated/engine.dart';
import 'package:analyzer/src/generated/error.dart';
import 'package:analyzer/src/generated/incremental_scanner.dart';
import 'package:analyzer/src/generated/parser.dart';
import 'package:analyzer/src/generated/source.dart' show Source;
import 'package:analyzer/src/generated/testing/ast_factory.dart';
import 'package:analyzer/src/generated/testing/token_factory.dart';
import 'package:analyzer/src/generated/utilities_dart.dart';
import 'package:unittest/unittest.dart' hide Configuration;
import '../reflective_tests.dart';
import '../utils.dart';
import 'test_support.dart';
main() {
initializeTestEnvironment();
runReflectiveTests(ComplexParserTest);
runReflectiveTests(ErrorParserTest);
runReflectiveTests(IncrementalParserTest);
runReflectiveTests(NonErrorParserTest);
runReflectiveTests(RecoveryParserTest);
runReflectiveTests(SimpleParserTest);
}
class AnalysisErrorListener_SimpleParserTest_computeStringValue
implements AnalysisErrorListener {
@override
void onError(AnalysisError event) {
fail(
"Unexpected compilation error: ${event.message} (${event.offset}, ${event.length})");
}
}
/**
* Instances of the class `AstValidator` are used to validate the correct construction of an
* AST structure.
*/
class AstValidator extends UnifyingAstVisitor<Object> {
/**
* A list containing the errors found while traversing the AST structure.
*/
List<String> _errors = new List<String>();
/**
* Assert that no errors were found while traversing any of the AST structures that have been
* visited.
*/
void assertValid() {
if (!_errors.isEmpty) {
StringBuffer buffer = new StringBuffer();
buffer.write("Invalid AST structure:");
for (String message in _errors) {
buffer.write("\r\n ");
buffer.write(message);
}
fail(buffer.toString());
}
}
@override
Object visitNode(AstNode node) {
_validate(node);
return super.visitNode(node);
}
/**
* Validate that the given AST node is correctly constructed.
*
* @param node the AST node being validated
*/
void _validate(AstNode node) {
AstNode parent = node.parent;
if (node is CompilationUnit) {
if (parent != null) {
_errors.add("Compilation units should not have a parent");
}
} else {
if (parent == null) {
_errors.add("No parent for ${node.runtimeType}");
}
}
if (node.beginToken == null) {
_errors.add("No begin token for ${node.runtimeType}");
}
if (node.endToken == null) {
_errors.add("No end token for ${node.runtimeType}");
}
int nodeStart = node.offset;
int nodeLength = node.length;
if (nodeStart < 0 || nodeLength < 0) {
_errors.add("No source info for ${node.runtimeType}");
}
if (parent != null) {
int nodeEnd = nodeStart + nodeLength;
int parentStart = parent.offset;
int parentEnd = parentStart + parent.length;
if (nodeStart < parentStart) {
_errors.add(
"Invalid source start ($nodeStart) for ${node.runtimeType} inside ${parent.runtimeType} ($parentStart)");
}
if (nodeEnd > parentEnd) {
_errors.add(
"Invalid source end ($nodeEnd) for ${node.runtimeType} inside ${parent.runtimeType} ($parentStart)");
}
}
}
}
/**
* The class `ComplexParserTest` defines parser tests that test the parsing of more complex
* code fragments or the interactions between multiple parsing methods. For example, tests to ensure
* that the precedence of operations is being handled correctly should be defined in this class.
*
* Simpler tests should be defined in the class [SimpleParserTest].
*/
@reflectiveTest
class ComplexParserTest extends ParserTestCase {
void test_additiveExpression_normal() {
BinaryExpression expression = parseExpression("x + y - z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_additiveExpression_noSpaces() {
BinaryExpression expression = parseExpression("i+1");
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
EngineTestCase.assertInstanceOf((obj) => obj is IntegerLiteral,
IntegerLiteral, expression.rightOperand);
}
void test_additiveExpression_precedence_multiplicative_left() {
BinaryExpression expression = parseExpression("x * y + z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_additiveExpression_precedence_multiplicative_left_withSuper() {
BinaryExpression expression = parseExpression("super * y - z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_additiveExpression_precedence_multiplicative_right() {
BinaryExpression expression = parseExpression("x + y * z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_additiveExpression_super() {
BinaryExpression expression = parseExpression("super + y - z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_assignableExpression_arguments_normal_chain() {
PropertyAccess propertyAccess1 = parseExpression("a(b)(c).d(e).f");
expect(propertyAccess1.propertyName.name, "f");
//
// a(b)(c).d(e)
//
MethodInvocation invocation2 = EngineTestCase.assertInstanceOf(
(obj) => obj is MethodInvocation,
MethodInvocation,
propertyAccess1.target);
expect(invocation2.methodName.name, "d");
expect(invocation2.typeArguments, isNull);
ArgumentList argumentList2 = invocation2.argumentList;
expect(argumentList2, isNotNull);
expect(argumentList2.arguments, hasLength(1));
//
// a(b)(c)
//
FunctionExpressionInvocation invocation3 = EngineTestCase.assertInstanceOf(
(obj) => obj is FunctionExpressionInvocation,
FunctionExpressionInvocation,
invocation2.target);
expect(invocation3.typeArguments, isNull);
ArgumentList argumentList3 = invocation3.argumentList;
expect(argumentList3, isNotNull);
expect(argumentList3.arguments, hasLength(1));
//
// a(b)
//
MethodInvocation invocation4 = EngineTestCase.assertInstanceOf(
(obj) => obj is MethodInvocation,
MethodInvocation,
invocation3.function);
expect(invocation4.methodName.name, "a");
expect(invocation4.typeArguments, isNull);
ArgumentList argumentList4 = invocation4.argumentList;
expect(argumentList4, isNotNull);
expect(argumentList4.arguments, hasLength(1));
}
void test_assignableExpression_arguments_normal_chain_typeArgumentComments() {
enableGenericMethodComments = true;
_validate_assignableExpression_arguments_normal_chain_typeArguments(
"a/*<E>*/(b)/*<F>*/(c).d/*<G>*/(e).f");
}
void test_assignableExpression_arguments_normal_chain_typeArguments() {
enableGenericMethods = true;
_validate_assignableExpression_arguments_normal_chain_typeArguments(
"a<E>(b)<F>(c).d<G>(e).f");
}
void test_assignmentExpression_compound() {
AssignmentExpression expression = parseExpression("x = y = 0");
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftHandSide);
EngineTestCase.assertInstanceOf((obj) => obj is AssignmentExpression,
AssignmentExpression, expression.rightHandSide);
}
void test_assignmentExpression_indexExpression() {
AssignmentExpression expression = parseExpression("x[1] = 0");
EngineTestCase.assertInstanceOf((obj) => obj is IndexExpression,
IndexExpression, expression.leftHandSide);
EngineTestCase.assertInstanceOf((obj) => obj is IntegerLiteral,
IntegerLiteral, expression.rightHandSide);
}
void test_assignmentExpression_prefixedIdentifier() {
AssignmentExpression expression = parseExpression("x.y = 0");
EngineTestCase.assertInstanceOf((obj) => obj is PrefixedIdentifier,
PrefixedIdentifier, expression.leftHandSide);
EngineTestCase.assertInstanceOf((obj) => obj is IntegerLiteral,
IntegerLiteral, expression.rightHandSide);
}
void test_assignmentExpression_propertyAccess() {
AssignmentExpression expression = parseExpression("super.y = 0");
EngineTestCase.assertInstanceOf((obj) => obj is PropertyAccess,
PropertyAccess, expression.leftHandSide);
EngineTestCase.assertInstanceOf((obj) => obj is IntegerLiteral,
IntegerLiteral, expression.rightHandSide);
}
void test_bitwiseAndExpression_normal() {
BinaryExpression expression = parseExpression("x & y & z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_bitwiseAndExpression_precedence_equality_left() {
BinaryExpression expression = parseExpression("x == y && z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_bitwiseAndExpression_precedence_equality_right() {
BinaryExpression expression = parseExpression("x && y == z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_bitwiseAndExpression_super() {
BinaryExpression expression = parseExpression("super & y & z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_bitwiseOrExpression_normal() {
BinaryExpression expression = parseExpression("x | y | z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_bitwiseOrExpression_precedence_xor_left() {
BinaryExpression expression = parseExpression("x ^ y | z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_bitwiseOrExpression_precedence_xor_right() {
BinaryExpression expression = parseExpression("x | y ^ z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_bitwiseOrExpression_super() {
BinaryExpression expression = parseExpression("super | y | z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_bitwiseXorExpression_normal() {
BinaryExpression expression = parseExpression("x ^ y ^ z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_bitwiseXorExpression_precedence_and_left() {
BinaryExpression expression = parseExpression("x & y ^ z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_bitwiseXorExpression_precedence_and_right() {
BinaryExpression expression = parseExpression("x ^ y & z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_bitwiseXorExpression_super() {
BinaryExpression expression = parseExpression("super ^ y ^ z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_cascade_withAssignment() {
CascadeExpression cascade =
parseExpression("new Map()..[3] = 4 ..[0] = 11;");
Expression target = cascade.target;
for (Expression section in cascade.cascadeSections) {
EngineTestCase.assertInstanceOf(
(obj) => obj is AssignmentExpression, AssignmentExpression, section);
Expression lhs = (section as AssignmentExpression).leftHandSide;
EngineTestCase.assertInstanceOf(
(obj) => obj is IndexExpression, IndexExpression, lhs);
IndexExpression index = lhs as IndexExpression;
expect(index.isCascaded, isTrue);
expect(index.realTarget, same(target));
}
}
void test_conditionalExpression_precedence_ifNullExpression() {
ConditionalExpression expression = parseExpression('a ?? b ? y : z');
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.condition);
}
void test_conditionalExpression_precedence_logicalOrExpression() {
ConditionalExpression expression = parseExpression("a | b ? y : z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.condition);
}
void test_constructor_initializer_withParenthesizedExpression() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(r'''
class C {
C() :
this.a = (b == null ? c : d) {
}
}''');
NodeList<CompilationUnitMember> declarations = unit.declarations;
expect(declarations, hasLength(1));
}
void test_equalityExpression_normal() {
BinaryExpression expression = parseExpression(
"x == y != z", [ParserErrorCode.EQUALITY_CANNOT_BE_EQUALITY_OPERAND]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_equalityExpression_precedence_relational_left() {
BinaryExpression expression = parseExpression("x is y == z");
EngineTestCase.assertInstanceOf(
(obj) => obj is IsExpression, IsExpression, expression.leftOperand);
}
void test_equalityExpression_precedence_relational_right() {
BinaryExpression expression = parseExpression("x == y is z");
EngineTestCase.assertInstanceOf(
(obj) => obj is IsExpression, IsExpression, expression.rightOperand);
}
void test_equalityExpression_super() {
BinaryExpression expression = parseExpression("super == y != z",
[ParserErrorCode.EQUALITY_CANNOT_BE_EQUALITY_OPERAND]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_ifNullExpression() {
BinaryExpression expression = parseExpression('x ?? y ?? z');
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_ifNullExpression_precedence_logicalOr_left() {
BinaryExpression expression = parseExpression('x || y ?? z');
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_ifNullExpression_precendce_logicalOr_right() {
BinaryExpression expression = parseExpression('x ?? y || z');
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_logicalAndExpression() {
BinaryExpression expression = parseExpression("x && y && z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_logicalAndExpression_precedence_bitwiseOr_left() {
BinaryExpression expression = parseExpression("x | y < z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_logicalAndExpression_precedence_bitwiseOr_right() {
BinaryExpression expression = parseExpression("x < y | z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_logicalOrExpression() {
BinaryExpression expression = parseExpression("x || y || z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_logicalOrExpression_precedence_logicalAnd_left() {
BinaryExpression expression = parseExpression("x && y || z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_logicalOrExpression_precedence_logicalAnd_right() {
BinaryExpression expression = parseExpression("x || y && z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_multipleLabels_statement() {
LabeledStatement statement =
ParserTestCase.parseStatement("a: b: c: return x;");
expect(statement.labels, hasLength(3));
EngineTestCase.assertInstanceOf(
(obj) => obj is ReturnStatement, ReturnStatement, statement.statement);
}
void test_multiplicativeExpression_normal() {
BinaryExpression expression = parseExpression("x * y / z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_multiplicativeExpression_precedence_unary_left() {
BinaryExpression expression = parseExpression("-x * y");
EngineTestCase.assertInstanceOf((obj) => obj is PrefixExpression,
PrefixExpression, expression.leftOperand);
}
void test_multiplicativeExpression_precedence_unary_right() {
BinaryExpression expression = parseExpression("x * -y");
EngineTestCase.assertInstanceOf((obj) => obj is PrefixExpression,
PrefixExpression, expression.rightOperand);
}
void test_multiplicativeExpression_super() {
BinaryExpression expression = parseExpression("super * y / z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_relationalExpression_precedence_shift_right() {
IsExpression expression = parseExpression("x << y is z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.expression);
}
void test_shiftExpression_normal() {
BinaryExpression expression = parseExpression("x >> 4 << 3");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_shiftExpression_precedence_additive_left() {
BinaryExpression expression = parseExpression("x + y << z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_shiftExpression_precedence_additive_right() {
BinaryExpression expression = parseExpression("x << y + z");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_shiftExpression_super() {
BinaryExpression expression = parseExpression("super >> 4 << 3");
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_topLevelFunction_nestedGenericFunction() {
enableGenericMethods = true;
parseCompilationUnitWithOptions('''
void f() {
void g<T>() {
}
}
''');
}
void _validate_assignableExpression_arguments_normal_chain_typeArguments(
String code) {
PropertyAccess propertyAccess1 = parseExpression(code);
expect(propertyAccess1.propertyName.name, "f");
//
// a<E>(b)<F>(c).d<G>(e)
//
MethodInvocation invocation2 = EngineTestCase.assertInstanceOf(
(obj) => obj is MethodInvocation,
MethodInvocation,
propertyAccess1.target);
expect(invocation2.methodName.name, "d");
expect(invocation2.typeArguments, isNotNull);
ArgumentList argumentList2 = invocation2.argumentList;
expect(argumentList2, isNotNull);
expect(argumentList2.arguments, hasLength(1));
//
// a<E>(b)<F>(c)
//
FunctionExpressionInvocation invocation3 = EngineTestCase.assertInstanceOf(
(obj) => obj is FunctionExpressionInvocation,
FunctionExpressionInvocation,
invocation2.target);
expect(invocation3.typeArguments, isNotNull);
ArgumentList argumentList3 = invocation3.argumentList;
expect(argumentList3, isNotNull);
expect(argumentList3.arguments, hasLength(1));
//
// a(b)
//
MethodInvocation invocation4 = EngineTestCase.assertInstanceOf(
(obj) => obj is MethodInvocation,
MethodInvocation,
invocation3.function);
expect(invocation4.methodName.name, "a");
expect(invocation4.typeArguments, isNotNull);
ArgumentList argumentList4 = invocation4.argumentList;
expect(argumentList4, isNotNull);
expect(argumentList4.arguments, hasLength(1));
}
}
/**
* The class `ErrorParserTest` defines parser tests that test the parsing of code to ensure
* that errors are correctly reported, and in some cases, not reported.
*/
@reflectiveTest
class ErrorParserTest extends ParserTestCase {
void fail_expectedListOrMapLiteral() {
// It isn't clear that this test can ever pass. The parser is currently
// create a synthetic list literal in this case, but isSynthetic() isn't
// overridden for ListLiteral. The problem is that the synthetic list
// literals that are being created are not always zero length (because they
// could have type parameters), which violates the contract of
// isSynthetic().
TypedLiteral literal = parse3("parseListOrMapLiteral", <Object>[null], "1",
[ParserErrorCode.EXPECTED_LIST_OR_MAP_LITERAL]);
expect(literal.isSynthetic, isTrue);
}
void fail_illegalAssignmentToNonAssignable_superAssigned() {
// TODO(brianwilkerson) When this test starts to pass, remove the test
// test_illegalAssignmentToNonAssignable_superAssigned.
parseExpression(
"super = x;", [ParserErrorCode.ILLEGAL_ASSIGNMENT_TO_NON_ASSIGNABLE]);
}
void fail_invalidCommentReference__new_nonIdentifier() {
// This test fails because the method parseCommentReference returns null.
parse3("parseCommentReference", <Object>["new 42", 0], "",
[ParserErrorCode.INVALID_COMMENT_REFERENCE]);
}
void fail_invalidCommentReference__new_tooMuch() {
parse3("parseCommentReference", <Object>["new a.b.c.d", 0], "",
[ParserErrorCode.INVALID_COMMENT_REFERENCE]);
}
void fail_invalidCommentReference__nonNew_nonIdentifier() {
// This test fails because the method parseCommentReference returns null.
parse3("parseCommentReference", <Object>["42", 0], "",
[ParserErrorCode.INVALID_COMMENT_REFERENCE]);
}
void fail_invalidCommentReference__nonNew_tooMuch() {
parse3("parseCommentReference", <Object>["a.b.c.d", 0], "",
[ParserErrorCode.INVALID_COMMENT_REFERENCE]);
}
void fail_missingClosingParenthesis() {
// It is possible that it is not possible to generate this error (that it's
// being reported in code that cannot actually be reached), but that hasn't
// been proven yet.
parse4("parseFormalParameterList", "(int a, int b ;",
[ParserErrorCode.MISSING_CLOSING_PARENTHESIS]);
}
void fail_missingFunctionParameters_local_nonVoid_block() {
// The parser does not recognize this as a function declaration, so it tries
// to parse it as an expression statement. It isn't clear what the best
// error message is in this case.
ParserTestCase.parseStatement(
"int f { return x;}", [ParserErrorCode.MISSING_FUNCTION_PARAMETERS]);
}
void fail_missingFunctionParameters_local_nonVoid_expression() {
// The parser does not recognize this as a function declaration, so it tries
// to parse it as an expression statement. It isn't clear what the best
// error message is in this case.
ParserTestCase.parseStatement(
"int f => x;", [ParserErrorCode.MISSING_FUNCTION_PARAMETERS]);
}
void fail_namedFunctionExpression() {
Expression expression = parse4("parsePrimaryExpression", "f() {}",
[ParserErrorCode.NAMED_FUNCTION_EXPRESSION]);
EngineTestCase.assertInstanceOf(
(obj) => obj is FunctionExpression, FunctionExpression, expression);
}
void fail_unexpectedToken_invalidPostfixExpression() {
// Note: this might not be the right error to produce, but some error should
// be produced
parseExpression("f()++", [ParserErrorCode.UNEXPECTED_TOKEN]);
}
void fail_varAndType_local() {
// This is currently reporting EXPECTED_TOKEN for a missing semicolon, but
// this would be a better error message.
ParserTestCase.parseStatement("var int x;", [ParserErrorCode.VAR_AND_TYPE]);
}
void fail_varAndType_parameter() {
// This is currently reporting EXPECTED_TOKEN for a missing semicolon, but
// this would be a better error message.
parse4("parseFormalParameterList", "(var int x)",
[ParserErrorCode.VAR_AND_TYPE]);
}
void test_abstractClassMember_constructor() {
parse3("parseClassMember", <Object>["C"], "abstract C.c();",
[ParserErrorCode.ABSTRACT_CLASS_MEMBER]);
}
void test_abstractClassMember_field() {
parse3("parseClassMember", <Object>["C"], "abstract C f;",
[ParserErrorCode.ABSTRACT_CLASS_MEMBER]);
}
void test_abstractClassMember_getter() {
parse3("parseClassMember", <Object>["C"], "abstract get m;",
[ParserErrorCode.ABSTRACT_CLASS_MEMBER]);
}
void test_abstractClassMember_method() {
parse3("parseClassMember", <Object>["C"], "abstract m();",
[ParserErrorCode.ABSTRACT_CLASS_MEMBER]);
}
void test_abstractClassMember_setter() {
parse3("parseClassMember", <Object>["C"], "abstract set m(v);",
[ParserErrorCode.ABSTRACT_CLASS_MEMBER]);
}
void test_abstractEnum() {
ParserTestCase.parseCompilationUnit(
"abstract enum E {ONE}", [ParserErrorCode.ABSTRACT_ENUM]);
}
void test_abstractTopLevelFunction_function() {
ParserTestCase.parseCompilationUnit(
"abstract f(v) {}", [ParserErrorCode.ABSTRACT_TOP_LEVEL_FUNCTION]);
}
void test_abstractTopLevelFunction_getter() {
ParserTestCase.parseCompilationUnit(
"abstract get m {}", [ParserErrorCode.ABSTRACT_TOP_LEVEL_FUNCTION]);
}
void test_abstractTopLevelFunction_setter() {
ParserTestCase.parseCompilationUnit(
"abstract set m(v) {}", [ParserErrorCode.ABSTRACT_TOP_LEVEL_FUNCTION]);
}
void test_abstractTopLevelVariable() {
ParserTestCase.parseCompilationUnit(
"abstract C f;", [ParserErrorCode.ABSTRACT_TOP_LEVEL_VARIABLE]);
}
void test_abstractTypeDef() {
ParserTestCase.parseCompilationUnit(
"abstract typedef F();", [ParserErrorCode.ABSTRACT_TYPEDEF]);
}
void test_annotationOnEnumConstant_first() {
ParserTestCase.parseCompilationUnit("enum E { @override C }",
[ParserErrorCode.ANNOTATION_ON_ENUM_CONSTANT]);
}
void test_annotationOnEnumConstant_middle() {
ParserTestCase.parseCompilationUnit("enum E { C, @override D, E }",
[ParserErrorCode.ANNOTATION_ON_ENUM_CONSTANT]);
}
void test_breakOutsideOfLoop_breakInDoStatement() {
parse4("parseDoStatement", "do {break;} while (x);");
}
void test_breakOutsideOfLoop_breakInForStatement() {
parse4("parseForStatement", "for (; x;) {break;}");
}
void test_breakOutsideOfLoop_breakInIfStatement() {
parse4("parseIfStatement", "if (x) {break;}",
[ParserErrorCode.BREAK_OUTSIDE_OF_LOOP]);
}
void test_breakOutsideOfLoop_breakInSwitchStatement() {
parse4("parseSwitchStatement", "switch (x) {case 1: break;}");
}
void test_breakOutsideOfLoop_breakInWhileStatement() {
parse4("parseWhileStatement", "while (x) {break;}");
}
void test_breakOutsideOfLoop_functionExpression_inALoop() {
ParserTestCase.parseStatement(
"for(; x;) {() {break;};}", [ParserErrorCode.BREAK_OUTSIDE_OF_LOOP]);
}
void test_breakOutsideOfLoop_functionExpression_withALoop() {
ParserTestCase.parseStatement("() {for (; x;) {break;}};");
}
void test_classInClass_abstract() {
ParserTestCase.parseCompilationUnit(
"class C { abstract class B {} }", [ParserErrorCode.CLASS_IN_CLASS]);
}
void test_classInClass_nonAbstract() {
ParserTestCase.parseCompilationUnit(
"class C { class B {} }", [ParserErrorCode.CLASS_IN_CLASS]);
}
void test_classTypeAlias_abstractAfterEq() {
// This syntax has been removed from the language in favor of
// "abstract class A = B with C;" (issue 18098).
parse3(
"parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()],
"class A = abstract B with C;",
[ParserErrorCode.EXPECTED_TOKEN, ParserErrorCode.EXPECTED_TOKEN]);
}
void test_colonInPlaceOfIn() {
ParserTestCase.parseStatement(
"for (var x : list) {}", [ParserErrorCode.COLON_IN_PLACE_OF_IN]);
}
void test_constAndFinal() {
parse3("parseClassMember", <Object>["C"], "const final int x;",
[ParserErrorCode.CONST_AND_FINAL]);
}
void test_constAndVar() {
parse3("parseClassMember", <Object>["C"], "const var x;",
[ParserErrorCode.CONST_AND_VAR]);
}
void test_constClass() {
ParserTestCase.parseCompilationUnit(
"const class C {}", [ParserErrorCode.CONST_CLASS]);
}
void test_constConstructorWithBody() {
parse3("parseClassMember", <Object>["C"], "const C() {}",
[ParserErrorCode.CONST_CONSTRUCTOR_WITH_BODY]);
}
void test_constEnum() {
ParserTestCase.parseCompilationUnit(
"const enum E {ONE}", [ParserErrorCode.CONST_ENUM]);
}
void test_constFactory() {
parse3("parseClassMember", <Object>["C"], "const factory C() {}",
[ParserErrorCode.CONST_FACTORY]);
}
void test_constMethod() {
parse3("parseClassMember", <Object>["C"], "const int m() {}",
[ParserErrorCode.CONST_METHOD]);
}
void test_constructorWithReturnType() {
parse3("parseClassMember", <Object>["C"], "C C() {}",
[ParserErrorCode.CONSTRUCTOR_WITH_RETURN_TYPE]);
}
void test_constructorWithReturnType_var() {
parse3("parseClassMember", <Object>["C"], "var C() {}",
[ParserErrorCode.CONSTRUCTOR_WITH_RETURN_TYPE]);
}
void test_constTypedef() {
ParserTestCase.parseCompilationUnit(
"const typedef F();", [ParserErrorCode.CONST_TYPEDEF]);
}
void test_continueOutsideOfLoop_continueInDoStatement() {
parse4("parseDoStatement", "do {continue;} while (x);");
}
void test_continueOutsideOfLoop_continueInForStatement() {
parse4("parseForStatement", "for (; x;) {continue;}");
}
void test_continueOutsideOfLoop_continueInIfStatement() {
parse4("parseIfStatement", "if (x) {continue;}",
[ParserErrorCode.CONTINUE_OUTSIDE_OF_LOOP]);
}
void test_continueOutsideOfLoop_continueInSwitchStatement() {
parse4("parseSwitchStatement", "switch (x) {case 1: continue a;}");
}
void test_continueOutsideOfLoop_continueInWhileStatement() {
parse4("parseWhileStatement", "while (x) {continue;}");
}
void test_continueOutsideOfLoop_functionExpression_inALoop() {
ParserTestCase.parseStatement("for(; x;) {() {continue;};}",
[ParserErrorCode.CONTINUE_OUTSIDE_OF_LOOP]);
}
void test_continueOutsideOfLoop_functionExpression_withALoop() {
ParserTestCase.parseStatement("() {for (; x;) {continue;}};");
}
void test_continueWithoutLabelInCase_error() {
parse4("parseSwitchStatement", "switch (x) {case 1: continue;}",
[ParserErrorCode.CONTINUE_WITHOUT_LABEL_IN_CASE]);
}
void test_continueWithoutLabelInCase_noError() {
parse4("parseSwitchStatement", "switch (x) {case 1: continue a;}");
}
void test_continueWithoutLabelInCase_noError_switchInLoop() {
parse4(
"parseWhileStatement", "while (a) { switch (b) {default: continue;}}");
}
void test_deprecatedClassTypeAlias() {
ParserTestCase.parseCompilationUnit(
"typedef C = S with M;", [ParserErrorCode.DEPRECATED_CLASS_TYPE_ALIAS]);
}
void test_deprecatedClassTypeAlias_withGeneric() {
ParserTestCase.parseCompilationUnit("typedef C<T> = S<T> with M;",
[ParserErrorCode.DEPRECATED_CLASS_TYPE_ALIAS]);
}
void test_directiveAfterDeclaration_classBeforeDirective() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"class Foo{} library l;",
[ParserErrorCode.DIRECTIVE_AFTER_DECLARATION]);
expect(unit, isNotNull);
}
void test_directiveAfterDeclaration_classBetweenDirectives() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"library l;\nclass Foo{}\npart 'a.dart';",
[ParserErrorCode.DIRECTIVE_AFTER_DECLARATION]);
expect(unit, isNotNull);
}
void test_duplicatedModifier_const() {
parse3("parseClassMember", <Object>["C"], "const const m;",
[ParserErrorCode.DUPLICATED_MODIFIER]);
}
void test_duplicatedModifier_external() {
parse3("parseClassMember", <Object>["C"], "external external f();",
[ParserErrorCode.DUPLICATED_MODIFIER]);
}
void test_duplicatedModifier_factory() {
parse3("parseClassMember", <Object>["C"], "factory factory C() {}",
[ParserErrorCode.DUPLICATED_MODIFIER]);
}
void test_duplicatedModifier_final() {
parse3("parseClassMember", <Object>["C"], "final final m;",
[ParserErrorCode.DUPLICATED_MODIFIER]);
}
void test_duplicatedModifier_static() {
parse3("parseClassMember", <Object>["C"], "static static var m;",
[ParserErrorCode.DUPLICATED_MODIFIER]);
}
void test_duplicatedModifier_var() {
parse3("parseClassMember", <Object>["C"], "var var m;",
[ParserErrorCode.DUPLICATED_MODIFIER]);
}
void test_duplicateLabelInSwitchStatement() {
parse4(
"parseSwitchStatement",
"switch (e) {l1: case 0: break; l1: case 1: break;}",
[ParserErrorCode.DUPLICATE_LABEL_IN_SWITCH_STATEMENT]);
}
void test_emptyEnumBody() {
parse3("parseEnumDeclaration", <Object>[emptyCommentAndMetadata()],
"enum E {}", [ParserErrorCode.EMPTY_ENUM_BODY]);
}
void test_enableAsync_false_1() {
parseAsync = false;
FunctionDeclarationStatement stmt = parse4(
"parseFunctionDeclarationStatement",
"foo() async {}",
[ParserErrorCode.ASYNC_NOT_SUPPORTED]);
FunctionExpression expr = stmt.functionDeclaration.functionExpression;
expect(expr.body.isAsynchronous, isTrue);
expect(expr.body.isGenerator, isFalse);
}
void test_enableAsync_false_2() {
parseAsync = false;
FunctionDeclarationStatement stmt = parse4(
"parseFunctionDeclarationStatement",
"foo() async => 0;",
[ParserErrorCode.ASYNC_NOT_SUPPORTED]);
FunctionExpression expr = stmt.functionDeclaration.functionExpression;
expect(expr.body.isAsynchronous, isTrue);
expect(expr.body.isGenerator, isFalse);
}
void test_enableAsync_false_3() {
parseAsync = false;
FunctionDeclarationStatement stmt = parse4(
"parseFunctionDeclarationStatement",
"foo() sync* {}",
[ParserErrorCode.ASYNC_NOT_SUPPORTED]);
FunctionExpression expr = stmt.functionDeclaration.functionExpression;
expect(expr.body.isAsynchronous, isFalse);
expect(expr.body.isGenerator, isTrue);
}
void test_enumInClass() {
ParserTestCase.parseCompilationUnit(
r'''
class Foo {
enum Bar {
Bar1, Bar2, Bar3
}
}
''',
[ParserErrorCode.ENUM_IN_CLASS]);
}
void test_equalityCannotBeEqualityOperand_eq_eq() {
parseExpression(
"1 == 2 == 3", [ParserErrorCode.EQUALITY_CANNOT_BE_EQUALITY_OPERAND]);
}
void test_equalityCannotBeEqualityOperand_eq_neq() {
parseExpression(
"1 == 2 != 3", [ParserErrorCode.EQUALITY_CANNOT_BE_EQUALITY_OPERAND]);
}
void test_equalityCannotBeEqualityOperand_neq_eq() {
parseExpression(
"1 != 2 == 3", [ParserErrorCode.EQUALITY_CANNOT_BE_EQUALITY_OPERAND]);
}
void test_expectedCaseOrDefault() {
parse4("parseSwitchStatement", "switch (e) {break;}",
[ParserErrorCode.EXPECTED_CASE_OR_DEFAULT]);
}
void test_expectedClassMember_inClass_afterType() {
parse3("parseClassMember", <Object>["C"], "heart 2 heart",
[ParserErrorCode.EXPECTED_CLASS_MEMBER]);
}
void test_expectedClassMember_inClass_beforeType() {
parse3("parseClassMember", <Object>["C"], "4 score",
[ParserErrorCode.EXPECTED_CLASS_MEMBER]);
}
void test_expectedExecutable_inClass_afterVoid() {
parse3("parseClassMember", <Object>["C"], "void 2 void",
[ParserErrorCode.EXPECTED_EXECUTABLE]);
}
void test_expectedExecutable_topLevel_afterType() {
parse3("parseCompilationUnitMember", <Object>[emptyCommentAndMetadata()],
"heart 2 heart", [ParserErrorCode.EXPECTED_EXECUTABLE]);
}
void test_expectedExecutable_topLevel_afterVoid() {
parse3("parseCompilationUnitMember", <Object>[emptyCommentAndMetadata()],
"void 2 void", [ParserErrorCode.EXPECTED_EXECUTABLE]);
}
void test_expectedExecutable_topLevel_beforeType() {
parse3("parseCompilationUnitMember", <Object>[emptyCommentAndMetadata()],
"4 score", [ParserErrorCode.EXPECTED_EXECUTABLE]);
}
void test_expectedExecutable_topLevel_eof() {
parse2(
"parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()],
"x",
[new AnalysisError(null, 0, 1, ParserErrorCode.EXPECTED_EXECUTABLE)]);
}
void test_expectedInterpolationIdentifier() {
parse4(
"parseStringLiteral", "'\$x\$'", [ParserErrorCode.MISSING_IDENTIFIER]);
}
void test_expectedInterpolationIdentifier_emptyString() {
// The scanner inserts an empty string token between the two $'s; we need to
// make sure that the MISSING_IDENTIFIER error that is generated has a
// nonzero width so that it will show up in the editor UI.
parse2("parseStringLiteral", <Object>[], "'\$\$foo'",
[new AnalysisError(null, 2, 1, ParserErrorCode.MISSING_IDENTIFIER)]);
}
void test_expectedStringLiteral() {
StringLiteral expression = parse4(
"parseStringLiteral", "1", [ParserErrorCode.EXPECTED_STRING_LITERAL]);
expect(expression.isSynthetic, isTrue);
}
void test_expectedToken_commaMissingInArgumentList() {
parse4("parseArgumentList", "(x, y z)", [ParserErrorCode.EXPECTED_TOKEN]);
}
void test_expectedToken_parseStatement_afterVoid() {
ParserTestCase.parseStatement("void}",
[ParserErrorCode.EXPECTED_TOKEN, ParserErrorCode.MISSING_IDENTIFIER]);
}
void test_expectedToken_semicolonAfterClass() {
Token token = TokenFactory.tokenFromKeyword(Keyword.CLASS);
parse3(
"parseClassTypeAlias",
<Object>[emptyCommentAndMetadata(), null, token],
"A = B with C",
[ParserErrorCode.EXPECTED_TOKEN]);
}
void test_expectedToken_semicolonMissingAfterExport() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"export '' class A {}", [ParserErrorCode.EXPECTED_TOKEN]);
ExportDirective directive = unit.directives[0] as ExportDirective;
Token semicolon = directive.semicolon;
expect(semicolon, isNotNull);
expect(semicolon.isSynthetic, isTrue);
}
void test_expectedToken_semicolonMissingAfterExpression() {
ParserTestCase.parseStatement("x", [ParserErrorCode.EXPECTED_TOKEN]);
}
void test_expectedToken_semicolonMissingAfterImport() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"import '' class A {}", [ParserErrorCode.EXPECTED_TOKEN]);
ImportDirective directive = unit.directives[0] as ImportDirective;
Token semicolon = directive.semicolon;
expect(semicolon, isNotNull);
expect(semicolon.isSynthetic, isTrue);
}
void test_expectedToken_whileMissingInDoStatement() {
ParserTestCase
.parseStatement("do {} (x);", [ParserErrorCode.EXPECTED_TOKEN]);
}
void test_expectedTypeName_is() {
parseExpression("x is", [ParserErrorCode.EXPECTED_TYPE_NAME]);
}
void test_exportDirectiveAfterPartDirective() {
ParserTestCase.parseCompilationUnit("part 'a.dart'; export 'b.dart';",
[ParserErrorCode.EXPORT_DIRECTIVE_AFTER_PART_DIRECTIVE]);
}
void test_externalAfterConst() {
parse3("parseClassMember", <Object>["C"], "const external C();",
[ParserErrorCode.EXTERNAL_AFTER_CONST]);
}
void test_externalAfterFactory() {
parse3("parseClassMember", <Object>["C"], "factory external C();",
[ParserErrorCode.EXTERNAL_AFTER_FACTORY]);
}
void test_externalAfterStatic() {
parse3("parseClassMember", <Object>["C"], "static external int m();",
[ParserErrorCode.EXTERNAL_AFTER_STATIC]);
}
void test_externalClass() {
ParserTestCase.parseCompilationUnit(
"external class C {}", [ParserErrorCode.EXTERNAL_CLASS]);
}
void test_externalConstructorWithBody_factory() {
parse3("parseClassMember", <Object>["C"], "external factory C() {}",
[ParserErrorCode.EXTERNAL_CONSTRUCTOR_WITH_BODY]);
}
void test_externalConstructorWithBody_named() {
parse3("parseClassMember", <Object>["C"], "external C.c() {}",
[ParserErrorCode.EXTERNAL_CONSTRUCTOR_WITH_BODY]);
}
void test_externalEnum() {
ParserTestCase.parseCompilationUnit(
"external enum E {ONE}", [ParserErrorCode.EXTERNAL_ENUM]);
}
void test_externalField_const() {
parse3("parseClassMember", <Object>["C"], "external const A f;",
[ParserErrorCode.EXTERNAL_FIELD]);
}
void test_externalField_final() {
parse3("parseClassMember", <Object>["C"], "external final A f;",
[ParserErrorCode.EXTERNAL_FIELD]);
}
void test_externalField_static() {
parse3("parseClassMember", <Object>["C"], "external static A f;",
[ParserErrorCode.EXTERNAL_FIELD]);
}
void test_externalField_typed() {
parse3("parseClassMember", <Object>["C"], "external A f;",
[ParserErrorCode.EXTERNAL_FIELD]);
}
void test_externalField_untyped() {
parse3("parseClassMember", <Object>["C"], "external var f;",
[ParserErrorCode.EXTERNAL_FIELD]);
}
void test_externalGetterWithBody() {
parse3("parseClassMember", <Object>["C"], "external int get x {}",
[ParserErrorCode.EXTERNAL_GETTER_WITH_BODY]);
}
void test_externalMethodWithBody() {
parse3("parseClassMember", <Object>["C"], "external m() {}",
[ParserErrorCode.EXTERNAL_METHOD_WITH_BODY]);
}
void test_externalOperatorWithBody() {
parse3(
"parseClassMember",
<Object>["C"],
"external operator +(int value) {}",
[ParserErrorCode.EXTERNAL_OPERATOR_WITH_BODY]);
}
void test_externalSetterWithBody() {
parse3("parseClassMember", <Object>["C"], "external set x(int value) {}",
[ParserErrorCode.EXTERNAL_SETTER_WITH_BODY]);
}
void test_externalTypedef() {
ParserTestCase.parseCompilationUnit(
"external typedef F();", [ParserErrorCode.EXTERNAL_TYPEDEF]);
}
void test_extraCommaInParameterList() {
parse4("parseFormalParameterList", "(int a, , int b)",
[ParserErrorCode.MISSING_IDENTIFIER, ParserErrorCode.EXPECTED_TOKEN]);
}
void test_extraCommaTrailingNamedParameterGroup() {
parse4("parseFormalParameterList", "({int b},)", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.NORMAL_BEFORE_OPTIONAL_PARAMETERS
]);
}
void test_extraCommaTrailingPositionalParameterGroup() {
parse4("parseFormalParameterList", "([int b],)", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.NORMAL_BEFORE_OPTIONAL_PARAMETERS
]);
}
void test_extraTrailingCommaInParameterList() {
parse4("parseFormalParameterList", "(a,,)",
[ParserErrorCode.MISSING_IDENTIFIER]);
}
void test_factoryTopLevelDeclaration_class() {
ParserTestCase.parseCompilationUnit(
"factory class C {}", [ParserErrorCode.FACTORY_TOP_LEVEL_DECLARATION]);
}
void test_factoryTopLevelDeclaration_typedef() {
ParserTestCase.parseCompilationUnit("factory typedef F();",
[ParserErrorCode.FACTORY_TOP_LEVEL_DECLARATION]);
}
void test_factoryWithInitializers() {
parse3("parseClassMember", <Object>["C"], "factory C() : x = 3 {}",
[ParserErrorCode.FACTORY_WITH_INITIALIZERS]);
}
void test_factoryWithoutBody() {
parse3("parseClassMember", <Object>["C"], "factory C();",
[ParserErrorCode.FACTORY_WITHOUT_BODY]);
}
void test_fieldInitializerOutsideConstructor() {
parse3("parseClassMember", <Object>["C"], "void m(this.x);",
[ParserErrorCode.FIELD_INITIALIZER_OUTSIDE_CONSTRUCTOR]);
}
void test_finalAndVar() {
parse3("parseClassMember", <Object>["C"], "final var x;",
[ParserErrorCode.FINAL_AND_VAR]);
}
void test_finalClass() {
ParserTestCase.parseCompilationUnit(
"final class C {}", [ParserErrorCode.FINAL_CLASS]);
}
void test_finalConstructor() {
parse3("parseClassMember", <Object>["C"], "final C() {}",
[ParserErrorCode.FINAL_CONSTRUCTOR]);
}
void test_finalEnum() {
ParserTestCase.parseCompilationUnit(
"final enum E {ONE}", [ParserErrorCode.FINAL_ENUM]);
}
void test_finalMethod() {
parse3("parseClassMember", <Object>["C"], "final int m() {}",
[ParserErrorCode.FINAL_METHOD]);
}
void test_finalTypedef() {
ParserTestCase.parseCompilationUnit(
"final typedef F();", [ParserErrorCode.FINAL_TYPEDEF]);
}
void test_functionTypedParameter_const() {
ParserTestCase.parseCompilationUnit(
"void f(const x()) {}", [ParserErrorCode.FUNCTION_TYPED_PARAMETER_VAR]);
}
void test_functionTypedParameter_final() {
ParserTestCase.parseCompilationUnit(
"void f(final x()) {}", [ParserErrorCode.FUNCTION_TYPED_PARAMETER_VAR]);
}
void test_functionTypedParameter_var() {
ParserTestCase.parseCompilationUnit(
"void f(var x()) {}", [ParserErrorCode.FUNCTION_TYPED_PARAMETER_VAR]);
}
void test_getterInFunction_block_noReturnType() {
FunctionDeclarationStatement statement = ParserTestCase.parseStatement(
"get x { return _x; }", [ParserErrorCode.GETTER_IN_FUNCTION]);
expect(statement.functionDeclaration.functionExpression.parameters, isNull);
}
void test_getterInFunction_block_returnType() {
ParserTestCase.parseStatement(
"int get x { return _x; }", [ParserErrorCode.GETTER_IN_FUNCTION]);
}
void test_getterInFunction_expression_noReturnType() {
ParserTestCase
.parseStatement("get x => _x;", [ParserErrorCode.GETTER_IN_FUNCTION]);
}
void test_getterInFunction_expression_returnType() {
ParserTestCase.parseStatement(
"int get x => _x;", [ParserErrorCode.GETTER_IN_FUNCTION]);
}
void test_getterWithParameters() {
parse3("parseClassMember", <Object>["C"], "int get x() {}",
[ParserErrorCode.GETTER_WITH_PARAMETERS]);
}
void test_illegalAssignmentToNonAssignable_postfix_minusMinus_literal() {
parseExpression(
"0--", [ParserErrorCode.ILLEGAL_ASSIGNMENT_TO_NON_ASSIGNABLE]);
}
void test_illegalAssignmentToNonAssignable_postfix_plusPlus_literal() {
parseExpression(
"0++", [ParserErrorCode.ILLEGAL_ASSIGNMENT_TO_NON_ASSIGNABLE]);
}
void test_illegalAssignmentToNonAssignable_postfix_plusPlus_parenthesized() {
parseExpression(
"(x)++", [ParserErrorCode.ILLEGAL_ASSIGNMENT_TO_NON_ASSIGNABLE]);
}
void test_illegalAssignmentToNonAssignable_primarySelectorPostfix() {
parseExpression(
"x(y)(z)++", [ParserErrorCode.ILLEGAL_ASSIGNMENT_TO_NON_ASSIGNABLE]);
}
void test_illegalAssignmentToNonAssignable_superAssigned() {
// TODO(brianwilkerson) When the test
// fail_illegalAssignmentToNonAssignable_superAssigned starts to pass,
// remove this test (there should only be one error generated, but we're
// keeping this test until that time so that we can catch other forms of
// regressions).
parseExpression("super = x;", [
ParserErrorCode.MISSING_ASSIGNABLE_SELECTOR,
ParserErrorCode.ILLEGAL_ASSIGNMENT_TO_NON_ASSIGNABLE
]);
}
void test_implementsBeforeExtends() {
ParserTestCase.parseCompilationUnit("class A implements B extends C {}",
[ParserErrorCode.IMPLEMENTS_BEFORE_EXTENDS]);
}
void test_implementsBeforeWith() {
ParserTestCase.parseCompilationUnit(
"class A extends B implements C with D {}",
[ParserErrorCode.IMPLEMENTS_BEFORE_WITH]);
}
void test_importDirectiveAfterPartDirective() {
ParserTestCase.parseCompilationUnit("part 'a.dart'; import 'b.dart';",
[ParserErrorCode.IMPORT_DIRECTIVE_AFTER_PART_DIRECTIVE]);
}
void test_initializedVariableInForEach() {
parse4("parseForStatement", "for (int a = 0 in foo) {}",
[ParserErrorCode.INITIALIZED_VARIABLE_IN_FOR_EACH]);
}
void test_invalidAwaitInFor() {
parse4("parseForStatement", "await for (; ;) {}",
[ParserErrorCode.INVALID_AWAIT_IN_FOR]);
}
void test_invalidCodePoint() {
parse4("parseStringLiteral", "'\\uD900'",
[ParserErrorCode.INVALID_CODE_POINT]);
}
void test_invalidHexEscape_invalidDigit() {
parse4(
"parseStringLiteral", "'\\x0 a'", [ParserErrorCode.INVALID_HEX_ESCAPE]);
}
void test_invalidHexEscape_tooFewDigits() {
parse4(
"parseStringLiteral", "'\\x0'", [ParserErrorCode.INVALID_HEX_ESCAPE]);
}
void test_invalidInterpolationIdentifier_startWithDigit() {
parse4("parseStringLiteral", "'\$1'", [ParserErrorCode.MISSING_IDENTIFIER]);
}
void test_invalidLiteralInConfiguration() {
parse4("parseConfiguration", "if (a == 'x \$y z') 'a.dart'",
[ParserErrorCode.INVALID_LITERAL_IN_CONFIGURATION]);
}
void test_invalidOperator() {
parse3("parseClassMember", <Object>["C"], "void operator ===(x) {}",
[ParserErrorCode.INVALID_OPERATOR]);
}
void test_invalidOperatorAfterSuper_assignableExpression() {
parse3('parseAssignableExpression', <Object>[false], 'super?.v',
[ParserErrorCode.INVALID_OPERATOR_FOR_SUPER]);
}
void test_invalidOperatorAfterSuper_primaryExpression() {
parse4('parsePrimaryExpression', 'super?.v',
[ParserErrorCode.INVALID_OPERATOR_FOR_SUPER]);
}
void test_invalidOperatorForSuper() {
parse4("parseUnaryExpression", "++super",
[ParserErrorCode.INVALID_OPERATOR_FOR_SUPER]);
}
void test_invalidStarAfterAsync() {
parse3("parseFunctionBody", <Object>[false, null, false], "async* => 0;",
[ParserErrorCode.INVALID_STAR_AFTER_ASYNC]);
}
void test_invalidSync() {
parse3("parseFunctionBody", <Object>[false, null, false], "sync* => 0;",
[ParserErrorCode.INVALID_SYNC]);
}
void test_invalidUnicodeEscape_incomplete_noDigits() {
parse4("parseStringLiteral", "'\\u{'",
[ParserErrorCode.INVALID_UNICODE_ESCAPE]);
}
void test_invalidUnicodeEscape_incomplete_someDigits() {
parse4("parseStringLiteral", "'\\u{0A'",
[ParserErrorCode.INVALID_UNICODE_ESCAPE]);
}
void test_invalidUnicodeEscape_invalidDigit() {
parse4("parseStringLiteral", "'\\u0 a'",
[ParserErrorCode.INVALID_UNICODE_ESCAPE]);
}
void test_invalidUnicodeEscape_tooFewDigits_fixed() {
parse4("parseStringLiteral", "'\\u04'",
[ParserErrorCode.INVALID_UNICODE_ESCAPE]);
}
void test_invalidUnicodeEscape_tooFewDigits_variable() {
parse4("parseStringLiteral", "'\\u{}'",
[ParserErrorCode.INVALID_UNICODE_ESCAPE]);
}
void test_invalidUnicodeEscape_tooManyDigits_variable() {
parse4("parseStringLiteral", "'\\u{12345678}'", [
ParserErrorCode.INVALID_UNICODE_ESCAPE,
ParserErrorCode.INVALID_CODE_POINT
]);
}
void test_libraryDirectiveNotFirst() {
ParserTestCase.parseCompilationUnit("import 'x.dart'; library l;",
[ParserErrorCode.LIBRARY_DIRECTIVE_NOT_FIRST]);
}
void test_libraryDirectiveNotFirst_afterPart() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"part 'a.dart';\nlibrary l;",
[ParserErrorCode.LIBRARY_DIRECTIVE_NOT_FIRST]);
expect(unit, isNotNull);
}
void test_localFunctionDeclarationModifier_abstract() {
ParserTestCase.parseStatement("abstract f() {}",
[ParserErrorCode.LOCAL_FUNCTION_DECLARATION_MODIFIER]);
}
void test_localFunctionDeclarationModifier_external() {
ParserTestCase.parseStatement("external f() {}",
[ParserErrorCode.LOCAL_FUNCTION_DECLARATION_MODIFIER]);
}
void test_localFunctionDeclarationModifier_factory() {
ParserTestCase.parseStatement("factory f() {}",
[ParserErrorCode.LOCAL_FUNCTION_DECLARATION_MODIFIER]);
}
void test_localFunctionDeclarationModifier_static() {
ParserTestCase.parseStatement(
"static f() {}", [ParserErrorCode.LOCAL_FUNCTION_DECLARATION_MODIFIER]);
}
void test_method_invalidTypeParameterComments() {
enableGenericMethodComments = true;
MethodDeclaration method = parse3(
"parseClassMember",
<Object>["C"],
"void m/*<E, hello!>*/() {}",
[
ParserErrorCode.EXPECTED_TOKEN /*>*/,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.EXPECTED_TOKEN /*(*/,
ParserErrorCode.EXPECTED_TOKEN /*)*/,
ParserErrorCode.MISSING_FUNCTION_BODY
]);
expect(method.typeParameters.toString(), '<E, hello>',
reason: 'parser recovers what it can');
}
void test_method_invalidTypeParameterExtends() {
// Regression test for https://github.com/dart-lang/sdk/issues/25739.
