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dart / sdk.git / 185661f2bd38fa79b5c8f3181b417dbfc63f6f0b / . / pkg / analyzer / test / generated / top_level_parser_test.dart
blob: 5e36c1c3f0f6421ce8e2a1c361c6e1bbaa1c6f81 [file] [log] [blame]
// Copyright (c) 2020, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
import 'package:analyzer/dart/ast/ast.dart';
import 'package:analyzer/dart/ast/token.dart';
import 'package:analyzer/error/error.dart';
import 'package:analyzer/src/dart/scanner/scanner.dart';
import 'package:analyzer/src/error/codes.dart';
import 'package:test/test.dart';
import 'package:test_reflective_loader/test_reflective_loader.dart';
import '../util/ast_type_matchers.dart';
import 'parser_test_base.dart';
main() {
defineReflectiveSuite(() {
defineReflectiveTests(TopLevelParserTest);
});
}
/// Tests which exercise the parser using a complete compilation unit or
/// compilation unit member.
@reflectiveTest
class TopLevelParserTest extends FastaParserTestCase {
void test_function_literal_allowed_at_toplevel() {
parseCompilationUnit("var x = () {};");
}
void
test_function_literal_allowed_in_ArgumentList_in_ConstructorFieldInitializer() {
parseCompilationUnit("class C { C() : a = f(() {}); }");
}
void
test_function_literal_allowed_in_IndexExpression_in_ConstructorFieldInitializer() {
parseCompilationUnit("class C { C() : a = x[() {}]; }");
}
void
test_function_literal_allowed_in_ListLiteral_in_ConstructorFieldInitializer() {
parseCompilationUnit("class C { C() : a = [() {}]; }");
}
void
test_function_literal_allowed_in_MapLiteral_in_ConstructorFieldInitializer() {
parseCompilationUnit("class C { C() : a = {'key': () {}}; }");
}
void
test_function_literal_allowed_in_ParenthesizedExpression_in_ConstructorFieldInitializer() {
parseCompilationUnit("class C { C() : a = (() {}); }");
}
void
test_function_literal_allowed_in_StringInterpolation_in_ConstructorFieldInitializer() {
parseCompilationUnit("class C { C() : a = \"\${(){}}\"; }");
}
void test_import_as_show() {
parseCompilationUnit("import 'dart:math' as M show E;");
}
void test_import_show_hide() {
parseCompilationUnit(
"import 'import1_lib.dart' show hide, show hide ugly;");
}
void test_import_withDocComment() {
var compilationUnit = parseCompilationUnit('/// Doc\nimport "foo.dart";');
var importDirective = compilationUnit.directives[0];
expectCommentText(importDirective.documentationComment, '/// Doc');
}
void test_parseClassDeclaration_abstract() {
createParser('abstract class A {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassDeclaration);
ClassDeclaration declaration = member;
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() {
createParser('class A {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassDeclaration);
ClassDeclaration declaration = member;
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);
_assertIsDeclarationName(declaration.name);
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseClassDeclaration_extends() {
createParser('class A extends B {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassDeclaration);
ClassDeclaration declaration = member;
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() {
createParser('class A extends B implements C {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassDeclaration);
ClassDeclaration declaration = member;
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() {
createParser('class A extends B with C {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassDeclaration);
ClassDeclaration declaration = member;
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() {
createParser('class A extends B with C implements D {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassDeclaration);
ClassDeclaration declaration = member;
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() {
createParser('class A implements C {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassDeclaration);
ClassDeclaration declaration = member;
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_metadata() {
createParser('@A @B(2) @C.foo(3) @d.E.bar(4, 5) class X {}');
var declaration = parseFullCompilationUnitMember() as ClassDeclaration;
expect(declaration.metadata, hasLength(4));
{
var annotation = declaration.metadata[0];
expect(annotation.atSign, isNotNull);
expect(annotation.name, isSimpleIdentifier);
expect(annotation.name.name, 'A');
expect(annotation.period, isNull);
expect(annotation.constructorName, isNull);
expect(annotation.arguments, isNull);
}
{
var annotation = declaration.metadata[1];
expect(annotation.atSign, isNotNull);
expect(annotation.name, isSimpleIdentifier);
expect(annotation.name.name, 'B');
expect(annotation.period, isNull);