// TODO(jmesserly): ideally we'd be better at parser recovery here.
enableGenericMethods = true;
MethodDeclaration method = parse3(
"parseClassMember",
<Object>["C"],
"f<E>(E extends num p);",
[
ParserErrorCode.MISSING_IDENTIFIER, // `extends` is a keyword
ParserErrorCode.EXPECTED_TOKEN, // comma
ParserErrorCode.EXPECTED_TOKEN, // close paren
ParserErrorCode.MISSING_FUNCTION_BODY
]);
expect(method.parameters.toString(), '(E, extends)',
reason: 'parser recovers what it can');
}
void test_method_invalidTypeParameterExtendsComment() {
// Regression test for https://github.com/dart-lang/sdk/issues/25739.
// TODO(jmesserly): ideally we'd be better at parser recovery here.
// Also, this behavior is slightly different from how we would parse a
// normal generic method, because we "discover" the comment at a different
// point in the parser. This has a slight effect on the AST that results
// from error recovery.
enableGenericMethodComments = true;
MethodDeclaration method = parse3(
"parseClassMember",
<Object>["C"],
"f/*<E>*/(dynamic/*=E extends num*/p);",
[
ParserErrorCode.MISSING_IDENTIFIER, // `extends` is a keyword
ParserErrorCode.EXPECTED_TOKEN, // comma
ParserErrorCode.MISSING_IDENTIFIER, // `extends` is a keyword
ParserErrorCode.EXPECTED_TOKEN, // close paren
ParserErrorCode.MISSING_FUNCTION_BODY
]);
expect(method.parameters.toString(), '(E extends, extends)',
reason: 'parser recovers what it can');
}
void test_method_invalidTypeParameters() {
// TODO(jmesserly): ideally we'd be better at parser recovery here.
// It doesn't try to advance past the invalid token `!` to find the
// valid `>`. If it did we'd get less cascading errors, at least for this
// particular example.
enableGenericMethods = true;
MethodDeclaration method = parse3(
"parseClassMember",
<Object>["C"],
"void m<E, hello!>() {}",
[
ParserErrorCode.EXPECTED_TOKEN /*>*/,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.EXPECTED_TOKEN /*(*/,
ParserErrorCode.EXPECTED_TOKEN /*)*/,
ParserErrorCode.MISSING_FUNCTION_BODY
]);
expect(method.typeParameters.toString(), '<E, hello>',
reason: 'parser recovers what it can');
}
void test_missingAssignableSelector_identifiersAssigned() {
parseExpression("x.y = y;");
}
void test_missingAssignableSelector_prefix_minusMinus_literal() {
parseExpression("--0", [ParserErrorCode.MISSING_ASSIGNABLE_SELECTOR]);
}
void test_missingAssignableSelector_prefix_plusPlus_literal() {
parseExpression("++0", [ParserErrorCode.MISSING_ASSIGNABLE_SELECTOR]);
}
void test_missingAssignableSelector_selector() {
parseExpression("x(y)(z).a++");
}
void test_missingAssignableSelector_superPrimaryExpression() {
SuperExpression expression = parse4("parsePrimaryExpression", "super",
[ParserErrorCode.MISSING_ASSIGNABLE_SELECTOR]);
expect(expression.superKeyword, isNotNull);
}
void test_missingAssignableSelector_superPropertyAccessAssigned() {
parseExpression("super.x = x;");
}
void test_missingCatchOrFinally() {
TryStatement statement = parse4("parseTryStatement", "try {}",
[ParserErrorCode.MISSING_CATCH_OR_FINALLY]);
expect(statement, isNotNull);
}
void test_missingClassBody() {
ParserTestCase.parseCompilationUnit(
"class A class B {}", [ParserErrorCode.MISSING_CLASS_BODY]);
}
void test_missingConstFinalVarOrType_static() {
ParserTestCase.parseCompilationUnit("class A { static f; }",
[ParserErrorCode.MISSING_CONST_FINAL_VAR_OR_TYPE]);
}
void test_missingConstFinalVarOrType_topLevel() {
parse3("parseFinalConstVarOrType", <Object>[false], "a;",
[ParserErrorCode.MISSING_CONST_FINAL_VAR_OR_TYPE]);
}
void test_missingEnumBody() {
parse3("parseEnumDeclaration", <Object>[emptyCommentAndMetadata()],
"enum E;", [ParserErrorCode.MISSING_ENUM_BODY]);
}
void test_missingExpressionInThrow_withCascade() {
parse4("parseThrowExpression", "throw;",
[ParserErrorCode.MISSING_EXPRESSION_IN_THROW]);
}
void test_missingExpressionInThrow_withoutCascade() {
parse4("parseThrowExpressionWithoutCascade", "throw;",
[ParserErrorCode.MISSING_EXPRESSION_IN_THROW]);
}
void test_missingFunctionBody_emptyNotAllowed() {
parse3(
"parseFunctionBody",
<Object>[false, ParserErrorCode.MISSING_FUNCTION_BODY, false],
";",
[ParserErrorCode.MISSING_FUNCTION_BODY]);
}
void test_missingFunctionBody_invalid() {
parse3(
"parseFunctionBody",
<Object>[false, ParserErrorCode.MISSING_FUNCTION_BODY, false],
"return 0;",
[ParserErrorCode.MISSING_FUNCTION_BODY]);
}
void test_missingFunctionParameters_local_void_block() {
ParserTestCase.parseStatement(
"void f { return x;}", [ParserErrorCode.MISSING_FUNCTION_PARAMETERS]);
}
void test_missingFunctionParameters_local_void_expression() {
ParserTestCase.parseStatement(
"void f => x;", [ParserErrorCode.MISSING_FUNCTION_PARAMETERS]);
}
void test_missingFunctionParameters_topLevel_nonVoid_block() {
ParserTestCase.parseCompilationUnit(
"int f { return x;}", [ParserErrorCode.MISSING_FUNCTION_PARAMETERS]);
}
void test_missingFunctionParameters_topLevel_nonVoid_expression() {
ParserTestCase.parseCompilationUnit(
"int f => x;", [ParserErrorCode.MISSING_FUNCTION_PARAMETERS]);
}
void test_missingFunctionParameters_topLevel_void_block() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"void f { return x;}", [ParserErrorCode.MISSING_FUNCTION_PARAMETERS]);
FunctionDeclaration funct = unit.declarations[0];
expect(funct.functionExpression.parameters, hasLength(0));
}
void test_missingFunctionParameters_topLevel_void_expression() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"void f => x;", [ParserErrorCode.MISSING_FUNCTION_PARAMETERS]);
FunctionDeclaration funct = unit.declarations[0];
expect(funct.functionExpression.parameters, hasLength(0));
}
void test_missingIdentifier_afterOperator() {
parse4("parseMultiplicativeExpression", "1 *",
[ParserErrorCode.MISSING_IDENTIFIER]);
}
void test_missingIdentifier_beforeClosingCurly() {
parse3("parseClassMember", <Object>["C"], "int}",
[ParserErrorCode.MISSING_IDENTIFIER, ParserErrorCode.EXPECTED_TOKEN]);
}
void test_missingIdentifier_functionDeclaration_returnTypeWithoutName() {
parse4("parseFunctionDeclarationStatement", "A<T> () {}",
[ParserErrorCode.MISSING_IDENTIFIER]);
}
void test_missingIdentifier_inEnum() {
parse3("parseEnumDeclaration", <Object>[emptyCommentAndMetadata()],
"enum E {, TWO}", [ParserErrorCode.MISSING_IDENTIFIER]);
}
void test_missingIdentifier_inSymbol_afterPeriod() {
parse4("parseSymbolLiteral", "#a.", [ParserErrorCode.MISSING_IDENTIFIER]);
}
void test_missingIdentifier_inSymbol_first() {
parse4("parseSymbolLiteral", "#", [ParserErrorCode.MISSING_IDENTIFIER]);
}
void test_missingIdentifier_number() {
SimpleIdentifier expression = parse4(
"parseSimpleIdentifier", "1", [ParserErrorCode.MISSING_IDENTIFIER]);
expect(expression.isSynthetic, isTrue);
}
void test_missingIdentifierForParameterGroup() {
parse4("parseFormalParameterList", "(,)",
[ParserErrorCode.MISSING_IDENTIFIER]);
}
void test_missingKeywordOperator() {
parse3("parseOperator", <Object>[emptyCommentAndMetadata(), null, null],
"+(x) {}", [ParserErrorCode.MISSING_KEYWORD_OPERATOR]);
}
void test_missingKeywordOperator_parseClassMember() {
parse3("parseClassMember", <Object>["C"], "+() {}",
[ParserErrorCode.MISSING_KEYWORD_OPERATOR]);
}
void test_missingKeywordOperator_parseClassMember_afterTypeName() {
parse3("parseClassMember", <Object>["C"], "int +() {}",
[ParserErrorCode.MISSING_KEYWORD_OPERATOR]);
}
void test_missingKeywordOperator_parseClassMember_afterVoid() {
parse3("parseClassMember", <Object>["C"], "void +() {}",
[ParserErrorCode.MISSING_KEYWORD_OPERATOR]);
}
void test_missingMethodParameters_void_block() {
MethodDeclaration method = parse3("parseClassMember", <Object>["C"],
"void m {} }", [ParserErrorCode.MISSING_METHOD_PARAMETERS]);
expect(method.parameters, hasLength(0));
}
void test_missingMethodParameters_void_expression() {
parse3("parseClassMember", <Object>["C"], "void m => null; }",
[ParserErrorCode.MISSING_METHOD_PARAMETERS]);
}
void test_missingNameInLibraryDirective() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"library;", [ParserErrorCode.MISSING_NAME_IN_LIBRARY_DIRECTIVE]);
expect(unit, isNotNull);
}
void test_missingNameInPartOfDirective() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"part of;", [ParserErrorCode.MISSING_NAME_IN_PART_OF_DIRECTIVE]);
expect(unit, isNotNull);
}
void test_missingPrefixInDeferredImport() {
ParserTestCase.parseCompilationUnit("import 'foo.dart' deferred;",
[ParserErrorCode.MISSING_PREFIX_IN_DEFERRED_IMPORT]);
}
void test_missingStartAfterSync() {
parse3("parseFunctionBody", <Object>[false, null, false], "sync {}",
[ParserErrorCode.MISSING_STAR_AFTER_SYNC]);
}
void test_missingStatement() {
ParserTestCase.parseStatement("is", [ParserErrorCode.MISSING_STATEMENT]);
}
void test_missingStatement_afterVoid() {
ParserTestCase.parseStatement("void;", [ParserErrorCode.MISSING_STATEMENT]);
}
void test_missingTerminatorForParameterGroup_named() {
parse4("parseFormalParameterList", "(a, {b: 0)",
[ParserErrorCode.MISSING_TERMINATOR_FOR_PARAMETER_GROUP]);
}
void test_missingTerminatorForParameterGroup_optional() {
parse4("parseFormalParameterList", "(a, [b = 0)",
[ParserErrorCode.MISSING_TERMINATOR_FOR_PARAMETER_GROUP]);
}
void test_missingTypedefParameters_nonVoid() {
ParserTestCase.parseCompilationUnit(
"typedef int F;", [ParserErrorCode.MISSING_TYPEDEF_PARAMETERS]);
}
void test_missingTypedefParameters_typeParameters() {
ParserTestCase.parseCompilationUnit(
"typedef F<E>;", [ParserErrorCode.MISSING_TYPEDEF_PARAMETERS]);
}
void test_missingTypedefParameters_void() {
ParserTestCase.parseCompilationUnit(
"typedef void F;", [ParserErrorCode.MISSING_TYPEDEF_PARAMETERS]);
}
void test_missingVariableInForEach() {
parse4("parseForStatement", "for (a < b in foo) {}",
[ParserErrorCode.MISSING_VARIABLE_IN_FOR_EACH]);
}
void test_mixedParameterGroups_namedPositional() {
parse4("parseFormalParameterList", "(a, {b}, [c])",
[ParserErrorCode.MIXED_PARAMETER_GROUPS]);
}
void test_mixedParameterGroups_positionalNamed() {
parse4("parseFormalParameterList", "(a, [b], {c})",
[ParserErrorCode.MIXED_PARAMETER_GROUPS]);
}
void test_mixin_application_lacks_with_clause() {
ParserTestCase.parseCompilationUnit(
"class Foo = Bar;", [ParserErrorCode.EXPECTED_TOKEN]);
}
void test_multipleExtendsClauses() {
ParserTestCase.parseCompilationUnit("class A extends B extends C {}",
[ParserErrorCode.MULTIPLE_EXTENDS_CLAUSES]);
}
void test_multipleImplementsClauses() {
ParserTestCase.parseCompilationUnit("class A implements B implements C {}",
[ParserErrorCode.MULTIPLE_IMPLEMENTS_CLAUSES]);
}
void test_multipleLibraryDirectives() {
ParserTestCase.parseCompilationUnit(
"library l; library m;", [ParserErrorCode.MULTIPLE_LIBRARY_DIRECTIVES]);
}
void test_multipleNamedParameterGroups() {
parse4("parseFormalParameterList", "(a, {b}, {c})",
[ParserErrorCode.MULTIPLE_NAMED_PARAMETER_GROUPS]);
}
void test_multiplePartOfDirectives() {
ParserTestCase.parseCompilationUnit(
"part of l; part of m;", [ParserErrorCode.MULTIPLE_PART_OF_DIRECTIVES]);
}
void test_multiplePositionalParameterGroups() {
parse4("parseFormalParameterList", "(a, [b], [c])",
[ParserErrorCode.MULTIPLE_POSITIONAL_PARAMETER_GROUPS]);
}
void test_multipleVariablesInForEach() {
parse4("parseForStatement", "for (int a, b in foo) {}",
[ParserErrorCode.MULTIPLE_VARIABLES_IN_FOR_EACH]);
}
void test_multipleWithClauses() {
ParserTestCase.parseCompilationUnit("class A extends B with C with D {}",
[ParserErrorCode.MULTIPLE_WITH_CLAUSES]);
}
void test_namedParameterOutsideGroup() {
parse4("parseFormalParameterList", "(a, b : 0)",
[ParserErrorCode.NAMED_PARAMETER_OUTSIDE_GROUP]);
}
void test_nonConstructorFactory_field() {
parse3("parseClassMember", <Object>["C"], "factory int x;",
[ParserErrorCode.NON_CONSTRUCTOR_FACTORY]);
}
void test_nonConstructorFactory_method() {
parse3("parseClassMember", <Object>["C"], "factory int m() {}",
[ParserErrorCode.NON_CONSTRUCTOR_FACTORY]);
}
void test_nonIdentifierLibraryName_library() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"library 'lib';", [ParserErrorCode.NON_IDENTIFIER_LIBRARY_NAME]);
expect(unit, isNotNull);
}
void test_nonIdentifierLibraryName_partOf() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"part of 'lib';", [ParserErrorCode.NON_IDENTIFIER_LIBRARY_NAME]);
expect(unit, isNotNull);
}
void test_nonPartOfDirectiveInPart_after() {
ParserTestCase.parseCompilationUnit("part of l; part 'f.dart';",
[ParserErrorCode.NON_PART_OF_DIRECTIVE_IN_PART]);
}
void test_nonPartOfDirectiveInPart_before() {
ParserTestCase.parseCompilationUnit("part 'f.dart'; part of m;",
[ParserErrorCode.NON_PART_OF_DIRECTIVE_IN_PART]);
}
void test_nonUserDefinableOperator() {
parse3("parseClassMember", <Object>["C"], "operator +=(int x) => x + 1;",
[ParserErrorCode.NON_USER_DEFINABLE_OPERATOR]);
}
void test_optionalAfterNormalParameters_named() {
ParserTestCase.parseCompilationUnit(
"f({a}, b) {}", [ParserErrorCode.NORMAL_BEFORE_OPTIONAL_PARAMETERS]);
}
void test_optionalAfterNormalParameters_positional() {
ParserTestCase.parseCompilationUnit(
"f([a], b) {}", [ParserErrorCode.NORMAL_BEFORE_OPTIONAL_PARAMETERS]);
}
void test_parseCascadeSection_missingIdentifier() {
MethodInvocation methodInvocation = parse4(
"parseCascadeSection", "..()", [ParserErrorCode.MISSING_IDENTIFIER]);
expect(methodInvocation.target, isNull);
expect(methodInvocation.methodName.name, "");
expect(methodInvocation.typeArguments, isNull);
expect(methodInvocation.argumentList.arguments, hasLength(0));
}
void test_parseCascadeSection_missingIdentifier_typeArguments() {
enableGenericMethods = true;
MethodInvocation methodInvocation = parse4(
"parseCascadeSection", "..<E>()", [ParserErrorCode.MISSING_IDENTIFIER]);
expect(methodInvocation.target, isNull);
expect(methodInvocation.methodName.name, "");
expect(methodInvocation.typeArguments, isNotNull);
expect(methodInvocation.argumentList.arguments, hasLength(0));
}
void test_positionalAfterNamedArgument() {
parse4("parseArgumentList", "(x: 1, 2)",
[ParserErrorCode.POSITIONAL_AFTER_NAMED_ARGUMENT]);
}
void test_positionalParameterOutsideGroup() {
parse4("parseFormalParameterList", "(a, b = 0)",
[ParserErrorCode.POSITIONAL_PARAMETER_OUTSIDE_GROUP]);
}
void test_redirectingConstructorWithBody_named() {
parse3("parseClassMember", <Object>["C"], "C.x() : this() {}",
[ParserErrorCode.REDIRECTING_CONSTRUCTOR_WITH_BODY]);
}
void test_redirectingConstructorWithBody_unnamed() {
parse3("parseClassMember", <Object>["C"], "C() : this.x() {}",
[ParserErrorCode.REDIRECTING_CONSTRUCTOR_WITH_BODY]);
}
void test_redirectionInNonFactoryConstructor() {
parse3("parseClassMember", <Object>["C"], "C() = D;",
[ParserErrorCode.REDIRECTION_IN_NON_FACTORY_CONSTRUCTOR]);
}
void test_setterInFunction_block() {
ParserTestCase.parseStatement(
"set x(v) {_x = v;}", [ParserErrorCode.SETTER_IN_FUNCTION]);
}
void test_setterInFunction_expression() {
ParserTestCase.parseStatement(
"set x(v) => _x = v;", [ParserErrorCode.SETTER_IN_FUNCTION]);
}
void test_staticAfterConst() {
parse3("parseClassMember", <Object>["C"], "final static int f;",
[ParserErrorCode.STATIC_AFTER_FINAL]);
}
void test_staticAfterFinal() {
parse3("parseClassMember", <Object>["C"], "const static int f;",
[ParserErrorCode.STATIC_AFTER_CONST]);
}
void test_staticAfterVar() {
parse3("parseClassMember", <Object>["C"], "var static f;",
[ParserErrorCode.STATIC_AFTER_VAR]);
}
void test_staticConstructor() {
parse3("parseClassMember", <Object>["C"], "static C.m() {}",
[ParserErrorCode.STATIC_CONSTRUCTOR]);
}
void test_staticGetterWithoutBody() {
parse3("parseClassMember", <Object>["C"], "static get m;",
[ParserErrorCode.STATIC_GETTER_WITHOUT_BODY]);
}
void test_staticOperator_noReturnType() {
parse3(
"parseClassMember",
<Object>["C"],
"static operator +(int x) => x + 1;",
[ParserErrorCode.STATIC_OPERATOR]);
}
void test_staticOperator_returnType() {
parse3(
"parseClassMember",
<Object>["C"],
"static int operator +(int x) => x + 1;",
[ParserErrorCode.STATIC_OPERATOR]);
}
void test_staticSetterWithoutBody() {
parse3("parseClassMember", <Object>["C"], "static set m(x);",
[ParserErrorCode.STATIC_SETTER_WITHOUT_BODY]);
}
void test_staticTopLevelDeclaration_class() {
ParserTestCase.parseCompilationUnit(
"static class C {}", [ParserErrorCode.STATIC_TOP_LEVEL_DECLARATION]);
}
void test_staticTopLevelDeclaration_function() {
ParserTestCase.parseCompilationUnit(
"static f() {}", [ParserErrorCode.STATIC_TOP_LEVEL_DECLARATION]);
}
void test_staticTopLevelDeclaration_typedef() {
ParserTestCase.parseCompilationUnit(
"static typedef F();", [ParserErrorCode.STATIC_TOP_LEVEL_DECLARATION]);
}
void test_staticTopLevelDeclaration_variable() {
ParserTestCase.parseCompilationUnit(
"static var x;", [ParserErrorCode.STATIC_TOP_LEVEL_DECLARATION]);
}
void test_string_unterminated_interpolation_block() {
ParserTestCase.parseCompilationUnit(
r'''
m() {
{
'${${
''',
[
ScannerErrorCode.UNTERMINATED_STRING_LITERAL,
ParserErrorCode.EXPECTED_TOKEN,
ParserErrorCode.EXPECTED_TOKEN,
ParserErrorCode.EXPECTED_TOKEN,
ParserErrorCode.EXPECTED_TOKEN,
ParserErrorCode.EXPECTED_TOKEN,
ParserErrorCode.EXPECTED_TOKEN,
]);
}
void test_switchHasCaseAfterDefaultCase() {
parse4(
"parseSwitchStatement",
"switch (a) {default: return 0; case 1: return 1;}",
[ParserErrorCode.SWITCH_HAS_CASE_AFTER_DEFAULT_CASE]);
}
void test_switchHasCaseAfterDefaultCase_repeated() {
parse4("parseSwitchStatement",
"switch (a) {default: return 0; case 1: return 1; case 2: return 2;}", [
ParserErrorCode.SWITCH_HAS_CASE_AFTER_DEFAULT_CASE,
ParserErrorCode.SWITCH_HAS_CASE_AFTER_DEFAULT_CASE
]);
}
void test_switchHasMultipleDefaultCases() {
parse4(
"parseSwitchStatement",
"switch (a) {default: return 0; default: return 1;}",
[ParserErrorCode.SWITCH_HAS_MULTIPLE_DEFAULT_CASES]);
}
void test_switchHasMultipleDefaultCases_repeated() {
parse4(
"parseSwitchStatement",
"switch (a) {default: return 0; default: return 1; default: return 2;}",
[
ParserErrorCode.SWITCH_HAS_MULTIPLE_DEFAULT_CASES,
ParserErrorCode.SWITCH_HAS_MULTIPLE_DEFAULT_CASES
]);
}
void test_topLevel_getter() {
FunctionDeclaration funct = parse3("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "get x => 7;");
expect(funct.functionExpression.parameters, isNull);
}
void test_topLevelOperator_withoutType() {
parse3(
"parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()],
"operator +(bool x, bool y) => x | y;",
[ParserErrorCode.TOP_LEVEL_OPERATOR]);
}
void test_topLevelOperator_withType() {
parse3(
"parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()],
"bool operator +(bool x, bool y) => x | y;",
[ParserErrorCode.TOP_LEVEL_OPERATOR]);
}
void test_topLevelOperator_withVoid() {
parse3(
"parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()],
"void operator +(bool x, bool y) => x | y;",
[ParserErrorCode.TOP_LEVEL_OPERATOR]);
}
void test_topLevelVariable_withMetadata() {
ParserTestCase.parseCompilationUnit("String @A string;", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.EXPECTED_TOKEN,
ParserErrorCode.MISSING_CONST_FINAL_VAR_OR_TYPE
]);
}
void test_typedefInClass_withoutReturnType() {
ParserTestCase.parseCompilationUnit(
"class C { typedef F(x); }", [ParserErrorCode.TYPEDEF_IN_CLASS]);
}
void test_typedefInClass_withReturnType() {
ParserTestCase.parseCompilationUnit("class C { typedef int F(int x); }",
[ParserErrorCode.TYPEDEF_IN_CLASS]);
}
void test_unexpectedTerminatorForParameterGroup_named() {
parse4("parseFormalParameterList", "(a, b})",
[ParserErrorCode.UNEXPECTED_TERMINATOR_FOR_PARAMETER_GROUP]);
}
void test_unexpectedTerminatorForParameterGroup_optional() {
parse4("parseFormalParameterList", "(a, b])",
[ParserErrorCode.UNEXPECTED_TERMINATOR_FOR_PARAMETER_GROUP]);
}
void test_unexpectedToken_endOfFieldDeclarationStatement() {
ParserTestCase.parseStatement(
"String s = (null));", [ParserErrorCode.UNEXPECTED_TOKEN]);
}
void test_unexpectedToken_returnInExpressionFuntionBody() {
ParserTestCase.parseCompilationUnit(
"f() => return null;", [ParserErrorCode.UNEXPECTED_TOKEN]);
}
void test_unexpectedToken_semicolonBetweenClassMembers() {
parse3("parseClassDeclaration", <Object>[emptyCommentAndMetadata(), null],
"class C { int x; ; int y;}", [ParserErrorCode.UNEXPECTED_TOKEN]);
}
void test_unexpectedToken_semicolonBetweenCompilationUnitMembers() {
ParserTestCase.parseCompilationUnit(
"int x; ; int y;", [ParserErrorCode.UNEXPECTED_TOKEN]);
}
void test_unterminatedString_at_eof() {
// Although the "unterminated string" error message is produced by the
// scanner, we need to verify that the parser can handle the tokens
// produced by the scanner when an unterminated string is encountered.
ParserTestCase.parseCompilationUnit(
r'''
void main() {
var x = "''',
[
ScannerErrorCode.UNTERMINATED_STRING_LITERAL,
ParserErrorCode.EXPECTED_TOKEN,
ParserErrorCode.EXPECTED_TOKEN
]);
}
void test_unterminatedString_at_eol() {
// Although the "unterminated string" error message is produced by the
// scanner, we need to verify that the parser can handle the tokens
// produced by the scanner when an unterminated string is encountered.
ParserTestCase.parseCompilationUnit(
r'''
void main() {
var x = "
;
}
''',
[ScannerErrorCode.UNTERMINATED_STRING_LITERAL]);
}
void test_unterminatedString_multiline_at_eof_3_quotes() {
// Although the "unterminated string" error message is produced by the
// scanner, we need to verify that the parser can handle the tokens
// produced by the scanner when an unterminated string is encountered.
ParserTestCase.parseCompilationUnit(
r'''
void main() {
var x = """''',
[
ScannerErrorCode.UNTERMINATED_STRING_LITERAL,
ParserErrorCode.EXPECTED_TOKEN,
ParserErrorCode.EXPECTED_TOKEN
]);
}
void test_unterminatedString_multiline_at_eof_4_quotes() {
// Although the "unterminated string" error message is produced by the
// scanner, we need to verify that the parser can handle the tokens
// produced by the scanner when an unterminated string is encountered.
ParserTestCase.parseCompilationUnit(
r'''
void main() {
var x = """"''',
[
ScannerErrorCode.UNTERMINATED_STRING_LITERAL,
ParserErrorCode.EXPECTED_TOKEN,
ParserErrorCode.EXPECTED_TOKEN
]);
}
void test_unterminatedString_multiline_at_eof_5_quotes() {
// Although the "unterminated string" error message is produced by the
// scanner, we need to verify that the parser can handle the tokens
// produced by the scanner when an unterminated string is encountered.
ParserTestCase.parseCompilationUnit(
r'''
void main() {
var x = """""''',
[
ScannerErrorCode.UNTERMINATED_STRING_LITERAL,
ParserErrorCode.EXPECTED_TOKEN,
ParserErrorCode.EXPECTED_TOKEN
]);
}
void test_useOfUnaryPlusOperator() {
SimpleIdentifier expression = parse4(
"parseUnaryExpression", "+x", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf(
(obj) => obj is SimpleIdentifier, SimpleIdentifier, expression);
expect(expression.isSynthetic, isTrue);
}
void test_varAndType_field() {
ParserTestCase.parseCompilationUnit(
"class C { var int x; }", [ParserErrorCode.VAR_AND_TYPE]);
}
void test_varAndType_topLevelVariable() {
ParserTestCase
.parseCompilationUnit("var int x;", [ParserErrorCode.VAR_AND_TYPE]);
}
void test_varAsTypeName_as() {
parseExpression("x as var", [ParserErrorCode.VAR_AS_TYPE_NAME]);
}
void test_varClass() {
ParserTestCase
.parseCompilationUnit("var class C {}", [ParserErrorCode.VAR_CLASS]);
}
void test_varEnum() {
ParserTestCase
.parseCompilationUnit("var enum E {ONE}", [ParserErrorCode.VAR_ENUM]);
}
void test_varReturnType() {
parse3("parseClassMember", <Object>["C"], "var m() {}",
[ParserErrorCode.VAR_RETURN_TYPE]);
}
void test_varTypedef() {
ParserTestCase.parseCompilationUnit(
"var typedef F();", [ParserErrorCode.VAR_TYPEDEF]);
}
void test_voidParameter() {
parse4("parseNormalFormalParameter", "void a)",
[ParserErrorCode.VOID_PARAMETER]);
}
void test_voidVariable_parseClassMember_initializer() {
parse3("parseClassMember", <Object>["C"], "void x = 0;",
[ParserErrorCode.VOID_VARIABLE]);
}
void test_voidVariable_parseClassMember_noInitializer() {
parse3("parseClassMember", <Object>["C"], "void x;",
[ParserErrorCode.VOID_VARIABLE]);
}
void test_voidVariable_parseCompilationUnit_initializer() {
ParserTestCase
.parseCompilationUnit("void x = 0;", [ParserErrorCode.VOID_VARIABLE]);
}
void test_voidVariable_parseCompilationUnit_noInitializer() {
ParserTestCase
.parseCompilationUnit("void x;", [ParserErrorCode.VOID_VARIABLE]);
}
void test_voidVariable_parseCompilationUnitMember_initializer() {
parse3("parseCompilationUnitMember", <Object>[emptyCommentAndMetadata()],
"void a = 0;", [ParserErrorCode.VOID_VARIABLE]);
}
void test_voidVariable_parseCompilationUnitMember_noInitializer() {
parse3("parseCompilationUnitMember", <Object>[emptyCommentAndMetadata()],
"void a;", [ParserErrorCode.VOID_VARIABLE]);
}
void test_voidVariable_statement_initializer() {
ParserTestCase.parseStatement("void x = 0;", [
ParserErrorCode.VOID_VARIABLE,
ParserErrorCode.MISSING_CONST_FINAL_VAR_OR_TYPE
]);
}
void test_voidVariable_statement_noInitializer() {
ParserTestCase.parseStatement("void x;", [
ParserErrorCode.VOID_VARIABLE,
ParserErrorCode.MISSING_CONST_FINAL_VAR_OR_TYPE
]);
}
void test_withBeforeExtends() {
ParserTestCase.parseCompilationUnit(
"class A with B extends C {}", [ParserErrorCode.WITH_BEFORE_EXTENDS]);
}
void test_withWithoutExtends() {
parse3("parseClassDeclaration", <Object>[emptyCommentAndMetadata(), null],
"class A with B, C {}", [ParserErrorCode.WITH_WITHOUT_EXTENDS]);
}
void test_wrongSeparatorForNamedParameter() {
parse4("parseFormalParameterList", "(a, {b = 0})",
[ParserErrorCode.WRONG_SEPARATOR_FOR_NAMED_PARAMETER]);
}
void test_wrongSeparatorForPositionalParameter() {
parse4("parseFormalParameterList", "(a, [b : 0])",
[ParserErrorCode.WRONG_SEPARATOR_FOR_POSITIONAL_PARAMETER]);
}
void test_wrongTerminatorForParameterGroup_named() {
parse4("parseFormalParameterList", "(a, {b, c])",
[ParserErrorCode.WRONG_TERMINATOR_FOR_PARAMETER_GROUP]);
}
void test_wrongTerminatorForParameterGroup_optional() {
parse4("parseFormalParameterList", "(a, [b, c})",
[ParserErrorCode.WRONG_TERMINATOR_FOR_PARAMETER_GROUP]);
}
}
@reflectiveTest
class IncrementalParserTest extends EngineTestCase {
void fail_replace_identifier_with_functionLiteral_in_initializer_interp() {
// TODO(paulberry, brianwilkerson): broken due to incremental scanning bugs
// Function literals are allowed inside interpolation expressions in
// initializers.
//
// 'class A { var a; A(b) : a = "${b}";'
// 'class A { var a; A(b) : a = "${() {}}";'
_assertParse(r'class A { var a; A(b) : a = "${', 'b', '() {}', '}";');
}
void test_delete_everything() {
// "f() => a + b;"
// ""
_assertParse("", "f() => a + b;", "", "");
}
void test_delete_identifier_beginning() {
// "f() => abs + b;"
// "f() => s + b;"
_assertParse("f() => ", "ab", "", "s + b;");
}
void test_delete_identifier_end() {
// "f() => abs + b;"
// "f() => a + b;"
_assertParse("f() => a", "bs", "", " + b;");
}
void test_delete_identifier_middle() {
// "f() => abs + b;"
// "f() => as + b;"
_assertParse("f() => a", "b", "", "s + b;");
}
void test_delete_mergeTokens() {
// "f() => a + b + c;"
// "f() => ac;"
_assertParse("f() => a", " + b + ", "", "c;");
}
void test_insert_afterIdentifier1() {
// "f() => a + b;"
// "f() => abs + b;"
_assertParse("f() => a", "", "bs", " + b;");
}
void test_insert_afterIdentifier2() {
// "f() => a + b;"
// "f() => a + bar;"
_assertParse("f() => a + b", "", "ar", ";");
}
void test_insert_beforeIdentifier1() {
// "f() => a + b;"
// "f() => xa + b;"
_assertParse("f() => ", "", "x", "a + b;");
}
void test_insert_beforeIdentifier2() {
// "f() => a + b;"
// "f() => a + xb;"
_assertParse("f() => a + ", "", "x", "b;");
}
void test_insert_convertOneFunctionToTwo() {
// "f() {}"
// "f() => 0; g() {}"
_assertParse("f()", "", " => 0; g()", " {}");
}
void test_insert_end() {
// "class A {}"
// "class A {} class B {}"
_assertParse("class A {}", "", " class B {}", "");
}
void test_insert_final_before_field_declaration() {
_assertParse('class C { ', '', 'final ', 'int x; }');
}
void test_insert_function_parameter() {
_assertParse('class C { void f(', '', 'arg', ') {} }');
}
void test_insert_identifier_inCombinator() {
_assertParse("import 'foo.dart' show x", "", ", y", ";");
}
void test_insert_insideClassBody() {
// "class C {C(); }"
// "class C { C(); }"
_assertParse("class C {", "", " ", "C(); }");
}
void test_insert_insideIdentifier() {
// "f() => cob;"
// "f() => cow.b;"
_assertParse("f() => co", "", "w.", "b;");
}
void test_insert_newIdentifier1() {
// "f() => a; c;"
// "f() => a; b c;"
_assertParse("f() => a;", "", " b", " c;");
}
void test_insert_newIdentifier2() {
// "f() => a; c;"
// "f() => a;b c;"
_assertParse("f() => a;", "", "b", " c;");
}
void test_insert_newIdentifier3() {
// "/** A simple function. */ f() => a; c;"
// "/** A simple function. */ f() => a; b c;"
_assertParse("/** A simple function. */ f() => a;", "", " b", " c;");
}
void test_insert_newIdentifier4() {
// "/** An [A]. */ class A {} class B { m() { return 1; } }"
// "/** An [A]. */ class A {} class B { m() { return 1 + 2; } }"
_assertParse("/** An [A]. */ class A {} class B { m() { return 1", "",
" + 2", "; } }");
}
void test_insert_period() {
// "f() => a + b;"
// "f() => a + b.;"
_assertParse("f() => a + b", "", ".", ";");
}
void test_insert_period_betweenIdentifiers1() {
// "f() => a b;"
// "f() => a. b;"
_assertParse("f() => a", "", ".", " b;");
}
void test_insert_period_betweenIdentifiers2() {
// "f() => a b;"
// "f() => a .b;"
_assertParse("f() => a ", "", ".", "b;");
}
void test_insert_period_betweenIdentifiers3() {
// "f() => a b;"
// "f() => a . b;"
_assertParse("f() => a ", "", ".", " b;");
}
void test_insert_period_insideExistingIdentifier() {
// "f() => ab;"
// "f() => a.b;"
_assertParse("f() => a", "", ".", "b;");
}
void test_insert_periodAndIdentifier() {
// "f() => a + b;"
// "f() => a + b.x;"
_assertParse("f() => a + b", "", ".x", ";");
}
void test_insert_simpleToComplexExression() {
// "/** An [A]. */ class A {} class B { m() => 1; }"
// "/** An [A]. */ class A {} class B { m() => 1 + 2; }"
_assertParse(
"/** An [A]. */ class A {} class B { m() => 1", "", " + 2", "; }");
}
void test_insert_statement_in_method_with_mismatched_braces() {
_assertParse(
'''
class C {
void f() {
''',
'',
'g();',
'''
if (b) {
}
void g() {
h((x) {});
}
}
''');
}
void test_insert_whitespace_end() {
// "f() => a + b;"
// "f() => a + b; "
_assertParse("f() => a + b;", "", " ", "");
}
void test_insert_whitespace_end_multiple() {
// "f() => a + b;"
// "f() => a + b; "
_assertParse("f() => a + b;", "", " ", "");
}
void test_insert_whitespace_middle() {
// "f() => a + b;"
// "f() => a + b;"
_assertParse("f() => a", "", " ", " + b;");
}
void test_rename_class_withConstructor() {
// "class C { C() {} }"
// "class D { C() {} }"
_assertParse('class ', 'C', 'D', ' { C() {} }');
}
void test_replace_field_type_with_void() {
// Note: this produces an error, but we still need the parser to produce a
// consistent parse tree for it.
_assertParse('class C { ', 'int', 'void', ' x; }');
}
void test_replace_identifier_beginning() {
// "f() => bell + b;"
// "f() => fell + b;"
_assertParse("f() => ", "b", "f", "ell + b;");
}
void test_replace_identifier_end() {
// "f() => bell + b;"
// "f() => belt + b;"
_assertParse("f() => bel", "l", "t", " + b;");
}
void test_replace_identifier_middle() {
// "f() => first + b;"
// "f() => frost + b;"
_assertParse("f() => f", "ir", "ro", "st + b;");
}
void test_replace_identifier_with_functionLiteral_in_initializer() {
// Function literals aren't allowed inside initializers; incremental parsing
// needs to gather the appropriate context.
//
// "class A { var a; A(b) : a = b ? b : 0 { } }"
// "class A { var a; A(b) : a = b ? () {} : 0 { } }"
_assertParse(
"class A { var a; A(b) : a = b ? ", "b", "() {}", " : 0 { } }");
}
void test_replace_identifier_with_functionLiteral_in_initializer_index() {
// Function literals are allowed inside index expressions in initializers.
//
// "class A { var a; A(b) : a = b[b];"
// "class A { var a; A(b) : a = b[() {}];"
_assertParse('class A { var a; A(b) : a = b[', 'b', '() {}', '];');
}
void test_replace_identifier_with_functionLiteral_in_initializer_list() {
// Function literals are allowed inside list literals in initializers.
//
// "class A { var a; A(b) : a = [b];"
// "class A { var a; A(b) : a = [() {}];"
_assertParse('class A { var a; A(b) : a = [', 'b', '() {}', '];');
}
void test_replace_identifier_with_functionLiteral_in_initializer_map() {
// Function literals are allowed inside map literals in initializers.
//
// "class A { var a; A(b) : a = {0: b};"
// "class A { var a; A(b) : a = {0: () {}};"
_assertParse('class A { var a; A(b) : a = {0: ', 'b', '() {}', '};');
}
void test_replace_identifier_with_functionLiteral_in_initializer_parens() {
// Function literals are allowed inside parentheses in initializers.
//
// "class A { var a; A(b) : a = (b);"
// "class A { var a; A(b) : a = (() {});"
_assertParse('class A { var a; A(b) : a = (', 'b', '() {}', ');');
}
void test_replace_multiple_partialFirstAndLast() {
// "f() => aa + bb;"
// "f() => ab * ab;"
_assertParse("f() => a", "a + b", "b * a", "b;");
}
void test_replace_operator_oneForMany() {
// "f() => a + b;"
// "f() => a * c - b;"
_assertParse("f() => a ", "+", "* c -", " b;");
}
void test_replace_operator_oneForOne() {
// "f() => a + b;"
// "f() => a * b;"
_assertParse("f() => a ", "+", "*", " b;");
}
void test_split_combinator() {
// "import 'foo.dart' show A;"
// "import 'foo.dart' show B hide A;"
_assertParse("import 'foo.dart' show ", "", "B hide ", "A;");
}
/**
* Given a description of the original and modified contents, perform an incremental scan of the
* two pieces of text.
*
* @param prefix the unchanged text before the edit region
* @param removed the text that was removed from the original contents
* @param added the text that was added to the modified contents
* @param suffix the unchanged text after the edit region
*/
void _assertParse(
String prefix, String removed, String added, String suffix) {
//
// Compute the information needed to perform the test.
//
String originalContents = "$prefix$removed$suffix";
String modifiedContents = "$prefix$added$suffix";
int replaceStart = prefix.length;
Source source = new TestSource();
//
// Parse the original contents.
//
GatheringErrorListener originalListener = new GatheringErrorListener();
Scanner originalScanner = new Scanner(
source, new CharSequenceReader(originalContents), originalListener);
Token originalTokens = originalScanner.tokenize();
expect(originalTokens, isNotNull);
Parser originalParser = new Parser(source, originalListener);
CompilationUnit originalUnit =
originalParser.parseCompilationUnit(originalTokens);
expect(originalUnit, isNotNull);
//
// Parse the modified contents.
//
GatheringErrorListener modifiedListener = new GatheringErrorListener();
Scanner modifiedScanner = new Scanner(
source, new CharSequenceReader(modifiedContents), modifiedListener);
Token modifiedTokens = modifiedScanner.tokenize();
expect(modifiedTokens, isNotNull);
Parser modifiedParser = new Parser(source, modifiedListener);
CompilationUnit modifiedUnit =
modifiedParser.parseCompilationUnit(modifiedTokens);
expect(modifiedUnit, isNotNull);
//
// Incrementally parse the modified contents.
//
GatheringErrorListener incrementalListener = new GatheringErrorListener();
AnalysisOptionsImpl options = new AnalysisOptionsImpl();
IncrementalScanner incrementalScanner = new IncrementalScanner(source,
new CharSequenceReader(modifiedContents), incrementalListener, options);
Token incrementalTokens = incrementalScanner.rescan(
originalTokens, replaceStart, removed.length, added.length);
expect(incrementalTokens, isNotNull);
IncrementalParser incrementalParser = new IncrementalParser(
source, incrementalScanner.tokenMap, incrementalListener);
CompilationUnit incrementalUnit = incrementalParser.reparse(
originalUnit,
incrementalScanner.leftToken,
incrementalScanner.rightToken,
replaceStart,
prefix.length + removed.length);
expect(incrementalUnit, isNotNull);
//
// Validate that the results of the incremental parse are the same as the
// full parse of the modified source.
//
expect(AstComparator.equalNodes(modifiedUnit, incrementalUnit), isTrue);
// TODO(brianwilkerson) Verify that the errors are correct?
}
}
@reflectiveTest
class NonErrorParserTest extends ParserTestCase {
void test_constFactory_external() {
parse("parseClassMember", <Object>["C"], "external const factory C();");
}
void test_staticMethod_notParsingFunctionBodies() {
ParserTestCase.parseFunctionBodies = false;
try {
parse4("parseCompilationUnit", "class C { static void m() {} }");
} finally {
ParserTestCase.parseFunctionBodies = true;
}
}
}
class ParserTestCase extends EngineTestCase {
/**
* An empty list of objects used as arguments to zero-argument methods.
*/
static const List<Object> _EMPTY_ARGUMENTS = const <Object>[];
/**
* A flag indicating whether parser is to parse function bodies.
*/
static bool parseFunctionBodies = true;
/**
* A flag indicating whether parser is to parse async.
*/
bool parseAsync = true;
/**
* A flag indicating whether generic method support should be enabled for a
* specific test.
*/
bool enableGenericMethods = false;
/**
* Whether generic method comments should be enabled for the test.
*/
bool enableGenericMethodComments = false;
/**
* Return a CommentAndMetadata object with the given values that can be used for testing.
*
* @param comment the comment to be wrapped in the object
* @param annotations the annotations to be wrapped in the object
* @return a CommentAndMetadata object that can be used for testing
*/
CommentAndMetadata commentAndMetadata(Comment comment,
[List<Annotation> annotations]) {
return new CommentAndMetadata(comment, annotations);
}
/**
* Return an empty CommentAndMetadata object that can be used for testing.
*
* @return an empty CommentAndMetadata object that can be used for testing
*/
CommentAndMetadata emptyCommentAndMetadata() =>
new CommentAndMetadata(null, null);
/**
* Invoke a method in [Parser]. The method is assumed to have the given number and type of
* parameters and will be invoked with the given arguments.
*
* The given source is scanned and the parser is initialized to start with the first token in the
* source before the method is invoked.
*
* @param methodName the name of the method that should be invoked
* @param objects the values of the arguments to the method
* @param source the source to be processed by the parse method
* @param listener the error listener that will be used for both scanning and parsing
* @return the result of invoking the method
* @throws Exception if the method could not be invoked or throws an exception
* @throws AssertionFailedError if the result is `null` or the errors produced while
* scanning and parsing the source do not match the expected errors
*/
Object invokeParserMethod(String methodName, List<Object> objects,
String source, GatheringErrorListener listener) {
//
// Scan the source.
//
Scanner scanner =
new Scanner(null, new CharSequenceReader(source), listener);
scanner.scanGenericMethodComments = enableGenericMethodComments;
Token tokenStream = scanner.tokenize();
listener.setLineInfo(new TestSource(), scanner.lineStarts);
//
// Parse the source.
//
Parser parser = createParser(listener);
parser.parseAsync = parseAsync;
parser.parseGenericMethods = enableGenericMethods;
parser.parseGenericMethodComments = enableGenericMethodComments;
parser.parseFunctionBodies = parseFunctionBodies;
Object result =
invokeParserMethodImpl(parser, methodName, objects, tokenStream);
//
// Partially test the results.
//
if (!listener.hasErrors) {
expect(result, isNotNull);
}
return result;
}
/**
* Invoke a method in [Parser]. The method is assumed to have no arguments.
*
* The given source is scanned and the parser is initialized to start with the first token in the
* source before the method is invoked.
*
* @param methodName the name of the method that should be invoked
* @param source the source to be processed by the parse method
* @param listener the error listener that will be used for both scanning and parsing
* @return the result of invoking the method
* @throws Exception if the method could not be invoked or throws an exception
* @throws AssertionFailedError if the result is `null` or the errors produced while
* scanning and parsing the source do not match the expected errors
*/
Object invokeParserMethod2(
String methodName, String source, GatheringErrorListener listener) =>
invokeParserMethod(methodName, _EMPTY_ARGUMENTS, source, listener);
/**
* Invoke a parse method in [Parser]. The method is assumed to have the given number and
* type of parameters and will be invoked with the given arguments.
*
* The given source is scanned and the parser is initialized to start with the first token in the
* source before the parse method is invoked.
*
* @param methodName the name of the parse method that should be invoked to parse the source
* @param objects the values of the arguments to the method
* @param source the source to be parsed by the parse method
* @return the result of invoking the method
* @throws Exception if the method could not be invoked or throws an exception
* @throws AssertionFailedError if the result is `null` or if any errors are produced
*/
Object parse(String methodName, List<Object> objects, String source) =>
parse2(methodName, objects, source);
/**
* Invoke a parse method in [Parser]. The method is assumed to have the given number and
* type of parameters and will be invoked with the given arguments.
*
* The given source is scanned and the parser is initialized to start with the first token in the
* source before the parse method is invoked.
*
* @param methodName the name of the parse method that should be invoked to parse the source
* @param objects the values of the arguments to the method
* @param source the source to be parsed by the parse method
* @param errors the errors that should be generated
* @return the result of invoking the method
* @throws Exception if the method could not be invoked or throws an exception
* @throws AssertionFailedError if the result is `null` or the errors produced while
* scanning and parsing the source do not match the expected errors
*/
Object parse2(String methodName, List<Object> objects, String source,
[List<AnalysisError> errors = AnalysisError.NO_ERRORS]) {
GatheringErrorListener listener = new GatheringErrorListener();
Object result = invokeParserMethod(methodName, objects, source, listener);
listener.assertErrors(errors);
return result;
}
/**
* Invoke a parse method in [Parser]. The method is assumed to have the given number and
* type of parameters and will be invoked with the given arguments.
*
* The given source is scanned and the parser is initialized to start with the first token in the
* source before the parse method is invoked.
*
* @param methodName the name of the parse method that should be invoked to parse the source
* @param objects the values of the arguments to the method
* @param source the source to be parsed by the parse method
* @param errorCodes the error codes of the errors that should be generated
* @return the result of invoking the method
* @throws Exception if the method could not be invoked or throws an exception
* @throws AssertionFailedError if the result is `null` or the errors produced while
* scanning and parsing the source do not match the expected errors
*/
Object parse3(String methodName, List<Object> objects, String source,
[List<ErrorCode> errorCodes = ErrorCode.EMPTY_LIST]) {
GatheringErrorListener listener = new GatheringErrorListener();
Object result = invokeParserMethod(methodName, objects, source, listener);
listener.assertErrorsWithCodes(errorCodes);
return result;
}
/**
* Invoke a parse method in [Parser]. The method is assumed to have no arguments.
*
* The given source is scanned and the parser is initialized to start with the first token in the
* source before the parse method is invoked.
*
* @param methodName the name of the parse method that should be invoked to parse the source
* @param source the source to be parsed by the parse method
* @param errorCodes the error codes of the errors that should be generated
* @return the result of invoking the method
* @throws Exception if the method could not be invoked or throws an exception
* @throws AssertionFailedError if the result is `null` or the errors produced while
* scanning and parsing the source do not match the expected errors
*/
Object parse4(String methodName, String source,
[List<ErrorCode> errorCodes = ErrorCode.EMPTY_LIST]) =>
parse3(methodName, _EMPTY_ARGUMENTS, source, errorCodes);
/**
* Parse the given [source] as a compilation unit. Throw an exception if the
* source could not be parsed, if the compilation errors in the source do not
* match those that are expected, or if the result would have been `null`.
*/
CompilationUnit parseCompilationUnitWithOptions(String source,
[List<ErrorCode> errorCodes = ErrorCode.EMPTY_LIST]) {
GatheringErrorListener listener = new GatheringErrorListener();
Scanner scanner =
new Scanner(null, new CharSequenceReader(source), listener);
listener.setLineInfo(new TestSource(), scanner.lineStarts);
Token token = scanner.tokenize();
Parser parser = createParser(listener);
parser.parseAsync = parseAsync;
parser.parseFunctionBodies = parseFunctionBodies;
parser.parseGenericMethods = enableGenericMethods;
parser.parseGenericMethodComments = enableGenericMethodComments;
CompilationUnit unit = parser.parseCompilationUnit(token);
expect(unit, isNotNull);
listener.assertErrorsWithCodes(errorCodes);
return unit;
}
/**
* Parse the given source as an expression.
*
* @param source the source to be parsed
* @param errorCodes the error codes of the errors that are expected to be found
* @return the expression that was parsed
* @throws Exception if the source could not be parsed, if the compilation errors in the source do
* not match those that are expected, or if the result would have been `null`
*/
Expression parseExpression(String source,
[List<ErrorCode> errorCodes = ErrorCode.EMPTY_LIST]) {
GatheringErrorListener listener = new GatheringErrorListener();
Scanner scanner =
new Scanner(null, new CharSequenceReader(source), listener);
scanner.scanGenericMethodComments = enableGenericMethodComments;
listener.setLineInfo(new TestSource(), scanner.lineStarts);
Token token = scanner.tokenize();
Parser parser = createParser(listener);
parser.parseGenericMethods = enableGenericMethods;
parser.parseGenericMethodComments = enableGenericMethodComments;
Expression expression = parser.parseExpression(token);
expect(expression, isNotNull);
listener.assertErrorsWithCodes(errorCodes);
return expression;
}
@override
void setUp() {
super.setUp();
parseFunctionBodies = true;
}
/**
* Create a parser.
*
* @param listener the listener to be passed to the parser
* @return the parser that was created
*/
static Parser createParser(GatheringErrorListener listener) {
return new Parser(null, listener);
}
/**
* Parse the given source as a compilation unit.
*
* @param source the source to be parsed
* @param errorCodes the error codes of the errors that are expected to be found
* @return the compilation unit that was parsed
* @throws Exception if the source could not be parsed, if the compilation errors in the source do
* not match those that are expected, or if the result would have been `null`
*/
static CompilationUnit parseCompilationUnit(String source,
[List<ErrorCode> errorCodes = ErrorCode.EMPTY_LIST]) {
GatheringErrorListener listener = new GatheringErrorListener();
Scanner scanner =
new Scanner(null, new CharSequenceReader(source), listener);
listener.setLineInfo(new TestSource(), scanner.lineStarts);
Token token = scanner.tokenize();
Parser parser = createParser(listener);
CompilationUnit unit = parser.parseCompilationUnit(token);
expect(unit, isNotNull);
listener.assertErrorsWithCodes(errorCodes);
return unit;
}
/**
* Parse the given source as a statement.
*
* @param source the source to be parsed
* @param errorCodes the error codes of the errors that are expected to be found
* @return the statement that was parsed
* @throws Exception if the source could not be parsed, if the compilation errors in the source do
* not match those that are expected, or if the result would have been `null`
*/
static Statement parseStatement(String source,
[List<ErrorCode> errorCodes = ErrorCode.EMPTY_LIST]) {
GatheringErrorListener listener = new GatheringErrorListener();
Scanner scanner =
new Scanner(null, new CharSequenceReader(source), listener);
listener.setLineInfo(new TestSource(), scanner.lineStarts);
Token token = scanner.tokenize();
Parser parser = createParser(listener);
Statement statement = parser.parseStatement(token);
expect(statement, isNotNull);
listener.assertErrorsWithCodes(errorCodes);
return statement;
}
/**
* Parse the given source as a sequence of statements.
*
* @param source the source to be parsed
* @param expectedCount the number of statements that are expected
* @param errorCodes the error codes of the errors that are expected to be found
* @return the statements that were parsed
* @throws Exception if the source could not be parsed, if the number of statements does not match
* the expected count, if the compilation errors in the source do not match those that
* are expected, or if the result would have been `null`
*/
static List<Statement> parseStatements(String source, int expectedCount,
[List<ErrorCode> errorCodes = ErrorCode.EMPTY_LIST]) {
GatheringErrorListener listener = new GatheringErrorListener();
Scanner scanner =
new Scanner(null, new CharSequenceReader(source), listener);
listener.setLineInfo(new TestSource(), scanner.lineStarts);
Token token = scanner.tokenize();
Parser parser = createParser(listener);
List<Statement> statements = parser.parseStatements(token);
expect(statements, hasLength(expectedCount));
listener.assertErrorsWithCodes(errorCodes);
return statements;
}
}
/**
* The class `RecoveryParserTest` defines parser tests that test the parsing of invalid code
* sequences to ensure that the correct recovery steps are taken in the parser.
*/
@reflectiveTest
class RecoveryParserTest extends ParserTestCase {
void fail_incomplete_returnType() {
ParserTestCase.parseCompilationUnit(r'''
Map<Symbol, convertStringToSymbolMap(Map<String, dynamic> map) {
if (map == null) return null;
Map<Symbol, dynamic> result = new Map<Symbol, dynamic>();
map.forEach((name, value) {
result[new Symbol(name)] = value;
});
return result;
}''');
}
void test_additiveExpression_missing_LHS() {
BinaryExpression expression =
parseExpression("+ y", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
}
void test_additiveExpression_missing_LHS_RHS() {
BinaryExpression expression = parseExpression("+", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_additiveExpression_missing_RHS() {
BinaryExpression expression =
parseExpression("x +", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_additiveExpression_missing_RHS_super() {
BinaryExpression expression =
parseExpression("super +", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_additiveExpression_precedence_multiplicative_left() {
BinaryExpression expression = parseExpression("* +", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_additiveExpression_precedence_multiplicative_right() {
BinaryExpression expression = parseExpression("+ *", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_additiveExpression_super() {
BinaryExpression expression = parseExpression("super + +", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_assignmentExpression_missing_compound1() {
AssignmentExpression expression =
parseExpression("= y = 0", [ParserErrorCode.MISSING_IDENTIFIER]);
Expression syntheticExpression = expression.leftHandSide;
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, syntheticExpression);
expect(syntheticExpression.isSynthetic, isTrue);
}
void test_assignmentExpression_missing_compound2() {
AssignmentExpression expression =
parseExpression("x = = 0", [ParserErrorCode.MISSING_IDENTIFIER]);
Expression syntheticExpression =
(expression.rightHandSide as AssignmentExpression).leftHandSide;
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, syntheticExpression);
expect(syntheticExpression.isSynthetic, isTrue);
}
void test_assignmentExpression_missing_compound3() {
AssignmentExpression expression =
parseExpression("x = y =", [ParserErrorCode.MISSING_IDENTIFIER]);
Expression syntheticExpression =
(expression.rightHandSide as AssignmentExpression).rightHandSide;
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, syntheticExpression);
expect(syntheticExpression.isSynthetic, isTrue);
}
void test_assignmentExpression_missing_LHS() {
AssignmentExpression expression =
parseExpression("= 0", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftHandSide);
expect(expression.leftHandSide.isSynthetic, isTrue);
}
void test_assignmentExpression_missing_RHS() {
AssignmentExpression expression =
parseExpression("x =", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftHandSide);
expect(expression.rightHandSide.isSynthetic, isTrue);
}
void test_bitwiseAndExpression_missing_LHS() {
BinaryExpression expression =
parseExpression("& y", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
}
void test_bitwiseAndExpression_missing_LHS_RHS() {
BinaryExpression expression = parseExpression("&", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_bitwiseAndExpression_missing_RHS() {
BinaryExpression expression =
parseExpression("x &", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_bitwiseAndExpression_missing_RHS_super() {
BinaryExpression expression =
parseExpression("super &", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_bitwiseAndExpression_precedence_equality_left() {
BinaryExpression expression = parseExpression("== &&", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_bitwiseAndExpression_precedence_equality_right() {
BinaryExpression expression = parseExpression("&& ==", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_bitwiseAndExpression_super() {
BinaryExpression expression = parseExpression("super & &", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_bitwiseOrExpression_missing_LHS() {
BinaryExpression expression =
parseExpression("| y", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
}
void test_bitwiseOrExpression_missing_LHS_RHS() {
BinaryExpression expression = parseExpression("|", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_bitwiseOrExpression_missing_RHS() {
BinaryExpression expression =
parseExpression("x |", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_bitwiseOrExpression_missing_RHS_super() {
BinaryExpression expression =
parseExpression("super |", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_bitwiseOrExpression_precedence_xor_left() {
BinaryExpression expression = parseExpression("^ |", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_bitwiseOrExpression_precedence_xor_right() {
BinaryExpression expression = parseExpression("| ^", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_bitwiseOrExpression_super() {
BinaryExpression expression = parseExpression("super | |", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_bitwiseXorExpression_missing_LHS() {
BinaryExpression expression =
parseExpression("^ y", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
}
void test_bitwiseXorExpression_missing_LHS_RHS() {
BinaryExpression expression = parseExpression("^", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_bitwiseXorExpression_missing_RHS() {
BinaryExpression expression =
parseExpression("x ^", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_bitwiseXorExpression_missing_RHS_super() {
BinaryExpression expression =
parseExpression("super ^", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_bitwiseXorExpression_precedence_and_left() {
BinaryExpression expression = parseExpression("& ^", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_bitwiseXorExpression_precedence_and_right() {
BinaryExpression expression = parseExpression("^ &", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_bitwiseXorExpression_super() {
BinaryExpression expression = parseExpression("super ^ ^", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_classTypeAlias_withBody() {
ParserTestCase.parseCompilationUnit(
r'''
class A {}
class B = Object with A {}''',
[ParserErrorCode.EXPECTED_TOKEN]);
}
void test_conditionalExpression_missingElse() {
ConditionalExpression expression = parse4("parseConditionalExpression",
"x ? y :", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.elseExpression);
expect(expression.elseExpression.isSynthetic, isTrue);
}
void test_conditionalExpression_missingThen() {
ConditionalExpression expression = parse4("parseConditionalExpression",
"x ? : z", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.thenExpression);
expect(expression.thenExpression.isSynthetic, isTrue);
}
void test_declarationBeforeDirective() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"class foo { } import 'bar.dart';",
[ParserErrorCode.DIRECTIVE_AFTER_DECLARATION]);
expect(unit.directives, hasLength(1));
expect(unit.declarations, hasLength(1));
ClassDeclaration classDecl = unit.childEntities.first;
expect(classDecl, isNotNull);
expect(classDecl.name.name, 'foo');
}
void test_equalityExpression_missing_LHS() {
BinaryExpression expression =
parseExpression("== y", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
}
void test_equalityExpression_missing_LHS_RHS() {
BinaryExpression expression = parseExpression("==", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_equalityExpression_missing_RHS() {
BinaryExpression expression =
parseExpression("x ==", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_equalityExpression_missing_RHS_super() {
BinaryExpression expression =
parseExpression("super ==", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_equalityExpression_precedence_relational_left() {
BinaryExpression expression = parseExpression("is ==", [
ParserErrorCode.EXPECTED_TYPE_NAME,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf(
(obj) => obj is IsExpression, IsExpression, expression.leftOperand);
}
void test_equalityExpression_precedence_relational_right() {
BinaryExpression expression = parseExpression("== is", [
ParserErrorCode.EXPECTED_TYPE_NAME,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf(
(obj) => obj is IsExpression, IsExpression, expression.rightOperand);
}
void test_equalityExpression_super() {
BinaryExpression expression = parseExpression("super == ==", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.EQUALITY_CANNOT_BE_EQUALITY_OPERAND
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_expressionList_multiple_end() {
List<Expression> result = parse4("parseExpressionList", ", 2, 3, 4",
[ParserErrorCode.MISSING_IDENTIFIER]) as List<Expression>;
expect(result, hasLength(4));
Expression syntheticExpression = result[0];
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, syntheticExpression);
expect(syntheticExpression.isSynthetic, isTrue);
}
void test_expressionList_multiple_middle() {
List<Expression> result = parse4("parseExpressionList", "1, 2, , 4",
[ParserErrorCode.MISSING_IDENTIFIER]) as List<Expression>;
expect(result, hasLength(4));
Expression syntheticExpression = result[2];
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, syntheticExpression);
expect(syntheticExpression.isSynthetic, isTrue);
}
void test_expressionList_multiple_start() {
List<Expression> result = parse4("parseExpressionList", "1, 2, 3,",
[ParserErrorCode.MISSING_IDENTIFIER]) as List<Expression>;
expect(result, hasLength(4));
Expression syntheticExpression = result[3];
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, syntheticExpression);
expect(syntheticExpression.isSynthetic, isTrue);
}
void test_functionExpression_in_ConstructorFieldInitializer() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"class A { A() : a = (){}; var v; }",
[ParserErrorCode.MISSING_IDENTIFIER, ParserErrorCode.UNEXPECTED_TOKEN]);
// Make sure we recovered and parsed "var v" correctly
ClassDeclaration declaration = unit.declarations[0] as ClassDeclaration;
NodeList<ClassMember> members = declaration.members;
ClassMember fieldDecl = members[1];
EngineTestCase.assertInstanceOf(
(obj) => obj is FieldDeclaration, FieldDeclaration, fieldDecl);
NodeList<VariableDeclaration> vars =
(fieldDecl as FieldDeclaration).fields.variables;
expect(vars, hasLength(1));
expect(vars[0].name.name, "v");
}
void test_functionExpression_named() {
parseExpression("m(f() => 0);", [ParserErrorCode.EXPECTED_TOKEN]);
}
void test_importDirectivePartial_as() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"import 'b.dart' d as b;", [ParserErrorCode.UNEXPECTED_TOKEN]);
ImportDirective importDirective = unit.childEntities.first;
expect(importDirective.asKeyword, isNotNull);
expect(unit.directives, hasLength(1));
expect(unit.declarations, hasLength(0));
}
void test_importDirectivePartial_hide() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"import 'b.dart' d hide foo;", [ParserErrorCode.UNEXPECTED_TOKEN]);
ImportDirective importDirective = unit.childEntities.first;
expect(importDirective.combinators, hasLength(1));
expect(unit.directives, hasLength(1));
expect(unit.declarations, hasLength(0));
}
void test_importDirectivePartial_show() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"import 'b.dart' d show foo;", [ParserErrorCode.UNEXPECTED_TOKEN]);
ImportDirective importDirective = unit.childEntities.first;
expect(importDirective.combinators, hasLength(1));
expect(unit.directives, hasLength(1));
expect(unit.declarations, hasLength(0));
}
void test_incomplete_conditionalExpression() {
parseExpression("x ? 0",
[ParserErrorCode.EXPECTED_TOKEN, ParserErrorCode.MISSING_IDENTIFIER]);
}
void test_incomplete_constructorInitializers_empty() {
parse3("parseClassMember", ["C"], "C() : {}",
[ParserErrorCode.MISSING_INITIALIZER]);
}
void test_incomplete_constructorInitializers_missingEquals() {
ClassMember member = parse3("parseClassMember", ["C"], "C() : x(3) {}",
[ParserErrorCode.MISSING_ASSIGNMENT_IN_INITIALIZER]);
expect(member, new isInstanceOf<ConstructorDeclaration>());
NodeList<ConstructorInitializer> initializers =
(member as ConstructorDeclaration).initializers;
expect(initializers, hasLength(1));
ConstructorInitializer initializer = initializers[0];
expect(initializer, new isInstanceOf<ConstructorFieldInitializer>());
Expression expression =
(initializer as ConstructorFieldInitializer).expression;
expect(expression, isNotNull);
expect(expression, new isInstanceOf<ParenthesizedExpression>());
}
void test_incomplete_constructorInitializers_variable() {
parse3("parseClassMember", ["C"], "C() : x {}",
[ParserErrorCode.MISSING_ASSIGNMENT_IN_INITIALIZER]);
}
void test_incomplete_topLevelFunction() {
ParserTestCase.parseCompilationUnit(
"foo();", [ParserErrorCode.MISSING_FUNCTION_BODY]);
}
void test_incomplete_topLevelVariable() {
CompilationUnit unit = ParserTestCase
.parseCompilationUnit("String", [ParserErrorCode.EXPECTED_EXECUTABLE]);
NodeList<CompilationUnitMember> declarations = unit.declarations;
expect(declarations, hasLength(1));
CompilationUnitMember member = declarations[0];
EngineTestCase.assertInstanceOf((obj) => obj is TopLevelVariableDeclaration,
TopLevelVariableDeclaration, member);
NodeList<VariableDeclaration> variables =
(member as TopLevelVariableDeclaration).variables.variables;
expect(variables, hasLength(1));
SimpleIdentifier name = variables[0].name;
expect(name.isSynthetic, isTrue);
}
void test_incomplete_topLevelVariable_const() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit("const ",
[ParserErrorCode.MISSING_IDENTIFIER, ParserErrorCode.EXPECTED_TOKEN]);
NodeList<CompilationUnitMember> declarations = unit.declarations;
expect(declarations, hasLength(1));
CompilationUnitMember member = declarations[0];
EngineTestCase.assertInstanceOf((obj) => obj is TopLevelVariableDeclaration,
TopLevelVariableDeclaration, member);
NodeList<VariableDeclaration> variables =
(member as TopLevelVariableDeclaration).variables.variables;
expect(variables, hasLength(1));
SimpleIdentifier name = variables[0].name;
expect(name.isSynthetic, isTrue);
}
void test_incomplete_topLevelVariable_final() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit("final ",
[ParserErrorCode.MISSING_IDENTIFIER, ParserErrorCode.EXPECTED_TOKEN]);
NodeList<CompilationUnitMember> declarations = unit.declarations;
expect(declarations, hasLength(1));
CompilationUnitMember member = declarations[0];
EngineTestCase.assertInstanceOf((obj) => obj is TopLevelVariableDeclaration,
TopLevelVariableDeclaration, member);
NodeList<VariableDeclaration> variables =
(member as TopLevelVariableDeclaration).variables.variables;
expect(variables, hasLength(1));
SimpleIdentifier name = variables[0].name;
expect(name.isSynthetic, isTrue);
}
void test_incomplete_topLevelVariable_var() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit("var ",
[ParserErrorCode.MISSING_IDENTIFIER, ParserErrorCode.EXPECTED_TOKEN]);
NodeList<CompilationUnitMember> declarations = unit.declarations;
expect(declarations, hasLength(1));
CompilationUnitMember member = declarations[0];
EngineTestCase.assertInstanceOf((obj) => obj is TopLevelVariableDeclaration,
TopLevelVariableDeclaration, member);
NodeList<VariableDeclaration> variables =
(member as TopLevelVariableDeclaration).variables.variables;
expect(variables, hasLength(1));
SimpleIdentifier name = variables[0].name;
expect(name.isSynthetic, isTrue);
}
void test_incompleteField_const() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
r'''
class C {
const
}''',
[ParserErrorCode.MISSING_IDENTIFIER, ParserErrorCode.EXPECTED_TOKEN]);
NodeList<CompilationUnitMember> declarations = unit.declarations;
expect(declarations, hasLength(1));
CompilationUnitMember unitMember = declarations[0];
EngineTestCase.assertInstanceOf(
(obj) => obj is ClassDeclaration, ClassDeclaration, unitMember);
NodeList<ClassMember> members = (unitMember as ClassDeclaration).members;
expect(members, hasLength(1));
ClassMember classMember = members[0];
EngineTestCase.assertInstanceOf(
(obj) => obj is FieldDeclaration, FieldDeclaration, classMember);
VariableDeclarationList fieldList =
(classMember as FieldDeclaration).fields;
expect(fieldList.keyword.keyword, Keyword.CONST);
NodeList<VariableDeclaration> fields = fieldList.variables;
expect(fields, hasLength(1));
VariableDeclaration field = fields[0];
expect(field.name.isSynthetic, isTrue);
}
void test_incompleteField_final() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
r'''
class C {
final
}''',
[ParserErrorCode.MISSING_IDENTIFIER, ParserErrorCode.EXPECTED_TOKEN]);
NodeList<CompilationUnitMember> declarations = unit.declarations;
expect(declarations, hasLength(1));
CompilationUnitMember unitMember = declarations[0];
EngineTestCase.assertInstanceOf(
(obj) => obj is ClassDeclaration, ClassDeclaration, unitMember);
NodeList<ClassMember> members = (unitMember as ClassDeclaration).members;
expect(members, hasLength(1));
ClassMember classMember = members[0];
EngineTestCase.assertInstanceOf(
(obj) => obj is FieldDeclaration, FieldDeclaration, classMember);
VariableDeclarationList fieldList =
(classMember as FieldDeclaration).fields;
expect(fieldList.keyword.keyword, Keyword.FINAL);
NodeList<VariableDeclaration> fields = fieldList.variables;
expect(fields, hasLength(1));
VariableDeclaration field = fields[0];
expect(field.name.isSynthetic, isTrue);
}
void test_incompleteField_var() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
r'''
class C {
var
}''',
[ParserErrorCode.MISSING_IDENTIFIER, ParserErrorCode.EXPECTED_TOKEN]);
NodeList<CompilationUnitMember> declarations = unit.declarations;
expect(declarations, hasLength(1));
CompilationUnitMember unitMember = declarations[0];
EngineTestCase.assertInstanceOf(
(obj) => obj is ClassDeclaration, ClassDeclaration, unitMember);
NodeList<ClassMember> members = (unitMember as ClassDeclaration).members;
expect(members, hasLength(1));
ClassMember classMember = members[0];
EngineTestCase.assertInstanceOf(
(obj) => obj is FieldDeclaration, FieldDeclaration, classMember);
VariableDeclarationList fieldList =
(classMember as FieldDeclaration).fields;
expect(fieldList.keyword.keyword, Keyword.VAR);
NodeList<VariableDeclaration> fields = fieldList.variables;
expect(fields, hasLength(1));
VariableDeclaration field = fields[0];
expect(field.name.isSynthetic, isTrue);
}
void test_incompleteForEach() {
ForStatement statement = ParserTestCase.parseStatement(
'for (String item i) {}',
[ParserErrorCode.EXPECTED_TOKEN, ParserErrorCode.EXPECTED_TOKEN]);
expect(statement, new isInstanceOf<ForStatement>());
expect(statement.toSource(), 'for (String item; i;) {}');
expect(statement.leftSeparator, isNotNull);
expect(statement.leftSeparator.type, TokenType.SEMICOLON);
expect(statement.rightSeparator, isNotNull);
expect(statement.rightSeparator.type, TokenType.SEMICOLON);
}
void test_incompleteLocalVariable_atTheEndOfBlock() {
Statement statement = ParserTestCase
.parseStatement('String v }', [ParserErrorCode.EXPECTED_TOKEN]);
expect(statement, new isInstanceOf<VariableDeclarationStatement>());
expect(statement.toSource(), 'String v;');
}
void test_incompleteLocalVariable_beforeIdentifier() {
Statement statement = ParserTestCase.parseStatement(
'String v String v2;', [ParserErrorCode.EXPECTED_TOKEN]);
expect(statement, new isInstanceOf<VariableDeclarationStatement>());
expect(statement.toSource(), 'String v;');
}
void test_incompleteLocalVariable_beforeKeyword() {
Statement statement = ParserTestCase.parseStatement(
'String v if (true) {}', [ParserErrorCode.EXPECTED_TOKEN]);
expect(statement, new isInstanceOf<VariableDeclarationStatement>());
expect(statement.toSource(), 'String v;');
}
void test_incompleteLocalVariable_beforeNextBlock() {
Statement statement = ParserTestCase
.parseStatement('String v {}', [ParserErrorCode.EXPECTED_TOKEN]);
expect(statement, new isInstanceOf<VariableDeclarationStatement>());
expect(statement.toSource(), 'String v;');
}
void test_incompleteLocalVariable_parameterizedType() {
Statement statement = ParserTestCase
.parseStatement('List<String> v {}', [ParserErrorCode.EXPECTED_TOKEN]);
expect(statement, new isInstanceOf<VariableDeclarationStatement>());
expect(statement.toSource(), 'List<String> v;');
}
void test_incompleteTypeArguments_field() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
r'''
class C {
final List<int f;
}''',
[ParserErrorCode.EXPECTED_TOKEN]);
// one class
List<CompilationUnitMember> declarations = unit.declarations;
expect(declarations, hasLength(1));
ClassDeclaration classDecl = declarations[0] as ClassDeclaration;
// one field declaration
List<ClassMember> members = classDecl.members;
expect(members, hasLength(1));
FieldDeclaration fieldDecl = members[0] as FieldDeclaration;
// one field
VariableDeclarationList fieldList = fieldDecl.fields;
List<VariableDeclaration> fields = fieldList.variables;
expect(fields, hasLength(1));
VariableDeclaration field = fields[0];
expect(field.name.name, 'f');
// validate the type
TypeArgumentList typeArguments = fieldList.type.typeArguments;
expect(typeArguments.arguments, hasLength(1));
// synthetic '>'
Token token = typeArguments.endToken;
expect(token.type, TokenType.GT);
expect(token.isSynthetic, isTrue);
}
void test_incompleteTypeParameters() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
r'''
class C<K {
}''',
[ParserErrorCode.EXPECTED_TOKEN]);
// one class
List<CompilationUnitMember> declarations = unit.declarations;
expect(declarations, hasLength(1));
ClassDeclaration classDecl = declarations[0] as ClassDeclaration;
// validate the type parameters
TypeParameterList typeParameters = classDecl.typeParameters;
expect(typeParameters.typeParameters, hasLength(1));
// synthetic '>'
Token token = typeParameters.endToken;
expect(token.type, TokenType.GT);
expect(token.isSynthetic, isTrue);
}
void test_invalidFunctionBodyModifier() {
ParserTestCase.parseCompilationUnit(
"f() sync {}", [ParserErrorCode.MISSING_STAR_AFTER_SYNC]);
}
void test_isExpression_noType() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
"class Bar<T extends Foo> {m(x){if (x is ) return;if (x is !)}}", [
ParserErrorCode.EXPECTED_TYPE_NAME,
ParserErrorCode.EXPECTED_TYPE_NAME,
ParserErrorCode.MISSING_STATEMENT
]);
ClassDeclaration declaration = unit.declarations[0] as ClassDeclaration;
MethodDeclaration method = declaration.members[0] as MethodDeclaration;
BlockFunctionBody body = method.body as BlockFunctionBody;
IfStatement ifStatement = body.block.statements[1] as IfStatement;
IsExpression expression = ifStatement.condition as IsExpression;
expect(expression.expression, isNotNull);
expect(expression.isOperator, isNotNull);
expect(expression.notOperator, isNotNull);
TypeName type = expression.type;
expect(type, isNotNull);
expect(type.name.isSynthetic, isTrue);
EngineTestCase.assertInstanceOf((obj) => obj is EmptyStatement,
EmptyStatement, ifStatement.thenStatement);
}
void test_keywordInPlaceOfIdentifier() {
// TODO(brianwilkerson) We could do better with this.
ParserTestCase.parseCompilationUnit("do() {}", [
ParserErrorCode.EXPECTED_EXECUTABLE,
ParserErrorCode.UNEXPECTED_TOKEN
]);
}
void test_logicalAndExpression_missing_LHS() {
BinaryExpression expression =
parseExpression("&& y", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
}
void test_logicalAndExpression_missing_LHS_RHS() {
BinaryExpression expression = parseExpression("&&", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_logicalAndExpression_missing_RHS() {
BinaryExpression expression =
parseExpression("x &&", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_logicalAndExpression_precedence_bitwiseOr_left() {
BinaryExpression expression = parseExpression("| &&", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_logicalAndExpression_precedence_bitwiseOr_right() {
BinaryExpression expression = parseExpression("&& |", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_logicalOrExpression_missing_LHS() {
BinaryExpression expression =
parseExpression("|| y", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
}
void test_logicalOrExpression_missing_LHS_RHS() {
BinaryExpression expression = parseExpression("||", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_logicalOrExpression_missing_RHS() {
BinaryExpression expression =
parseExpression("x ||", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_logicalOrExpression_precedence_logicalAnd_left() {
BinaryExpression expression = parseExpression("&& ||", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_logicalOrExpression_precedence_logicalAnd_right() {
BinaryExpression expression = parseExpression("|| &&", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_missing_commaInArgumentList() {
parseExpression("f(x: 1 y: 2)", [ParserErrorCode.EXPECTED_TOKEN]);
}
void test_missingGet() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
r'''
class C {
int length {}
void foo() {}
}''',
[ParserErrorCode.MISSING_GET]);
expect(unit, isNotNull);
ClassDeclaration classDeclaration =
unit.declarations[0] as ClassDeclaration;
NodeList<ClassMember> members = classDeclaration.members;
expect(members, hasLength(2));
EngineTestCase.assertInstanceOf(
(obj) => obj is MethodDeclaration, MethodDeclaration, members[0]);
ClassMember member = members[1];
EngineTestCase.assertInstanceOf(
(obj) => obj is MethodDeclaration, MethodDeclaration, member);
expect((member as MethodDeclaration).name.name, "foo");
}
void test_missingIdentifier_afterAnnotation() {
MethodDeclaration method = parse3("parseClassMember", <Object>["C"],
"@override }", [ParserErrorCode.EXPECTED_CLASS_MEMBER]);
expect(method.documentationComment, isNull);
NodeList<Annotation> metadata = method.metadata;
expect(metadata, hasLength(1));
expect(metadata[0].name.name, "override");
}
void test_missingSemicolon_varialeDeclarationList() {
void verify(CompilationUnitMember member, String expectedTypeName,
String expectedName, String expectedSemicolon) {
expect(member, new isInstanceOf<TopLevelVariableDeclaration>());
TopLevelVariableDeclaration declaration = member;
VariableDeclarationList variableList = declaration.variables;
expect(variableList, isNotNull);
NodeList<VariableDeclaration> variables = variableList.variables;
expect(variables, hasLength(1));
VariableDeclaration variable = variables[0];
expect(variableList.type.toString(), expectedTypeName);
expect(variable.name.name, expectedName);
expect(declaration.semicolon.lexeme, expectedSemicolon);
}
CompilationUnit unit = ParserTestCase.parseCompilationUnit(
'String n x = "";', [
ParserErrorCode.EXPECTED_TOKEN,
ParserErrorCode.MISSING_CONST_FINAL_VAR_OR_TYPE
]);
expect(unit, isNotNull);
NodeList<CompilationUnitMember> declarations = unit.declarations;
expect(declarations, hasLength(2));
verify(declarations[0], 'String', 'n', '');
verify(declarations[1], 'null', 'x', ';');
}
void test_multiplicativeExpression_missing_LHS() {
BinaryExpression expression =
parseExpression("* y", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
}
void test_multiplicativeExpression_missing_LHS_RHS() {
BinaryExpression expression = parseExpression("*", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_multiplicativeExpression_missing_RHS() {
BinaryExpression expression =
parseExpression("x *", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_multiplicativeExpression_missing_RHS_super() {
BinaryExpression expression =
parseExpression("super *", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_multiplicativeExpression_precedence_unary_left() {
BinaryExpression expression =
parseExpression("-x *", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is PrefixExpression,
PrefixExpression, expression.leftOperand);
}
void test_multiplicativeExpression_precedence_unary_right() {
BinaryExpression expression =
parseExpression("* -y", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is PrefixExpression,
PrefixExpression, expression.rightOperand);
}
void test_multiplicativeExpression_super() {
BinaryExpression expression = parseExpression("super == ==", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.EQUALITY_CANNOT_BE_EQUALITY_OPERAND
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_nonStringLiteralUri_import() {
ParserTestCase.parseCompilationUnit("import dart:io; class C {}",
[ParserErrorCode.NON_STRING_LITERAL_AS_URI]);
}
void test_prefixExpression_missing_operand_minus() {
PrefixExpression expression =
parseExpression("-", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf(
(obj) => obj is SimpleIdentifier, SimpleIdentifier, expression.operand);
expect(expression.operand.isSynthetic, isTrue);
expect(expression.operator.type, TokenType.MINUS);
}
void test_primaryExpression_argumentDefinitionTest() {
Expression expression = parse4(
"parsePrimaryExpression", "?a", [ParserErrorCode.UNEXPECTED_TOKEN]);
EngineTestCase.assertInstanceOf(
(obj) => obj is SimpleIdentifier, SimpleIdentifier, expression);
}
void test_relationalExpression_missing_LHS() {
IsExpression expression =
parseExpression("is y", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.expression);
expect(expression.expression.isSynthetic, isTrue);
}
void test_relationalExpression_missing_LHS_RHS() {
IsExpression expression = parseExpression("is", [
ParserErrorCode.EXPECTED_TYPE_NAME,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.expression);
expect(expression.expression.isSynthetic, isTrue);
EngineTestCase.assertInstanceOf(
(obj) => obj is TypeName, TypeName, expression.type);
expect(expression.type.isSynthetic, isTrue);
}
void test_relationalExpression_missing_RHS() {
IsExpression expression =
parseExpression("x is", [ParserErrorCode.EXPECTED_TYPE_NAME]);
EngineTestCase.assertInstanceOf(
(obj) => obj is TypeName, TypeName, expression.type);
expect(expression.type.isSynthetic, isTrue);
}
void test_relationalExpression_precedence_shift_right() {
IsExpression expression = parseExpression("<< is", [
ParserErrorCode.EXPECTED_TYPE_NAME,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.expression);
}
void test_shiftExpression_missing_LHS() {
BinaryExpression expression =
parseExpression("<< y", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
}
void test_shiftExpression_missing_LHS_RHS() {
BinaryExpression expression = parseExpression("<<", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.leftOperand);
expect(expression.leftOperand.isSynthetic, isTrue);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_shiftExpression_missing_RHS() {
BinaryExpression expression =
parseExpression("x <<", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_shiftExpression_missing_RHS_super() {
BinaryExpression expression =
parseExpression("super <<", [ParserErrorCode.MISSING_IDENTIFIER]);
EngineTestCase.assertInstanceOf((obj) => obj is SimpleIdentifier,
SimpleIdentifier, expression.rightOperand);
expect(expression.rightOperand.isSynthetic, isTrue);
}
void test_shiftExpression_precedence_unary_left() {
BinaryExpression expression = parseExpression("+ <<", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_shiftExpression_precedence_unary_right() {
BinaryExpression expression = parseExpression("<< +", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.rightOperand);
}
void test_shiftExpression_super() {
BinaryExpression expression = parseExpression("super << <<", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
EngineTestCase.assertInstanceOf((obj) => obj is BinaryExpression,
BinaryExpression, expression.leftOperand);
}
void test_typedef_eof() {
CompilationUnit unit = ParserTestCase.parseCompilationUnit("typedef n", [
ParserErrorCode.EXPECTED_TOKEN,
ParserErrorCode.MISSING_TYPEDEF_PARAMETERS
]);
NodeList<CompilationUnitMember> declarations = unit.declarations;
expect(declarations, hasLength(1));
CompilationUnitMember member = declarations[0];
EngineTestCase.assertInstanceOf(
(obj) => obj is FunctionTypeAlias, FunctionTypeAlias, member);
}
void test_unaryPlus() {
parseExpression("+2", [ParserErrorCode.MISSING_IDENTIFIER]);
}
}
/**
* The class `SimpleParserTest` defines parser tests that test individual parsing method. The
* code fragments should be as minimal as possible in order to test the method, but should not test
* the interactions between the method under test and other methods.
*
* More complex tests should be defined in the class [ComplexParserTest].
*/
@reflectiveTest
class SimpleParserTest extends ParserTestCase {
void fail_parseAwaitExpression_inSync() {
// This test requires better error recovery than we currently have. In
// particular, we need to be able to distinguish between an await expression
// in the wrong context, and the use of 'await' as an identifier.
MethodDeclaration method = parse(
"parseClassMember", <Object>["C"], "m() { return await x + await y; }");
FunctionBody body = method.body;
EngineTestCase.assertInstanceOf(
(obj) => obj is BlockFunctionBody, BlockFunctionBody, body);
Statement statement = (body as BlockFunctionBody).block.statements[0];
EngineTestCase.assertInstanceOf(
(obj) => obj is ReturnStatement, ReturnStatement, statement);
Expression expression = (statement as ReturnStatement).expression;
EngineTestCase.assertInstanceOf(
(obj) => obj is BinaryExpression, BinaryExpression, expression);
EngineTestCase.assertInstanceOf((obj) => obj is AwaitExpression,
AwaitExpression, (expression as BinaryExpression).leftOperand);
EngineTestCase.assertInstanceOf((obj) => obj is AwaitExpression,
AwaitExpression, (expression as BinaryExpression).rightOperand);
}
void fail_parseCommentReference_this() {
// This fails because we are returning null from the method and asserting
// that the return value is not null.