expect(annotation.constructorName, isNull);
expect(annotation.arguments, isNotNull);
expect(annotation.arguments.arguments, hasLength(1));
}
{
var annotation = declaration.metadata[2];
expect(annotation.atSign, isNotNull);
expect(annotation.name, isPrefixedIdentifier);
expect(annotation.name.name, 'C.foo');
expect(annotation.period, isNull);
expect(annotation.constructorName, isNull);
expect(annotation.arguments, isNotNull);
expect(annotation.arguments.arguments, hasLength(1));
}
{
var annotation = declaration.metadata[3];
expect(annotation.atSign, isNotNull);
expect(annotation.name, isPrefixedIdentifier);
expect(annotation.name.name, 'd.E');
expect(annotation.period, isNotNull);
expect(annotation.constructorName, isNotNull);
expect(annotation.constructorName.name, 'bar');
expect(annotation.arguments, isNotNull);
expect(annotation.arguments.arguments, hasLength(2));
}
}
void test_parseClassDeclaration_native() {
createParser('class A native "nativeValue" {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
if (!allowNativeClause) {
assertErrorsWithCodes([
ParserErrorCode.NATIVE_CLAUSE_SHOULD_BE_ANNOTATION,
]);
} else {
assertNoErrors();
}
expect(member, isClassDeclaration);
ClassDeclaration declaration = member;
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_native_allowed() {
allowNativeClause = true;
test_parseClassDeclaration_native();
}
void test_parseClassDeclaration_native_allowedWithFields() {
allowNativeClause = true;
createParser(r'''
class A native 'something' {
final int x;
A() {}
}
''');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
}
void test_parseClassDeclaration_native_missing_literal() {
createParser('class A native {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
if (allowNativeClause) {
assertNoErrors();
} else {
assertErrorsWithCodes([
ParserErrorCode.NATIVE_CLAUSE_SHOULD_BE_ANNOTATION,
]);
}
expect(member, TypeMatcher<ClassDeclaration>());
ClassDeclaration declaration = member;
expect(declaration.nativeClause, isNotNull);
expect(declaration.nativeClause.nativeKeyword, isNotNull);
expect(declaration.nativeClause.name, isNull);
expect(declaration.endToken.type, TokenType.CLOSE_CURLY_BRACKET);
}
void test_parseClassDeclaration_native_missing_literal_allowed() {
allowNativeClause = true;
test_parseClassDeclaration_native_missing_literal();
}
void test_parseClassDeclaration_native_missing_literal_not_allowed() {
allowNativeClause = false;
test_parseClassDeclaration_native_missing_literal();
}
void test_parseClassDeclaration_native_not_allowed() {
allowNativeClause = false;
test_parseClassDeclaration_native();
}
void test_parseClassDeclaration_nonEmpty() {
createParser('class A {var f;}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassDeclaration);
ClassDeclaration declaration = member;
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() {
createParser('class A = Object with B implements C;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassTypeAlias);
ClassTypeAlias typeAlias = member;
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
_assertIsDeclarationName(typeAlias.name);
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() {
createParser('class A = Object with B;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassTypeAlias);
ClassTypeAlias typeAlias = member;
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() {
createParser('class A<B> {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassDeclaration);
ClassDeclaration declaration = member;
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);
_assertIsDeclarationName(declaration.name);
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNotNull);
expect(declaration.typeParameters.typeParameters, hasLength(1));
_assertIsDeclarationName(declaration.typeParameters.typeParameters[0].name);
}
void test_parseClassDeclaration_typeParameters_extends_void() {
parseCompilationUnit('class C<T extends void>{}',
errors: [expectedError(ParserErrorCode.EXPECTED_TYPE_NAME, 18, 4)]);
}
void test_parseClassDeclaration_withDocumentationComment() {
createParser('/// Doc\nclass C {}');
var classDeclaration = parseFullCompilationUnitMember() as ClassDeclaration;
expectCommentText(classDeclaration.documentationComment, '/// Doc');
}
void test_parseClassTypeAlias_withDocumentationComment() {
createParser('/// Doc\nclass C = D with E;');
var classTypeAlias = parseFullCompilationUnitMember() as ClassTypeAlias;
expectCommentText(classTypeAlias.documentationComment, '/// Doc');
}
void test_parseCompilationUnit_abstractAsPrefix_parameterized() {
var errorCodes = <ErrorCode>[];
// This used to be deferred to later in the pipeline, but is now being
// reported by the parser.