CommentReference reference =
parse("parseCommentReference", <Object>["this", 5], "");
SimpleIdentifier identifier = EngineTestCase.assertInstanceOf(
(obj) => obj is SimpleIdentifier,
SimpleIdentifier,
reference.identifier);
expect(identifier.token, isNotNull);
expect(identifier.name, "a");
expect(identifier.offset, 5);
}
void fail_parseStatement_functionDeclaration_noReturnType_typeParameters() {
enableGenericMethods = true;
FunctionDeclarationStatement statement =
parse4("parseStatement", "f<E>(a, b) {};");
expect(statement.functionDeclaration, isNotNull);
}
void test_computeStringValue_emptyInterpolationPrefix() {
expect(_computeStringValue("'''", true, false), "");
}
void test_computeStringValue_escape_b() {
expect(_computeStringValue("'\\b'", true, true), "\b");
}
void test_computeStringValue_escape_f() {
expect(_computeStringValue("'\\f'", true, true), "\f");
}
void test_computeStringValue_escape_n() {
expect(_computeStringValue("'\\n'", true, true), "\n");
}
void test_computeStringValue_escape_notSpecial() {
expect(_computeStringValue("'\\:'", true, true), ":");
}
void test_computeStringValue_escape_r() {
expect(_computeStringValue("'\\r'", true, true), "\r");
}
void test_computeStringValue_escape_t() {
expect(_computeStringValue("'\\t'", true, true), "\t");
}
void test_computeStringValue_escape_u_fixed() {
expect(_computeStringValue("'\\u4321'", true, true), "\u4321");
}
void test_computeStringValue_escape_u_variable() {
expect(_computeStringValue("'\\u{123}'", true, true), "\u0123");
}
void test_computeStringValue_escape_v() {
expect(_computeStringValue("'\\v'", true, true), "\u000B");
}
void test_computeStringValue_escape_x() {
expect(_computeStringValue("'\\xFF'", true, true), "\u00FF");
}
void test_computeStringValue_noEscape_single() {
expect(_computeStringValue("'text'", true, true), "text");
}
void test_computeStringValue_noEscape_triple() {
expect(_computeStringValue("'''text'''", true, true), "text");
}
void test_computeStringValue_raw_single() {
expect(_computeStringValue("r'text'", true, true), "text");
}
void test_computeStringValue_raw_triple() {
expect(_computeStringValue("r'''text'''", true, true), "text");
}
void test_computeStringValue_raw_withEscape() {
expect(_computeStringValue("r'two\\nlines'", true, true), "two\\nlines");
}
void test_computeStringValue_triple_internalQuote_first_empty() {
expect(_computeStringValue("''''", true, false), "'");
}
void test_computeStringValue_triple_internalQuote_first_nonEmpty() {
expect(_computeStringValue("''''text", true, false), "'text");
}
void test_computeStringValue_triple_internalQuote_last_empty() {
expect(_computeStringValue("'''", false, true), "");
}
void test_computeStringValue_triple_internalQuote_last_nonEmpty() {
expect(_computeStringValue("text'''", false, true), "text");
}
void test_constFactory() {
parse("parseClassMember", <Object>["C"], "const factory C() = A;");
}
void test_createSyntheticIdentifier() {
SimpleIdentifier identifier = _createSyntheticIdentifier();
expect(identifier.isSynthetic, isTrue);
}
void test_createSyntheticStringLiteral() {
SimpleStringLiteral literal = _createSyntheticStringLiteral();
expect(literal.isSynthetic, isTrue);
}
void test_function_literal_allowed_at_toplevel() {
ParserTestCase.parseCompilationUnit("var x = () {};");
}
void
test_function_literal_allowed_in_ArgumentList_in_ConstructorFieldInitializer() {
ParserTestCase.parseCompilationUnit("class C { C() : a = f(() {}); }");
}
void
test_function_literal_allowed_in_IndexExpression_in_ConstructorFieldInitializer() {
ParserTestCase.parseCompilationUnit("class C { C() : a = x[() {}]; }");
}
void
test_function_literal_allowed_in_ListLiteral_in_ConstructorFieldInitializer() {
ParserTestCase.parseCompilationUnit("class C { C() : a = [() {}]; }");
}
void
test_function_literal_allowed_in_MapLiteral_in_ConstructorFieldInitializer() {
ParserTestCase
.parseCompilationUnit("class C { C() : a = {'key': () {}}; }");
}
void
test_function_literal_allowed_in_ParenthesizedExpression_in_ConstructorFieldInitializer() {
ParserTestCase.parseCompilationUnit("class C { C() : a = (() {}); }");
}
void
test_function_literal_allowed_in_StringInterpolation_in_ConstructorFieldInitializer() {
ParserTestCase.parseCompilationUnit("class C { C() : a = \"\${(){}}\"; }");
}
void test_import_as_show() {
ParserTestCase.parseCompilationUnit("import 'dart:math' as M show E;");
}
void test_import_show_hide() {
ParserTestCase.parseCompilationUnit(
"import 'import1_lib.dart' show hide, show hide ugly;");
}
void test_isFunctionDeclaration_nameButNoReturn_block() {
expect(_isFunctionDeclaration("f() {}"), isTrue);
}
void test_isFunctionDeclaration_nameButNoReturn_expression() {
expect(_isFunctionDeclaration("f() => e"), isTrue);
}
void test_isFunctionDeclaration_nameButNoReturn_typeParameters_block() {
enableGenericMethods = true;
expect(_isFunctionDeclaration("f<E>() {}"), isTrue);
}
void test_isFunctionDeclaration_nameButNoReturn_typeParameters_expression() {
enableGenericMethods = true;
expect(_isFunctionDeclaration("f<E>() => e"), isTrue);
}
void test_isFunctionDeclaration_normalReturn_block() {
expect(_isFunctionDeclaration("C f() {}"), isTrue);
}
void test_isFunctionDeclaration_normalReturn_expression() {
expect(_isFunctionDeclaration("C f() => e"), isTrue);
}
void test_isFunctionDeclaration_normalReturn_typeParameters_block() {
enableGenericMethods = true;
expect(_isFunctionDeclaration("C f<E>() {}"), isTrue);
}
void test_isFunctionDeclaration_normalReturn_typeParameters_expression() {
enableGenericMethods = true;
expect(_isFunctionDeclaration("C f<E>() => e"), isTrue);
}
void test_isFunctionDeclaration_voidReturn_block() {
expect(_isFunctionDeclaration("void f() {}"), isTrue);
}
void test_isFunctionDeclaration_voidReturn_expression() {
expect(_isFunctionDeclaration("void f() => e"), isTrue);
}
void test_isFunctionDeclaration_voidReturn_typeParameters_block() {
enableGenericMethods = true;
expect(_isFunctionDeclaration("void f<E>() {}"), isTrue);
}
void test_isFunctionDeclaration_voidReturn_typeParameters_expression() {
enableGenericMethods = true;
expect(_isFunctionDeclaration("void f<E>() => e"), isTrue);
}
void test_isFunctionExpression_false_noBody() {
expect(_isFunctionExpression("f();"), isFalse);
}
void test_isFunctionExpression_false_notParameters() {
expect(_isFunctionExpression("(a + b) {"), isFalse);
}
void test_isFunctionExpression_noParameters_block() {
expect(_isFunctionExpression("() {}"), isTrue);
}
void test_isFunctionExpression_noParameters_expression() {
expect(_isFunctionExpression("() => e"), isTrue);
}
void test_isFunctionExpression_noParameters_typeParameters_block() {
enableGenericMethods = true;
expect(_isFunctionExpression("<E>() {}"), isTrue);
}
void test_isFunctionExpression_noParameters_typeParameters_expression() {
enableGenericMethods = true;
expect(_isFunctionExpression("<E>() => e"), isTrue);
}
void test_isFunctionExpression_parameter_final() {
expect(_isFunctionExpression("(final a) {}"), isTrue);
expect(_isFunctionExpression("(final a, b) {}"), isTrue);
expect(_isFunctionExpression("(final a, final b) {}"), isTrue);
}
void test_isFunctionExpression_parameter_final_typed() {
expect(_isFunctionExpression("(final int a) {}"), isTrue);
expect(_isFunctionExpression("(final prefix.List a) {}"), isTrue);
expect(_isFunctionExpression("(final List<int> a) {}"), isTrue);
expect(_isFunctionExpression("(final prefix.List<int> a) {}"), isTrue);
}
void test_isFunctionExpression_parameter_multiple() {
expect(_isFunctionExpression("(a, b) {}"), isTrue);
}
void test_isFunctionExpression_parameter_named() {
expect(_isFunctionExpression("({a}) {}"), isTrue);
}
void test_isFunctionExpression_parameter_optional() {
expect(_isFunctionExpression("([a]) {}"), isTrue);
}
void test_isFunctionExpression_parameter_single() {
expect(_isFunctionExpression("(a) {}"), isTrue);
}
void test_isFunctionExpression_parameter_typed() {
expect(_isFunctionExpression("(int a, int b) {}"), isTrue);
}
void test_isInitializedVariableDeclaration_assignment() {
expect(_isInitializedVariableDeclaration("a = null;"), isFalse);
}
void test_isInitializedVariableDeclaration_comparison() {
expect(_isInitializedVariableDeclaration("a < 0;"), isFalse);
}
void test_isInitializedVariableDeclaration_conditional() {
expect(_isInitializedVariableDeclaration("a == null ? init() : update();"),
isFalse);
}
void test_isInitializedVariableDeclaration_const_noType_initialized() {
expect(_isInitializedVariableDeclaration("const a = 0;"), isTrue);
}
void test_isInitializedVariableDeclaration_const_noType_uninitialized() {
expect(_isInitializedVariableDeclaration("const a;"), isTrue);
}
void test_isInitializedVariableDeclaration_const_simpleType_uninitialized() {
expect(_isInitializedVariableDeclaration("const A a;"), isTrue);
}
void test_isInitializedVariableDeclaration_final_noType_initialized() {
expect(_isInitializedVariableDeclaration("final a = 0;"), isTrue);
}
void test_isInitializedVariableDeclaration_final_noType_uninitialized() {
expect(_isInitializedVariableDeclaration("final a;"), isTrue);
}
void test_isInitializedVariableDeclaration_final_simpleType_initialized() {
expect(_isInitializedVariableDeclaration("final A a = 0;"), isTrue);
}
void test_isInitializedVariableDeclaration_functionDeclaration_typed() {
expect(_isInitializedVariableDeclaration("A f() {};"), isFalse);
}
void test_isInitializedVariableDeclaration_functionDeclaration_untyped() {
expect(_isInitializedVariableDeclaration("f() {};"), isFalse);
}
void test_isInitializedVariableDeclaration_noType_initialized() {
expect(_isInitializedVariableDeclaration("var a = 0;"), isTrue);
}
void test_isInitializedVariableDeclaration_noType_uninitialized() {
expect(_isInitializedVariableDeclaration("var a;"), isTrue);
}
void test_isInitializedVariableDeclaration_parameterizedType_initialized() {
expect(_isInitializedVariableDeclaration("List<int> a = null;"), isTrue);
}
void test_isInitializedVariableDeclaration_parameterizedType_uninitialized() {
expect(_isInitializedVariableDeclaration("List<int> a;"), isTrue);
}
void test_isInitializedVariableDeclaration_simpleType_initialized() {
expect(_isInitializedVariableDeclaration("A a = 0;"), isTrue);
}
void test_isInitializedVariableDeclaration_simpleType_uninitialized() {
expect(_isInitializedVariableDeclaration("A a;"), isTrue);
}
void test_isSwitchMember_case_labeled() {
expect(_isSwitchMember("l1: l2: case"), isTrue);
}
void test_isSwitchMember_case_unlabeled() {
expect(_isSwitchMember("case"), isTrue);
}
void test_isSwitchMember_default_labeled() {
expect(_isSwitchMember("l1: l2: default"), isTrue);
}
void test_isSwitchMember_default_unlabeled() {
expect(_isSwitchMember("default"), isTrue);
}
void test_isSwitchMember_false() {
expect(_isSwitchMember("break;"), isFalse);
}
void test_parseAdditiveExpression_normal() {
BinaryExpression expression = parse4("parseAdditiveExpression", "x + y");
expect(expression.leftOperand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.PLUS);
expect(expression.rightOperand, isNotNull);
}
void test_parseAdditiveExpression_super() {
BinaryExpression expression =
parse4("parseAdditiveExpression", "super + y");
EngineTestCase.assertInstanceOf((obj) => obj is SuperExpression,
SuperExpression, expression.leftOperand);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.PLUS);
expect(expression.rightOperand, isNotNull);
}
void test_parseAnnotation_n1() {
Annotation annotation = parse4("parseAnnotation", "@A");
expect(annotation.atSign, isNotNull);
expect(annotation.name, isNotNull);
expect(annotation.period, isNull);
expect(annotation.constructorName, isNull);
expect(annotation.arguments, isNull);
}
void test_parseAnnotation_n1_a() {
Annotation annotation = parse4("parseAnnotation", "@A(x,y)");
expect(annotation.atSign, isNotNull);
expect(annotation.name, isNotNull);
expect(annotation.period, isNull);
expect(annotation.constructorName, isNull);
expect(annotation.arguments, isNotNull);
}
void test_parseAnnotation_n2() {
Annotation annotation = parse4("parseAnnotation", "@A.B");
expect(annotation.atSign, isNotNull);
expect(annotation.name, isNotNull);
expect(annotation.period, isNull);
expect(annotation.constructorName, isNull);
expect(annotation.arguments, isNull);
}
void test_parseAnnotation_n2_a() {
Annotation annotation = parse4("parseAnnotation", "@A.B(x,y)");
expect(annotation.atSign, isNotNull);
expect(annotation.name, isNotNull);
expect(annotation.period, isNull);
expect(annotation.constructorName, isNull);
expect(annotation.arguments, isNotNull);
}
void test_parseAnnotation_n3() {
Annotation annotation = parse4("parseAnnotation", "@A.B.C");
expect(annotation.atSign, isNotNull);
expect(annotation.name, isNotNull);
expect(annotation.period, isNotNull);
expect(annotation.constructorName, isNotNull);
expect(annotation.arguments, isNull);
}
void test_parseAnnotation_n3_a() {
Annotation annotation = parse4("parseAnnotation", "@A.B.C(x,y)");
expect(annotation.atSign, isNotNull);
expect(annotation.name, isNotNull);
expect(annotation.period, isNotNull);
expect(annotation.constructorName, isNotNull);
expect(annotation.arguments, isNotNull);
}
void test_parseArgument_named() {
NamedExpression expression = parse4("parseArgument", "n: x");
Label name = expression.name;
expect(name, isNotNull);
expect(name.label, isNotNull);
expect(name.colon, isNotNull);
expect(expression.expression, isNotNull);
}
void test_parseArgument_unnamed() {
String lexeme = "x";
SimpleIdentifier identifier = parse4("parseArgument", lexeme);
expect(identifier.name, lexeme);
}
void test_parseArgumentList_empty() {
ArgumentList argumentList = parse4("parseArgumentList", "()");
NodeList<Expression> arguments = argumentList.arguments;
expect(arguments, hasLength(0));
}
void test_parseArgumentList_mixed() {
ArgumentList argumentList =
parse4("parseArgumentList", "(w, x, y: y, z: z)");
NodeList<Expression> arguments = argumentList.arguments;
expect(arguments, hasLength(4));
}
void test_parseArgumentList_noNamed() {
ArgumentList argumentList = parse4("parseArgumentList", "(x, y, z)");
NodeList<Expression> arguments = argumentList.arguments;
expect(arguments, hasLength(3));
}
void test_parseArgumentList_onlyNamed() {
ArgumentList argumentList = parse4("parseArgumentList", "(x: x, y: y)");
NodeList<Expression> arguments = argumentList.arguments;
expect(arguments, hasLength(2));
}
void test_parseArgumentList_trailing_comma() {
ArgumentList argumentList = parse4("parseArgumentList", "(x, y, z,)");
NodeList<Expression> arguments = argumentList.arguments;
expect(arguments, hasLength(3));
}
void test_parseAssertStatement() {
AssertStatement statement = parse4("parseAssertStatement", "assert (x);");
expect(statement.assertKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.comma, isNull);
expect(statement.message, isNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.semicolon, isNotNull);
}
void test_parseAssertStatement_messageLowPrecedence() {
// Using a throw expression as an assert message would be silly in
// practice, but it's the lowest precedence expression type, so verifying
// that it works should give us high confidence that other expression types
// will work as well.
AssertStatement statement =
parse4('parseAssertStatement', 'assert (x, throw "foo");');
expect(statement.assertKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.comma, isNotNull);
expect(statement.message, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.semicolon, isNotNull);
}
void test_parseAssertStatement_messageString() {
AssertStatement statement =
parse4('parseAssertStatement', 'assert (x, "foo");');
expect(statement.assertKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.comma, isNotNull);
expect(statement.message, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.semicolon, isNotNull);
}
void test_parseAssignableExpression_expression_args_dot() {
PropertyAccess propertyAccess =
parse("parseAssignableExpression", <Object>[false], "(x)(y).z");
FunctionExpressionInvocation invocation =
propertyAccess.target as FunctionExpressionInvocation;
expect(invocation.function, isNotNull);
expect(invocation.typeArguments, isNull);
ArgumentList argumentList = invocation.argumentList;
expect(argumentList, isNotNull);
expect(argumentList.arguments, hasLength(1));
expect(propertyAccess.operator, isNotNull);
expect(propertyAccess.propertyName, isNotNull);
}
void
test_parseAssignableExpression_expression_args_dot_typeParameterComments() {
enableGenericMethodComments = true;
PropertyAccess propertyAccess =
parse("parseAssignableExpression", <Object>[false], "(x)/*<F>*/(y).z");
FunctionExpressionInvocation invocation =
propertyAccess.target as FunctionExpressionInvocation;
expect(invocation.function, isNotNull);
expect(invocation.typeArguments, isNotNull);
ArgumentList argumentList = invocation.argumentList;
expect(argumentList, isNotNull);
expect(argumentList.arguments, hasLength(1));
expect(propertyAccess.operator, isNotNull);
expect(propertyAccess.propertyName, isNotNull);
}
void test_parseAssignableExpression_expression_args_dot_typeParameters() {
enableGenericMethods = true;
PropertyAccess propertyAccess =
parse("parseAssignableExpression", <Object>[false], "(x)<F>(y).z");
FunctionExpressionInvocation invocation =
propertyAccess.target as FunctionExpressionInvocation;
expect(invocation.function, isNotNull);
expect(invocation.typeArguments, isNotNull);
ArgumentList argumentList = invocation.argumentList;
expect(argumentList, isNotNull);
expect(argumentList.arguments, hasLength(1));
expect(propertyAccess.operator, isNotNull);
expect(propertyAccess.propertyName, isNotNull);
}
void test_parseAssignableExpression_expression_dot() {
PropertyAccess propertyAccess =
parse("parseAssignableExpression", <Object>[false], "(x).y");
expect(propertyAccess.target, isNotNull);
expect(propertyAccess.operator.type, TokenType.PERIOD);
expect(propertyAccess.propertyName, isNotNull);
}
void test_parseAssignableExpression_expression_index() {
IndexExpression expression =
parse("parseAssignableExpression", <Object>[false], "(x)[y]");
expect(expression.target, isNotNull);
expect(expression.leftBracket, isNotNull);
expect(expression.index, isNotNull);
expect(expression.rightBracket, isNotNull);
}
void test_parseAssignableExpression_expression_question_dot() {
PropertyAccess propertyAccess =
parse("parseAssignableExpression", <Object>[false], "(x)?.y");
expect(propertyAccess.target, isNotNull);
expect(propertyAccess.operator.type, TokenType.QUESTION_PERIOD);
expect(propertyAccess.propertyName, isNotNull);
}
void test_parseAssignableExpression_identifier() {
SimpleIdentifier identifier =
parse("parseAssignableExpression", <Object>[false], "x");
expect(identifier, isNotNull);
}
void test_parseAssignableExpression_identifier_args_dot() {
PropertyAccess propertyAccess =
parse("parseAssignableExpression", <Object>[false], "x(y).z");
MethodInvocation invocation = propertyAccess.target as MethodInvocation;
expect(invocation.methodName.name, "x");
expect(invocation.typeArguments, isNull);
ArgumentList argumentList = invocation.argumentList;
expect(argumentList, isNotNull);
expect(argumentList.arguments, hasLength(1));
expect(propertyAccess.operator, isNotNull);
expect(propertyAccess.propertyName, isNotNull);
}
void
test_parseAssignableExpression_identifier_args_dot_typeParameterComments() {
enableGenericMethodComments = true;
PropertyAccess propertyAccess =
parse("parseAssignableExpression", <Object>[false], "x/*<E>*/(y).z");
MethodInvocation invocation = propertyAccess.target as MethodInvocation;
expect(invocation.methodName.name, "x");
expect(invocation.typeArguments, isNotNull);
ArgumentList argumentList = invocation.argumentList;
expect(argumentList, isNotNull);
expect(argumentList.arguments, hasLength(1));
expect(propertyAccess.operator, isNotNull);
expect(propertyAccess.propertyName, isNotNull);
}
void test_parseAssignableExpression_identifier_args_dot_typeParameters() {
enableGenericMethods = true;
PropertyAccess propertyAccess =
parse("parseAssignableExpression", <Object>[false], "x<E>(y).z");
MethodInvocation invocation = propertyAccess.target as MethodInvocation;
expect(invocation.methodName.name, "x");
expect(invocation.typeArguments, isNotNull);
ArgumentList argumentList = invocation.argumentList;
expect(argumentList, isNotNull);
expect(argumentList.arguments, hasLength(1));
expect(propertyAccess.operator, isNotNull);
expect(propertyAccess.propertyName, isNotNull);
}
void test_parseAssignableExpression_identifier_dot() {
PropertyAccess propertyAccess =
parse("parseAssignableExpression", <Object>[false], "x.y");
expect(propertyAccess.target, isNotNull);
expect(propertyAccess.operator, isNotNull);
expect(propertyAccess.operator.type, TokenType.PERIOD);
expect(propertyAccess.propertyName, isNotNull);
}
void test_parseAssignableExpression_identifier_index() {
IndexExpression expression =
parse("parseAssignableExpression", <Object>[false], "x[y]");
expect(expression.target, isNotNull);
expect(expression.leftBracket, isNotNull);
expect(expression.index, isNotNull);
expect(expression.rightBracket, isNotNull);
}
void test_parseAssignableExpression_identifier_question_dot() {
PropertyAccess propertyAccess =
parse("parseAssignableExpression", <Object>[false], "x?.y");
expect(propertyAccess.target, isNotNull);
expect(propertyAccess.operator.type, TokenType.QUESTION_PERIOD);
expect(propertyAccess.propertyName, isNotNull);
}
void test_parseAssignableExpression_super_dot() {
PropertyAccess propertyAccess =
parse("parseAssignableExpression", <Object>[false], "super.y");
EngineTestCase.assertInstanceOf((obj) => obj is SuperExpression,
SuperExpression, propertyAccess.target);
expect(propertyAccess.operator, isNotNull);
expect(propertyAccess.propertyName, isNotNull);
}
void test_parseAssignableExpression_super_index() {
IndexExpression expression =
parse("parseAssignableExpression", <Object>[false], "super[y]");
EngineTestCase.assertInstanceOf(
(obj) => obj is SuperExpression, SuperExpression, expression.target);
expect(expression.leftBracket, isNotNull);
expect(expression.index, isNotNull);
expect(expression.rightBracket, isNotNull);
}
void test_parseAssignableSelector_dot() {
PropertyAccess selector =
parse("parseAssignableSelector", <Object>[null, true], ".x");
expect(selector.operator.type, TokenType.PERIOD);
expect(selector.propertyName, isNotNull);
}
void test_parseAssignableSelector_index() {
IndexExpression selector =
parse("parseAssignableSelector", <Object>[null, true], "[x]");
expect(selector.leftBracket, isNotNull);
expect(selector.index, isNotNull);
expect(selector.rightBracket, isNotNull);
}
void test_parseAssignableSelector_none() {
SimpleIdentifier selector = parse("parseAssignableSelector",
<Object>[new SimpleIdentifier(null), true], ";");
expect(selector, isNotNull);
}
void test_parseAssignableSelector_question_dot() {
PropertyAccess selector =
parse("parseAssignableSelector", <Object>[null, true], "?.x");
expect(selector.operator.type, TokenType.QUESTION_PERIOD);
expect(selector.propertyName, isNotNull);
}
void test_parseAwaitExpression() {
AwaitExpression expression = parse4("parseAwaitExpression", "await x;");
expect(expression.awaitKeyword, isNotNull);
expect(expression.expression, isNotNull);
}
void test_parseAwaitExpression_asStatement_inAsync() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "m() async { await x; }");
FunctionBody body = method.body;
EngineTestCase.assertInstanceOf(
(obj) => obj is BlockFunctionBody, BlockFunctionBody, body);
Statement statement = (body as BlockFunctionBody).block.statements[0];
EngineTestCase.assertInstanceOf(
(obj) => obj is ExpressionStatement, ExpressionStatement, statement);
Expression expression = (statement as ExpressionStatement).expression;
EngineTestCase.assertInstanceOf(
(obj) => obj is AwaitExpression, AwaitExpression, expression);
expect((expression as AwaitExpression).awaitKeyword, isNotNull);
expect((expression as AwaitExpression).expression, isNotNull);
}
void test_parseAwaitExpression_asStatement_inSync() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "m() { await x; }");
FunctionBody body = method.body;
EngineTestCase.assertInstanceOf(
(obj) => obj is BlockFunctionBody, BlockFunctionBody, body);
Statement statement = (body as BlockFunctionBody).block.statements[0];
EngineTestCase.assertInstanceOf(
(obj) => obj is VariableDeclarationStatement,
VariableDeclarationStatement,
statement);
}
void test_parseBitwiseAndExpression_normal() {
BinaryExpression expression = parse4("parseBitwiseAndExpression", "x & y");
expect(expression.leftOperand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.AMPERSAND);
expect(expression.rightOperand, isNotNull);
}
void test_parseBitwiseAndExpression_super() {
BinaryExpression expression =
parse4("parseBitwiseAndExpression", "super & y");
EngineTestCase.assertInstanceOf((obj) => obj is SuperExpression,
SuperExpression, expression.leftOperand);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.AMPERSAND);
expect(expression.rightOperand, isNotNull);
}
void test_parseBitwiseOrExpression_normal() {
BinaryExpression expression = parse4("parseBitwiseOrExpression", "x | y");
expect(expression.leftOperand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.BAR);
expect(expression.rightOperand, isNotNull);
}
void test_parseBitwiseOrExpression_super() {
BinaryExpression expression =
parse4("parseBitwiseOrExpression", "super | y");
EngineTestCase.assertInstanceOf((obj) => obj is SuperExpression,
SuperExpression, expression.leftOperand);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.BAR);
expect(expression.rightOperand, isNotNull);
}
void test_parseBitwiseXorExpression_normal() {
BinaryExpression expression = parse4("parseBitwiseXorExpression", "x ^ y");
expect(expression.leftOperand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.CARET);
expect(expression.rightOperand, isNotNull);
}
void test_parseBitwiseXorExpression_super() {
BinaryExpression expression =
parse4("parseBitwiseXorExpression", "super ^ y");
EngineTestCase.assertInstanceOf((obj) => obj is SuperExpression,
SuperExpression, expression.leftOperand);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.CARET);
expect(expression.rightOperand, isNotNull);
}
void test_parseBlock_empty() {
Block block = parse4("parseBlock", "{}");
expect(block.leftBracket, isNotNull);
expect(block.statements, hasLength(0));
expect(block.rightBracket, isNotNull);
}
void test_parseBlock_nonEmpty() {
Block block = parse4("parseBlock", "{;}");
expect(block.leftBracket, isNotNull);
expect(block.statements, hasLength(1));
expect(block.rightBracket, isNotNull);
}
void test_parseBreakStatement_label() {
BreakStatement statement = parse4("parseBreakStatement", "break foo;");
expect(statement.breakKeyword, isNotNull);
expect(statement.label, isNotNull);
expect(statement.semicolon, isNotNull);
}
void test_parseBreakStatement_noLabel() {
BreakStatement statement = parse4("parseBreakStatement", "break;",
[ParserErrorCode.BREAK_OUTSIDE_OF_LOOP]);
expect(statement.breakKeyword, isNotNull);
expect(statement.label, isNull);
expect(statement.semicolon, isNotNull);
}
void test_parseCascadeSection_i() {
IndexExpression section = parse4("parseCascadeSection", "..[i]");
expect(section.target, isNull);
expect(section.leftBracket, isNotNull);
expect(section.index, isNotNull);
expect(section.rightBracket, isNotNull);
}
void test_parseCascadeSection_ia() {
FunctionExpressionInvocation section =
parse4("parseCascadeSection", "..[i](b)");
EngineTestCase.assertInstanceOf(
(obj) => obj is IndexExpression, IndexExpression, section.function);
expect(section.typeArguments, isNull);
expect(section.argumentList, isNotNull);
}
void test_parseCascadeSection_ia_typeArgumentComments() {
enableGenericMethodComments = true;
FunctionExpressionInvocation section =
parse4("parseCascadeSection", "..[i]/*<E>*/(b)");
EngineTestCase.assertInstanceOf(
(obj) => obj is IndexExpression, IndexExpression, section.function);
expect(section.typeArguments, isNotNull);
expect(section.argumentList, isNotNull);
}
void test_parseCascadeSection_ia_typeArguments() {
enableGenericMethods = true;
FunctionExpressionInvocation section =
parse4("parseCascadeSection", "..[i]<E>(b)");
EngineTestCase.assertInstanceOf(
(obj) => obj is IndexExpression, IndexExpression, section.function);
expect(section.typeArguments, isNotNull);
expect(section.argumentList, isNotNull);
}
void test_parseCascadeSection_ii() {
MethodInvocation section = parse4("parseCascadeSection", "..a(b).c(d)");
EngineTestCase.assertInstanceOf(
(obj) => obj is MethodInvocation, MethodInvocation, section.target);
expect(section.operator, isNotNull);
expect(section.methodName, isNotNull);
expect(section.typeArguments, isNull);
expect(section.argumentList, isNotNull);
expect(section.argumentList.arguments, hasLength(1));
}
void test_parseCascadeSection_ii_typeArgumentComments() {
enableGenericMethodComments = true;
MethodInvocation section =
parse4("parseCascadeSection", "..a/*<E>*/(b).c/*<F>*/(d)");
EngineTestCase.assertInstanceOf(
(obj) => obj is MethodInvocation, MethodInvocation, section.target);
expect(section.operator, isNotNull);
expect(section.methodName, isNotNull);
expect(section.typeArguments, isNotNull);
expect(section.argumentList, isNotNull);
expect(section.argumentList.arguments, hasLength(1));
}
void test_parseCascadeSection_ii_typeArguments() {
enableGenericMethods = true;
MethodInvocation section =
parse4("parseCascadeSection", "..a<E>(b).c<F>(d)");
EngineTestCase.assertInstanceOf(
(obj) => obj is MethodInvocation, MethodInvocation, section.target);
expect(section.operator, isNotNull);
expect(section.methodName, isNotNull);
expect(section.typeArguments, isNotNull);
expect(section.argumentList, isNotNull);
expect(section.argumentList.arguments, hasLength(1));
}
void test_parseCascadeSection_p() {
PropertyAccess section = parse4("parseCascadeSection", "..a");
expect(section.target, isNull);
expect(section.operator, isNotNull);
expect(section.propertyName, isNotNull);
}
void test_parseCascadeSection_p_assign() {
AssignmentExpression section = parse4("parseCascadeSection", "..a = 3");
expect(section.leftHandSide, isNotNull);
expect(section.operator, isNotNull);
Expression rhs = section.rightHandSide;
expect(rhs, isNotNull);
}
void test_parseCascadeSection_p_assign_withCascade() {
AssignmentExpression section =
parse4("parseCascadeSection", "..a = 3..m()");
expect(section.leftHandSide, isNotNull);
expect(section.operator, isNotNull);
Expression rhs = section.rightHandSide;
EngineTestCase.assertInstanceOf(
(obj) => obj is IntegerLiteral, IntegerLiteral, rhs);
}
void test_parseCascadeSection_p_assign_withCascade_typeArgumentComments() {
enableGenericMethodComments = true;
AssignmentExpression section =
parse4("parseCascadeSection", "..a = 3..m/*<E>*/()");
expect(section.leftHandSide, isNotNull);
expect(section.operator, isNotNull);
Expression rhs = section.rightHandSide;
EngineTestCase.assertInstanceOf(
(obj) => obj is IntegerLiteral, IntegerLiteral, rhs);
}
void test_parseCascadeSection_p_assign_withCascade_typeArguments() {
enableGenericMethods = true;
AssignmentExpression section =
parse4("parseCascadeSection", "..a = 3..m<E>()");
expect(section.leftHandSide, isNotNull);
expect(section.operator, isNotNull);
Expression rhs = section.rightHandSide;
EngineTestCase.assertInstanceOf(
(obj) => obj is IntegerLiteral, IntegerLiteral, rhs);
}
void test_parseCascadeSection_p_builtIn() {
PropertyAccess section = parse4("parseCascadeSection", "..as");
expect(section.target, isNull);
expect(section.operator, isNotNull);
expect(section.propertyName, isNotNull);
}
void test_parseCascadeSection_pa() {
MethodInvocation section = parse4("parseCascadeSection", "..a(b)");
expect(section.target, isNull);
expect(section.operator, isNotNull);
expect(section.methodName, isNotNull);
expect(section.typeArguments, isNull);
expect(section.argumentList, isNotNull);
expect(section.argumentList.arguments, hasLength(1));
}
void test_parseCascadeSection_pa_typeArgumentComments() {
enableGenericMethodComments = true;
MethodInvocation section = parse4("parseCascadeSection", "..a/*<E>*/(b)");
expect(section.target, isNull);
expect(section.operator, isNotNull);
expect(section.methodName, isNotNull);
expect(section.typeArguments, isNotNull);
expect(section.argumentList, isNotNull);
expect(section.argumentList.arguments, hasLength(1));
}
void test_parseCascadeSection_pa_typeArguments() {
enableGenericMethods = true;
MethodInvocation section = parse4("parseCascadeSection", "..a<E>(b)");
expect(section.target, isNull);
expect(section.operator, isNotNull);
expect(section.methodName, isNotNull);
expect(section.typeArguments, isNotNull);
expect(section.argumentList, isNotNull);
expect(section.argumentList.arguments, hasLength(1));
}
void test_parseCascadeSection_paa() {
FunctionExpressionInvocation section =
parse4("parseCascadeSection", "..a(b)(c)");
EngineTestCase.assertInstanceOf(
(obj) => obj is MethodInvocation, MethodInvocation, section.function);
expect(section.typeArguments, isNull);
expect(section.argumentList, isNotNull);
expect(section.argumentList.arguments, hasLength(1));
}
void test_parseCascadeSection_paa_typeArgumentComments() {
enableGenericMethodComments = true;
FunctionExpressionInvocation section =
parse4("parseCascadeSection", "..a/*<E>*/(b)/*<F>*/(c)");
EngineTestCase.assertInstanceOf(
(obj) => obj is MethodInvocation, MethodInvocation, section.function);
expect(section.typeArguments, isNotNull);
expect(section.argumentList, isNotNull);
expect(section.argumentList.arguments, hasLength(1));
}
void test_parseCascadeSection_paa_typeArguments() {
enableGenericMethods = true;
FunctionExpressionInvocation section =
parse4("parseCascadeSection", "..a<E>(b)<F>(c)");
EngineTestCase.assertInstanceOf(
(obj) => obj is MethodInvocation, MethodInvocation, section.function);
expect(section.typeArguments, isNotNull);
expect(section.argumentList, isNotNull);
expect(section.argumentList.arguments, hasLength(1));
}
void test_parseCascadeSection_paapaa() {
FunctionExpressionInvocation section =
parse4("parseCascadeSection", "..a(b)(c).d(e)(f)");
EngineTestCase.assertInstanceOf(
(obj) => obj is MethodInvocation, MethodInvocation, section.function);
expect(section.typeArguments, isNull);
expect(section.argumentList, isNotNull);
expect(section.argumentList.arguments, hasLength(1));
}
void test_parseCascadeSection_paapaa_typeArgumentComments() {
enableGenericMethodComments = true;
FunctionExpressionInvocation section = parse4(
"parseCascadeSection", "..a/*<E>*/(b)/*<F>*/(c).d/*<G>*/(e)/*<H>*/(f)");
EngineTestCase.assertInstanceOf(
(obj) => obj is MethodInvocation, MethodInvocation, section.function);
expect(section.typeArguments, isNotNull);
expect(section.argumentList, isNotNull);
expect(section.argumentList.arguments, hasLength(1));
}
void test_parseCascadeSection_paapaa_typeArguments() {
enableGenericMethods = true;
FunctionExpressionInvocation section =
parse4("parseCascadeSection", "..a<E>(b)<F>(c).d<G>(e)<H>(f)");
EngineTestCase.assertInstanceOf(
(obj) => obj is MethodInvocation, MethodInvocation, section.function);
expect(section.typeArguments, isNotNull);
expect(section.argumentList, isNotNull);
expect(section.argumentList.arguments, hasLength(1));
}
void test_parseCascadeSection_pap() {
PropertyAccess section = parse4("parseCascadeSection", "..a(b).c");
expect(section.target, isNotNull);
expect(section.operator, isNotNull);
expect(section.propertyName, isNotNull);
}
void test_parseCascadeSection_pap_typeArgumentComments() {
enableGenericMethodComments = true;
PropertyAccess section = parse4("parseCascadeSection", "..a/*<E>*/(b).c");
expect(section.target, isNotNull);
expect(section.operator, isNotNull);
expect(section.propertyName, isNotNull);
}
void test_parseCascadeSection_pap_typeArguments() {
enableGenericMethods = true;
PropertyAccess section = parse4("parseCascadeSection", "..a<E>(b).c");
expect(section.target, isNotNull);
expect(section.operator, isNotNull);
expect(section.propertyName, isNotNull);
}
void test_parseClassDeclaration_abstract() {
ClassDeclaration declaration = parse(
"parseClassDeclaration",
<Object>[
emptyCommentAndMetadata(),
TokenFactory.tokenFromKeyword(Keyword.ABSTRACT)
],
"class A {}");
expect(declaration.documentationComment, isNull);
expect(declaration.abstractKeyword, isNotNull);
expect(declaration.extendsClause, isNull);
expect(declaration.implementsClause, isNull);
expect(declaration.classKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name, isNotNull);
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseClassDeclaration_empty() {
ClassDeclaration declaration = parse("parseClassDeclaration",
<Object>[emptyCommentAndMetadata(), null], "class A {}");
expect(declaration.documentationComment, isNull);
expect(declaration.abstractKeyword, isNull);
expect(declaration.extendsClause, isNull);
expect(declaration.implementsClause, isNull);
expect(declaration.classKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name, isNotNull);
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseClassDeclaration_extends() {
ClassDeclaration declaration = parse("parseClassDeclaration",
<Object>[emptyCommentAndMetadata(), null], "class A extends B {}");
expect(declaration.documentationComment, isNull);
expect(declaration.abstractKeyword, isNull);
expect(declaration.extendsClause, isNotNull);
expect(declaration.implementsClause, isNull);
expect(declaration.classKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name, isNotNull);
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseClassDeclaration_extendsAndImplements() {
ClassDeclaration declaration = parse(
"parseClassDeclaration",
<Object>[emptyCommentAndMetadata(), null],
"class A extends B implements C {}");
expect(declaration.documentationComment, isNull);
expect(declaration.abstractKeyword, isNull);
expect(declaration.extendsClause, isNotNull);
expect(declaration.implementsClause, isNotNull);
expect(declaration.classKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name, isNotNull);
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseClassDeclaration_extendsAndWith() {
ClassDeclaration declaration = parse(
"parseClassDeclaration",
<Object>[emptyCommentAndMetadata(), null],
"class A extends B with C {}");
expect(declaration.documentationComment, isNull);
expect(declaration.abstractKeyword, isNull);
expect(declaration.classKeyword, isNotNull);
expect(declaration.name, isNotNull);
expect(declaration.typeParameters, isNull);
expect(declaration.extendsClause, isNotNull);
expect(declaration.withClause, isNotNull);
expect(declaration.implementsClause, isNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
}
void test_parseClassDeclaration_extendsAndWithAndImplements() {
ClassDeclaration declaration = parse(
"parseClassDeclaration",
<Object>[emptyCommentAndMetadata(), null],
"class A extends B with C implements D {}");
expect(declaration.documentationComment, isNull);
expect(declaration.abstractKeyword, isNull);
expect(declaration.classKeyword, isNotNull);
expect(declaration.name, isNotNull);
expect(declaration.typeParameters, isNull);
expect(declaration.extendsClause, isNotNull);
expect(declaration.withClause, isNotNull);
expect(declaration.implementsClause, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
}
void test_parseClassDeclaration_implements() {
ClassDeclaration declaration = parse("parseClassDeclaration",
<Object>[emptyCommentAndMetadata(), null], "class A implements C {}");
expect(declaration.documentationComment, isNull);
expect(declaration.abstractKeyword, isNull);
expect(declaration.extendsClause, isNull);
expect(declaration.implementsClause, isNotNull);
expect(declaration.classKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name, isNotNull);
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseClassDeclaration_native() {
ClassDeclaration declaration = parse(
"parseClassDeclaration",
<Object>[emptyCommentAndMetadata(), null],
"class A native 'nativeValue' {}");
NativeClause nativeClause = declaration.nativeClause;
expect(nativeClause, isNotNull);
expect(nativeClause.nativeKeyword, isNotNull);
expect(nativeClause.name.stringValue, "nativeValue");
expect(nativeClause.beginToken, same(nativeClause.nativeKeyword));
expect(nativeClause.endToken, same(nativeClause.name.endToken));
}
void test_parseClassDeclaration_nonEmpty() {
ClassDeclaration declaration = parse("parseClassDeclaration",
<Object>[emptyCommentAndMetadata(), null], "class A {var f;}");
expect(declaration.documentationComment, isNull);
expect(declaration.abstractKeyword, isNull);
expect(declaration.extendsClause, isNull);
expect(declaration.implementsClause, isNull);
expect(declaration.classKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name, isNotNull);
expect(declaration.members, hasLength(1));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseClassDeclaration_typeAlias_implementsC() {
ClassTypeAlias typeAlias = parse(
"parseClassDeclaration",
<Object>[emptyCommentAndMetadata(), null],
"class A = Object with B implements C;");
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.typeParameters, isNull);
expect(typeAlias.withClause, isNotNull);
expect(typeAlias.implementsClause, isNotNull);
expect(typeAlias.implementsClause.implementsKeyword, isNotNull);
expect(typeAlias.implementsClause.interfaces.length, 1);
expect(typeAlias.semicolon, isNotNull);
}
void test_parseClassDeclaration_typeAlias_withB() {
ClassTypeAlias typeAlias = parse("parseClassDeclaration",
<Object>[emptyCommentAndMetadata(), null], "class A = Object with B;");
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.typeParameters, isNull);
expect(typeAlias.withClause, isNotNull);
expect(typeAlias.withClause.withKeyword, isNotNull);
expect(typeAlias.withClause.mixinTypes.length, 1);
expect(typeAlias.implementsClause, isNull);
expect(typeAlias.semicolon, isNotNull);
}
void test_parseClassDeclaration_typeParameters() {
ClassDeclaration declaration = parse("parseClassDeclaration",
<Object>[emptyCommentAndMetadata(), null], "class A<B> {}");
expect(declaration.documentationComment, isNull);
expect(declaration.abstractKeyword, isNull);
expect(declaration.extendsClause, isNull);
expect(declaration.implementsClause, isNull);
expect(declaration.classKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name, isNotNull);
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNotNull);
expect(declaration.typeParameters.typeParameters, hasLength(1));
}
void test_parseClassMember_constructor_withInitializers() {
// TODO(brianwilkerson) Test other kinds of class members: fields, getters
// and setters.
ConstructorDeclaration constructor = parse("parseClassMember",
<Object>["C"], "C(_, _\$, this.__) : _a = _ + _\$ {}");
expect(constructor.body, isNotNull);
expect(constructor.separator, isNotNull);
expect(constructor.externalKeyword, isNull);
expect(constructor.constKeyword, isNull);
expect(constructor.factoryKeyword, isNull);
expect(constructor.name, isNull);
expect(constructor.parameters, isNotNull);
expect(constructor.period, isNull);
expect(constructor.returnType, isNotNull);
expect(constructor.initializers, hasLength(1));
}
void test_parseClassMember_field_instance_prefixedType() {
FieldDeclaration field = parse("parseClassMember", <Object>["C"], "p.A f;");
expect(field.documentationComment, isNull);
expect(field.metadata, hasLength(0));
expect(field.staticKeyword, isNull);
VariableDeclarationList list = field.fields;
expect(list, isNotNull);
NodeList<VariableDeclaration> variables = list.variables;
expect(variables, hasLength(1));
VariableDeclaration variable = variables[0];
expect(variable.name, isNotNull);
}
void test_parseClassMember_field_namedGet() {
FieldDeclaration field =
parse("parseClassMember", <Object>["C"], "var get;");
expect(field.documentationComment, isNull);
expect(field.metadata, hasLength(0));
expect(field.staticKeyword, isNull);
VariableDeclarationList list = field.fields;
expect(list, isNotNull);
NodeList<VariableDeclaration> variables = list.variables;
expect(variables, hasLength(1));
VariableDeclaration variable = variables[0];
expect(variable.name, isNotNull);
}
void test_parseClassMember_field_namedOperator() {
FieldDeclaration field =
parse("parseClassMember", <Object>["C"], "var operator;");
expect(field.documentationComment, isNull);
expect(field.metadata, hasLength(0));
expect(field.staticKeyword, isNull);
VariableDeclarationList list = field.fields;
expect(list, isNotNull);
NodeList<VariableDeclaration> variables = list.variables;
expect(variables, hasLength(1));
VariableDeclaration variable = variables[0];
expect(variable.name, isNotNull);
}
void test_parseClassMember_field_namedOperator_withAssignment() {
FieldDeclaration field =
parse("parseClassMember", <Object>["C"], "var operator = (5);");
expect(field.documentationComment, isNull);
expect(field.metadata, hasLength(0));
expect(field.staticKeyword, isNull);
VariableDeclarationList list = field.fields;
expect(list, isNotNull);
NodeList<VariableDeclaration> variables = list.variables;
expect(variables, hasLength(1));
VariableDeclaration variable = variables[0];
expect(variable.name, isNotNull);
expect(variable.initializer, isNotNull);
}
void test_parseClassMember_field_namedSet() {
FieldDeclaration field =
parse("parseClassMember", <Object>["C"], "var set;");
expect(field.documentationComment, isNull);
expect(field.metadata, hasLength(0));
expect(field.staticKeyword, isNull);
VariableDeclarationList list = field.fields;
expect(list, isNotNull);
NodeList<VariableDeclaration> variables = list.variables;
expect(variables, hasLength(1));
VariableDeclaration variable = variables[0];
expect(variable.name, isNotNull);
}
void test_parseClassMember_getter_void() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "void get g {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNotNull);
expect(method.returnType, isNotNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.body, isNotNull);
expect(method.parameters, isNull);
}
void test_parseClassMember_method_external() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "external m();");
expect(method.body, isNotNull);
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNotNull);
expect(method.modifierKeyword, isNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNull);
}
void test_parseClassMember_method_external_withTypeAndArgs() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "external int m(int a);");
expect(method.body, isNotNull);
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNotNull);
expect(method.modifierKeyword, isNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNotNull);
}
void test_parseClassMember_method_generic_comment_noReturnType() {
enableGenericMethodComments = true;
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "m/*<T>*/() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNotNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_generic_comment_returnType() {
enableGenericMethodComments = true;
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "/*=T*/ m/*<T>*/() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType.name.name, 'T');
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNotNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_generic_comment_returnType_bound() {
enableGenericMethodComments = true;
MethodDeclaration method = parse("parseClassMember", <Object>["C"],
"num/*=T*/ m/*<T extends num>*/() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType.name.name, 'T');
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNotNull);
TypeParameter tp = method.typeParameters.typeParameters[0];
expect(tp.name.name, 'T');
expect(tp.extendsKeyword, isNotNull);
expect(tp.bound.name.name, 'num');
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_generic_comment_void() {
enableGenericMethodComments = true;
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "void m/*<T>*/() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNotNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNotNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_generic_noReturnType() {
enableGenericMethods = true;
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "m<T>() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNotNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_generic_returnType() {
enableGenericMethods = true;
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "T m<T>() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNotNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNotNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_generic_void() {
enableGenericMethods = true;
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "void m<T>() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNotNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNotNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_get_noType() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "get() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_get_type() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "int get() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNotNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_get_void() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "void get() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNotNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_operator_noType() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "operator() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_operator_type() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "int operator() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNotNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_operator_void() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "void operator() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNotNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_returnType_parameterized() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "p.A m() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNotNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_set_noType() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "set() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_set_type() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "int set() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNotNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_set_void() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "void set() {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNotNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_method_trailing_commas() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "void f(int x, int y,) {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNotNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_operator_index() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "int operator [](int i) {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNotNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNotNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_operator_indexAssign() {
MethodDeclaration method =
parse("parseClassMember", <Object>["C"], "int operator []=(int i) {}");
expect(method.documentationComment, isNull);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, isNotNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNotNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.body, isNotNull);
}
void test_parseClassMember_redirectingFactory_const() {
ConstructorDeclaration constructor =
parse("parseClassMember", <Object>["C"], "const factory C() = B;");
expect(constructor.externalKeyword, isNull);
expect(constructor.constKeyword, isNotNull);
expect(constructor.factoryKeyword, isNotNull);
expect(constructor.returnType, isNotNull);
expect(constructor.period, isNull);
expect(constructor.name, isNull);
expect(constructor.parameters, isNotNull);
expect(constructor.separator, isNotNull);
expect(constructor.initializers, hasLength(0));
expect(constructor.redirectedConstructor, isNotNull);
expect(constructor.body, isNotNull);
}
void test_parseClassMember_redirectingFactory_nonConst() {
ConstructorDeclaration constructor =
parse("parseClassMember", <Object>["C"], "factory C() = B;");
expect(constructor.externalKeyword, isNull);
expect(constructor.constKeyword, isNull);
expect(constructor.factoryKeyword, isNotNull);
expect(constructor.returnType, isNotNull);
expect(constructor.period, isNull);
expect(constructor.name, isNull);
expect(constructor.parameters, isNotNull);
expect(constructor.separator, isNotNull);
expect(constructor.initializers, hasLength(0));
expect(constructor.redirectedConstructor, isNotNull);
expect(constructor.body, isNotNull);
}
void test_parseClassTypeAlias_abstract() {
Token classToken = TokenFactory.tokenFromKeyword(Keyword.CLASS);
Token abstractToken = TokenFactory.tokenFromKeyword(Keyword.ABSTRACT);
ClassTypeAlias classTypeAlias = parse(
"parseClassTypeAlias",
<Object>[emptyCommentAndMetadata(), abstractToken, classToken],
"A = B with C;");
expect(classTypeAlias.typedefKeyword, isNotNull);
expect(classTypeAlias.name.name, "A");
expect(classTypeAlias.equals, isNotNull);
expect(classTypeAlias.abstractKeyword, isNotNull);
expect(classTypeAlias.superclass.name.name, isNotNull, reason: "B");
expect(classTypeAlias.withClause, isNotNull);
expect(classTypeAlias.implementsClause, isNull);
expect(classTypeAlias.semicolon, isNotNull);
}
void test_parseClassTypeAlias_implements() {
Token token = TokenFactory.tokenFromKeyword(Keyword.CLASS);
ClassTypeAlias classTypeAlias = parse(
"parseClassTypeAlias",
<Object>[emptyCommentAndMetadata(), null, token],
"A = B with C implements D;");
expect(classTypeAlias.typedefKeyword, isNotNull);
expect(classTypeAlias.name.name, "A");
expect(classTypeAlias.equals, isNotNull);
expect(classTypeAlias.abstractKeyword, isNull);
expect(classTypeAlias.superclass.name.name, isNotNull, reason: "B");
expect(classTypeAlias.withClause, isNotNull);
expect(classTypeAlias.implementsClause, isNotNull);
expect(classTypeAlias.semicolon, isNotNull);
}
void test_parseClassTypeAlias_with() {
Token token = TokenFactory.tokenFromKeyword(Keyword.CLASS);
ClassTypeAlias classTypeAlias = parse("parseClassTypeAlias",
<Object>[emptyCommentAndMetadata(), null, token], "A = B with C;");
expect(classTypeAlias.typedefKeyword, isNotNull);
expect(classTypeAlias.name.name, "A");
expect(classTypeAlias.equals, isNotNull);
expect(classTypeAlias.abstractKeyword, isNull);
expect(classTypeAlias.superclass.name.name, isNotNull, reason: "B");
expect(classTypeAlias.withClause, isNotNull);
expect(classTypeAlias.implementsClause, isNull);
expect(classTypeAlias.semicolon, isNotNull);
}
void test_parseClassTypeAlias_with_implements() {
Token token = TokenFactory.tokenFromKeyword(Keyword.CLASS);
ClassTypeAlias classTypeAlias = parse(
"parseClassTypeAlias",
<Object>[emptyCommentAndMetadata(), null, token],
"A = B with C implements D;");
expect(classTypeAlias.typedefKeyword, isNotNull);
expect(classTypeAlias.name.name, "A");
expect(classTypeAlias.equals, isNotNull);
expect(classTypeAlias.abstractKeyword, isNull);
expect(classTypeAlias.superclass.name.name, isNotNull, reason: "B");
expect(classTypeAlias.withClause, isNotNull);
expect(classTypeAlias.implementsClause, isNotNull);
expect(classTypeAlias.semicolon, isNotNull);
}
void test_parseCombinator_hide() {
HideCombinator combinator = parse4('parseCombinator', 'hide a;');
expect(combinator, new isInstanceOf<HideCombinator>());
expect(combinator.keyword, isNotNull);
expect(combinator.hiddenNames, hasLength(1));
}
void test_parseCombinator_show() {
ShowCombinator combinator = parse4('parseCombinator', 'show a;');
expect(combinator, new isInstanceOf<ShowCombinator>());
expect(combinator.keyword, isNotNull);
expect(combinator.shownNames, hasLength(1));
}
void test_parseCombinators_h() {
List<Combinator> combinators =
parse4("parseCombinators", "hide a;") as List<Combinator>;
expect(combinators, hasLength(1));
HideCombinator combinator = combinators[0] as HideCombinator;
expect(combinator, isNotNull);
expect(combinator.keyword, isNotNull);
expect(combinator.hiddenNames, hasLength(1));
}
void test_parseCombinators_hs() {
List<Combinator> combinators =
parse4("parseCombinators", "hide a show b;") as List<Combinator>;
expect(combinators, hasLength(2));
HideCombinator hideCombinator = combinators[0] as HideCombinator;
expect(hideCombinator, isNotNull);
expect(hideCombinator.keyword, isNotNull);
expect(hideCombinator.hiddenNames, hasLength(1));
ShowCombinator showCombinator = combinators[1] as ShowCombinator;
expect(showCombinator, isNotNull);
expect(showCombinator.keyword, isNotNull);
expect(showCombinator.shownNames, hasLength(1));
}
void test_parseCombinators_hshs() {
List<Combinator> combinators =
parse4("parseCombinators", "hide a show b hide c show d;")
as List<Combinator>;
expect(combinators, hasLength(4));
}
void test_parseCombinators_s() {
List<Combinator> combinators =
parse4("parseCombinators", "show a;") as List<Combinator>;
expect(combinators, hasLength(1));
ShowCombinator combinator = combinators[0] as ShowCombinator;
expect(combinator, isNotNull);
expect(combinator.keyword, isNotNull);
expect(combinator.shownNames, hasLength(1));
}
void test_parseCommentAndMetadata_c() {
CommentAndMetadata commentAndMetadata =
parse4("parseCommentAndMetadata", "/** 1 */ void");
expect(commentAndMetadata.comment, isNotNull);
expect(commentAndMetadata.metadata, isNull);
}
void test_parseCommentAndMetadata_cmc() {
CommentAndMetadata commentAndMetadata =
parse4("parseCommentAndMetadata", "/** 1 */ @A /** 2 */ void");
expect(commentAndMetadata.comment, isNotNull);
expect(commentAndMetadata.metadata, hasLength(1));
}
void test_parseCommentAndMetadata_cmcm() {
CommentAndMetadata commentAndMetadata =
parse4("parseCommentAndMetadata", "/** 1 */ @A /** 2 */ @B void");
expect(commentAndMetadata.comment, isNotNull);
expect(commentAndMetadata.metadata, hasLength(2));
}
void test_parseCommentAndMetadata_cmm() {
CommentAndMetadata commentAndMetadata =
parse4("parseCommentAndMetadata", "/** 1 */ @A @B void");
expect(commentAndMetadata.comment, isNotNull);
expect(commentAndMetadata.metadata, hasLength(2));
}
void test_parseCommentAndMetadata_m() {
CommentAndMetadata commentAndMetadata =
parse4("parseCommentAndMetadata", "@A void");
expect(commentAndMetadata.comment, isNull);
expect(commentAndMetadata.metadata, hasLength(1));
}
void test_parseCommentAndMetadata_mcm() {
CommentAndMetadata commentAndMetadata =
parse4("parseCommentAndMetadata", "@A /** 1 */ @B void");
expect(commentAndMetadata.comment, isNotNull);
expect(commentAndMetadata.metadata, hasLength(2));
}
void test_parseCommentAndMetadata_mcmc() {
CommentAndMetadata commentAndMetadata =
parse4("parseCommentAndMetadata", "@A /** 1 */ @B /** 2 */ void");
expect(commentAndMetadata.comment, isNotNull);
expect(commentAndMetadata.metadata, hasLength(2));
}
void test_parseCommentAndMetadata_mm() {
CommentAndMetadata commentAndMetadata =
parse4("parseCommentAndMetadata", "@A @B(x) void");
expect(commentAndMetadata.comment, isNull);
expect(commentAndMetadata.metadata, hasLength(2));
}
void test_parseCommentAndMetadata_none() {
CommentAndMetadata commentAndMetadata =
parse4("parseCommentAndMetadata", "void");
expect(commentAndMetadata.comment, isNull);
expect(commentAndMetadata.metadata, isNull);
}
void test_parseCommentAndMetadata_singleLine() {
CommentAndMetadata commentAndMetadata = parse4(
"parseCommentAndMetadata",
r'''
/// 1
/// 2
void''');
expect(commentAndMetadata.comment, isNotNull);
expect(commentAndMetadata.metadata, isNull);
}
void test_parseCommentReference_new_prefixed() {
CommentReference reference =
parse("parseCommentReference", <Object>["new a.b", 7], "");
PrefixedIdentifier prefixedIdentifier = EngineTestCase.assertInstanceOf(
(obj) => obj is PrefixedIdentifier,
PrefixedIdentifier,
reference.identifier);
SimpleIdentifier prefix = prefixedIdentifier.prefix;
expect(prefix.token, isNotNull);
expect(prefix.name, "a");
expect(prefix.offset, 11);
expect(prefixedIdentifier.period, isNotNull);
SimpleIdentifier identifier = prefixedIdentifier.identifier;
expect(identifier.token, isNotNull);
expect(identifier.name, "b");
expect(identifier.offset, 13);
}
void test_parseCommentReference_new_simple() {
CommentReference reference =
parse("parseCommentReference", <Object>["new a", 5], "");
SimpleIdentifier identifier = EngineTestCase.assertInstanceOf(
(obj) => obj is SimpleIdentifier,
SimpleIdentifier,
reference.identifier);
expect(identifier.token, isNotNull);
expect(identifier.name, "a");
expect(identifier.offset, 9);
}
void test_parseCommentReference_operator_withKeyword_notPrefixed() {
CommentReference reference =
parse("parseCommentReference", <Object>["operator ==", 5], "");
SimpleIdentifier identifier = EngineTestCase.assertInstanceOf(
(obj) => obj is SimpleIdentifier,
SimpleIdentifier,
reference.identifier);
expect(identifier.token, isNotNull);
expect(identifier.name, "==");
expect(identifier.offset, 14);
}
void test_parseCommentReference_operator_withKeyword_prefixed() {
CommentReference reference =
parse("parseCommentReference", <Object>["Object.operator==", 7], "");
PrefixedIdentifier prefixedIdentifier = EngineTestCase.assertInstanceOf(
(obj) => obj is PrefixedIdentifier,
PrefixedIdentifier,
reference.identifier);
SimpleIdentifier prefix = prefixedIdentifier.prefix;
expect(prefix.token, isNotNull);
expect(prefix.name, "Object");
expect(prefix.offset, 7);
expect(prefixedIdentifier.period, isNotNull);
SimpleIdentifier identifier = prefixedIdentifier.identifier;
expect(identifier.token, isNotNull);
expect(identifier.name, "==");
expect(identifier.offset, 22);
}
void test_parseCommentReference_operator_withoutKeyword_notPrefixed() {
CommentReference reference =
parse("parseCommentReference", <Object>["==", 5], "");
SimpleIdentifier identifier = EngineTestCase.assertInstanceOf(
(obj) => obj is SimpleIdentifier,
SimpleIdentifier,
reference.identifier);
expect(identifier.token, isNotNull);
expect(identifier.name, "==");
expect(identifier.offset, 5);
}
void test_parseCommentReference_operator_withoutKeyword_prefixed() {
CommentReference reference =
parse("parseCommentReference", <Object>["Object.==", 7], "");
PrefixedIdentifier prefixedIdentifier = EngineTestCase.assertInstanceOf(
(obj) => obj is PrefixedIdentifier,
PrefixedIdentifier,
reference.identifier);
SimpleIdentifier prefix = prefixedIdentifier.prefix;
expect(prefix.token, isNotNull);
expect(prefix.name, "Object");
expect(prefix.offset, 7);
expect(prefixedIdentifier.period, isNotNull);
SimpleIdentifier identifier = prefixedIdentifier.identifier;
expect(identifier.token, isNotNull);
expect(identifier.name, "==");
expect(identifier.offset, 14);
}
void test_parseCommentReference_prefixed() {
CommentReference reference =
parse("parseCommentReference", <Object>["a.b", 7], "");
PrefixedIdentifier prefixedIdentifier = EngineTestCase.assertInstanceOf(
(obj) => obj is PrefixedIdentifier,
PrefixedIdentifier,
reference.identifier);
SimpleIdentifier prefix = prefixedIdentifier.prefix;
expect(prefix.token, isNotNull);
expect(prefix.name, "a");
expect(prefix.offset, 7);
expect(prefixedIdentifier.period, isNotNull);
SimpleIdentifier identifier = prefixedIdentifier.identifier;
expect(identifier.token, isNotNull);
expect(identifier.name, "b");
expect(identifier.offset, 9);
}
void test_parseCommentReference_simple() {
CommentReference reference =
parse("parseCommentReference", <Object>["a", 5], "");
SimpleIdentifier identifier = EngineTestCase.assertInstanceOf(
(obj) => obj is SimpleIdentifier,
SimpleIdentifier,
reference.identifier);
expect(identifier.token, isNotNull);
expect(identifier.name, "a");
expect(identifier.offset, 5);
}
void test_parseCommentReference_synthetic() {
CommentReference reference =
parse("parseCommentReference", <Object>["", 5], "");
SimpleIdentifier identifier = EngineTestCase.assertInstanceOf(
(obj) => obj is SimpleIdentifier,
SimpleIdentifier,
reference.identifier);
expect(identifier, isNotNull);
expect(identifier.isSynthetic, isTrue);
expect(identifier.token, isNotNull);
expect(identifier.name, "");
expect(identifier.offset, 5);
// Should end with EOF token.
Token nextToken = identifier.token.next;
expect(nextToken, isNotNull);
expect(nextToken.type, TokenType.EOF);
}
void test_parseCommentReferences_multiLine() {
DocumentationCommentToken token = new DocumentationCommentToken(
TokenType.MULTI_LINE_COMMENT, "/** xxx [a] yyy [bb] zzz */", 3);
List<DocumentationCommentToken> tokens = <DocumentationCommentToken>[token];
List<CommentReference> references =
parse("parseCommentReferences", <Object>[tokens], "")
as List<CommentReference>;
List<Token> tokenReferences = token.references;
expect(references, hasLength(2));
expect(tokenReferences, hasLength(2));
{
CommentReference reference = references[0];
expect(reference, isNotNull);
expect(reference.identifier, isNotNull);
expect(reference.offset, 12);
// the reference is recorded in the comment token
Token referenceToken = tokenReferences[0];
expect(referenceToken.offset, 12);
expect(referenceToken.lexeme, 'a');
}
{
CommentReference reference = references[1];
expect(reference, isNotNull);
expect(reference.identifier, isNotNull);
expect(reference.offset, 20);
// the reference is recorded in the comment token
Token referenceToken = tokenReferences[1];
expect(referenceToken.offset, 20);
expect(referenceToken.lexeme, 'bb');
}
}
void test_parseCommentReferences_notClosed_noIdentifier() {
DocumentationCommentToken docToken = new DocumentationCommentToken(
TokenType.MULTI_LINE_COMMENT, "/** [ some text", 5);
List<CommentReference> references = parse(
"parseCommentReferences",
<Object>[
<DocumentationCommentToken>[docToken]
],
"") as List<CommentReference>;
expect(docToken.references, hasLength(1));
expect(references, hasLength(1));
Token referenceToken = docToken.references[0];
CommentReference reference = references[0];
expect(reference, isNotNull);
expect(docToken.references[0], same(reference.beginToken));
expect(reference.identifier, isNotNull);
expect(reference.identifier.isSynthetic, isTrue);
expect(reference.identifier.name, "");
// Should end with EOF token.
Token nextToken = referenceToken.next;
expect(nextToken, isNotNull);
expect(nextToken.type, TokenType.EOF);
}
void test_parseCommentReferences_notClosed_withIdentifier() {
DocumentationCommentToken docToken = new DocumentationCommentToken(
TokenType.MULTI_LINE_COMMENT, "/** [namePrefix some text", 5);
List<CommentReference> references = parse(
"parseCommentReferences",
<Object>[
<DocumentationCommentToken>[docToken]
],
"") as List<CommentReference>;
expect(docToken.references, hasLength(1));
expect(references, hasLength(1));
Token referenceToken = docToken.references[0];
CommentReference reference = references[0];
expect(reference, isNotNull);
expect(referenceToken, same(reference.beginToken));
expect(reference.identifier, isNotNull);
expect(reference.identifier.isSynthetic, isFalse);
expect(reference.identifier.name, "namePrefix");
// Should end with EOF token.
Token nextToken = referenceToken.next;
expect(nextToken, isNotNull);
expect(nextToken.type, TokenType.EOF);
}
void test_parseCommentReferences_singleLine() {
List<DocumentationCommentToken> tokens = <DocumentationCommentToken>[
new DocumentationCommentToken(
TokenType.SINGLE_LINE_COMMENT, "/// xxx [a] yyy [b] zzz", 3),
new DocumentationCommentToken(
TokenType.SINGLE_LINE_COMMENT, "/// x [c]", 28)
];
List<CommentReference> references =
parse("parseCommentReferences", <Object>[tokens], "")
as List<CommentReference>;
expect(references, hasLength(3));
CommentReference reference = references[0];
expect(reference, isNotNull);
expect(reference.identifier, isNotNull);
expect(reference.offset, 12);
reference = references[1];
expect(reference, isNotNull);
expect(reference.identifier, isNotNull);
expect(reference.offset, 20);
reference = references[2];
expect(reference, isNotNull);
expect(reference.identifier, isNotNull);
expect(reference.offset, 35);
}
void test_parseCommentReferences_skipCodeBlock_4spaces_block() {
List<DocumentationCommentToken> tokens = <DocumentationCommentToken>[
new DocumentationCommentToken(TokenType.MULTI_LINE_COMMENT,
"/**\n * a[i]\n * non-code line\n */", 3)
];
List<CommentReference> references =
parse("parseCommentReferences", <Object>[tokens], "")
as List<CommentReference>;
expect(references, isEmpty);
}
void test_parseCommentReferences_skipCodeBlock_4spaces_lines() {
List<DocumentationCommentToken> tokens = <DocumentationCommentToken>[
new DocumentationCommentToken(
TokenType.SINGLE_LINE_COMMENT, "/// Code block:", 0),
new DocumentationCommentToken(
TokenType.SINGLE_LINE_COMMENT, "/// a[i] == b[i]", 0)
];
List<CommentReference> references =
parse("parseCommentReferences", <Object>[tokens], "")
as List<CommentReference>;
expect(references, isEmpty);
}
void test_parseCommentReferences_skipCodeBlock_bracketed() {
List<DocumentationCommentToken> tokens = <DocumentationCommentToken>[
new DocumentationCommentToken(
TokenType.MULTI_LINE_COMMENT, "/** [:xxx [a] yyy:] [b] zzz */", 3)
];
List<CommentReference> references =
parse("parseCommentReferences", <Object>[tokens], "")
as List<CommentReference>;
expect(references, hasLength(1));
CommentReference reference = references[0];
expect(reference, isNotNull);
expect(reference.identifier, isNotNull);
expect(reference.offset, 24);
}
void test_parseCommentReferences_skipCodeBlock_gitHub() {
List<DocumentationCommentToken> tokens = <DocumentationCommentToken>[
new DocumentationCommentToken(
TokenType.MULTI_LINE_COMMENT, "/** `a[i]` and [b] */", 0)
];
List<CommentReference> references =
parse("parseCommentReferences", <Object>[tokens], "")
as List<CommentReference>;
expect(references, hasLength(1));
CommentReference reference = references[0];
expect(reference, isNotNull);
expect(reference.identifier, isNotNull);
expect(reference.offset, 16);
}
void test_parseCommentReferences_skipCodeBlock_gitHub_notTerminated() {
List<DocumentationCommentToken> tokens = <DocumentationCommentToken>[
new DocumentationCommentToken(
TokenType.MULTI_LINE_COMMENT, "/** `a[i] and [b] */", 0)
];
List<CommentReference> references =
parse("parseCommentReferences", <Object>[tokens], "")
as List<CommentReference>;
expect(references, hasLength(2));
}
void test_parseCommentReferences_skipCodeBlock_spaces() {
List<DocumentationCommentToken> tokens = <DocumentationCommentToken>[
new DocumentationCommentToken(TokenType.MULTI_LINE_COMMENT,
"/**\n * a[i]\n * xxx [i] zzz\n */", 3)
];
List<CommentReference> references =
parse("parseCommentReferences", <Object>[tokens], "")
as List<CommentReference>;
expect(references, hasLength(1));
CommentReference reference = references[0];
expect(reference, isNotNull);
expect(reference.identifier, isNotNull);
expect(reference.offset, 27);
}
void test_parseCommentReferences_skipLinkDefinition() {
List<DocumentationCommentToken> tokens = <DocumentationCommentToken>[
new DocumentationCommentToken(TokenType.MULTI_LINE_COMMENT,
"/** [a]: http://www.google.com (Google) [b] zzz */", 3)
];
List<CommentReference> references =
parse("parseCommentReferences", <Object>[tokens], "")
as List<CommentReference>;
expect(references, hasLength(1));
CommentReference reference = references[0];
expect(reference, isNotNull);
expect(reference.identifier, isNotNull);
expect(reference.offset, 44);
}
void test_parseCommentReferences_skipLinked() {
List<DocumentationCommentToken> tokens = <DocumentationCommentToken>[
new DocumentationCommentToken(TokenType.MULTI_LINE_COMMENT,
"/** [a](http://www.google.com) [b] zzz */", 3)
];
List<CommentReference> references =
parse("parseCommentReferences", <Object>[tokens], "")
as List<CommentReference>;
expect(references, hasLength(1));
CommentReference reference = references[0];
expect(reference, isNotNull);
expect(reference.identifier, isNotNull);
expect(reference.offset, 35);
}
void test_parseCommentReferences_skipReferenceLink() {
List<DocumentationCommentToken> tokens = <DocumentationCommentToken>[
new DocumentationCommentToken(
TokenType.MULTI_LINE_COMMENT, "/** [a][c] [b] zzz */", 3)
];
List<CommentReference> references =
parse("parseCommentReferences", <Object>[tokens], "")
as List<CommentReference>;
expect(references, hasLength(1));
CommentReference reference = references[0];
expect(reference, isNotNull);
expect(reference.identifier, isNotNull);
expect(reference.offset, 15);
}
void test_parseCompilationUnit_abstractAsPrefix_parameterized() {
CompilationUnit unit = parse4("parseCompilationUnit",
"abstract<dynamic> _abstract = new abstract.A();");
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnit_builtIn_asFunctionName() {
parse4("parseCompilationUnit", "abstract(x) => 0;");
parse4("parseCompilationUnit", "as(x) => 0;");
parse4("parseCompilationUnit", "dynamic(x) => 0;");
parse4("parseCompilationUnit", "export(x) => 0;");
parse4("parseCompilationUnit", "external(x) => 0;");
parse4("parseCompilationUnit", "factory(x) => 0;");
parse4("parseCompilationUnit", "get(x) => 0;");
parse4("parseCompilationUnit", "implements(x) => 0;");
parse4("parseCompilationUnit", "import(x) => 0;");
parse4("parseCompilationUnit", "library(x) => 0;");
parse4("parseCompilationUnit", "operator(x) => 0;");
parse4("parseCompilationUnit", "part(x) => 0;");
parse4("parseCompilationUnit", "set(x) => 0;");
parse4("parseCompilationUnit", "static(x) => 0;");
parse4("parseCompilationUnit", "typedef(x) => 0;");
}
void test_parseCompilationUnit_directives_multiple() {
CompilationUnit unit =
parse4("parseCompilationUnit", "library l;\npart 'a.dart';");
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(2));
expect(unit.declarations, hasLength(0));
}
void test_parseCompilationUnit_directives_single() {
CompilationUnit unit = parse4("parseCompilationUnit", "library l;");
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(1));
expect(unit.declarations, hasLength(0));
}
void test_parseCompilationUnit_empty() {
CompilationUnit unit = parse4("parseCompilationUnit", "");
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(0));
}
void test_parseCompilationUnit_exportAsPrefix() {
CompilationUnit unit =
parse4("parseCompilationUnit", "export.A _export = new export.A();");
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnit_exportAsPrefix_parameterized() {
CompilationUnit unit = parse4(
"parseCompilationUnit", "export<dynamic> _export = new export.A();");
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnit_operatorAsPrefix_parameterized() {
CompilationUnit unit = parse4("parseCompilationUnit",
"operator<dynamic> _operator = new operator.A();");
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnit_script() {
CompilationUnit unit = parse4("parseCompilationUnit", "#! /bin/dart");
expect(unit.scriptTag, isNotNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(0));
}
void test_parseCompilationUnit_skipFunctionBody_withInterpolation() {
ParserTestCase.parseFunctionBodies = false;
CompilationUnit unit = parse4("parseCompilationUnit", "f() { '\${n}'; }");
expect(unit.scriptTag, isNull);
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnit_topLevelDeclaration() {
CompilationUnit unit = parse4("parseCompilationUnit", "class A {}");
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnit_typedefAsPrefix() {
CompilationUnit unit =
parse4("parseCompilationUnit", "typedef.A _typedef = new typedef.A();");
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnitMember_abstractAsPrefix() {
TopLevelVariableDeclaration declaration = parse(
"parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()],
"abstract.A _abstract = new abstract.A();");
expect(declaration.semicolon, isNotNull);
expect(declaration.variables, isNotNull);
}
void test_parseCompilationUnitMember_class() {
ClassDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "class A {}");
expect(declaration.name.name, "A");
expect(declaration.members, hasLength(0));
}
void test_parseCompilationUnitMember_classTypeAlias() {
ClassTypeAlias alias = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "abstract class A = B with C;");
expect(alias.name.name, "A");
expect(alias.abstractKeyword, isNotNull);
}
void test_parseCompilationUnitMember_constVariable() {
TopLevelVariableDeclaration declaration = parse(
"parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()],
"const int x = 0;");
expect(declaration.semicolon, isNotNull);
expect(declaration.variables, isNotNull);
}
void test_parseCompilationUnitMember_finalVariable() {
TopLevelVariableDeclaration declaration = parse(
"parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()],
"final x = 0;");
expect(declaration.semicolon, isNotNull);
expect(declaration.variables, isNotNull);
}
void test_parseCompilationUnitMember_function_external_noType() {
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "external f();");
expect(declaration.externalKeyword, isNotNull);
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNull);
}
void test_parseCompilationUnitMember_function_external_type() {
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "external int f();");
expect(declaration.externalKeyword, isNotNull);
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNull);
}
void test_parseCompilationUnitMember_function_generic_noReturnType() {
enableGenericMethods = true;
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "f<E>() {}");
expect(declaration.returnType, isNull);
expect(declaration.functionExpression.typeParameters, isNotNull);
}
void
test_parseCompilationUnitMember_function_generic_noReturnType_annotated() {
enableGenericMethods = true;
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "f<@a E>() {}");
expect(declaration.returnType, isNull);
expect(declaration.functionExpression.typeParameters, isNotNull);
}
void test_parseCompilationUnitMember_function_generic_returnType() {
enableGenericMethods = true;
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "E f<E>() {}");
expect(declaration.returnType, isNotNull);
expect(declaration.functionExpression.typeParameters, isNotNull);
}
void test_parseCompilationUnitMember_function_generic_void() {
enableGenericMethods = true;
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "void f<T>(T t) {}");
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNull);
}
void test_parseCompilationUnitMember_function_noType() {
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "f() {}");
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNull);
}
void test_parseCompilationUnitMember_function_type() {
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "int f() {}");
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNull);
}
void test_parseCompilationUnitMember_function_void() {
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "void f() {}");
expect(declaration.returnType, isNotNull);
}
void test_parseCompilationUnitMember_getter_external_noType() {
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "external get p;");
expect(declaration.externalKeyword, isNotNull);
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
}
void test_parseCompilationUnitMember_getter_external_type() {
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "external int get p;");
expect(declaration.externalKeyword, isNotNull);
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
}
void test_parseCompilationUnitMember_getter_noType() {
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "get p => 0;");
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
}
void test_parseCompilationUnitMember_getter_type() {
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "int get p => 0;");
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
}
void test_parseCompilationUnitMember_setter_external_noType() {
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "external set p(v);");
expect(declaration.externalKeyword, isNotNull);
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
}
void test_parseCompilationUnitMember_setter_external_type() {
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "external void set p(int v);");
expect(declaration.externalKeyword, isNotNull);
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
}
void test_parseCompilationUnitMember_setter_noType() {
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "set p(v) {}");
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
}
void test_parseCompilationUnitMember_setter_type() {
FunctionDeclaration declaration = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "void set p(int v) {}");
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
expect(declaration.returnType, isNotNull);
}
void test_parseCompilationUnitMember_typeAlias_abstract() {
ClassTypeAlias typeAlias = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "abstract class C = S with M;");
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name.name, "C");
expect(typeAlias.typeParameters, isNull);
expect(typeAlias.equals, isNotNull);
expect(typeAlias.abstractKeyword, isNotNull);
expect(typeAlias.superclass.name.name, "S");
expect(typeAlias.withClause, isNotNull);
expect(typeAlias.implementsClause, isNull);
expect(typeAlias.semicolon, isNotNull);
}
void test_parseCompilationUnitMember_typeAlias_generic() {
ClassTypeAlias typeAlias = parse(
"parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()],
"class C<E> = S<E> with M<E> implements I<E>;");
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name.name, "C");
expect(typeAlias.typeParameters.typeParameters, hasLength(1));
expect(typeAlias.equals, isNotNull);
expect(typeAlias.abstractKeyword, isNull);
expect(typeAlias.superclass.name.name, "S");
expect(typeAlias.withClause, isNotNull);
expect(typeAlias.implementsClause, isNotNull);
expect(typeAlias.semicolon, isNotNull);
}
void test_parseCompilationUnitMember_typeAlias_implements() {
ClassTypeAlias typeAlias = parse(
"parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()],
"class C = S with M implements I;");
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name.name, "C");
expect(typeAlias.typeParameters, isNull);
expect(typeAlias.equals, isNotNull);
expect(typeAlias.abstractKeyword, isNull);
expect(typeAlias.superclass.name.name, "S");
expect(typeAlias.withClause, isNotNull);
expect(typeAlias.implementsClause, isNotNull);
expect(typeAlias.semicolon, isNotNull);
}
void test_parseCompilationUnitMember_typeAlias_noImplements() {
ClassTypeAlias typeAlias = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "class C = S with M;");
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name.name, "C");
expect(typeAlias.typeParameters, isNull);
expect(typeAlias.equals, isNotNull);
expect(typeAlias.abstractKeyword, isNull);
expect(typeAlias.superclass.name.name, "S");
expect(typeAlias.withClause, isNotNull);
expect(typeAlias.implementsClause, isNull);
expect(typeAlias.semicolon, isNotNull);
}
void test_parseCompilationUnitMember_typedef() {
FunctionTypeAlias typeAlias = parse("parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()], "typedef F();");
expect(typeAlias.name.name, "F");
expect(typeAlias.parameters.parameters, hasLength(0));
}
void test_parseCompilationUnitMember_variable() {
TopLevelVariableDeclaration declaration = parse(
"parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()],
"var x = 0;");
expect(declaration.semicolon, isNotNull);
expect(declaration.variables, isNotNull);
}
void test_parseCompilationUnitMember_variableGet() {
TopLevelVariableDeclaration declaration = parse(
"parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()],
"String get = null;");
expect(declaration.semicolon, isNotNull);
expect(declaration.variables, isNotNull);
}
void test_parseCompilationUnitMember_variableSet() {
TopLevelVariableDeclaration declaration = parse(
"parseCompilationUnitMember",
<Object>[emptyCommentAndMetadata()],
"String set = null;");
expect(declaration.semicolon, isNotNull);
expect(declaration.variables, isNotNull);
}
void test_parseConditionalExpression() {
ConditionalExpression expression =
parse4("parseConditionalExpression", "x ? y : z");
expect(expression.condition, isNotNull);
expect(expression.question, isNotNull);
expect(expression.thenExpression, isNotNull);
expect(expression.colon, isNotNull);
expect(expression.elseExpression, isNotNull);
}
void test_parseConfiguration_noOperator_dottedIdentifier() {
Configuration configuration =
parse4('parseConfiguration', "if (a.b) 'c.dart'");
expect(configuration.ifKeyword, isNotNull);
expect(configuration.leftParenthesis, isNotNull);
_expectDottedName(configuration.name, ["a", "b"]);
expect(configuration.equalToken, isNull);
expect(configuration.value, isNull);
expect(configuration.rightParenthesis, isNotNull);
expect(configuration.libraryUri, isNotNull);
}
void test_parseConfiguration_noOperator_simpleIdentifier() {
Configuration configuration =
parse4('parseConfiguration', "if (a) 'b.dart'");
expect(configuration.ifKeyword, isNotNull);
expect(configuration.leftParenthesis, isNotNull);
_expectDottedName(configuration.name, ["a"]);
expect(configuration.equalToken, isNull);
expect(configuration.value, isNull);
expect(configuration.rightParenthesis, isNotNull);
expect(configuration.libraryUri, isNotNull);
}
void test_parseConfiguration_operator_dottedIdentifier() {
Configuration configuration =
parse4('parseConfiguration', "if (a.b == 'c') 'd.dart'");
expect(configuration.ifKeyword, isNotNull);
expect(configuration.leftParenthesis, isNotNull);
_expectDottedName(configuration.name, ["a", "b"]);
expect(configuration.equalToken, isNotNull);
expect(configuration.value, isNotNull);
expect(configuration.rightParenthesis, isNotNull);
expect(configuration.libraryUri, isNotNull);
}
void test_parseConfiguration_operator_simpleIdentifier() {
Configuration configuration =
parse4('parseConfiguration', "if (a == 'b') 'c.dart'");
expect(configuration.ifKeyword, isNotNull);
expect(configuration.leftParenthesis, isNotNull);
_expectDottedName(configuration.name, ["a"]);
expect(configuration.equalToken, isNotNull);
expect(configuration.value, isNotNull);
expect(configuration.rightParenthesis, isNotNull);
expect(configuration.libraryUri, isNotNull);
}
void test_parseConstExpression_instanceCreation() {
InstanceCreationExpression expression =
parse4("parseConstExpression", "const A()");
expect(expression.keyword, isNotNull);
ConstructorName name = expression.constructorName;
expect(name, isNotNull);
expect(name.type, isNotNull);
expect(name.period, isNull);
expect(name.name, isNull);
expect(expression.argumentList, isNotNull);
}
void test_parseConstExpression_listLiteral_typed() {
ListLiteral literal = parse4("parseConstExpression", "const <A> []");
expect(literal.constKeyword, isNotNull);
expect(literal.typeArguments, isNotNull);
expect(literal.leftBracket, isNotNull);
expect(literal.elements, hasLength(0));
expect(literal.rightBracket, isNotNull);
}
void test_parseConstExpression_listLiteral_typed_genericComment() {
enableGenericMethodComments = true;
ListLiteral literal = parse4("parseConstExpression", "const /*<A>*/ []");
expect(literal.constKeyword, isNotNull);
expect(literal.typeArguments, isNotNull);
expect(literal.leftBracket, isNotNull);
expect(literal.elements, hasLength(0));
expect(literal.rightBracket, isNotNull);
}
void test_parseConstExpression_listLiteral_untyped() {
ListLiteral literal = parse4("parseConstExpression", "const []");
expect(literal.constKeyword, isNotNull);
expect(literal.typeArguments, isNull);
expect(literal.leftBracket, isNotNull);
expect(literal.elements, hasLength(0));
expect(literal.rightBracket, isNotNull);
}
void test_parseConstExpression_mapLiteral_typed() {
MapLiteral literal = parse4("parseConstExpression", "const <A, B> {}");
expect(literal.leftBracket, isNotNull);
expect(literal.entries, hasLength(0));
expect(literal.rightBracket, isNotNull);
expect(literal.typeArguments, isNotNull);
}
void test_parseConstExpression_mapLiteral_typed_genericComment() {
enableGenericMethodComments = true;
MapLiteral literal = parse4("parseConstExpression", "const /*<A, B>*/ {}");
expect(literal.leftBracket, isNotNull);
expect(literal.entries, hasLength(0));
expect(literal.rightBracket, isNotNull);
expect(literal.typeArguments, isNotNull);
}
void test_parseConstExpression_mapLiteral_untyped() {
MapLiteral literal = parse4("parseConstExpression", "const {}");
expect(literal.leftBracket, isNotNull);
expect(literal.entries, hasLength(0));
expect(literal.rightBracket, isNotNull);
expect(literal.typeArguments, isNull);
}
void test_parseConstructor() {
// TODO(brianwilkerson) Implement tests for this method.
// parse("parseConstructor", new Class[] {Parser.CommentAndMetadata.class,
// Token.class, Token.class, SimpleIdentifier.class, Token.class,
// SimpleIdentifier.class, FormalParameterList.class}, new Object[] {emptyCommentAndMetadata(),
// null, null, null, null, null, null}, "");
}
void test_parseConstructor_with_pseudo_function_literal() {
// "(b) {}" should not be misinterpreted as a function literal even though
// it looks like one.
ClassMember classMember =
parse("parseClassMember", <Object>["C"], "C() : a = (b) {}");
EngineTestCase.assertInstanceOf((obj) => obj is ConstructorDeclaration,
ConstructorDeclaration, classMember);
ConstructorDeclaration constructor = classMember as ConstructorDeclaration;
NodeList<ConstructorInitializer> initializers = constructor.initializers;
expect(initializers, hasLength(1));
ConstructorInitializer initializer = initializers[0];
EngineTestCase.assertInstanceOf((obj) => obj is ConstructorFieldInitializer,
ConstructorFieldInitializer, initializer);
EngineTestCase.assertInstanceOf(
(obj) => obj is ParenthesizedExpression,
ParenthesizedExpression,
(initializer as ConstructorFieldInitializer).expression);
EngineTestCase.assertInstanceOf(
(obj) => obj is BlockFunctionBody, BlockFunctionBody, constructor.body);
}
void test_parseConstructorFieldInitializer_qualified() {
ConstructorFieldInitializer invocation =
parse2("parseConstructorFieldInitializer", [true], "this.a = b");
expect(invocation.equals, isNotNull);
expect(invocation.expression, isNotNull);
expect(invocation.fieldName, isNotNull);
expect(invocation.thisKeyword, isNotNull);
expect(invocation.period, isNotNull);
}
void test_parseConstructorFieldInitializer_unqualified() {
ConstructorFieldInitializer invocation =
parse2("parseConstructorFieldInitializer", [false], "a = b");
expect(invocation.equals, isNotNull);
expect(invocation.expression, isNotNull);
expect(invocation.fieldName, isNotNull);
expect(invocation.thisKeyword, isNull);
expect(invocation.period, isNull);
}
void test_parseConstructorName_named_noPrefix() {
ConstructorName name = parse4("parseConstructorName", "A.n;");
expect(name.type, isNotNull);
expect(name.period, isNull);
expect(name.name, isNull);
}
void test_parseConstructorName_named_prefixed() {
ConstructorName name = parse4("parseConstructorName", "p.A.n;");
expect(name.type, isNotNull);
expect(name.period, isNotNull);
expect(name.name, isNotNull);
}
void test_parseConstructorName_unnamed_noPrefix() {
ConstructorName name = parse4("parseConstructorName", "A;");
expect(name.type, isNotNull);
expect(name.period, isNull);
expect(name.name, isNull);
}
void test_parseConstructorName_unnamed_prefixed() {
ConstructorName name = parse4("parseConstructorName", "p.A;");
expect(name.type, isNotNull);
expect(name.period, isNull);
expect(name.name, isNull);
}
void test_parseContinueStatement_label() {
ContinueStatement statement = parse4("parseContinueStatement",
"continue foo;", [ParserErrorCode.CONTINUE_OUTSIDE_OF_LOOP]);
expect(statement.continueKeyword, isNotNull);
expect(statement.label, isNotNull);
expect(statement.semicolon, isNotNull);
}
void test_parseContinueStatement_noLabel() {
ContinueStatement statement = parse4("parseContinueStatement", "continue;",
[ParserErrorCode.CONTINUE_OUTSIDE_OF_LOOP]);
expect(statement.continueKeyword, isNotNull);
expect(statement.label, isNull);
expect(statement.semicolon, isNotNull);
}
void test_parseDirective_export() {
ExportDirective directive = parse("parseDirective",
<Object>[emptyCommentAndMetadata()], "export 'lib/lib.dart';");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.combinators, hasLength(0));
expect(directive.semicolon, isNotNull);
}
void test_parseDirective_import() {
ImportDirective directive = parse("parseDirective",
<Object>[emptyCommentAndMetadata()], "import 'lib/lib.dart';");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.asKeyword, isNull);
expect(directive.prefix, isNull);
expect(directive.combinators, hasLength(0));
expect(directive.semicolon, isNotNull);
}
void test_parseDirective_library() {
LibraryDirective directive = parse(
"parseDirective", <Object>[emptyCommentAndMetadata()], "library l;");
expect(directive.libraryKeyword, isNotNull);
expect(directive.name, isNotNull);
expect(directive.semicolon, isNotNull);
}
void test_parseDirective_part() {
PartDirective directive = parse("parseDirective",
<Object>[emptyCommentAndMetadata()], "part 'lib/lib.dart';");
expect(directive.partKeyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.semicolon, isNotNull);
}
void test_parseDirective_partOf() {
PartOfDirective directive = parse(
"parseDirective", <Object>[emptyCommentAndMetadata()], "part of l;");
expect(directive.partKeyword, isNotNull);
expect(directive.ofKeyword, isNotNull);
expect(directive.libraryName, isNotNull);
expect(directive.semicolon, isNotNull);
}
void test_parseDirectives_complete() {
CompilationUnit unit =
_parseDirectives("#! /bin/dart\nlibrary l;\nclass A {}");
expect(unit.scriptTag, isNotNull);
expect(unit.directives, hasLength(1));
}
void test_parseDirectives_empty() {
CompilationUnit unit = _parseDirectives("");
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
}
void test_parseDirectives_mixed() {
CompilationUnit unit =
_parseDirectives("library l; class A {} part 'foo.dart';");
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(1));
}
void test_parseDirectives_multiple() {
CompilationUnit unit = _parseDirectives("library l;\npart 'a.dart';");
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(2));
}
void test_parseDirectives_script() {
CompilationUnit unit = _parseDirectives("#! /bin/dart");
expect(unit.scriptTag, isNotNull);
expect(unit.directives, hasLength(0));
}
void test_parseDirectives_single() {
CompilationUnit unit = _parseDirectives("library l;");
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(1));
}
void test_parseDirectives_topLevelDeclaration() {
CompilationUnit unit = _parseDirectives("class A {}");
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
}
void test_parseDocumentationComment_block() {
Comment comment = parse4("parseDocumentationComment", "/** */ class");
expect(comment.isBlock, isFalse);
expect(comment.isDocumentation, isTrue);
expect(comment.isEndOfLine, isFalse);
}
void test_parseDocumentationComment_block_withReference() {
Comment comment = parse4("parseDocumentationComment", "/** [a] */ class");
expect(comment.isBlock, isFalse);
expect(comment.isDocumentation, isTrue);
expect(comment.isEndOfLine, isFalse);
NodeList<CommentReference> references = comment.references;
expect(references, hasLength(1));
CommentReference reference = references[0];
expect(reference, isNotNull);
expect(reference.offset, 5);
}
void test_parseDocumentationComment_endOfLine() {
Comment comment = parse4("parseDocumentationComment", "/// \n/// \n class");
expect(comment.isBlock, isFalse);
expect(comment.isDocumentation, isTrue);
expect(comment.isEndOfLine, isFalse);
}
void test_parseDoStatement() {
DoStatement statement = parse4("parseDoStatement", "do {} while (x);");
expect(statement.doKeyword, isNotNull);
expect(statement.body, isNotNull);
expect(statement.whileKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.semicolon, isNotNull);
}
void test_parseDottedName_multiple() {
DottedName name = parse4("parseDottedName", "a.b.c");
_expectDottedName(name, ["a", "b", "c"]);
}
void test_parseDottedName_single() {
DottedName name = parse4("parseDottedName", "a");
_expectDottedName(name, ["a"]);
}
void test_parseEmptyStatement() {
EmptyStatement statement = parse4("parseEmptyStatement", ";");
expect(statement.semicolon, isNotNull);
}
void test_parseEnumDeclaration_one() {
EnumDeclaration declaration = parse("parseEnumDeclaration",
<Object>[emptyCommentAndMetadata()], "enum E {ONE}");
expect(declaration.documentationComment, isNull);
expect(declaration.enumKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name, isNotNull);
expect(declaration.constants, hasLength(1));
expect(declaration.rightBracket, isNotNull);
}
void test_parseEnumDeclaration_trailingComma() {
EnumDeclaration declaration = parse("parseEnumDeclaration",
<Object>[emptyCommentAndMetadata()], "enum E {ONE,}");
expect(declaration.documentationComment, isNull);
expect(declaration.enumKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name, isNotNull);
expect(declaration.constants, hasLength(1));
expect(declaration.rightBracket, isNotNull);
}
void test_parseEnumDeclaration_two() {
EnumDeclaration declaration = parse("parseEnumDeclaration",
<Object>[emptyCommentAndMetadata()], "enum E {ONE, TWO}");
expect(declaration.documentationComment, isNull);
expect(declaration.enumKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name, isNotNull);
expect(declaration.constants, hasLength(2));
expect(declaration.rightBracket, isNotNull);
}
void test_parseEqualityExpression_normal() {
BinaryExpression expression = parse4("parseEqualityExpression", "x == y");
expect(expression.leftOperand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.EQ_EQ);
expect(expression.rightOperand, isNotNull);
}
void test_parseEqualityExpression_super() {
BinaryExpression expression =
parse4("parseEqualityExpression", "super == y");
EngineTestCase.assertInstanceOf((obj) => obj is SuperExpression,
SuperExpression, expression.leftOperand);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.EQ_EQ);
expect(expression.rightOperand, isNotNull);
}
void test_parseExportDirective_configuration_multiple() {
ExportDirective directive = parse(
"parseExportDirective",
<Object>[emptyCommentAndMetadata()],
"export 'lib/lib.dart' if (a) 'b.dart' if (c) 'd.dart';");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.configurations, hasLength(2));
_expectDottedName(directive.configurations[0].name, ['a']);
_expectDottedName(directive.configurations[1].name, ['c']);
expect(directive.combinators, hasLength(0));
expect(directive.semicolon, isNotNull);
}
void test_parseExportDirective_configuration_single() {
ExportDirective directive = parse(
"parseExportDirective",
<Object>[emptyCommentAndMetadata()],
"export 'lib/lib.dart' if (a.b == 'c.dart') '';");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.configurations, hasLength(1));
_expectDottedName(directive.configurations[0].name, ['a', 'b']);
expect(directive.combinators, hasLength(0));
expect(directive.semicolon, isNotNull);
}
void test_parseExportDirective_hide() {
ExportDirective directive = parse(
"parseExportDirective",
<Object>[emptyCommentAndMetadata()],
"export 'lib/lib.dart' hide A, B;");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.combinators, hasLength(1));
expect(directive.semicolon, isNotNull);
}
void test_parseExportDirective_hide_show() {
ExportDirective directive = parse(
"parseExportDirective",
<Object>[emptyCommentAndMetadata()],
"export 'lib/lib.dart' hide A show B;");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.combinators, hasLength(2));
expect(directive.semicolon, isNotNull);
}
void test_parseExportDirective_noCombinator() {
ExportDirective directive = parse("parseExportDirective",
<Object>[emptyCommentAndMetadata()], "export 'lib/lib.dart';");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.combinators, hasLength(0));
expect(directive.semicolon, isNotNull);
}
void test_parseExportDirective_show() {
ExportDirective directive = parse(
"parseExportDirective",
<Object>[emptyCommentAndMetadata()],
"export 'lib/lib.dart' show A, B;");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.combinators, hasLength(1));
expect(directive.semicolon, isNotNull);
}
void test_parseExportDirective_show_hide() {
ExportDirective directive = parse(
"parseExportDirective",
<Object>[emptyCommentAndMetadata()],
"export 'lib/lib.dart' show B hide A;");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.combinators, hasLength(2));
expect(directive.semicolon, isNotNull);
}
void test_parseExpression_assign() {
// TODO(brianwilkerson) Implement more tests for this method.
AssignmentExpression expression = parse4("parseExpression", "x = y");
expect(expression.leftHandSide, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.EQ);
expect(expression.rightHandSide, isNotNull);
}
void test_parseExpression_comparison() {
BinaryExpression expression = parse4("parseExpression", "--a.b == c");
expect(expression.leftOperand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.EQ_EQ);
expect(expression.rightOperand, isNotNull);
}
void test_parseExpression_function_async() {
FunctionExpression expression = parseExpression("() async {}");
expect(expression.body, isNotNull);
expect(expression.body.isAsynchronous, isTrue);
expect(expression.body.isGenerator, isFalse);
expect(expression.parameters, isNotNull);
}
void test_parseExpression_function_asyncStar() {
FunctionExpression expression = parseExpression("() async* {}");
expect(expression.body, isNotNull);
expect(expression.body.isAsynchronous, isTrue);
expect(expression.body.isGenerator, isTrue);
expect(expression.parameters, isNotNull);
}
void test_parseExpression_function_sync() {
FunctionExpression expression = parseExpression("() {}");
expect(expression.body, isNotNull);
expect(expression.body.isAsynchronous, isFalse);
expect(expression.body.isGenerator, isFalse);
expect(expression.parameters, isNotNull);
}
void test_parseExpression_function_syncStar() {
FunctionExpression expression = parseExpression("() sync* {}");
expect(expression.body, isNotNull);
expect(expression.body.isAsynchronous, isFalse);
expect(expression.body.isGenerator, isTrue);
expect(expression.parameters, isNotNull);
}
void test_parseExpression_invokeFunctionExpression() {
FunctionExpressionInvocation invocation =
parse4("parseExpression", "(a) {return a + a;} (3)");
EngineTestCase.assertInstanceOf((obj) => obj is FunctionExpression,
FunctionExpression, invocation.function);
FunctionExpression expression = invocation.function as FunctionExpression;
expect(expression.parameters, isNotNull);
expect(expression.body, isNotNull);
expect(invocation.typeArguments, isNull);
ArgumentList list = invocation.argumentList;
expect(list, isNotNull);
expect(list.arguments, hasLength(1));
}
void test_parseExpression_nonAwait() {
MethodInvocation expression = parseExpression("await()");
expect(expression.methodName.name, 'await');
expect(expression.typeArguments, isNull);
expect(expression.argumentList, isNotNull);
}
void test_parseExpression_superMethodInvocation() {
MethodInvocation invocation = parse4("parseExpression", "super.m()");
expect(invocation.target, isNotNull);
expect(invocation.methodName, isNotNull);
expect(invocation.typeArguments, isNull);
expect(invocation.argumentList, isNotNull);
}
void test_parseExpression_superMethodInvocation_typeArgumentComments() {
enableGenericMethodComments = true;
MethodInvocation invocation = parse4("parseExpression", "super.m/*<E>*/()");
expect(invocation.target, isNotNull);
expect(invocation.methodName, isNotNull);
expect(invocation.typeArguments, isNotNull);
expect(invocation.argumentList, isNotNull);
}
void test_parseExpression_superMethodInvocation_typeArguments() {
enableGenericMethods = true;
MethodInvocation invocation = parse4("parseExpression", "super.m<E>()");
expect(invocation.target, isNotNull);
expect(invocation.methodName, isNotNull);
expect(invocation.typeArguments, isNotNull);
expect(invocation.argumentList, isNotNull);
}
void test_parseExpressionList_multiple() {
List<Expression> result =
parse4("parseExpressionList", "1, 2, 3") as List<Expression>;
expect(result, hasLength(3));
}
void test_parseExpressionList_single() {
List<Expression> result =
parse4("parseExpressionList", "1") as List<Expression>;
expect(result, hasLength(1));
}
void test_parseExpressionWithoutCascade_assign() {
// TODO(brianwilkerson) Implement more tests for this method.
AssignmentExpression expression =
parse4("parseExpressionWithoutCascade", "x = y");
expect(expression.leftHandSide, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.EQ);
expect(expression.rightHandSide, isNotNull);
}
void test_parseExpressionWithoutCascade_comparison() {
BinaryExpression expression =
parse4("parseExpressionWithoutCascade", "--a.b == c");
expect(expression.leftOperand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.EQ_EQ);
expect(expression.rightOperand, isNotNull);
}
void test_parseExpressionWithoutCascade_superMethodInvocation() {
MethodInvocation invocation =
parse4("parseExpressionWithoutCascade", "super.m()");
expect(invocation.target, isNotNull);
expect(invocation.methodName, isNotNull);
expect(invocation.typeArguments, isNull);
expect(invocation.argumentList, isNotNull);
}
void
test_parseExpressionWithoutCascade_superMethodInvocation_typeArgumentComments() {
enableGenericMethodComments = true;
MethodInvocation invocation =
parse4("parseExpressionWithoutCascade", "super.m/*<E>*/()");
expect(invocation.target, isNotNull);
expect(invocation.methodName, isNotNull);
expect(invocation.typeArguments, isNotNull);
expect(invocation.argumentList, isNotNull);
}
void
test_parseExpressionWithoutCascade_superMethodInvocation_typeArguments() {
enableGenericMethods = true;
MethodInvocation invocation =
parse4("parseExpressionWithoutCascade", "super.m<E>()");
expect(invocation.target, isNotNull);
expect(invocation.methodName, isNotNull);
expect(invocation.typeArguments, isNotNull);
expect(invocation.argumentList, isNotNull);
}
void test_parseExtendsClause() {
ExtendsClause clause = parse4("parseExtendsClause", "extends B");
expect(clause.extendsKeyword, isNotNull);
expect(clause.superclass, isNotNull);
EngineTestCase.assertInstanceOf(
(obj) => obj is TypeName, TypeName, clause.superclass);
}
void test_parseFinalConstVarOrType_const_noType() {
FinalConstVarOrType result =
parse("parseFinalConstVarOrType", <Object>[false], "const");
Token keyword = result.keyword;
expect(keyword, isNotNull);
expect(keyword.type, TokenType.KEYWORD);
expect(keyword.keyword, Keyword.CONST);
expect(result.type, isNull);
}
void test_parseFinalConstVarOrType_const_type() {
FinalConstVarOrType result =
parse("parseFinalConstVarOrType", <Object>[false], "const A a");
Token keyword = result.keyword;
expect(keyword, isNotNull);
expect(keyword.type, TokenType.KEYWORD);
expect(keyword.keyword, Keyword.CONST);
expect(result.type, isNotNull);
}
void test_parseFinalConstVarOrType_final_noType() {
FinalConstVarOrType result =
parse("parseFinalConstVarOrType", <Object>[false], "final");
Token keyword = result.keyword;
expect(keyword, isNotNull);
expect(keyword.type, TokenType.KEYWORD);
expect(keyword.keyword, Keyword.FINAL);
expect(result.type, isNull);
}
void test_parseFinalConstVarOrType_final_prefixedType() {
FinalConstVarOrType result =
parse("parseFinalConstVarOrType", <Object>[false], "final p.A a");
Token keyword = result.keyword;
expect(keyword, isNotNull);
expect(keyword.type, TokenType.KEYWORD);
expect(keyword.keyword, Keyword.FINAL);
expect(result.type, isNotNull);
}
void test_parseFinalConstVarOrType_final_type() {
FinalConstVarOrType result =
parse("parseFinalConstVarOrType", <Object>[false], "final A a");
Token keyword = result.keyword;
expect(keyword, isNotNull);
expect(keyword.type, TokenType.KEYWORD);
expect(keyword.keyword, Keyword.FINAL);
expect(result.type, isNotNull);
}
void test_parseFinalConstVarOrType_type_parameterized() {
FinalConstVarOrType result =
parse("parseFinalConstVarOrType", <Object>[false], "A<B> a");
expect(result.keyword, isNull);
expect(result.type, isNotNull);
}
void test_parseFinalConstVarOrType_type_prefixed() {
FinalConstVarOrType result =
parse("parseFinalConstVarOrType", <Object>[false], "p.A a");
expect(result.keyword, isNull);
expect(result.type, isNotNull);
}
void test_parseFinalConstVarOrType_type_prefixed_noIdentifier() {
FinalConstVarOrType result =
parse("parseFinalConstVarOrType", <Object>[false], "p.A,");
expect(result.keyword, isNull);
expect(result.type, isNotNull);
}
void test_parseFinalConstVarOrType_type_prefixedAndParameterized() {
FinalConstVarOrType result =
parse("parseFinalConstVarOrType", <Object>[false], "p.A<B> a");
expect(result.keyword, isNull);
expect(result.type, isNotNull);
}
void test_parseFinalConstVarOrType_type_simple() {
FinalConstVarOrType result =
parse("parseFinalConstVarOrType", <Object>[false], "A a");
expect(result.keyword, isNull);
expect(result.type, isNotNull);
}
void test_parseFinalConstVarOrType_var() {
FinalConstVarOrType result =
parse("parseFinalConstVarOrType", <Object>[false], "var");
Token keyword = result.keyword;
expect(keyword, isNotNull);
expect(keyword.type, TokenType.KEYWORD);
expect(keyword.keyword, Keyword.VAR);
expect(result.type, isNull);
}
void test_parseFinalConstVarOrType_void() {
FinalConstVarOrType result =
parse("parseFinalConstVarOrType", <Object>[false], "void f()");
expect(result.keyword, isNull);
expect(result.type, isNotNull);
}
void test_parseFinalConstVarOrType_void_noIdentifier() {
FinalConstVarOrType result =
parse("parseFinalConstVarOrType", <Object>[false], "void,");
expect(result.keyword, isNull);
expect(result.type, isNotNull);
}
void test_parseFormalParameter_final_withType_named() {
ParameterKind kind = ParameterKind.NAMED;
DefaultFormalParameter parameter =
parse("parseFormalParameter", <Object>[kind], "final A a : null");
SimpleFormalParameter simpleParameter =
parameter.parameter as SimpleFormalParameter;
expect(simpleParameter.identifier, isNotNull);
expect(simpleParameter.keyword, isNotNull);
expect(simpleParameter.type, isNotNull);
expect(simpleParameter.kind, kind);
expect(parameter.separator, isNotNull);
expect(parameter.defaultValue, isNotNull);
expect(parameter.kind, kind);
}
void test_parseFormalParameter_final_withType_normal() {
ParameterKind kind = ParameterKind.REQUIRED;
SimpleFormalParameter parameter =
parse("parseFormalParameter", <Object>[kind], "final A a");
expect(parameter.identifier, isNotNull);
expect(parameter.keyword, isNotNull);
expect(parameter.type, isNotNull);
expect(parameter.kind, kind);
}
void test_parseFormalParameter_final_withType_positional() {
ParameterKind kind = ParameterKind.POSITIONAL;
DefaultFormalParameter parameter =
parse("parseFormalParameter", <Object>[kind], "final A a = null");
SimpleFormalParameter simpleParameter =
parameter.parameter as SimpleFormalParameter;
expect(simpleParameter.identifier, isNotNull);
expect(simpleParameter.keyword, isNotNull);
expect(simpleParameter.type, isNotNull);
expect(simpleParameter.kind, kind);
expect(parameter.separator, isNotNull);
expect(parameter.defaultValue, isNotNull);
expect(parameter.kind, kind);
}
void test_parseFormalParameter_nonFinal_withType_named() {
ParameterKind kind = ParameterKind.NAMED;
DefaultFormalParameter parameter =
parse("parseFormalParameter", <Object>[kind], "A a : null");
SimpleFormalParameter simpleParameter =
parameter.parameter as SimpleFormalParameter;
expect(simpleParameter.identifier, isNotNull);
expect(simpleParameter.keyword, isNull);
expect(simpleParameter.type, isNotNull);
expect(simpleParameter.kind, kind);
expect(parameter.separator, isNotNull);
expect(parameter.defaultValue, isNotNull);
expect(parameter.kind, kind);
}
void test_parseFormalParameter_nonFinal_withType_normal() {
ParameterKind kind = ParameterKind.REQUIRED;
SimpleFormalParameter parameter =
parse("parseFormalParameter", <Object>[kind], "A a");
expect(parameter.identifier, isNotNull);
expect(parameter.keyword, isNull);
expect(parameter.type, isNotNull);
expect(parameter.kind, kind);
}
void test_parseFormalParameter_nonFinal_withType_positional() {
ParameterKind kind = ParameterKind.POSITIONAL;
DefaultFormalParameter parameter =
parse("parseFormalParameter", <Object>[kind], "A a = null");
SimpleFormalParameter simpleParameter =
parameter.parameter as SimpleFormalParameter;
expect(simpleParameter.identifier, isNotNull);
expect(simpleParameter.keyword, isNull);
expect(simpleParameter.type, isNotNull);
expect(simpleParameter.kind, kind);
expect(parameter.separator, isNotNull);
expect(parameter.defaultValue, isNotNull);
expect(parameter.kind, kind);
}
void test_parseFormalParameter_var() {
ParameterKind kind = ParameterKind.REQUIRED;
SimpleFormalParameter parameter =
parse("parseFormalParameter", <Object>[kind], "var a");
expect(parameter.identifier, isNotNull);
expect(parameter.keyword, isNotNull);
expect(parameter.type, isNull);
expect(parameter.kind, kind);
}
void test_parseFormalParameter_var_named() {
ParameterKind kind = ParameterKind.NAMED;
DefaultFormalParameter parameter =
parse("parseFormalParameter", <Object>[kind], "var a : null");
SimpleFormalParameter simpleParameter =
parameter.parameter as SimpleFormalParameter;
expect(simpleParameter.identifier, isNotNull);
expect(simpleParameter.keyword, isNotNull);
expect(simpleParameter.type, isNull);
expect(simpleParameter.kind, kind);
expect(parameter.separator, isNotNull);
expect(parameter.defaultValue, isNotNull);
expect(parameter.kind, kind);
}
void test_parseFormalParameter_var_positional() {
ParameterKind kind = ParameterKind.POSITIONAL;
DefaultFormalParameter parameter =
parse("parseFormalParameter", <Object>[kind], "var a = null");
SimpleFormalParameter simpleParameter =
parameter.parameter as SimpleFormalParameter;
expect(simpleParameter.identifier, isNotNull);
expect(simpleParameter.keyword, isNotNull);
expect(simpleParameter.type, isNull);
expect(simpleParameter.kind, kind);
expect(parameter.separator, isNotNull);
expect(parameter.defaultValue, isNotNull);
expect(parameter.kind, kind);
}
void test_parseFormalParameterList_empty() {
FormalParameterList parameterList =
parse4("parseFormalParameterList", "()");
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNull);
expect(parameterList.parameters, hasLength(0));
expect(parameterList.rightDelimiter, isNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseFormalParameterList_named_multiple() {
FormalParameterList parameterList =
parse4("parseFormalParameterList", "({A a : 1, B b, C c : 3})");
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNotNull);
expect(parameterList.parameters, hasLength(3));
expect(parameterList.rightDelimiter, isNotNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseFormalParameterList_named_single() {
FormalParameterList parameterList =
parse4("parseFormalParameterList", "({A a})");
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNotNull);
expect(parameterList.parameters, hasLength(1));
expect(parameterList.rightDelimiter, isNotNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseFormalParameterList_named_trailing_comma() {
FormalParameterList parameterList =
parse4("parseFormalParameterList", "(A a, {B b,})");
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNotNull);
expect(parameterList.parameters, hasLength(2));
expect(parameterList.rightDelimiter, isNotNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseFormalParameterList_normal_multiple() {
FormalParameterList parameterList =
parse4("parseFormalParameterList", "(A a, B b, C c)");
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNull);
expect(parameterList.parameters, hasLength(3));
expect(parameterList.rightDelimiter, isNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseFormalParameterList_normal_named() {
FormalParameterList parameterList =
parse4("parseFormalParameterList", "(A a, {B b})");
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNotNull);
expect(parameterList.parameters, hasLength(2));
expect(parameterList.rightDelimiter, isNotNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseFormalParameterList_normal_positional() {
FormalParameterList parameterList =
parse4("parseFormalParameterList", "(A a, [B b])");
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNotNull);
expect(parameterList.parameters, hasLength(2));
expect(parameterList.rightDelimiter, isNotNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseFormalParameterList_normal_single() {
FormalParameterList parameterList =
parse4("parseFormalParameterList", "(A a)");
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNull);
expect(parameterList.parameters, hasLength(1));
expect(parameterList.rightDelimiter, isNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseFormalParameterList_normal_single_trailing_comma() {
FormalParameterList parameterList =
parse4("parseFormalParameterList", "(A a,)");
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNull);
expect(parameterList.parameters, hasLength(1));
expect(parameterList.rightDelimiter, isNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseFormalParameterList_positional_multiple() {
FormalParameterList parameterList =
parse4("parseFormalParameterList", "([A a = null, B b, C c = null])");
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNotNull);
expect(parameterList.parameters, hasLength(3));
expect(parameterList.rightDelimiter, isNotNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseFormalParameterList_positional_single() {
FormalParameterList parameterList =
parse4("parseFormalParameterList", "([A a = null])");
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNotNull);
expect(parameterList.parameters, hasLength(1));
expect(parameterList.rightDelimiter, isNotNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseFormalParameterList_positional_trailing_comma() {
FormalParameterList parameterList =
parse4("parseFormalParameterList", "(A a, [B b,])");
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNotNull);
expect(parameterList.parameters, hasLength(2));
expect(parameterList.rightDelimiter, isNotNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseFormalParameterList_prefixedType() {
FormalParameterList parameterList =
parse4("parseFormalParameterList", "(io.File f)");
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNull);
expect(parameterList.parameters, hasLength(1));
expect(parameterList.parameters[0].toSource(), 'io.File f');
expect(parameterList.rightDelimiter, isNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseFormalParameterList_prefixedType_partial() {
FormalParameterList parameterList = parse4(
"parseFormalParameterList", "(io.)", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNull);
expect(parameterList.parameters, hasLength(1));
expect(parameterList.parameters[0].toSource(), 'io. ');
expect(parameterList.rightDelimiter, isNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseFormalParameterList_prefixedType_partial2() {
FormalParameterList parameterList = parse4(
"parseFormalParameterList", "(io.,a)", [
ParserErrorCode.MISSING_IDENTIFIER,
ParserErrorCode.MISSING_IDENTIFIER
]);
expect(parameterList.leftParenthesis, isNotNull);
expect(parameterList.leftDelimiter, isNull);
expect(parameterList.parameters, hasLength(2));
expect(parameterList.parameters[0].toSource(), 'io. ');
expect(parameterList.parameters[1].toSource(), 'a');
expect(parameterList.rightDelimiter, isNull);
expect(parameterList.rightParenthesis, isNotNull);
}
void test_parseForStatement_each_await() {
ForEachStatement statement =
parse4("parseForStatement", "await for (element in list) {}");
expect(statement.awaitKeyword, isNotNull);
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.loopVariable, isNull);
expect(statement.identifier, isNotNull);
expect(statement.inKeyword, isNotNull);
expect(statement.iterable, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseForStatement_each_identifier() {
ForEachStatement statement =
parse4("parseForStatement", "for (element in list) {}");
expect(statement.awaitKeyword, isNull);
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.loopVariable, isNull);
expect(statement.identifier, isNotNull);
expect(statement.inKeyword, isNotNull);
expect(statement.iterable, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseForStatement_each_noType_metadata() {
ForEachStatement statement =
parse4("parseForStatement", "for (@A var element in list) {}");
expect(statement.awaitKeyword, isNull);
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.loopVariable, isNotNull);
expect(statement.loopVariable.metadata, hasLength(1));
expect(statement.identifier, isNull);
expect(statement.inKeyword, isNotNull);
expect(statement.iterable, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseForStatement_each_type() {
ForEachStatement statement =
parse4("parseForStatement", "for (A element in list) {}");
expect(statement.awaitKeyword, isNull);
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.loopVariable, isNotNull);
expect(statement.identifier, isNull);
expect(statement.inKeyword, isNotNull);
expect(statement.iterable, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseForStatement_each_var() {
ForEachStatement statement =
parse4("parseForStatement", "for (var element in list) {}");
expect(statement.awaitKeyword, isNull);
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.loopVariable, isNotNull);
expect(statement.identifier, isNull);
expect(statement.inKeyword, isNotNull);
expect(statement.iterable, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseForStatement_loop_c() {
ForStatement statement =
parse4("parseForStatement", "for (; i < count;) {}");
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.variables, isNull);
expect(statement.initialization, isNull);
expect(statement.leftSeparator, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.rightSeparator, isNotNull);
expect(statement.updaters, hasLength(0));
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseForStatement_loop_cu() {
ForStatement statement =
parse4("parseForStatement", "for (; i < count; i++) {}");
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.variables, isNull);
expect(statement.initialization, isNull);
expect(statement.leftSeparator, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.rightSeparator, isNotNull);
expect(statement.updaters, hasLength(1));
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseForStatement_loop_ecu() {
ForStatement statement =
parse4("parseForStatement", "for (i--; i < count; i++) {}");
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.variables, isNull);
expect(statement.initialization, isNotNull);
expect(statement.leftSeparator, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.rightSeparator, isNotNull);
expect(statement.updaters, hasLength(1));
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseForStatement_loop_i() {
ForStatement statement =
parse4("parseForStatement", "for (var i = 0;;) {}");
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
VariableDeclarationList variables = statement.variables;
expect(variables, isNotNull);
expect(variables.metadata, hasLength(0));
expect(variables.variables, hasLength(1));
expect(statement.initialization, isNull);
expect(statement.leftSeparator, isNotNull);
expect(statement.condition, isNull);
expect(statement.rightSeparator, isNotNull);
expect(statement.updaters, hasLength(0));
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseForStatement_loop_i_withMetadata() {
ForStatement statement =
parse4("parseForStatement", "for (@A var i = 0;;) {}");
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
VariableDeclarationList variables = statement.variables;
expect(variables, isNotNull);
expect(variables.metadata, hasLength(1));
expect(variables.variables, hasLength(1));
expect(statement.initialization, isNull);
expect(statement.leftSeparator, isNotNull);
expect(statement.condition, isNull);
expect(statement.rightSeparator, isNotNull);
expect(statement.updaters, hasLength(0));
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseForStatement_loop_ic() {
ForStatement statement =
parse4("parseForStatement", "for (var i = 0; i < count;) {}");
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
VariableDeclarationList variables = statement.variables;
expect(variables, isNotNull);
expect(variables.variables, hasLength(1));
expect(statement.initialization, isNull);
expect(statement.leftSeparator, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.rightSeparator, isNotNull);
expect(statement.updaters, hasLength(0));
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseForStatement_loop_icu() {
ForStatement statement =
parse4("parseForStatement", "for (var i = 0; i < count; i++) {}");
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
VariableDeclarationList variables = statement.variables;
expect(variables, isNotNull);
expect(variables.variables, hasLength(1));
expect(statement.initialization, isNull);
expect(statement.leftSeparator, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.rightSeparator, isNotNull);
expect(statement.updaters, hasLength(1));
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseForStatement_loop_iicuu() {
ForStatement statement = parse4(
"parseForStatement", "for (int i = 0, j = count; i < j; i++, j--) {}");
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
VariableDeclarationList variables = statement.variables;
expect(variables, isNotNull);
expect(variables.variables, hasLength(2));
expect(statement.initialization, isNull);
expect(statement.leftSeparator, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.rightSeparator, isNotNull);
expect(statement.updaters, hasLength(2));
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseForStatement_loop_iu() {
ForStatement statement =
parse4("parseForStatement", "for (var i = 0;; i++) {}");
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
VariableDeclarationList variables = statement.variables;
expect(variables, isNotNull);
expect(variables.variables, hasLength(1));
expect(statement.initialization, isNull);
expect(statement.leftSeparator, isNotNull);
expect(statement.condition, isNull);
expect(statement.rightSeparator, isNotNull);
expect(statement.updaters, hasLength(1));
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseForStatement_loop_u() {
ForStatement statement = parse4("parseForStatement", "for (;; i++) {}");
expect(statement.forKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.variables, isNull);
expect(statement.initialization, isNull);
expect(statement.leftSeparator, isNotNull);
expect(statement.condition, isNull);
expect(statement.rightSeparator, isNotNull);
expect(statement.updaters, hasLength(1));
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseFunctionBody_block() {
BlockFunctionBody functionBody =
parse("parseFunctionBody", <Object>[false, null, false], "{}");
expect(functionBody.keyword, isNull);
expect(functionBody.star, isNull);
expect(functionBody.block, isNotNull);
expect(functionBody.isAsynchronous, isFalse);
expect(functionBody.isGenerator, isFalse);
expect(functionBody.isSynchronous, isTrue);
}
void test_parseFunctionBody_block_async() {
BlockFunctionBody functionBody =
parse("parseFunctionBody", <Object>[false, null, false], "async {}");
expect(functionBody.keyword, isNotNull);
expect(functionBody.keyword.lexeme, Parser.ASYNC);
expect(functionBody.star, isNull);
expect(functionBody.block, isNotNull);
expect(functionBody.isAsynchronous, isTrue);
expect(functionBody.isGenerator, isFalse);
expect(functionBody.isSynchronous, isFalse);
}
void test_parseFunctionBody_block_asyncGenerator() {
BlockFunctionBody functionBody =
parse("parseFunctionBody", <Object>[false, null, false], "async* {}");
expect(functionBody.keyword, isNotNull);
expect(functionBody.keyword.lexeme, Parser.ASYNC);
expect(functionBody.star, isNotNull);
expect(functionBody.block, isNotNull);
expect(functionBody.isAsynchronous, isTrue);
expect(functionBody.isGenerator, isTrue);
expect(functionBody.isSynchronous, isFalse);
}
void test_parseFunctionBody_block_syncGenerator() {
BlockFunctionBody functionBody =
parse("parseFunctionBody", <Object>[false, null, false], "sync* {}");
expect(functionBody.keyword, isNotNull);
expect(functionBody.keyword.lexeme, Parser.SYNC);
expect(functionBody.star, isNotNull);
expect(functionBody.block, isNotNull);
expect(functionBody.isAsynchronous, isFalse);
expect(functionBody.isGenerator, isTrue);
expect(functionBody.isSynchronous, isTrue);
}
void test_parseFunctionBody_empty() {
EmptyFunctionBody functionBody =
parse("parseFunctionBody", <Object>[true, null, false], ";");
expect(functionBody.semicolon, isNotNull);
}
void test_parseFunctionBody_expression() {
ExpressionFunctionBody functionBody =
parse("parseFunctionBody", <Object>[false, null, false], "=> y;");
expect(functionBody.keyword, isNull);
expect(functionBody.functionDefinition, isNotNull);
expect(functionBody.expression, isNotNull);
expect(functionBody.semicolon, isNotNull);
expect(functionBody.isAsynchronous, isFalse);
expect(functionBody.isGenerator, isFalse);
expect(functionBody.isSynchronous, isTrue);
}
void test_parseFunctionBody_expression_async() {
ExpressionFunctionBody functionBody =
parse("parseFunctionBody", <Object>[false, null, false], "async => y;");
expect(functionBody.keyword, isNotNull);
expect(functionBody.keyword.lexeme, Parser.ASYNC);
expect(functionBody.functionDefinition, isNotNull);
expect(functionBody.expression, isNotNull);
expect(functionBody.semicolon, isNotNull);
expect(functionBody.isAsynchronous, isTrue);
expect(functionBody.isGenerator, isFalse);
expect(functionBody.isSynchronous, isFalse);
}
void test_parseFunctionBody_nativeFunctionBody() {
NativeFunctionBody functionBody = parse(
"parseFunctionBody", <Object>[false, null, false], "native 'str';");
expect(functionBody.nativeKeyword, isNotNull);
expect(functionBody.stringLiteral, isNotNull);
expect(functionBody.semicolon, isNotNull);
}
void test_parseFunctionBody_skip_block() {
ParserTestCase.parseFunctionBodies = false;
FunctionBody functionBody =
parse("parseFunctionBody", <Object>[false, null, false], "{}");
EngineTestCase.assertInstanceOf(
(obj) => obj is EmptyFunctionBody, EmptyFunctionBody, functionBody);
}
void test_parseFunctionBody_skip_block_invalid() {
ParserTestCase.parseFunctionBodies = false;
FunctionBody functionBody = parse3("parseFunctionBody",
<Object>[false, null, false], "{", [ParserErrorCode.EXPECTED_TOKEN]);
EngineTestCase.assertInstanceOf(
(obj) => obj is EmptyFunctionBody, EmptyFunctionBody, functionBody);
}
void test_parseFunctionBody_skip_blocks() {
ParserTestCase.parseFunctionBodies = false;
FunctionBody functionBody =
parse("parseFunctionBody", <Object>[false, null, false], "{ {} }");
EngineTestCase.assertInstanceOf(
(obj) => obj is EmptyFunctionBody, EmptyFunctionBody, functionBody);
}
void test_parseFunctionBody_skip_expression() {
ParserTestCase.parseFunctionBodies = false;
FunctionBody functionBody =
parse("parseFunctionBody", <Object>[false, null, false], "=> y;");
EngineTestCase.assertInstanceOf(
(obj) => obj is EmptyFunctionBody, EmptyFunctionBody, functionBody);
}
void test_parseFunctionDeclaration_function() {
Comment comment = Comment.createDocumentationComment(new List<Token>(0));
TypeName returnType = new TypeName(new SimpleIdentifier(null), null);
FunctionDeclaration declaration = parse("parseFunctionDeclaration",
<Object>[commentAndMetadata(comment), null, returnType], "f() {}");
expect(declaration.documentationComment, comment);
expect(declaration.returnType, returnType);
expect(declaration.name, isNotNull);
FunctionExpression expression = declaration.functionExpression;
expect(expression, isNotNull);
expect(expression.body, isNotNull);
expect(expression.typeParameters, isNull);
expect(expression.parameters, isNotNull);
expect(declaration.propertyKeyword, isNull);
}
void test_parseFunctionDeclaration_functionWithTypeParameters() {
enableGenericMethods = true;
Comment comment = Comment.createDocumentationComment(new List<Token>(0));
TypeName returnType = new TypeName(new SimpleIdentifier(null), null);
FunctionDeclaration declaration = parse("parseFunctionDeclaration",
<Object>[commentAndMetadata(comment), null, returnType], "f<E>() {}");
expect(declaration.documentationComment, comment);
expect(declaration.returnType, returnType);
expect(declaration.name, isNotNull);
FunctionExpression expression = declaration.functionExpression;
expect(expression, isNotNull);
expect(expression.body, isNotNull);
expect(expression.typeParameters, isNotNull);
expect(expression.parameters, isNotNull);
expect(declaration.propertyKeyword, isNull);
}
void test_parseFunctionDeclaration_functionWithTypeParameters_comment() {
enableGenericMethodComments = true;
Comment comment = Comment.createDocumentationComment(new List<Token>(0));
TypeName returnType = new TypeName(new SimpleIdentifier(null), null);
FunctionDeclaration declaration = parse(
"parseFunctionDeclaration",
<Object>[commentAndMetadata(comment), null, returnType],
"f/*<E>*/() {}");
expect(declaration.documentationComment, comment);
expect(declaration.returnType, returnType);
expect(declaration.name, isNotNull);
FunctionExpression expression = declaration.functionExpression;
expect(expression, isNotNull);
expect(expression.body, isNotNull);
expect(expression.typeParameters, isNotNull);
expect(expression.parameters, isNotNull);
expect(declaration.propertyKeyword, isNull);
}
void test_parseFunctionDeclaration_getter() {
Comment comment = Comment.createDocumentationComment(new List<Token>(0));
TypeName returnType = new TypeName(new SimpleIdentifier(null), null);
FunctionDeclaration declaration = parse("parseFunctionDeclaration",
<Object>[commentAndMetadata(comment), null, returnType], "get p => 0;");
expect(declaration.documentationComment, comment);
expect(declaration.returnType, returnType);
expect(declaration.name, isNotNull);
FunctionExpression expression = declaration.functionExpression;
expect(expression, isNotNull);
expect(expression.body, isNotNull);
expect(expression.typeParameters, isNull);
expect(expression.parameters, isNull);
expect(declaration.propertyKeyword, isNotNull);
}
void test_parseFunctionDeclaration_setter() {
Comment comment = Comment.createDocumentationComment(new List<Token>(0));
TypeName returnType = new TypeName(new SimpleIdentifier(null), null);
FunctionDeclaration declaration = parse("parseFunctionDeclaration",
<Object>[commentAndMetadata(comment), null, returnType], "set p(v) {}");
expect(declaration.documentationComment, comment);
expect(declaration.returnType, returnType);
expect(declaration.name, isNotNull);
FunctionExpression expression = declaration.functionExpression;
expect(expression, isNotNull);
expect(expression.body, isNotNull);
expect(expression.typeParameters, isNull);
expect(expression.parameters, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
}
void test_parseFunctionDeclarationStatement() {
FunctionDeclarationStatement statement =
parse4("parseFunctionDeclarationStatement", "void f(int p) => p * 2;");
expect(statement.functionDeclaration, isNotNull);
}
void test_parseFunctionDeclarationStatement_typeParameterComments() {
enableGenericMethodComments = true;
FunctionDeclarationStatement statement = parse4(
"parseFunctionDeclarationStatement",
"/*=E*/ f/*<E>*/(/*=E*/ p) => p * 2;");
FunctionDeclaration f = statement.functionDeclaration;
expect(f, isNotNull);
expect(f.functionExpression.typeParameters, isNotNull);
expect(f.returnType, isNotNull);
SimpleFormalParameter p = f.functionExpression.parameters.parameters[0];
expect(p.type, isNotNull);
}
void test_parseFunctionDeclarationStatement_typeParameters() {
enableGenericMethods = true;
FunctionDeclarationStatement statement =
parse4("parseFunctionDeclarationStatement", "E f<E>(E p) => p * 2;");
expect(statement.functionDeclaration, isNotNull);
expect(statement.functionDeclaration.functionExpression.typeParameters,
isNotNull);
}
void test_parseFunctionExpression_body_inExpression() {
FunctionExpression expression =
parse4("parseFunctionExpression", "(int i) => i++");
expect(expression.body, isNotNull);
expect(expression.typeParameters, isNull);
expect(expression.parameters, isNotNull);
expect((expression.body as ExpressionFunctionBody).semicolon, isNull);
}
void test_parseFunctionExpression_typeParameterComments() {
enableGenericMethodComments = true;
FunctionExpression expression =
parse4("parseFunctionExpression", "/*<E>*/(/*=E*/ i) => i++");
expect(expression.body, isNotNull);
expect(expression.typeParameters, isNotNull);
expect(expression.parameters, isNotNull);
expect((expression.body as ExpressionFunctionBody).semicolon, isNull);
SimpleFormalParameter p = expression.parameters.parameters[0];
expect(p.type, isNotNull);
}
void test_parseFunctionExpression_typeParameters() {
enableGenericMethods = true;
FunctionExpression expression =
parse4("parseFunctionExpression", "<E>(E i) => i++");
expect(expression.body, isNotNull);
expect(expression.typeParameters, isNotNull);
expect(expression.parameters, isNotNull);
expect((expression.body as ExpressionFunctionBody).semicolon, isNull);
}
void test_parseGetter_nonStatic() {
Comment comment = Comment.createDocumentationComment(new List<Token>(0));
TypeName returnType = new TypeName(new SimpleIdentifier(null), null);
MethodDeclaration method = parse(
"parseGetter",
<Object>[commentAndMetadata(comment), null, null, returnType],
"get a;");
expect(method.body, isNotNull);
expect(method.documentationComment, comment);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.parameters, isNull);
expect(method.propertyKeyword, isNotNull);
expect(method.returnType, returnType);
}
void test_parseGetter_static() {
Comment comment = Comment.createDocumentationComment(new List<Token>(0));
Token staticKeyword = TokenFactory.tokenFromKeyword(Keyword.STATIC);
TypeName returnType = new TypeName(new SimpleIdentifier(null), null);
MethodDeclaration method = parse(
"parseGetter",
<Object>[commentAndMetadata(comment), null, staticKeyword, returnType],
"get a => 42;");
expect(method.body, isNotNull);
expect(method.documentationComment, comment);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, staticKeyword);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNull);
expect(method.propertyKeyword, isNotNull);
expect(method.returnType, returnType);
}
void test_parseIdentifierList_multiple() {
List<SimpleIdentifier> list =
parse4("parseIdentifierList", "a, b, c") as List<SimpleIdentifier>;
expect(list, hasLength(3));
}
void test_parseIdentifierList_single() {
List<SimpleIdentifier> list =
parse4("parseIdentifierList", "a") as List<SimpleIdentifier>;
expect(list, hasLength(1));
}
void test_parseIfStatement_else_block() {
IfStatement statement = parse4("parseIfStatement", "if (x) {} else {}");
expect(statement.ifKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.thenStatement, isNotNull);
expect(statement.elseKeyword, isNotNull);
expect(statement.elseStatement, isNotNull);
}
void test_parseIfStatement_else_statement() {
IfStatement statement =
parse4("parseIfStatement", "if (x) f(x); else f(y);");
expect(statement.ifKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.thenStatement, isNotNull);
expect(statement.elseKeyword, isNotNull);
expect(statement.elseStatement, isNotNull);
}
void test_parseIfStatement_noElse_block() {
IfStatement statement = parse4("parseIfStatement", "if (x) {}");
expect(statement.ifKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.thenStatement, isNotNull);
expect(statement.elseKeyword, isNull);
expect(statement.elseStatement, isNull);
}
void test_parseIfStatement_noElse_statement() {
IfStatement statement = parse4("parseIfStatement", "if (x) f(x);");
expect(statement.ifKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.thenStatement, isNotNull);
expect(statement.elseKeyword, isNull);
expect(statement.elseStatement, isNull);
}
void test_parseImplementsClause_multiple() {
ImplementsClause clause =
parse4("parseImplementsClause", "implements A, B, C");
expect(clause.interfaces, hasLength(3));
expect(clause.implementsKeyword, isNotNull);
}
void test_parseImplementsClause_single() {
ImplementsClause clause = parse4("parseImplementsClause", "implements A");
expect(clause.interfaces, hasLength(1));
expect(clause.implementsKeyword, isNotNull);
}
void test_parseImportDirective_configuration_multiple() {
ImportDirective directive = parse(
"parseImportDirective",
<Object>[emptyCommentAndMetadata()],
"import 'lib/lib.dart' if (a) 'b.dart' if (c) 'd.dart';");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.configurations, hasLength(2));
_expectDottedName(directive.configurations[0].name, ['a']);
_expectDottedName(directive.configurations[1].name, ['c']);
expect(directive.deferredKeyword, isNull);
expect(directive.asKeyword, isNull);
expect(directive.prefix, isNull);
expect(directive.combinators, hasLength(0));
expect(directive.semicolon, isNotNull);
}
void test_parseImportDirective_configuration_single() {
ImportDirective directive = parse(
"parseImportDirective",
<Object>[emptyCommentAndMetadata()],
"import 'lib/lib.dart' if (a.b == 'c.dart') '';");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.configurations, hasLength(1));
_expectDottedName(directive.configurations[0].name, ['a', 'b']);
expect(directive.deferredKeyword, isNull);
expect(directive.asKeyword, isNull);
expect(directive.prefix, isNull);
expect(directive.combinators, hasLength(0));
expect(directive.semicolon, isNotNull);
}
void test_parseImportDirective_deferred() {
ImportDirective directive = parse(
"parseImportDirective",
<Object>[emptyCommentAndMetadata()],
"import 'lib/lib.dart' deferred as a;");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.deferredKeyword, isNotNull);
expect(directive.asKeyword, isNotNull);
expect(directive.prefix, isNotNull);
expect(directive.combinators, hasLength(0));
expect(directive.semicolon, isNotNull);
}
void test_parseImportDirective_hide() {
ImportDirective directive = parse(
"parseImportDirective",
<Object>[emptyCommentAndMetadata()],
"import 'lib/lib.dart' hide A, B;");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.deferredKeyword, isNull);
expect(directive.asKeyword, isNull);
expect(directive.prefix, isNull);
expect(directive.combinators, hasLength(1));
expect(directive.semicolon, isNotNull);
}
void test_parseImportDirective_noCombinator() {
ImportDirective directive = parse("parseImportDirective",
<Object>[emptyCommentAndMetadata()], "import 'lib/lib.dart';");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.deferredKeyword, isNull);
expect(directive.asKeyword, isNull);
expect(directive.prefix, isNull);
expect(directive.combinators, hasLength(0));
expect(directive.semicolon, isNotNull);
}
void test_parseImportDirective_prefix() {
ImportDirective directive = parse("parseImportDirective",
<Object>[emptyCommentAndMetadata()], "import 'lib/lib.dart' as a;");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.deferredKeyword, isNull);
expect(directive.asKeyword, isNotNull);
expect(directive.prefix, isNotNull);
expect(directive.combinators, hasLength(0));
expect(directive.semicolon, isNotNull);
}
void test_parseImportDirective_prefix_hide_show() {
ImportDirective directive = parse(
"parseImportDirective",
<Object>[emptyCommentAndMetadata()],
"import 'lib/lib.dart' as a hide A show B;");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.deferredKeyword, isNull);
expect(directive.asKeyword, isNotNull);
expect(directive.prefix, isNotNull);
expect(directive.combinators, hasLength(2));
expect(directive.semicolon, isNotNull);
}
void test_parseImportDirective_prefix_show_hide() {
ImportDirective directive = parse(
"parseImportDirective",
<Object>[emptyCommentAndMetadata()],
"import 'lib/lib.dart' as a show B hide A;");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.deferredKeyword, isNull);
expect(directive.asKeyword, isNotNull);
expect(directive.prefix, isNotNull);
expect(directive.combinators, hasLength(2));
expect(directive.semicolon, isNotNull);
}
void test_parseImportDirective_show() {
ImportDirective directive = parse(
"parseImportDirective",
<Object>[emptyCommentAndMetadata()],
"import 'lib/lib.dart' show A, B;");
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.deferredKeyword, isNull);
expect(directive.asKeyword, isNull);
expect(directive.prefix, isNull);
expect(directive.combinators, hasLength(1));
expect(directive.semicolon, isNotNull);
}
void test_parseInitializedIdentifierList_type() {
Comment comment = Comment.createDocumentationComment(new List<Token>(0));
Token staticKeyword = TokenFactory.tokenFromKeyword(Keyword.STATIC);
TypeName type = new TypeName(new SimpleIdentifier(null), null);
FieldDeclaration declaration = parse(
"parseInitializedIdentifierList",
<Object>[commentAndMetadata(comment), staticKeyword, null, type],
"a = 1, b, c = 3;");
expect(declaration.documentationComment, comment);
VariableDeclarationList fields = declaration.fields;
expect(fields, isNotNull);
expect(fields.keyword, isNull);
expect(fields.type, type);
expect(fields.variables, hasLength(3));
expect(declaration.staticKeyword, staticKeyword);
expect(declaration.semicolon, isNotNull);
}
void test_parseInitializedIdentifierList_var() {
Comment comment = Comment.createDocumentationComment(new List<Token>(0));
Token staticKeyword = TokenFactory.tokenFromKeyword(Keyword.STATIC);
Token varKeyword = TokenFactory.tokenFromKeyword(Keyword.VAR);
FieldDeclaration declaration = parse(
"parseInitializedIdentifierList",
<Object>[commentAndMetadata(comment), staticKeyword, varKeyword, null],
"a = 1, b, c = 3;");
expect(declaration.documentationComment, comment);
VariableDeclarationList fields = declaration.fields;
expect(fields, isNotNull);
expect(fields.keyword, varKeyword);
expect(fields.type, isNull);
expect(fields.variables, hasLength(3));
expect(declaration.staticKeyword, staticKeyword);
expect(declaration.semicolon, isNotNull);
}
void test_parseInstanceCreationExpression_qualifiedType() {
Token token = TokenFactory.tokenFromKeyword(Keyword.NEW);
InstanceCreationExpression expression =
parse("parseInstanceCreationExpression", <Object>[token], "A.B()");
expect(expression.keyword, token);
ConstructorName name = expression.constructorName;
expect(name, isNotNull);
TypeName type = name.type;
expect(type, isNotNull);
expect(type.typeArguments, isNull);
expect(name.period, isNull);
expect(name.name, isNull);
expect(expression.argumentList, isNotNull);
}
void test_parseInstanceCreationExpression_qualifiedType_named() {
Token token = TokenFactory.tokenFromKeyword(Keyword.NEW);
InstanceCreationExpression expression =
parse("parseInstanceCreationExpression", <Object>[token], "A.B.c()");
expect(expression.keyword, token);
ConstructorName name = expression.constructorName;
expect(name, isNotNull);
TypeName type = name.type;
expect(type, isNotNull);
expect(type.typeArguments, isNull);
expect(name.period, isNotNull);
expect(name.name, isNotNull);
expect(expression.argumentList, isNotNull);
}
void
test_parseInstanceCreationExpression_qualifiedType_named_typeParameterComment() {
enableGenericMethodComments = true;
Token token = TokenFactory.tokenFromKeyword(Keyword.NEW);
InstanceCreationExpression expression = parse(
"parseInstanceCreationExpression", <Object>[token], "A.B/*<E>*/.c()");
expect(expression.keyword, token);
ConstructorName name = expression.constructorName;
expect(name, isNotNull);
TypeName type = name.type;
expect(type, isNotNull);
expect(type.typeArguments.arguments, hasLength(1));
expect(name.period, isNotNull);
expect(name.name, isNotNull);
expect(expression.argumentList, isNotNull);
}
void
test_parseInstanceCreationExpression_qualifiedType_named_typeParameters() {
Token token = TokenFactory.tokenFromKeyword(Keyword.NEW);
InstanceCreationExpression expression =
parse("parseInstanceCreationExpression", <Object>[token], "A.B<E>.c()");
expect(expression.keyword, token);
ConstructorName name = expression.constructorName;
expect(name, isNotNull);
TypeName type = name.type;
expect(type, isNotNull);
expect(type.typeArguments.arguments, hasLength(1));
expect(name.period, isNotNull);
expect(name.name, isNotNull);
expect(expression.argumentList, isNotNull);
}
void
test_parseInstanceCreationExpression_qualifiedType_typeParameterComment() {
enableGenericMethodComments = true;
Token token = TokenFactory.tokenFromKeyword(Keyword.NEW);
InstanceCreationExpression expression = parse(
"parseInstanceCreationExpression", <Object>[token], "A.B/*<E>*/()");
expect(expression.keyword, token);
ConstructorName name = expression.constructorName;
expect(name, isNotNull);
TypeName type = name.type;
expect(type, isNotNull);
expect(type.typeArguments.arguments, hasLength(1));
expect(name.period, isNull);
expect(name.name, isNull);
expect(expression.argumentList, isNotNull);
}
void test_parseInstanceCreationExpression_qualifiedType_typeParameters() {
Token token = TokenFactory.tokenFromKeyword(Keyword.NEW);
InstanceCreationExpression expression =
parse("parseInstanceCreationExpression", <Object>[token], "A.B<E>()");
expect(expression.keyword, token);
ConstructorName name = expression.constructorName;
expect(name, isNotNull);
TypeName type = name.type;
expect(type, isNotNull);
expect(type.typeArguments.arguments, hasLength(1));
expect(name.period, isNull);
expect(name.name, isNull);
expect(expression.argumentList, isNotNull);
}
void test_parseInstanceCreationExpression_type() {
Token token = TokenFactory.tokenFromKeyword(Keyword.NEW);
InstanceCreationExpression expression =
parse("parseInstanceCreationExpression", <Object>[token], "A()");
expect(expression.keyword, token);
ConstructorName name = expression.constructorName;
expect(name, isNotNull);
TypeName type = name.type;
expect(type, isNotNull);
expect(type.typeArguments, isNull);
expect(name.period, isNull);
expect(name.name, isNull);
expect(expression.argumentList, isNotNull);
}
void test_parseInstanceCreationExpression_type_named() {
enableGenericMethodComments = true;
Token token = TokenFactory.tokenFromKeyword(Keyword.NEW);
InstanceCreationExpression expression =
parse("parseInstanceCreationExpression", <Object>[token], "A.c()");
expect(expression.keyword, token);
ConstructorName name = expression.constructorName;
expect(name, isNotNull);
TypeName type = name.type;
expect(type, isNotNull);
expect(type.typeArguments, isNull);
expect(name.period, isNull);
expect(name.name, isNull);
expect(expression.argumentList, isNotNull);
}
void test_parseInstanceCreationExpression_type_named_typeParameterComment() {
enableGenericMethodComments = true;
Token token = TokenFactory.tokenFromKeyword(Keyword.NEW);
InstanceCreationExpression expression = parse(
"parseInstanceCreationExpression", <Object>[token], "A/*<B>*/.c()");
expect(expression.keyword, token);
ConstructorName name = expression.constructorName;
expect(name, isNotNull);
TypeName type = name.type;
expect(type, isNotNull);
expect(type.typeArguments.arguments, hasLength(1));
expect(name.period, isNotNull);
expect(name.name, isNotNull);
expect(expression.argumentList, isNotNull);
}
void test_parseInstanceCreationExpression_type_named_typeParameters() {
Token token = TokenFactory.tokenFromKeyword(Keyword.NEW);
InstanceCreationExpression expression =
parse("parseInstanceCreationExpression", <Object>[token], "A<B>.c()");
expect(expression.keyword, token);
ConstructorName name = expression.constructorName;
expect(name, isNotNull);
TypeName type = name.type;
expect(type, isNotNull);
expect(type.typeArguments.arguments, hasLength(1));
expect(name.period, isNotNull);
expect(name.name, isNotNull);
expect(expression.argumentList, isNotNull);
}
void test_parseInstanceCreationExpression_type_typeParameterComment() {
enableGenericMethodComments = true;
Token token = TokenFactory.tokenFromKeyword(Keyword.NEW);
InstanceCreationExpression expression =
parse("parseInstanceCreationExpression", <Object>[token], "A/*<B>*/()");
expect(expression.keyword, token);
ConstructorName name = expression.constructorName;
expect(name, isNotNull);
TypeName type = name.type;
expect(type, isNotNull);
expect(type.typeArguments.arguments, hasLength(1));
expect(name.period, isNull);
expect(name.name, isNull);
expect(expression.argumentList, isNotNull);
}
void test_parseInstanceCreationExpression_type_typeParameters() {
Token token = TokenFactory.tokenFromKeyword(Keyword.NEW);
InstanceCreationExpression expression =
parse("parseInstanceCreationExpression", <Object>[token], "A<B>()");
expect(expression.keyword, token);
ConstructorName name = expression.constructorName;
expect(name, isNotNull);
TypeName type = name.type;
expect(type, isNotNull);
expect(type.typeArguments.arguments, hasLength(1));
expect(name.period, isNull);
expect(name.name, isNull);
expect(expression.argumentList, isNotNull);
}
void test_parseLibraryDirective() {
LibraryDirective directive = parse("parseLibraryDirective",
<Object>[emptyCommentAndMetadata()], "library l;");
expect(directive.libraryKeyword, isNotNull);
expect(directive.name, isNotNull);
expect(directive.semicolon, isNotNull);
}
void test_parseLibraryIdentifier_multiple() {
String name = "a.b.c";
LibraryIdentifier identifier = parse4("parseLibraryIdentifier", name);
expect(identifier.name, name);
}
void test_parseLibraryIdentifier_single() {
String name = "a";
LibraryIdentifier identifier = parse4("parseLibraryIdentifier", name);
expect(identifier.name, name);
}
void test_parseListLiteral_empty_oneToken() {
Token token = TokenFactory.tokenFromKeyword(Keyword.CONST);
TypeArgumentList typeArguments = null;
ListLiteral literal =
parse("parseListLiteral", <Object>[token, typeArguments], "[]");
expect(literal.constKeyword, token);
expect(literal.typeArguments, typeArguments);
expect(literal.leftBracket, isNotNull);
expect(literal.elements, hasLength(0));
expect(literal.rightBracket, isNotNull);
}
void test_parseListLiteral_empty_oneToken_withComment() {
Token constToken = null;
TypeArgumentList typeArguments = null;
ListLiteral literal = parse(
"parseListLiteral", <Object>[constToken, typeArguments], "/* 0 */ []");
expect(literal.constKeyword, constToken);
expect(literal.typeArguments, typeArguments);
Token leftBracket = literal.leftBracket;
expect(leftBracket, isNotNull);
expect(leftBracket.precedingComments, isNotNull);
expect(literal.elements, hasLength(0));
expect(literal.rightBracket, isNotNull);
}
void test_parseListLiteral_empty_twoTokens() {
Token token = TokenFactory.tokenFromKeyword(Keyword.CONST);
TypeArgumentList typeArguments = null;
ListLiteral literal =
parse("parseListLiteral", <Object>[token, typeArguments], "[ ]");
expect(literal.constKeyword, token);
expect(literal.typeArguments, typeArguments);
expect(literal.leftBracket, isNotNull);
expect(literal.elements, hasLength(0));
expect(literal.rightBracket, isNotNull);
}
void test_parseListLiteral_multiple() {
ListLiteral literal =
parse("parseListLiteral", <Object>[null, null], "[1, 2, 3]");
expect(literal.constKeyword, isNull);
expect(literal.typeArguments, isNull);
expect(literal.leftBracket, isNotNull);
expect(literal.elements, hasLength(3));
expect(literal.rightBracket, isNotNull);
}
void test_parseListLiteral_single() {
ListLiteral literal =
parse("parseListLiteral", <Object>[null, null], "[1]");
expect(literal.constKeyword, isNull);
expect(literal.typeArguments, isNull);
expect(literal.leftBracket, isNotNull);
expect(literal.elements, hasLength(1));
expect(literal.rightBracket, isNotNull);
}
void test_parseListOrMapLiteral_list_noType() {
ListLiteral literal = parse("parseListOrMapLiteral", <Object>[null], "[1]");
expect(literal.constKeyword, isNull);
expect(literal.typeArguments, isNull);
expect(literal.leftBracket, isNotNull);
expect(literal.elements, hasLength(1));
expect(literal.rightBracket, isNotNull);
}
void test_parseListOrMapLiteral_list_type() {
ListLiteral literal =
parse("parseListOrMapLiteral", <Object>[null], "<int> [1]");
expect(literal.constKeyword, isNull);
expect(literal.typeArguments, isNotNull);
expect(literal.leftBracket, isNotNull);
expect(literal.elements, hasLength(1));
expect(literal.rightBracket, isNotNull);
}
void test_parseListOrMapLiteral_map_noType() {
MapLiteral literal =
parse("parseListOrMapLiteral", <Object>[null], "{'1' : 1}");
expect(literal.constKeyword, isNull);
expect(literal.typeArguments, isNull);
expect(literal.leftBracket, isNotNull);
expect(literal.entries, hasLength(1));
expect(literal.rightBracket, isNotNull);
}
void test_parseListOrMapLiteral_map_type() {
MapLiteral literal = parse(
"parseListOrMapLiteral", <Object>[null], "<String, int> {'1' : 1}");
expect(literal.constKeyword, isNull);
expect(literal.typeArguments, isNotNull);
expect(literal.leftBracket, isNotNull);
expect(literal.entries, hasLength(1));
expect(literal.rightBracket, isNotNull);
}
void test_parseLogicalAndExpression() {
BinaryExpression expression = parse4("parseLogicalAndExpression", "x && y");
expect(expression.leftOperand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.AMPERSAND_AMPERSAND);
expect(expression.rightOperand, isNotNull);
}
void test_parseLogicalOrExpression() {
BinaryExpression expression = parse4("parseLogicalOrExpression", "x || y");
expect(expression.leftOperand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.BAR_BAR);
expect(expression.rightOperand, isNotNull);
}
void test_parseMapLiteral_empty() {
Token token = TokenFactory.tokenFromKeyword(Keyword.CONST);
TypeArgumentList typeArguments = AstFactory.typeArgumentList(
[AstFactory.typeName4("String"), AstFactory.typeName4("int")]);
MapLiteral literal =
parse("parseMapLiteral", <Object>[token, typeArguments], "{}");
expect(literal.constKeyword, token);
expect(literal.typeArguments, typeArguments);
expect(literal.leftBracket, isNotNull);
expect(literal.entries, hasLength(0));
expect(literal.rightBracket, isNotNull);
}
void test_parseMapLiteral_multiple() {
MapLiteral literal =
parse("parseMapLiteral", <Object>[null, null], "{'a' : b, 'x' : y}");
expect(literal.leftBracket, isNotNull);
expect(literal.entries, hasLength(2));
expect(literal.rightBracket, isNotNull);
}
void test_parseMapLiteral_single() {
MapLiteral literal =
parse("parseMapLiteral", <Object>[null, null], "{'x' : y}");
expect(literal.leftBracket, isNotNull);
expect(literal.entries, hasLength(1));
expect(literal.rightBracket, isNotNull);
}
void test_parseMapLiteralEntry_complex() {
MapLiteralEntry entry = parse4("parseMapLiteralEntry", "2 + 2 : y");
expect(entry.key, isNotNull);
expect(entry.separator, isNotNull);
expect(entry.value, isNotNull);
}
void test_parseMapLiteralEntry_int() {
MapLiteralEntry entry = parse4("parseMapLiteralEntry", "0 : y");
expect(entry.key, isNotNull);
expect(entry.separator, isNotNull);
expect(entry.value, isNotNull);
}
void test_parseMapLiteralEntry_string() {
MapLiteralEntry entry = parse4("parseMapLiteralEntry", "'x' : y");
expect(entry.key, isNotNull);
expect(entry.separator, isNotNull);
expect(entry.value, isNotNull);
}
void test_parseModifiers_abstract() {
Modifiers modifiers = parse4("parseModifiers", "abstract A");
expect(modifiers.abstractKeyword, isNotNull);
}
void test_parseModifiers_const() {
Modifiers modifiers = parse4("parseModifiers", "const A");
expect(modifiers.constKeyword, isNotNull);
}
void test_parseModifiers_external() {
Modifiers modifiers = parse4("parseModifiers", "external A");
expect(modifiers.externalKeyword, isNotNull);
}
void test_parseModifiers_factory() {
Modifiers modifiers = parse4("parseModifiers", "factory A");
expect(modifiers.factoryKeyword, isNotNull);
}
void test_parseModifiers_final() {
Modifiers modifiers = parse4("parseModifiers", "final A");
expect(modifiers.finalKeyword, isNotNull);
}
void test_parseModifiers_static() {
Modifiers modifiers = parse4("parseModifiers", "static A");
expect(modifiers.staticKeyword, isNotNull);
}
void test_parseModifiers_var() {
Modifiers modifiers = parse4("parseModifiers", "var A");
expect(modifiers.varKeyword, isNotNull);
}
void test_parseMultiplicativeExpression_normal() {
BinaryExpression expression =
parse4("parseMultiplicativeExpression", "x * y");
expect(expression.leftOperand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.STAR);
expect(expression.rightOperand, isNotNull);
}
void test_parseMultiplicativeExpression_super() {
BinaryExpression expression =
parse4("parseMultiplicativeExpression", "super * y");
EngineTestCase.assertInstanceOf((obj) => obj is SuperExpression,
SuperExpression, expression.leftOperand);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.STAR);
expect(expression.rightOperand, isNotNull);
}
void test_parseNewExpression() {
InstanceCreationExpression expression =
parse4("parseNewExpression", "new A()");
expect(expression.keyword, isNotNull);
ConstructorName name = expression.constructorName;
expect(name, isNotNull);
expect(name.type, isNotNull);
expect(name.period, isNull);
expect(name.name, isNull);
expect(expression.argumentList, isNotNull);
}
void test_parseNonLabeledStatement_const_list_empty() {
ExpressionStatement statement =
parse4("parseNonLabeledStatement", "const [];");
expect(statement.expression, isNotNull);
}
void test_parseNonLabeledStatement_const_list_nonEmpty() {
ExpressionStatement statement =
parse4("parseNonLabeledStatement", "const [1, 2];");
expect(statement.expression, isNotNull);
}
void test_parseNonLabeledStatement_const_map_empty() {
ExpressionStatement statement =
parse4("parseNonLabeledStatement", "const {};");
expect(statement.expression, isNotNull);
}
void test_parseNonLabeledStatement_const_map_nonEmpty() {
// TODO(brianwilkerson) Implement more tests for this method.
ExpressionStatement statement =
parse4("parseNonLabeledStatement", "const {'a' : 1};");
expect(statement.expression, isNotNull);
}
void test_parseNonLabeledStatement_const_object() {
ExpressionStatement statement =
parse4("parseNonLabeledStatement", "const A();");
expect(statement.expression, isNotNull);
}
void test_parseNonLabeledStatement_const_object_named_typeParameters() {
ExpressionStatement statement =
parse4("parseNonLabeledStatement", "const A<B>.c();");
expect(statement.expression, isNotNull);
}
void test_parseNonLabeledStatement_constructorInvocation() {
ExpressionStatement statement =
parse4("parseNonLabeledStatement", "new C().m();");
expect(statement.expression, isNotNull);
}
void test_parseNonLabeledStatement_false() {
ExpressionStatement statement =
parse4("parseNonLabeledStatement", "false;");
expect(statement.expression, isNotNull);
}
void test_parseNonLabeledStatement_functionDeclaration() {
parse4("parseNonLabeledStatement", "f() {};");
}
void test_parseNonLabeledStatement_functionDeclaration_arguments() {
parse4("parseNonLabeledStatement", "f(void g()) {};");
}
void test_parseNonLabeledStatement_functionExpressionIndex() {
parse4("parseNonLabeledStatement", "() {}[0] = null;");
}
void test_parseNonLabeledStatement_functionInvocation() {
ExpressionStatement statement = parse4("parseNonLabeledStatement", "f();");
expect(statement.expression, isNotNull);
}
void test_parseNonLabeledStatement_invokeFunctionExpression() {
ExpressionStatement statement =
parse4("parseNonLabeledStatement", "(a) {return a + a;} (3);");
EngineTestCase.assertInstanceOf(
(obj) => obj is FunctionExpressionInvocation,
FunctionExpressionInvocation,
statement.expression);
FunctionExpressionInvocation invocation =
statement.expression as FunctionExpressionInvocation;
EngineTestCase.assertInstanceOf((obj) => obj is FunctionExpression,
FunctionExpression, invocation.function);
FunctionExpression expression = invocation.function as FunctionExpression;
expect(expression.parameters, isNotNull);
expect(expression.body, isNotNull);
expect(invocation.typeArguments, isNull);
ArgumentList list = invocation.argumentList;
expect(list, isNotNull);
expect(list.arguments, hasLength(1));
}
void test_parseNonLabeledStatement_null() {
ExpressionStatement statement = parse4("parseNonLabeledStatement", "null;");
expect(statement.expression, isNotNull);
}
void test_parseNonLabeledStatement_startingWithBuiltInIdentifier() {
ExpressionStatement statement =
parse4("parseNonLabeledStatement", "library.getName();");
expect(statement.expression, isNotNull);
}
void test_parseNonLabeledStatement_true() {
ExpressionStatement statement = parse4("parseNonLabeledStatement", "true;");
expect(statement.expression, isNotNull);
}
void test_parseNonLabeledStatement_typeCast() {
ExpressionStatement statement =
parse4("parseNonLabeledStatement", "double.NAN as num;");
expect(statement.expression, isNotNull);
}
void test_parseNormalFormalParameter_field_const_noType() {
FieldFormalParameter parameter =
parse4("parseNormalFormalParameter", "const this.a)");
expect(parameter.keyword, isNotNull);
expect(parameter.type, isNull);
expect(parameter.identifier, isNotNull);
expect(parameter.parameters, isNull);
}
void test_parseNormalFormalParameter_field_const_type() {
FieldFormalParameter parameter =
parse4("parseNormalFormalParameter", "const A this.a)");
expect(parameter.keyword, isNotNull);
expect(parameter.type, isNotNull);
expect(parameter.identifier, isNotNull);
expect(parameter.parameters, isNull);
}
void test_parseNormalFormalParameter_field_final_noType() {
FieldFormalParameter parameter =
parse4("parseNormalFormalParameter", "final this.a)");
expect(parameter.keyword, isNotNull);
expect(parameter.type, isNull);
expect(parameter.identifier, isNotNull);
expect(parameter.parameters, isNull);
}
void test_parseNormalFormalParameter_field_final_type() {
FieldFormalParameter parameter =
parse4("parseNormalFormalParameter", "final A this.a)");
expect(parameter.keyword, isNotNull);
expect(parameter.type, isNotNull);
expect(parameter.identifier, isNotNull);
expect(parameter.parameters, isNull);
}
void test_parseNormalFormalParameter_field_function_nested() {
FieldFormalParameter parameter =
parse4("parseNormalFormalParameter", "this.a(B b))");
expect(parameter.keyword, isNull);
expect(parameter.type, isNull);
expect(parameter.identifier, isNotNull);
FormalParameterList parameterList = parameter.parameters;
expect(parameterList, isNotNull);
expect(parameterList.parameters, hasLength(1));
}
void test_parseNormalFormalParameter_field_function_noNested() {
FieldFormalParameter parameter =
parse4("parseNormalFormalParameter", "this.a())");
expect(parameter.keyword, isNull);
expect(parameter.type, isNull);
expect(parameter.identifier, isNotNull);
FormalParameterList parameterList = parameter.parameters;
expect(parameterList, isNotNull);
expect(parameterList.parameters, hasLength(0));
}
void test_parseNormalFormalParameter_field_noType() {
FieldFormalParameter parameter =
parse4("parseNormalFormalParameter", "this.a)");
expect(parameter.keyword, isNull);
expect(parameter.type, isNull);
expect(parameter.identifier, isNotNull);
expect(parameter.parameters, isNull);
}
void test_parseNormalFormalParameter_field_type() {
FieldFormalParameter parameter =
parse4("parseNormalFormalParameter", "A this.a)");
expect(parameter.keyword, isNull);
expect(parameter.type, isNotNull);
expect(parameter.identifier, isNotNull);
expect(parameter.parameters, isNull);
}
void test_parseNormalFormalParameter_field_var() {
FieldFormalParameter parameter =
parse4("parseNormalFormalParameter", "var this.a)");
expect(parameter.keyword, isNotNull);
expect(parameter.type, isNull);
expect(parameter.identifier, isNotNull);
expect(parameter.parameters, isNull);
}
void test_parseNormalFormalParameter_function_noType() {
FunctionTypedFormalParameter parameter =
parse4("parseNormalFormalParameter", "a())");
expect(parameter.returnType, isNull);
expect(parameter.identifier, isNotNull);
expect(parameter.typeParameters, isNull);
expect(parameter.parameters, isNotNull);
}
void test_parseNormalFormalParameter_function_noType_typeParameterComments() {
enableGenericMethodComments = true;
FunctionTypedFormalParameter parameter =
parse4("parseNormalFormalParameter", "a/*<E>*/())");
expect(parameter.returnType, isNull);
expect(parameter.identifier, isNotNull);
expect(parameter.typeParameters, isNotNull);
expect(parameter.parameters, isNotNull);
}
void test_parseNormalFormalParameter_function_noType_typeParameters() {
enableGenericMethods = true;
FunctionTypedFormalParameter parameter =
parse4("parseNormalFormalParameter", "a<E>())");
expect(parameter.returnType, isNull);
expect(parameter.identifier, isNotNull);
expect(parameter.typeParameters, isNotNull);
expect(parameter.parameters, isNotNull);
}
void test_parseNormalFormalParameter_function_type() {
FunctionTypedFormalParameter parameter =
parse4("parseNormalFormalParameter", "A a())");
expect(parameter.returnType, isNotNull);
expect(parameter.identifier, isNotNull);
expect(parameter.typeParameters, isNull);
expect(parameter.parameters, isNotNull);
}
void test_parseNormalFormalParameter_function_type_typeParameterComments() {
enableGenericMethodComments = true;
FunctionTypedFormalParameter parameter =
parse4("parseNormalFormalParameter", "A a/*<E>*/())");
expect(parameter.returnType, isNotNull);
expect(parameter.identifier, isNotNull);
expect(parameter.typeParameters, isNotNull);
expect(parameter.parameters, isNotNull);
}
void test_parseNormalFormalParameter_function_type_typeParameters() {
enableGenericMethods = true;
FunctionTypedFormalParameter parameter =
parse4("parseNormalFormalParameter", "A a<E>())");
expect(parameter.returnType, isNotNull);
expect(parameter.identifier, isNotNull);
expect(parameter.typeParameters, isNotNull);
expect(parameter.parameters, isNotNull);
}
void test_parseNormalFormalParameter_function_void() {
FunctionTypedFormalParameter parameter =
parse4("parseNormalFormalParameter", "void a())");
expect(parameter.returnType, isNotNull);
expect(parameter.identifier, isNotNull);
expect(parameter.typeParameters, isNull);
expect(parameter.parameters, isNotNull);
}
void test_parseNormalFormalParameter_function_void_typeParameterComments() {
enableGenericMethodComments = true;
FunctionTypedFormalParameter parameter =
parse4("parseNormalFormalParameter", "void a/*<E>*/())");
expect(parameter.returnType, isNotNull);
expect(parameter.identifier, isNotNull);
expect(parameter.typeParameters, isNotNull);
expect(parameter.parameters, isNotNull);
}
void test_parseNormalFormalParameter_function_void_typeParameters() {
enableGenericMethods = true;
FunctionTypedFormalParameter parameter =
parse4("parseNormalFormalParameter", "void a<E>())");
expect(parameter.returnType, isNotNull);
expect(parameter.identifier, isNotNull);
expect(parameter.typeParameters, isNotNull);
expect(parameter.parameters, isNotNull);
}
void test_parseNormalFormalParameter_simple_const_noType() {
SimpleFormalParameter parameter =
parse4("parseNormalFormalParameter", "const a)");
expect(parameter.keyword, isNotNull);
expect(parameter.type, isNull);
expect(parameter.identifier, isNotNull);
}
void test_parseNormalFormalParameter_simple_const_type() {
SimpleFormalParameter parameter =
parse4("parseNormalFormalParameter", "const A a)");
expect(parameter.keyword, isNotNull);
expect(parameter.type, isNotNull);
expect(parameter.identifier, isNotNull);
}
void test_parseNormalFormalParameter_simple_final_noType() {
SimpleFormalParameter parameter =
parse4("parseNormalFormalParameter", "final a)");
expect(parameter.keyword, isNotNull);
expect(parameter.type, isNull);
expect(parameter.identifier, isNotNull);
}
void test_parseNormalFormalParameter_simple_final_type() {
SimpleFormalParameter parameter =
parse4("parseNormalFormalParameter", "final A a)");
expect(parameter.keyword, isNotNull);
expect(parameter.type, isNotNull);
expect(parameter.identifier, isNotNull);
}
void test_parseNormalFormalParameter_simple_noType() {
SimpleFormalParameter parameter =
parse4("parseNormalFormalParameter", "a)");
expect(parameter.keyword, isNull);
expect(parameter.type, isNull);
expect(parameter.identifier, isNotNull);
}
void test_parseNormalFormalParameter_simple_type() {
SimpleFormalParameter parameter =
parse4("parseNormalFormalParameter", "A a)");
expect(parameter.keyword, isNull);
expect(parameter.type, isNotNull);
expect(parameter.identifier, isNotNull);
}
void test_parseOperator() {
Comment comment = Comment.createDocumentationComment(new List<Token>(0));
TypeName returnType = new TypeName(new SimpleIdentifier(null), null);
MethodDeclaration method = parse(
"parseOperator",
<Object>[commentAndMetadata(comment), null, returnType],
"operator +(A a);");
expect(method.body, isNotNull);
expect(method.documentationComment, comment);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNotNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.propertyKeyword, isNull);
expect(method.returnType, returnType);
}
void test_parseOptionalReturnType() {
// TODO(brianwilkerson) Implement tests for this method.
}
void test_parsePartDirective_part() {
PartDirective directive = parse("parsePartDirective",
<Object>[emptyCommentAndMetadata()], "part 'lib/lib.dart';");
expect(directive.partKeyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.semicolon, isNotNull);
}
void test_parsePartDirective_partOf() {
PartOfDirective directive = parse("parsePartDirective",
<Object>[emptyCommentAndMetadata()], "part of l;");
expect(directive.partKeyword, isNotNull);
expect(directive.ofKeyword, isNotNull);
expect(directive.libraryName, isNotNull);
expect(directive.semicolon, isNotNull);
}
void test_parsePostfixExpression_decrement() {
PostfixExpression expression = parse4("parsePostfixExpression", "i--");
expect(expression.operand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.MINUS_MINUS);
}
void test_parsePostfixExpression_increment() {
PostfixExpression expression = parse4("parsePostfixExpression", "i++");
expect(expression.operand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.PLUS_PLUS);
}
void test_parsePostfixExpression_none_indexExpression() {
IndexExpression expression = parse4("parsePostfixExpression", "a[0]");
expect(expression.target, isNotNull);
expect(expression.index, isNotNull);
}
void test_parsePostfixExpression_none_methodInvocation() {
MethodInvocation expression = parse4("parsePostfixExpression", "a.m()");
expect(expression.target, isNotNull);
expect(expression.operator.type, TokenType.PERIOD);
expect(expression.methodName, isNotNull);
expect(expression.typeArguments, isNull);
expect(expression.argumentList, isNotNull);
}
void test_parsePostfixExpression_none_methodInvocation_question_dot() {
MethodInvocation expression = parse4('parsePostfixExpression', 'a?.m()');
expect(expression.target, isNotNull);
expect(expression.operator.type, TokenType.QUESTION_PERIOD);
expect(expression.methodName, isNotNull);
expect(expression.typeArguments, isNull);
expect(expression.argumentList, isNotNull);
}
void
test_parsePostfixExpression_none_methodInvocation_question_dot_typeArgumentComments() {
enableGenericMethodComments = true;
MethodInvocation expression =
parse4('parsePostfixExpression', 'a?.m/*<E>*/()');
expect(expression.target, isNotNull);
expect(expression.operator.type, TokenType.QUESTION_PERIOD);
expect(expression.methodName, isNotNull);
expect(expression.typeArguments, isNotNull);
expect(expression.argumentList, isNotNull);
}
void
test_parsePostfixExpression_none_methodInvocation_question_dot_typeArguments() {
enableGenericMethods = true;
MethodInvocation expression = parse4('parsePostfixExpression', 'a?.m<E>()');
expect(expression.target, isNotNull);
expect(expression.operator.type, TokenType.QUESTION_PERIOD);
expect(expression.methodName, isNotNull);
expect(expression.typeArguments, isNotNull);
expect(expression.argumentList, isNotNull);
}
void
test_parsePostfixExpression_none_methodInvocation_typeArgumentComments() {
enableGenericMethodComments = true;
MethodInvocation expression =
parse4("parsePostfixExpression", "a.m/*<E>*/()");
expect(expression.target, isNotNull);
expect(expression.operator.type, TokenType.PERIOD);
expect(expression.methodName, isNotNull);
expect(expression.typeArguments, isNotNull);
expect(expression.argumentList, isNotNull);
}
void test_parsePostfixExpression_none_methodInvocation_typeArguments() {
enableGenericMethods = true;
MethodInvocation expression = parse4("parsePostfixExpression", "a.m<E>()");
expect(expression.target, isNotNull);
expect(expression.operator.type, TokenType.PERIOD);
expect(expression.methodName, isNotNull);
expect(expression.typeArguments, isNotNull);
expect(expression.argumentList, isNotNull);
}
void test_parsePostfixExpression_none_propertyAccess() {
PrefixedIdentifier expression = parse4("parsePostfixExpression", "a.b");
expect(expression.prefix, isNotNull);
expect(expression.identifier, isNotNull);
}
void test_parsePrefixedIdentifier_noPrefix() {
String lexeme = "bar";
SimpleIdentifier identifier = parse4("parsePrefixedIdentifier", lexeme);
expect(identifier.token, isNotNull);
expect(identifier.name, lexeme);
}
void test_parsePrefixedIdentifier_prefix() {
String lexeme = "foo.bar";
PrefixedIdentifier identifier = parse4("parsePrefixedIdentifier", lexeme);
expect(identifier.prefix.name, "foo");
expect(identifier.period, isNotNull);
expect(identifier.identifier.name, "bar");
}
void test_parsePrimaryExpression_const() {
InstanceCreationExpression expression =
parse4("parsePrimaryExpression", "const A()");
expect(expression, isNotNull);
}
void test_parsePrimaryExpression_double() {
String doubleLiteral = "3.2e4";
DoubleLiteral literal = parse4("parsePrimaryExpression", doubleLiteral);
expect(literal.literal, isNotNull);
expect(literal.value, double.parse(doubleLiteral));
}
void test_parsePrimaryExpression_false() {
BooleanLiteral literal = parse4("parsePrimaryExpression", "false");
expect(literal.literal, isNotNull);
expect(literal.value, isFalse);
}
void test_parsePrimaryExpression_function_arguments() {
FunctionExpression expression =
parse4("parsePrimaryExpression", "(int i) => i + 1");
expect(expression.parameters, isNotNull);
expect(expression.body, isNotNull);
}
void test_parsePrimaryExpression_function_noArguments() {
FunctionExpression expression =
parse4("parsePrimaryExpression", "() => 42");
expect(expression.parameters, isNotNull);
expect(expression.body, isNotNull);
}
void test_parsePrimaryExpression_hex() {
String hexLiteral = "3F";
IntegerLiteral literal = parse4("parsePrimaryExpression", "0x$hexLiteral");
expect(literal.literal, isNotNull);
expect(literal.value, int.parse(hexLiteral, radix: 16));
}
void test_parsePrimaryExpression_identifier() {
SimpleIdentifier identifier = parse4("parsePrimaryExpression", "a");
expect(identifier, isNotNull);
}
void test_parsePrimaryExpression_int() {
String intLiteral = "472";
IntegerLiteral literal = parse4("parsePrimaryExpression", intLiteral);
expect(literal.literal, isNotNull);
expect(literal.value, int.parse(intLiteral));
}
void test_parsePrimaryExpression_listLiteral() {
ListLiteral literal = parse4("parsePrimaryExpression", "[ ]");
expect(literal, isNotNull);
}
void test_parsePrimaryExpression_listLiteral_index() {
ListLiteral literal = parse4("parsePrimaryExpression", "[]");
expect(literal, isNotNull);
}
void test_parsePrimaryExpression_listLiteral_typed() {
ListLiteral literal = parse4("parsePrimaryExpression", "<A>[ ]");
expect(literal.typeArguments, isNotNull);
expect(literal.typeArguments.arguments, hasLength(1));
}
void test_parsePrimaryExpression_listLiteral_typed_genericComment() {
enableGenericMethodComments = true;
ListLiteral literal = parse4("parsePrimaryExpression", "/*<A>*/[ ]");
expect(literal.typeArguments, isNotNull);
expect(literal.typeArguments.arguments, hasLength(1));
}
void test_parsePrimaryExpression_mapLiteral() {
MapLiteral literal = parse4("parsePrimaryExpression", "{}");
expect(literal, isNotNull);
}
void test_parsePrimaryExpression_mapLiteral_typed() {
MapLiteral literal = parse4("parsePrimaryExpression", "<A, B>{}");
expect(literal.typeArguments, isNotNull);
expect(literal.typeArguments.arguments, hasLength(2));
}
void test_parsePrimaryExpression_mapLiteral_typed_genericComment() {
enableGenericMethodComments = true;
MapLiteral literal = parse4("parsePrimaryExpression", "/*<A, B>*/{}");
expect(literal.typeArguments, isNotNull);
expect(literal.typeArguments.arguments, hasLength(2));
}
void test_parsePrimaryExpression_new() {
InstanceCreationExpression expression =
parse4("parsePrimaryExpression", "new A()");
expect(expression, isNotNull);
}
void test_parsePrimaryExpression_null() {
NullLiteral literal = parse4("parsePrimaryExpression", "null");
expect(literal.literal, isNotNull);
}
void test_parsePrimaryExpression_parenthesized() {
ParenthesizedExpression expression =
parse4("parsePrimaryExpression", "(x)");
expect(expression, isNotNull);
}
void test_parsePrimaryExpression_string() {
SimpleStringLiteral literal =
parse4("parsePrimaryExpression", "\"string\"");
expect(literal.isMultiline, isFalse);
expect(literal.isRaw, isFalse);
expect(literal.value, "string");
}
void test_parsePrimaryExpression_string_multiline() {
SimpleStringLiteral literal =
parse4("parsePrimaryExpression", "'''string'''");
expect(literal.isMultiline, isTrue);
expect(literal.isRaw, isFalse);
expect(literal.value, "string");
}
void test_parsePrimaryExpression_string_raw() {
SimpleStringLiteral literal = parse4("parsePrimaryExpression", "r'string'");
expect(literal.isMultiline, isFalse);
expect(literal.isRaw, isTrue);
expect(literal.value, "string");
}
void test_parsePrimaryExpression_super() {
PropertyAccess propertyAccess = parse4("parsePrimaryExpression", "super.x");
expect(propertyAccess.target is SuperExpression, isTrue);
expect(propertyAccess.operator, isNotNull);
expect(propertyAccess.operator.type, TokenType.PERIOD);
expect(propertyAccess.propertyName, isNotNull);
}
void test_parsePrimaryExpression_this() {
ThisExpression expression = parse4("parsePrimaryExpression", "this");
expect(expression.thisKeyword, isNotNull);
}
void test_parsePrimaryExpression_true() {
BooleanLiteral literal = parse4("parsePrimaryExpression", "true");
expect(literal.literal, isNotNull);
expect(literal.value, isTrue);
}
void test_Parser() {
expect(new Parser(null, null), isNotNull);
}
void test_parseRedirectingConstructorInvocation_named() {
RedirectingConstructorInvocation invocation =
parse2("parseRedirectingConstructorInvocation", [true], "this.a()");
expect(invocation.argumentList, isNotNull);
expect(invocation.constructorName, isNotNull);
expect(invocation.thisKeyword, isNotNull);
expect(invocation.period, isNotNull);
}
void test_parseRedirectingConstructorInvocation_unnamed() {
RedirectingConstructorInvocation invocation =
parse2("parseRedirectingConstructorInvocation", [false], "this()");
expect(invocation.argumentList, isNotNull);
expect(invocation.constructorName, isNull);
expect(invocation.thisKeyword, isNotNull);
expect(invocation.period, isNull);
}
void test_parseRelationalExpression_as() {
AsExpression expression = parse4("parseRelationalExpression", "x as Y");
expect(expression.expression, isNotNull);
expect(expression.asOperator, isNotNull);
expect(expression.type, isNotNull);
}
void test_parseRelationalExpression_is() {
IsExpression expression = parse4("parseRelationalExpression", "x is y");
expect(expression.expression, isNotNull);
expect(expression.isOperator, isNotNull);
expect(expression.notOperator, isNull);
expect(expression.type, isNotNull);
}
void test_parseRelationalExpression_isNot() {
IsExpression expression = parse4("parseRelationalExpression", "x is! y");
expect(expression.expression, isNotNull);
expect(expression.isOperator, isNotNull);
expect(expression.notOperator, isNotNull);
expect(expression.type, isNotNull);
}
void test_parseRelationalExpression_normal() {
BinaryExpression expression = parse4("parseRelationalExpression", "x < y");
expect(expression.leftOperand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.LT);
expect(expression.rightOperand, isNotNull);
}
void test_parseRelationalExpression_super() {
BinaryExpression expression =
parse4("parseRelationalExpression", "super < y");
expect(expression.leftOperand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.LT);
expect(expression.rightOperand, isNotNull);
}
void test_parseRethrowExpression() {
RethrowExpression expression = parse4("parseRethrowExpression", "rethrow;");
expect(expression.rethrowKeyword, isNotNull);
}
void test_parseReturnStatement_noValue() {
ReturnStatement statement = parse4("parseReturnStatement", "return;");
expect(statement.returnKeyword, isNotNull);
expect(statement.expression, isNull);
expect(statement.semicolon, isNotNull);
}
void test_parseReturnStatement_value() {
ReturnStatement statement = parse4("parseReturnStatement", "return x;");
expect(statement.returnKeyword, isNotNull);
expect(statement.expression, isNotNull);
expect(statement.semicolon, isNotNull);
}
void test_parseReturnType_nonVoid() {
TypeName typeName = parse4("parseReturnType", "A<B>");
expect(typeName.name, isNotNull);
expect(typeName.typeArguments, isNotNull);
}
void test_parseReturnType_void() {
TypeName typeName = parse4("parseReturnType", "void");
expect(typeName.name, isNotNull);
expect(typeName.typeArguments, isNull);
}
void test_parseSetter_nonStatic() {
Comment comment = Comment.createDocumentationComment(new List<Token>(0));
TypeName returnType = new TypeName(new SimpleIdentifier(null), null);
MethodDeclaration method = parse(
"parseSetter",
<Object>[commentAndMetadata(comment), null, null, returnType],
"set a(var x);");
expect(method.body, isNotNull);
expect(method.documentationComment, comment);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, isNull);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.propertyKeyword, isNotNull);
expect(method.returnType, returnType);
}
void test_parseSetter_static() {
Comment comment = Comment.createDocumentationComment(new List<Token>(0));
Token staticKeyword = TokenFactory.tokenFromKeyword(Keyword.STATIC);
TypeName returnType = new TypeName(new SimpleIdentifier(null), null);
MethodDeclaration method = parse(
"parseSetter",
<Object>[commentAndMetadata(comment), null, staticKeyword, returnType],
"set a(var x) {}");
expect(method.body, isNotNull);
expect(method.documentationComment, comment);
expect(method.externalKeyword, isNull);
expect(method.modifierKeyword, staticKeyword);
expect(method.name, isNotNull);
expect(method.operatorKeyword, isNull);
expect(method.typeParameters, isNull);
expect(method.parameters, isNotNull);
expect(method.propertyKeyword, isNotNull);
expect(method.returnType, returnType);
}
void test_parseShiftExpression_normal() {
BinaryExpression expression = parse4("parseShiftExpression", "x << y");
expect(expression.leftOperand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.LT_LT);
expect(expression.rightOperand, isNotNull);
}
void test_parseShiftExpression_super() {
BinaryExpression expression = parse4("parseShiftExpression", "super << y");
expect(expression.leftOperand, isNotNull);
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.LT_LT);
expect(expression.rightOperand, isNotNull);
}
void test_parseSimpleIdentifier1_normalIdentifier() {
// TODO(brianwilkerson) Implement tests for this method.
}
void test_parseSimpleIdentifier_builtInIdentifier() {
String lexeme = "as";
SimpleIdentifier identifier = parse4("parseSimpleIdentifier", lexeme);
expect(identifier.token, isNotNull);
expect(identifier.name, lexeme);
}
void test_parseSimpleIdentifier_normalIdentifier() {
String lexeme = "foo";
SimpleIdentifier identifier = parse4("parseSimpleIdentifier", lexeme);
expect(identifier.token, isNotNull);
expect(identifier.name, lexeme);
}
void test_parseStatement_emptyTypeArgumentList() {
VariableDeclarationStatement statement = parse4(
"parseStatement", "C<> c;", [ParserErrorCode.EXPECTED_TYPE_NAME]);
VariableDeclarationList variables = statement.variables;
TypeName type = variables.type;
TypeArgumentList argumentList = type.typeArguments;
expect(argumentList.leftBracket, isNotNull);
expect(argumentList.arguments, hasLength(1));
expect(argumentList.arguments[0].isSynthetic, isTrue);
expect(argumentList.rightBracket, isNotNull);
}
void test_parseStatement_functionDeclaration_noReturnType() {
FunctionDeclarationStatement statement =
parse4("parseStatement", "f(a, b) {};");
expect(statement.functionDeclaration, isNotNull);
}
void
test_parseStatement_functionDeclaration_noReturnType_typeParameterComments() {
enableGenericMethodComments = true;
FunctionDeclarationStatement statement =
parse4("parseStatement", "f/*<E>*/(a, b) {};");
expect(statement.functionDeclaration, isNotNull);
expect(statement.functionDeclaration.functionExpression.typeParameters,
isNotNull);
}
void test_parseStatement_functionDeclaration_returnType() {
// TODO(brianwilkerson) Implement more tests for this method.
FunctionDeclarationStatement statement =
parse4("parseStatement", "int f(a, b) {};", []);
expect(statement.functionDeclaration, isNotNull);
}
void test_parseStatement_functionDeclaration_returnType_typeParameters() {
enableGenericMethods = true;
FunctionDeclarationStatement statement =
parse4("parseStatement", "int f<E>(a, b) {};");
expect(statement.functionDeclaration, isNotNull);
}
void test_parseStatement_mulipleLabels() {
LabeledStatement statement = parse4("parseStatement", "l: m: return x;");
expect(statement.labels, hasLength(2));
expect(statement.statement, isNotNull);
}
void test_parseStatement_noLabels() {
parse4("parseStatement", "return x;");
}
void test_parseStatement_singleLabel() {
LabeledStatement statement = parse4("parseStatement", "l: return x;");
expect(statement.labels, hasLength(1));
expect(statement.labels[0].label.inDeclarationContext(), isTrue);
expect(statement.statement, isNotNull);
}
void test_parseStatements_multiple() {
List<Statement> statements =
ParserTestCase.parseStatements("return; return;", 2);
expect(statements, hasLength(2));
}
void test_parseStatements_single() {
List<Statement> statements = ParserTestCase.parseStatements("return;", 1);
expect(statements, hasLength(1));
}
void test_parseStringLiteral_adjacent() {
AdjacentStrings literal = parse4("parseStringLiteral", "'a' 'b'");
NodeList<StringLiteral> strings = literal.strings;
expect(strings, hasLength(2));
StringLiteral firstString = strings[0];
StringLiteral secondString = strings[1];
expect((firstString as SimpleStringLiteral).value, "a");
expect((secondString as SimpleStringLiteral).value, "b");
}
void test_parseStringLiteral_endsWithInterpolation() {
StringLiteral literal = parse4('parseStringLiteral', r"'x$y'");
expect(literal, new isInstanceOf<StringInterpolation>());
StringInterpolation interpolation = literal;
expect(interpolation.elements, hasLength(3));
expect(interpolation.elements[0], new isInstanceOf<InterpolationString>());
InterpolationString element0 = interpolation.elements[0];
expect(element0.value, 'x');
expect(
interpolation.elements[1], new isInstanceOf<InterpolationExpression>());
InterpolationExpression element1 = interpolation.elements[1];
expect(element1.expression, new isInstanceOf<SimpleIdentifier>());
expect(interpolation.elements[2], new isInstanceOf<InterpolationString>());
InterpolationString element2 = interpolation.elements[2];
expect(element2.value, '');
}
void test_parseStringLiteral_interpolated() {
StringInterpolation literal =
parse4("parseStringLiteral", "'a \${b} c \$this d'");
NodeList<InterpolationElement> elements = literal.elements;
expect(elements, hasLength(5));
expect(elements[0] is InterpolationString, isTrue);
expect(elements[1] is InterpolationExpression, isTrue);
expect(elements[2] is InterpolationString, isTrue);
expect(elements[3] is InterpolationExpression, isTrue);
expect(elements[4] is InterpolationString, isTrue);
}
void test_parseStringLiteral_multiline_encodedSpace() {
SimpleStringLiteral literal =
parse4("parseStringLiteral", "'''\\x20\na'''");
expect(literal.literal, isNotNull);
expect(literal.value, " \na");
}
void test_parseStringLiteral_multiline_endsWithInterpolation() {
StringLiteral literal = parse4('parseStringLiteral', r"'''x$y'''");
expect(literal, new isInstanceOf<StringInterpolation>());
StringInterpolation interpolation = literal;
expect(interpolation.elements, hasLength(3));
expect(interpolation.elements[0], new isInstanceOf<InterpolationString>());
InterpolationString element0 = interpolation.elements[0];
expect(element0.value, 'x');
expect(
interpolation.elements[1], new isInstanceOf<InterpolationExpression>());
InterpolationExpression element1 = interpolation.elements[1];
expect(element1.expression, new isInstanceOf<SimpleIdentifier>());
expect(interpolation.elements[2], new isInstanceOf<InterpolationString>());
InterpolationString element2 = interpolation.elements[2];
expect(element2.value, '');
}
void test_parseStringLiteral_multiline_escapedBackslash() {
SimpleStringLiteral literal = parse4("parseStringLiteral", "'''\\\\\na'''");
expect(literal.literal, isNotNull);
expect(literal.value, "\\\na");
}
void test_parseStringLiteral_multiline_escapedBackslash_raw() {
SimpleStringLiteral literal =
parse4("parseStringLiteral", "r'''\\\\\na'''");
expect(literal.literal, isNotNull);
expect(literal.value, "\\\\\na");
}
void test_parseStringLiteral_multiline_escapedEolMarker() {
SimpleStringLiteral literal = parse4("parseStringLiteral", "'''\\\na'''");
expect(literal.literal, isNotNull);
expect(literal.value, "a");
}
void test_parseStringLiteral_multiline_escapedEolMarker_raw() {
SimpleStringLiteral literal = parse4("parseStringLiteral", "r'''\\\na'''");
expect(literal.literal, isNotNull);
expect(literal.value, "a");
}
void test_parseStringLiteral_multiline_escapedSpaceAndEolMarker() {
SimpleStringLiteral literal =
parse4("parseStringLiteral", "'''\\ \\\na'''");
expect(literal.literal, isNotNull);
expect(literal.value, "a");
}
void test_parseStringLiteral_multiline_escapedSpaceAndEolMarker_raw() {
SimpleStringLiteral literal =
parse4("parseStringLiteral", "r'''\\ \\\na'''");
expect(literal.literal, isNotNull);
expect(literal.value, "a");
}
void test_parseStringLiteral_multiline_escapedTab() {
SimpleStringLiteral literal = parse4("parseStringLiteral", "'''\\t\na'''");
expect(literal.literal, isNotNull);
expect(literal.value, "\t\na");
}
void test_parseStringLiteral_multiline_escapedTab_raw() {
SimpleStringLiteral literal = parse4("parseStringLiteral", "r'''\\t\na'''");
expect(literal.literal, isNotNull);
expect(literal.value, "\\t\na");
}
void test_parseStringLiteral_multiline_quoteAfterInterpolation() {
StringLiteral literal = parse4('parseStringLiteral', r"""'''$x'y'''""");
expect(literal, new isInstanceOf<StringInterpolation>());
StringInterpolation interpolation = literal;
expect(interpolation.elements, hasLength(3));
expect(interpolation.elements[0], new isInstanceOf<InterpolationString>());
InterpolationString element0 = interpolation.elements[0];
expect(element0.value, '');
expect(
interpolation.elements[1], new isInstanceOf<InterpolationExpression>());
InterpolationExpression element1 = interpolation.elements[1];
expect(element1.expression, new isInstanceOf<SimpleIdentifier>());
expect(interpolation.elements[2], new isInstanceOf<InterpolationString>());
InterpolationString element2 = interpolation.elements[2];
expect(element2.value, "'y");
}
void test_parseStringLiteral_multiline_startsWithInterpolation() {
StringLiteral literal = parse4('parseStringLiteral', r"'''${x}y'''");
expect(literal, new isInstanceOf<StringInterpolation>());
StringInterpolation interpolation = literal;
expect(interpolation.elements, hasLength(3));
expect(interpolation.elements[0], new isInstanceOf<InterpolationString>());
InterpolationString element0 = interpolation.elements[0];
expect(element0.value, '');
expect(
interpolation.elements[1], new isInstanceOf<InterpolationExpression>());
InterpolationExpression element1 = interpolation.elements[1];
expect(element1.expression, new isInstanceOf<SimpleIdentifier>());
expect(interpolation.elements[2], new isInstanceOf<InterpolationString>());
InterpolationString element2 = interpolation.elements[2];
expect(element2.value, 'y');
}
void test_parseStringLiteral_multiline_twoSpaces() {
SimpleStringLiteral literal = parse4("parseStringLiteral", "''' \na'''");
expect(literal.literal, isNotNull);
expect(literal.value, "a");
}
void test_parseStringLiteral_multiline_twoSpaces_raw() {
SimpleStringLiteral literal = parse4("parseStringLiteral", "r''' \na'''");
expect(literal.literal, isNotNull);
expect(literal.value, "a");
}
void test_parseStringLiteral_multiline_untrimmed() {
SimpleStringLiteral literal = parse4("parseStringLiteral", "''' a\nb'''");
expect(literal.literal, isNotNull);
expect(literal.value, " a\nb");
}
void test_parseStringLiteral_quoteAfterInterpolation() {
StringLiteral literal = parse4('parseStringLiteral', r"""'$x"'""");
expect(literal, new isInstanceOf<StringInterpolation>());
StringInterpolation interpolation = literal;
expect(interpolation.elements, hasLength(3));
expect(interpolation.elements[0], new isInstanceOf<InterpolationString>());
InterpolationString element0 = interpolation.elements[0];
expect(element0.value, '');
expect(
interpolation.elements[1], new isInstanceOf<InterpolationExpression>());
InterpolationExpression element1 = interpolation.elements[1];
expect(element1.expression, new isInstanceOf<SimpleIdentifier>());
expect(interpolation.elements[2], new isInstanceOf<InterpolationString>());
InterpolationString element2 = interpolation.elements[2];
expect(element2.value, '"');
}
void test_parseStringLiteral_single() {
SimpleStringLiteral literal = parse4("parseStringLiteral", "'a'");
expect(literal.literal, isNotNull);
expect(literal.value, "a");
}
void test_parseStringLiteral_startsWithInterpolation() {
StringLiteral literal = parse4('parseStringLiteral', r"'${x}y'");
expect(literal, new isInstanceOf<StringInterpolation>());
StringInterpolation interpolation = literal;
expect(interpolation.elements, hasLength(3));
expect(interpolation.elements[0], new isInstanceOf<InterpolationString>());
InterpolationString element0 = interpolation.elements[0];
expect(element0.value, '');
expect(
interpolation.elements[1], new isInstanceOf<InterpolationExpression>());
InterpolationExpression element1 = interpolation.elements[1];
expect(element1.expression, new isInstanceOf<SimpleIdentifier>());
expect(interpolation.elements[2], new isInstanceOf<InterpolationString>());
InterpolationString element2 = interpolation.elements[2];
expect(element2.value, 'y');
}
void test_parseSuperConstructorInvocation_named() {
SuperConstructorInvocation invocation =
parse4("parseSuperConstructorInvocation", "super.a()");
expect(invocation.argumentList, isNotNull);
expect(invocation.constructorName, isNotNull);
expect(invocation.superKeyword, isNotNull);
expect(invocation.period, isNotNull);
}
void test_parseSuperConstructorInvocation_unnamed() {
SuperConstructorInvocation invocation =
parse4("parseSuperConstructorInvocation", "super()");
expect(invocation.argumentList, isNotNull);
expect(invocation.constructorName, isNull);
expect(invocation.superKeyword, isNotNull);
expect(invocation.period, isNull);
}
void test_parseSwitchStatement_case() {
SwitchStatement statement =
parse4("parseSwitchStatement", "switch (a) {case 1: return 'I';}");
expect(statement.switchKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.expression, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.leftBracket, isNotNull);
expect(statement.members, hasLength(1));
expect(statement.rightBracket, isNotNull);
}
void test_parseSwitchStatement_empty() {
SwitchStatement statement = parse4("parseSwitchStatement", "switch (a) {}");
expect(statement.switchKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.expression, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.leftBracket, isNotNull);
expect(statement.members, hasLength(0));
expect(statement.rightBracket, isNotNull);
}
void test_parseSwitchStatement_labeledCase() {
SwitchStatement statement =
parse4("parseSwitchStatement", "switch (a) {l1: l2: l3: case(1):}");
expect(statement.switchKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.expression, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.leftBracket, isNotNull);
expect(statement.members, hasLength(1));
{
List<Label> labels = statement.members[0].labels;
expect(labels, hasLength(3));
expect(labels[0].label.inDeclarationContext(), isTrue);
expect(labels[1].label.inDeclarationContext(), isTrue);
expect(labels[2].label.inDeclarationContext(), isTrue);
}
expect(statement.rightBracket, isNotNull);
}
void test_parseSwitchStatement_labeledDefault() {
SwitchStatement statement =
parse4("parseSwitchStatement", "switch (a) {l1: l2: l3: default:}");
expect(statement.switchKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.expression, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.leftBracket, isNotNull);
expect(statement.members, hasLength(1));
{
List<Label> labels = statement.members[0].labels;
expect(labels, hasLength(3));
expect(labels[0].label.inDeclarationContext(), isTrue);
expect(labels[1].label.inDeclarationContext(), isTrue);
expect(labels[2].label.inDeclarationContext(), isTrue);
}
expect(statement.rightBracket, isNotNull);
}
void test_parseSwitchStatement_labeledStatementInCase() {
SwitchStatement statement = parse4(
"parseSwitchStatement", "switch (a) {case 0: f(); l1: g(); break;}");
expect(statement.switchKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.expression, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.leftBracket, isNotNull);
expect(statement.members, hasLength(1));
expect(statement.members[0].statements, hasLength(3));
expect(statement.rightBracket, isNotNull);
}
void test_parseSymbolLiteral_builtInIdentifier() {
SymbolLiteral literal =
parse4("parseSymbolLiteral", "#dynamic.static.abstract");
expect(literal.poundSign, isNotNull);
List<Token> components = literal.components;
expect(components, hasLength(3));
expect(components[0].lexeme, "dynamic");
expect(components[1].lexeme, "static");
expect(components[2].lexeme, "abstract");
}
void test_parseSymbolLiteral_multiple() {
SymbolLiteral literal = parse4("parseSymbolLiteral", "#a.b.c");
expect(literal.poundSign, isNotNull);
List<Token> components = literal.components;
expect(components, hasLength(3));
expect(components[0].lexeme, "a");
expect(components[1].lexeme, "b");
expect(components[2].lexeme, "c");
}
void test_parseSymbolLiteral_operator() {
SymbolLiteral literal = parse4("parseSymbolLiteral", "#==");
expect(literal.poundSign, isNotNull);
List<Token> components = literal.components;
expect(components, hasLength(1));
expect(components[0].lexeme, "==");
}
void test_parseSymbolLiteral_single() {
SymbolLiteral literal = parse4("parseSymbolLiteral", "#a");
expect(literal.poundSign, isNotNull);
List<Token> components = literal.components;
expect(components, hasLength(1));
expect(components[0].lexeme, "a");
}
void test_parseSymbolLiteral_void() {
SymbolLiteral literal = parse4("parseSymbolLiteral", "#void");
expect(literal.poundSign, isNotNull);
List<Token> components = literal.components;
expect(components, hasLength(1));
expect(components[0].lexeme, "void");
}
void test_parseThrowExpression() {
ThrowExpression expression = parse4("parseThrowExpression", "throw x;");
expect(expression.throwKeyword, isNotNull);
expect(expression.expression, isNotNull);
}
void test_parseThrowExpressionWithoutCascade() {
ThrowExpression expression =
parse4("parseThrowExpressionWithoutCascade", "throw x;");
expect(expression.throwKeyword, isNotNull);
expect(expression.expression, isNotNull);
}
void test_parseTryStatement_catch() {
TryStatement statement = parse4("parseTryStatement", "try {} catch (e) {}");
expect(statement.tryKeyword, isNotNull);
expect(statement.body, isNotNull);
NodeList<CatchClause> catchClauses = statement.catchClauses;
expect(catchClauses, hasLength(1));
CatchClause clause = catchClauses[0];
expect(clause.onKeyword, isNull);
expect(clause.exceptionType, isNull);
expect(clause.catchKeyword, isNotNull);
expect(clause.exceptionParameter, isNotNull);
expect(clause.comma, isNull);
expect(clause.stackTraceParameter, isNull);
expect(clause.body, isNotNull);
expect(statement.finallyKeyword, isNull);
expect(statement.finallyBlock, isNull);
}
void test_parseTryStatement_catch_finally() {
TryStatement statement =
parse4("parseTryStatement", "try {} catch (e, s) {} finally {}");
expect(statement.tryKeyword, isNotNull);
expect(statement.body, isNotNull);
NodeList<CatchClause> catchClauses = statement.catchClauses;
expect(catchClauses, hasLength(1));
CatchClause clause = catchClauses[0];
expect(clause.onKeyword, isNull);
expect(clause.exceptionType, isNull);
expect(clause.catchKeyword, isNotNull);
expect(clause.exceptionParameter, isNotNull);
expect(clause.comma, isNotNull);
expect(clause.stackTraceParameter, isNotNull);
expect(clause.body, isNotNull);
expect(statement.finallyKeyword, isNotNull);
expect(statement.finallyBlock, isNotNull);
}
void test_parseTryStatement_finally() {
TryStatement statement = parse4("parseTryStatement", "try {} finally {}");
expect(statement.tryKeyword, isNotNull);
expect(statement.body, isNotNull);
expect(statement.catchClauses, hasLength(0));
expect(statement.finallyKeyword, isNotNull);
expect(statement.finallyBlock, isNotNull);
}
void test_parseTryStatement_multiple() {
TryStatement statement = parse4("parseTryStatement",
"try {} on NPE catch (e) {} on Error {} catch (e) {}");
expect(statement.tryKeyword, isNotNull);
expect(statement.body, isNotNull);
expect(statement.catchClauses, hasLength(3));
expect(statement.finallyKeyword, isNull);
expect(statement.finallyBlock, isNull);
}
void test_parseTryStatement_on() {
TryStatement statement = parse4("parseTryStatement", "try {} on Error {}");
expect(statement.tryKeyword, isNotNull);
expect(statement.body, isNotNull);
NodeList<CatchClause> catchClauses = statement.catchClauses;
expect(catchClauses, hasLength(1));
CatchClause clause = catchClauses[0];
expect(clause.onKeyword, isNotNull);
expect(clause.exceptionType, isNotNull);
expect(clause.catchKeyword, isNull);
expect(clause.exceptionParameter, isNull);
expect(clause.comma, isNull);
expect(clause.stackTraceParameter, isNull);
expect(clause.body, isNotNull);
expect(statement.finallyKeyword, isNull);
expect(statement.finallyBlock, isNull);
}
void test_parseTryStatement_on_catch() {
TryStatement statement =
parse4("parseTryStatement", "try {} on Error catch (e, s) {}");
expect(statement.tryKeyword, isNotNull);
expect(statement.body, isNotNull);
NodeList<CatchClause> catchClauses = statement.catchClauses;
expect(catchClauses, hasLength(1));
CatchClause clause = catchClauses[0];
expect(clause.onKeyword, isNotNull);
expect(clause.exceptionType, isNotNull);
expect(clause.catchKeyword, isNotNull);
expect(clause.exceptionParameter, isNotNull);
expect(clause.comma, isNotNull);
expect(clause.stackTraceParameter, isNotNull);
expect(clause.body, isNotNull);
expect(statement.finallyKeyword, isNull);
expect(statement.finallyBlock, isNull);
}
void test_parseTryStatement_on_catch_finally() {
TryStatement statement = parse4(
"parseTryStatement", "try {} on Error catch (e, s) {} finally {}");
expect(statement.tryKeyword, isNotNull);
expect(statement.body, isNotNull);
NodeList<CatchClause> catchClauses = statement.catchClauses;
expect(catchClauses, hasLength(1));
CatchClause clause = catchClauses[0];
expect(clause.onKeyword, isNotNull);
expect(clause.exceptionType, isNotNull);
expect(clause.catchKeyword, isNotNull);
expect(clause.exceptionParameter, isNotNull);
expect(clause.comma, isNotNull);
expect(clause.stackTraceParameter, isNotNull);
expect(clause.body, isNotNull);
expect(statement.finallyKeyword, isNotNull);
expect(statement.finallyBlock, isNotNull);
}
void test_parseTypeAlias_function_noParameters() {
FunctionTypeAlias typeAlias = parse("parseTypeAlias",
<Object>[emptyCommentAndMetadata()], "typedef bool F();");
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.parameters, isNotNull);
expect(typeAlias.returnType, isNotNull);
expect(typeAlias.semicolon, isNotNull);
expect(typeAlias.typeParameters, isNull);
}
void test_parseTypeAlias_function_noReturnType() {
FunctionTypeAlias typeAlias = parse(
"parseTypeAlias", <Object>[emptyCommentAndMetadata()], "typedef F();");
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.parameters, isNotNull);
expect(typeAlias.returnType, isNull);
expect(typeAlias.semicolon, isNotNull);
expect(typeAlias.typeParameters, isNull);
}
void test_parseTypeAlias_function_parameterizedReturnType() {
FunctionTypeAlias typeAlias = parse("parseTypeAlias",
<Object>[emptyCommentAndMetadata()], "typedef A<B> F();");
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.parameters, isNotNull);
expect(typeAlias.returnType, isNotNull);
expect(typeAlias.semicolon, isNotNull);
expect(typeAlias.typeParameters, isNull);
}
void test_parseTypeAlias_function_parameters() {
FunctionTypeAlias typeAlias = parse("parseTypeAlias",
<Object>[emptyCommentAndMetadata()], "typedef bool F(Object value);");
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.parameters, isNotNull);
expect(typeAlias.returnType, isNotNull);
expect(typeAlias.semicolon, isNotNull);
expect(typeAlias.typeParameters, isNull);
}
void test_parseTypeAlias_function_typeParameters() {
FunctionTypeAlias typeAlias = parse("parseTypeAlias",
<Object>[emptyCommentAndMetadata()], "typedef bool F<E>();");
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.parameters, isNotNull);
expect(typeAlias.returnType, isNotNull);
expect(typeAlias.semicolon, isNotNull);
expect(typeAlias.typeParameters, isNotNull);
}
void test_parseTypeAlias_function_voidReturnType() {
FunctionTypeAlias typeAlias = parse("parseTypeAlias",
<Object>[emptyCommentAndMetadata()], "typedef void F();");
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.parameters, isNotNull);
expect(typeAlias.returnType, isNotNull);
expect(typeAlias.semicolon, isNotNull);
expect(typeAlias.typeParameters, isNull);
}
void test_parseTypeArgumentList_empty() {
TypeArgumentList argumentList = parse4(
"parseTypeArgumentList", "<>", [ParserErrorCode.EXPECTED_TYPE_NAME]);
expect(argumentList.leftBracket, isNotNull);
expect(argumentList.arguments, hasLength(1));
expect(argumentList.rightBracket, isNotNull);
}
void test_parseTypeArgumentList_multiple() {
TypeArgumentList argumentList =
parse4("parseTypeArgumentList", "<int, int, int>");
expect(argumentList.leftBracket, isNotNull);
expect(argumentList.arguments, hasLength(3));
expect(argumentList.rightBracket, isNotNull);
}
void test_parseTypeArgumentList_nested() {
TypeArgumentList argumentList = parse4("parseTypeArgumentList", "<A<B>>");
expect(argumentList.leftBracket, isNotNull);
expect(argumentList.arguments, hasLength(1));
TypeName argument = argumentList.arguments[0];
expect(argument, isNotNull);
TypeArgumentList innerList = argument.typeArguments;
expect(innerList, isNotNull);
expect(innerList.arguments, hasLength(1));
expect(argumentList.rightBracket, isNotNull);
}
void test_parseTypeArgumentList_nested_withComment_double() {
TypeArgumentList argumentList =
parse4("parseTypeArgumentList", "<A<B /* 0 */ >>");
expect(argumentList.leftBracket, isNotNull);
expect(argumentList.rightBracket, isNotNull);
expect(argumentList.arguments, hasLength(1));
TypeName argument = argumentList.arguments[0];
expect(argument, isNotNull);
TypeArgumentList innerList = argument.typeArguments;
expect(innerList, isNotNull);
expect(innerList.leftBracket, isNotNull);
expect(innerList.arguments, hasLength(1));
expect(innerList.rightBracket, isNotNull);
expect(innerList.rightBracket.precedingComments, isNotNull);
}
void test_parseTypeArgumentList_nested_withComment_tripple() {
TypeArgumentList argumentList =
parse4("parseTypeArgumentList", "<A<B<C /* 0 */ >>>");
expect(argumentList.leftBracket, isNotNull);
expect(argumentList.rightBracket, isNotNull);
expect(argumentList.arguments, hasLength(1));
TypeName argument = argumentList.arguments[0];
expect(argument, isNotNull);
TypeArgumentList innerList = argument.typeArguments;
expect(innerList, isNotNull);
expect(innerList.leftBracket, isNotNull);
expect(innerList.arguments, hasLength(1));
expect(innerList.rightBracket, isNotNull);
TypeName innerArgument = innerList.arguments[0];
expect(innerArgument, isNotNull);
TypeArgumentList innerInnerList = innerArgument.typeArguments;
expect(innerInnerList, isNotNull);
expect(innerInnerList.leftBracket, isNotNull);
expect(innerInnerList.arguments, hasLength(1));
expect(innerInnerList.rightBracket, isNotNull);
expect(innerInnerList.rightBracket.precedingComments, isNotNull);
}
void test_parseTypeArgumentList_single() {
TypeArgumentList argumentList = parse4("parseTypeArgumentList", "<int>");
expect(argumentList.leftBracket, isNotNull);
expect(argumentList.arguments, hasLength(1));
expect(argumentList.rightBracket, isNotNull);
}
void test_parseTypeName_parameterized() {
TypeName typeName = parse4("parseTypeName", "List<int>");
expect(typeName.name, isNotNull);
expect(typeName.typeArguments, isNotNull);
}
void test_parseTypeName_simple() {
TypeName typeName = parse4("parseTypeName", "int");
expect(typeName.name, isNotNull);
expect(typeName.typeArguments, isNull);
}
void test_parseTypeParameter_bounded() {
TypeParameter parameter = parse4("parseTypeParameter", "A extends B");
expect(parameter.bound, isNotNull);
expect(parameter.extendsKeyword, isNotNull);
expect(parameter.name, isNotNull);
}
void test_parseTypeParameter_simple() {
TypeParameter parameter = parse4("parseTypeParameter", "A");
expect(parameter.bound, isNull);
expect(parameter.extendsKeyword, isNull);
expect(parameter.name, isNotNull);
}
void test_parseTypeParameterList_multiple() {
TypeParameterList parameterList =
parse4("parseTypeParameterList", "<A, B extends C, D>");
expect(parameterList.leftBracket, isNotNull);
expect(parameterList.rightBracket, isNotNull);
expect(parameterList.typeParameters, hasLength(3));
}
void test_parseTypeParameterList_parameterizedWithTrailingEquals() {
TypeParameterList parameterList =
parse4("parseTypeParameterList", "<A extends B<E>>=");
expect(parameterList.leftBracket, isNotNull);
expect(parameterList.rightBracket, isNotNull);
expect(parameterList.typeParameters, hasLength(1));
}
void test_parseTypeParameterList_single() {
TypeParameterList parameterList = parse4("parseTypeParameterList", "<A>");
expect(parameterList.leftBracket, isNotNull);
expect(parameterList.rightBracket, isNotNull);
expect(parameterList.typeParameters, hasLength(1));
}
void test_parseTypeParameterList_withTrailingEquals() {
TypeParameterList parameterList = parse4("parseTypeParameterList", "<A>=");
expect(parameterList.leftBracket, isNotNull);
expect(parameterList.rightBracket, isNotNull);
expect(parameterList.typeParameters, hasLength(1));
}
void test_parseUnaryExpression_decrement_normal() {
PrefixExpression expression = parse4("parseUnaryExpression", "--x");
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.MINUS_MINUS);
expect(expression.operand, isNotNull);
}
void test_parseUnaryExpression_decrement_super() {
PrefixExpression expression = parse4("parseUnaryExpression", "--super");
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.MINUS);
Expression innerExpression = expression.operand;
expect(innerExpression, isNotNull);
expect(innerExpression is PrefixExpression, isTrue);
PrefixExpression operand = innerExpression as PrefixExpression;
expect(operand.operator, isNotNull);
expect(operand.operator.type, TokenType.MINUS);
expect(operand.operand, isNotNull);
}
void test_parseUnaryExpression_decrement_super_propertyAccess() {
PrefixExpression expression = parse4("parseUnaryExpression", "--super.x");
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.MINUS_MINUS);
expect(expression.operand, isNotNull);
PropertyAccess operand = expression.operand as PropertyAccess;
expect(operand.target is SuperExpression, isTrue);
expect(operand.propertyName.name, "x");
}
void test_parseUnaryExpression_decrement_super_withComment() {
PrefixExpression expression =
parse4("parseUnaryExpression", "/* 0 */ --super");
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.MINUS);
expect(expression.operator.precedingComments, isNotNull);
Expression innerExpression = expression.operand;
expect(innerExpression, isNotNull);
expect(innerExpression is PrefixExpression, isTrue);
PrefixExpression operand = innerExpression as PrefixExpression;
expect(operand.operator, isNotNull);
expect(operand.operator.type, TokenType.MINUS);
expect(operand.operand, isNotNull);
}
void test_parseUnaryExpression_increment_normal() {
PrefixExpression expression = parse4("parseUnaryExpression", "++x");
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.PLUS_PLUS);
expect(expression.operand, isNotNull);
}
void test_parseUnaryExpression_increment_super_index() {
PrefixExpression expression = parse4("parseUnaryExpression", "++super[0]");
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.PLUS_PLUS);
expect(expression.operand, isNotNull);
IndexExpression operand = expression.operand as IndexExpression;
expect(operand.realTarget is SuperExpression, isTrue);
expect(operand.index is IntegerLiteral, isTrue);
}
void test_parseUnaryExpression_increment_super_propertyAccess() {
PrefixExpression expression = parse4("parseUnaryExpression", "++super.x");
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.PLUS_PLUS);
expect(expression.operand, isNotNull);
PropertyAccess operand = expression.operand as PropertyAccess;
expect(operand.target is SuperExpression, isTrue);
expect(operand.propertyName.name, "x");
}
void test_parseUnaryExpression_minus_normal() {
PrefixExpression expression = parse4("parseUnaryExpression", "-x");
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.MINUS);
expect(expression.operand, isNotNull);
}
void test_parseUnaryExpression_minus_super() {
PrefixExpression expression = parse4("parseUnaryExpression", "-super");
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.MINUS);
expect(expression.operand, isNotNull);
}
void test_parseUnaryExpression_not_normal() {
PrefixExpression expression = parse4("parseUnaryExpression", "!x");
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.BANG);
expect(expression.operand, isNotNull);
}
void test_parseUnaryExpression_not_super() {
PrefixExpression expression = parse4("parseUnaryExpression", "!super");
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.BANG);
expect(expression.operand, isNotNull);
}
void test_parseUnaryExpression_tilda_normal() {
PrefixExpression expression = parse4("parseUnaryExpression", "~x");
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.TILDE);
expect(expression.operand, isNotNull);
}
void test_parseUnaryExpression_tilda_super() {
PrefixExpression expression = parse4("parseUnaryExpression", "~super");
expect(expression.operator, isNotNull);
expect(expression.operator.type, TokenType.TILDE);
expect(expression.operand, isNotNull);
}
void test_parseVariableDeclaration_equals() {
VariableDeclaration declaration =
parse4("parseVariableDeclaration", "a = b");
expect(declaration.name, isNotNull);
expect(declaration.equals, isNotNull);
expect(declaration.initializer, isNotNull);
}
void test_parseVariableDeclaration_noEquals() {
VariableDeclaration declaration = parse4("parseVariableDeclaration", "a");
expect(declaration.name, isNotNull);
expect(declaration.equals, isNull);
expect(declaration.initializer, isNull);
}
void test_parseVariableDeclarationListAfterMetadata_const_noType() {
VariableDeclarationList declarationList = parse(
"parseVariableDeclarationListAfterMetadata",
<Object>[emptyCommentAndMetadata()],
"const a");
expect(declarationList.keyword, isNotNull);
expect(declarationList.type, isNull);
expect(declarationList.variables, hasLength(1));
}
void test_parseVariableDeclarationListAfterMetadata_const_type() {
VariableDeclarationList declarationList = parse(
"parseVariableDeclarationListAfterMetadata",
<Object>[emptyCommentAndMetadata()],
"const A a");
expect(declarationList.keyword, isNotNull);
expect(declarationList.type, isNotNull);
expect(declarationList.variables, hasLength(1));
}
void test_parseVariableDeclarationListAfterMetadata_final_noType() {
VariableDeclarationList declarationList = parse(
"parseVariableDeclarationListAfterMetadata",
<Object>[emptyCommentAndMetadata()],
"final a");
expect(declarationList.keyword, isNotNull);
expect(declarationList.type, isNull);
expect(declarationList.variables, hasLength(1));
}
void test_parseVariableDeclarationListAfterMetadata_final_type() {
VariableDeclarationList declarationList = parse(
"parseVariableDeclarationListAfterMetadata",
<Object>[emptyCommentAndMetadata()],
"final A a");
expect(declarationList.keyword, isNotNull);
expect(declarationList.type, isNotNull);
expect(declarationList.variables, hasLength(1));
}
void test_parseVariableDeclarationListAfterMetadata_final_typeComment() {
enableGenericMethodComments = true;
VariableDeclarationList decl = parse(
"parseVariableDeclarationListAfterMetadata",
<Object>[emptyCommentAndMetadata()],
"final/*=T*/ x");
expect(decl.type.name.name, 'T');
expect(decl.isFinal, true);
}
void test_parseVariableDeclarationListAfterMetadata_type_multiple() {
VariableDeclarationList declarationList = parse(
"parseVariableDeclarationListAfterMetadata",
<Object>[emptyCommentAndMetadata()],
"A a, b, c");
expect(declarationList.keyword, isNull);
expect(declarationList.type, isNotNull);
expect(declarationList.variables, hasLength(3));
}
void test_parseVariableDeclarationListAfterMetadata_type_single() {
VariableDeclarationList declarationList = parse(
"parseVariableDeclarationListAfterMetadata",
<Object>[emptyCommentAndMetadata()],
"A a");
expect(declarationList.keyword, isNull);
expect(declarationList.type, isNotNull);
expect(declarationList.variables, hasLength(1));
}
void test_parseVariableDeclarationListAfterMetadata_var_multiple() {
VariableDeclarationList declarationList = parse(
"parseVariableDeclarationListAfterMetadata",
<Object>[emptyCommentAndMetadata()],
"var a, b, c");
expect(declarationList.keyword, isNotNull);
expect(declarationList.type, isNull);
expect(declarationList.variables, hasLength(3));
}
void test_parseVariableDeclarationListAfterMetadata_var_single() {
VariableDeclarationList declarationList = parse(
"parseVariableDeclarationListAfterMetadata",
<Object>[emptyCommentAndMetadata()],
"var a");
expect(declarationList.keyword, isNotNull);
expect(declarationList.type, isNull);
expect(declarationList.variables, hasLength(1));
}
void test_parseVariableDeclarationListAfterMetadata_var_typeComment() {
enableGenericMethodComments = true;
VariableDeclarationList decl = parse(
"parseVariableDeclarationListAfterMetadata",
<Object>[emptyCommentAndMetadata()],
"var/*=T*/ x");
expect(decl.type.name.name, 'T');
expect(decl.keyword, isNull);
}
void test_parseVariableDeclarationListAfterType_type() {
TypeName type = new TypeName(new SimpleIdentifier(null), null);
VariableDeclarationList declarationList = parse(
"parseVariableDeclarationListAfterType",
<Object>[emptyCommentAndMetadata(), null, type],
"a");
expect(declarationList.keyword, isNull);
expect(declarationList.type, type);
expect(declarationList.variables, hasLength(1));
}
void test_parseVariableDeclarationListAfterType_var() {
Token keyword = TokenFactory.tokenFromKeyword(Keyword.VAR);
VariableDeclarationList declarationList = parse(
"parseVariableDeclarationListAfterType",
<Object>[emptyCommentAndMetadata(), keyword, null],
"a, b, c");
expect(declarationList.keyword, keyword);
expect(declarationList.type, isNull);
expect(declarationList.variables, hasLength(3));
}
void test_parseVariableDeclarationStatementAfterMetadata_multiple() {
VariableDeclarationStatement statement = parse(
"parseVariableDeclarationStatementAfterMetadata",
<Object>[emptyCommentAndMetadata()],
"var x, y, z;");
expect(statement.semicolon, isNotNull);
VariableDeclarationList variableList = statement.variables;
expect(variableList, isNotNull);
expect(variableList.variables, hasLength(3));
}
void test_parseVariableDeclarationStatementAfterMetadata_single() {
VariableDeclarationStatement statement = parse(
"parseVariableDeclarationStatementAfterMetadata",
<Object>[emptyCommentAndMetadata()],
"var x;");
expect(statement.semicolon, isNotNull);
VariableDeclarationList variableList = statement.variables;
expect(variableList, isNotNull);
expect(variableList.variables, hasLength(1));
}
void test_parseWhileStatement() {
WhileStatement statement = parse4("parseWhileStatement", "while (x) {}");
expect(statement.whileKeyword, isNotNull);
expect(statement.leftParenthesis, isNotNull);
expect(statement.condition, isNotNull);
expect(statement.rightParenthesis, isNotNull);
expect(statement.body, isNotNull);
}
void test_parseWithClause_multiple() {
WithClause clause = parse4("parseWithClause", "with A, B, C");
expect(clause.withKeyword, isNotNull);
expect(clause.mixinTypes, hasLength(3));
}
void test_parseWithClause_single() {
WithClause clause = parse4("parseWithClause", "with M");
expect(clause.withKeyword, isNotNull);
expect(clause.mixinTypes, hasLength(1));
}
void test_parseYieldStatement_each() {
YieldStatement statement = parse4("parseYieldStatement", "yield* x;");
expect(statement.yieldKeyword, isNotNull);
expect(statement.star, isNotNull);
expect(statement.expression, isNotNull);
expect(statement.semicolon, isNotNull);
}
void test_parseYieldStatement_normal() {
YieldStatement statement = parse4("parseYieldStatement", "yield x;");
expect(statement.yieldKeyword, isNotNull);
expect(statement.star, isNull);
expect(statement.expression, isNotNull);
expect(statement.semicolon, isNotNull);
}
void test_skipPrefixedIdentifier_invalid() {
Token following = _skip("skipPrefixedIdentifier", "+");
expect(following, isNull);
}
void test_skipPrefixedIdentifier_notPrefixed() {
Token following = _skip("skipPrefixedIdentifier", "a +");
expect(following, isNotNull);
expect(following.type, TokenType.PLUS);
}
void test_skipPrefixedIdentifier_prefixed() {
Token following = _skip("skipPrefixedIdentifier", "a.b +");
expect(following, isNotNull);
expect(following.type, TokenType.PLUS);
}
void test_skipReturnType_invalid() {
Token following = _skip("skipReturnType", "+");
expect(following, isNull);
}
void test_skipReturnType_type() {
Token following = _skip("skipReturnType", "C +");
expect(following, isNotNull);
expect(following.type, TokenType.PLUS);
}
void test_skipReturnType_void() {
Token following = _skip("skipReturnType", "void +");
expect(following, isNotNull);
expect(following.type, TokenType.PLUS);
}
void test_skipSimpleIdentifier_identifier() {
Token following = _skip("skipSimpleIdentifier", "i +");
expect(following, isNotNull);
expect(following.type, TokenType.PLUS);
}
void test_skipSimpleIdentifier_invalid() {
Token following = _skip("skipSimpleIdentifier", "9 +");
expect(following, isNull);
}
void test_skipSimpleIdentifier_pseudoKeyword() {
Token following = _skip("skipSimpleIdentifier", "as +");
expect(following, isNotNull);
expect(following.type, TokenType.PLUS);
}
void test_skipStringLiteral_adjacent() {
Token following = _skip("skipStringLiteral", "'a' 'b' +");
expect(following, isNotNull);
expect(following.type, TokenType.PLUS);
}
void test_skipStringLiteral_interpolated() {
Token following = _skip("skipStringLiteral", "'a\${b}c' +");
expect(following, isNotNull);
expect(following.type, TokenType.PLUS);
}
void test_skipStringLiteral_invalid() {
Token following = _skip("skipStringLiteral", "a");
expect(following, isNull);
}
void test_skipStringLiteral_single() {
Token following = _skip("skipStringLiteral", "'a' +");
expect(following, isNotNull);
expect(following.type, TokenType.PLUS);
}
void test_skipTypeArgumentList_invalid() {
Token following = _skip("skipTypeArgumentList", "+");
expect(following, isNull);
}
void test_skipTypeArgumentList_multiple() {
Token following = _skip("skipTypeArgumentList", "<E, F, G> +");
expect(following, isNotNull);
expect(following.type, TokenType.PLUS);
}
void test_skipTypeArgumentList_single() {
Token following = _skip("skipTypeArgumentList", "<E> +");
expect(following, isNotNull);
expect(following.type, TokenType.PLUS);
}
void test_skipTypeName_invalid() {
Token following = _skip("skipTypeName", "+");
expect(following, isNull);
}
void test_skipTypeName_parameterized() {
Token following = _skip("skipTypeName", "C<E<F<G>>> +");
expect(following, isNotNull);
expect(following.type, TokenType.PLUS);
}
void test_skipTypeName_simple() {
Token following = _skip("skipTypeName", "C +");
expect(following, isNotNull);
expect(following.type, TokenType.PLUS);
}
/**
* Invoke the method [Parser.computeStringValue] with the given argument.
*
* @param lexeme the argument to the method
* @param first `true` if this is the first token in a string literal
* @param last `true` if this is the last token in a string literal
* @return the result of invoking the method
* @throws Exception if the method could not be invoked or throws an exception
*/
String _computeStringValue(String lexeme, bool first, bool last) {
AnalysisErrorListener listener =
new AnalysisErrorListener_SimpleParserTest_computeStringValue();
Parser parser = new Parser(null, listener);
return invokeParserMethodImpl(
parser, "computeStringValue", <Object>[lexeme, first, last], null)
as String;
}
/**
* Invoke the method [Parser.createSyntheticIdentifier] with the parser set to the token
* stream produced by scanning the given source.
*
* @param source the source to be scanned to produce the token stream being tested
* @return the result of invoking the method
* @throws Exception if the method could not be invoked or throws an exception
*/
SimpleIdentifier _createSyntheticIdentifier() {
GatheringErrorListener listener = new GatheringErrorListener();
return invokeParserMethod2("createSyntheticIdentifier", "", listener);
}
/**
* Invoke the method [Parser.createSyntheticIdentifier] with the parser set to the token
* stream produced by scanning the given source.
*
* @param source the source to be scanned to produce the token stream being tested
* @return the result of invoking the method
* @throws Exception if the method could not be invoked or throws an exception
*/
SimpleStringLiteral _createSyntheticStringLiteral() {
GatheringErrorListener listener = new GatheringErrorListener();
return invokeParserMethod2("createSyntheticStringLiteral", "", listener);
}
void _expectDottedName(DottedName name, List<String> expectedComponents) {
int count = expectedComponents.length;
NodeList<SimpleIdentifier> components = name.components;
expect(components, hasLength(count));
for (int i = 0; i < count; i++) {
SimpleIdentifier component = components[i];
expect(component, isNotNull);
expect(component.name, expectedComponents[i]);
}
}
/**
* Invoke the method [Parser.isFunctionDeclaration] with the parser set to the token
* stream produced by scanning the given source.
*
* @param source the source to be scanned to produce the token stream being tested
* @return the result of invoking the method
* @throws Exception if the method could not be invoked or throws an exception
*/
bool _isFunctionDeclaration(String source) {
GatheringErrorListener listener = new GatheringErrorListener();
return invokeParserMethod2("isFunctionDeclaration", source, listener)
as bool;
}
/**
* Invoke the method [Parser.isFunctionExpression] with the parser set to the token stream
* produced by scanning the given source.
*
* @param source the source to be scanned to produce the token stream being tested
* @return the result of invoking the method
* @throws Exception if the method could not be invoked or throws an exception
*/
bool _isFunctionExpression(String source) {
GatheringErrorListener listener = new GatheringErrorListener();
//
// Scan the source.
//
Scanner scanner =
new Scanner(null, new CharSequenceReader(source), listener);
Token tokenStream = scanner.tokenize();
//
// Parse the source.
//
Parser parser = new Parser(null, listener);
return invokeParserMethodImpl(
parser, "isFunctionExpression", <Object>[tokenStream], tokenStream)
as bool;
}
/**
* Invoke the method [Parser.isInitializedVariableDeclaration] with the parser set to the
* token stream produced by scanning the given source.
*
* @param source the source to be scanned to produce the token stream being tested
* @return the result of invoking the method
* @throws Exception if the method could not be invoked or throws an exception
*/
bool _isInitializedVariableDeclaration(String source) {
GatheringErrorListener listener = new GatheringErrorListener();
return invokeParserMethod2(
"isInitializedVariableDeclaration", source, listener) as bool;
}
/**
* Invoke the method [Parser.isSwitchMember] with the parser set to the token stream
* produced by scanning the given source.
*
* @param source the source to be scanned to produce the token stream being tested
* @return the result of invoking the method
* @throws Exception if the method could not be invoked or throws an exception
*/
bool _isSwitchMember(String source) {
GatheringErrorListener listener = new GatheringErrorListener();
return invokeParserMethod2("isSwitchMember", source, listener) as bool;
}
/**
* Parse the given source as a compilation unit.
*
* @param source the source to be parsed
* @param errorCodes the error codes of the errors that are expected to be found
* @return the compilation unit that was parsed
* @throws Exception if the source could not be parsed, if the compilation errors in the source do
* not match those that are expected, or if the result would have been `null`
*/
CompilationUnit _parseDirectives(String source,
[List<ErrorCode> errorCodes = ErrorCode.EMPTY_LIST]) {
GatheringErrorListener listener = new GatheringErrorListener();
Scanner scanner =
new Scanner(null, new CharSequenceReader(source), listener);
listener.setLineInfo(new TestSource(), scanner.lineStarts);
Token token = scanner.tokenize();
Parser parser = new Parser(null, listener);
CompilationUnit unit = parser.parseDirectives(token);
expect(unit, isNotNull);
expect(unit.declarations, hasLength(0));
listener.assertErrorsWithCodes(errorCodes);
return unit;
}
/**
* Invoke a "skip" method in [Parser]. The method is assumed to take a token as it's
* parameter and is given the first token in the scanned source.
*
* @param methodName the name of the method that should be invoked
* @param source the source to be processed by the method
* @return the result of invoking the method
* @throws Exception if the method could not be invoked or throws an exception
* @throws AssertionFailedError if the result is `null`
*/
Token _skip(String methodName, String source) {
GatheringErrorListener listener = new GatheringErrorListener();
//
// Scan the source.
//
Scanner scanner =
new Scanner(null, new CharSequenceReader(source), listener);
Token tokenStream = scanner.tokenize();
//
// Parse the source.
//
Parser parser = new Parser(null, listener);
return invokeParserMethodImpl(
parser, methodName, <Object>[tokenStream], tokenStream) as Token;
}
}