errorCodes.add(CompileTimeErrorCode.BUILT_IN_IDENTIFIER_AS_TYPE);
CompilationUnit unit = parseCompilationUnit(
'abstract<dynamic> _abstract = new abstract.A();',
codes: errorCodes);
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnit_builtIn_asFunctionName() {
for (Keyword keyword in Keyword.values) {
if (keyword.isBuiltIn || keyword.isPseudo) {
String lexeme = keyword.lexeme;
if (lexeme == 'Function') continue;
parseCompilationUnit('$lexeme(x) => 0;');
parseCompilationUnit('class C {$lexeme(x) => 0;}');
}
}
}
void test_parseCompilationUnit_builtIn_asFunctionName_withTypeParameter() {
for (Keyword keyword in Keyword.values) {
if (keyword.isBuiltIn || keyword.isPseudo) {
String lexeme = keyword.lexeme;
if (lexeme == 'Function') continue;
// The fasta type resolution phase will report an error
// on type arguments on `dynamic` (e.g. `dynamic<int>`).
parseCompilationUnit('$lexeme<T>(x) => 0;');
parseCompilationUnit('class C {$lexeme<T>(x) => 0;}');
}
}
}
void test_parseCompilationUnit_builtIn_asGetter() {
for (Keyword keyword in Keyword.values) {
if (keyword.isBuiltIn || keyword.isPseudo) {
String lexeme = keyword.lexeme;
parseCompilationUnit('get $lexeme => 0;');
parseCompilationUnit('class C {get $lexeme => 0;}');
}
}
}
void test_parseCompilationUnit_directives_multiple() {
createParser("library l;\npart 'a.dart';");
CompilationUnit unit = parser.parseCompilationUnit2();
expect(unit, isNotNull);
assertNoErrors();
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(2));
expect(unit.declarations, hasLength(0));
}
void test_parseCompilationUnit_directives_single() {
createParser('library l;');
CompilationUnit unit = parser.parseCompilationUnit2();
expect(unit, isNotNull);
assertNoErrors();
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(1));
expect(unit.declarations, hasLength(0));
}
void test_parseCompilationUnit_empty() {
createParser('');
CompilationUnit unit = parser.parseCompilationUnit2();
expect(unit, isNotNull);
assertNoErrors();
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(0));
expect(unit.beginToken, isNotNull);
expect(unit.endToken, isNotNull);
expect(unit.endToken.type, TokenType.EOF);
}
void test_parseCompilationUnit_exportAsPrefix() {
createParser('export.A _export = new export.A();');
CompilationUnit unit = parser.parseCompilationUnit2();
expect(unit, isNotNull);
assertNoErrors();
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnit_exportAsPrefix_parameterized() {
createParser('export<dynamic> _export = new export.A();');
CompilationUnit unit = parser.parseCompilationUnit2();
expect(unit, isNotNull);
// This used to be deferred to later in the pipeline, but is now being
// reported by the parser.
assertErrorsWithCodes([CompileTimeErrorCode.BUILT_IN_IDENTIFIER_AS_TYPE]);
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnit_operatorAsPrefix_parameterized() {
createParser('operator<dynamic> _operator = new operator.A();');
CompilationUnit unit = parser.parseCompilationUnit2();
expect(unit, isNotNull);
// This used to be deferred to later in the pipeline, but is now being
// reported by the parser.
assertErrorsWithCodes([CompileTimeErrorCode.BUILT_IN_IDENTIFIER_AS_TYPE]);
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnit_pseudo_asTypeName() {
for (Keyword keyword in Keyword.values) {
if (keyword.isPseudo) {
String lexeme = keyword.lexeme;
parseCompilationUnit('$lexeme f;');
parseCompilationUnit('class C {$lexeme f;}');
parseCompilationUnit('f($lexeme g) {}');
parseCompilationUnit('f() {$lexeme g;}');
}
}
}
void test_parseCompilationUnit_pseudo_prefixed() {
for (Keyword keyword in Keyword.values) {
if (keyword.isPseudo) {
String lexeme = keyword.lexeme;
parseCompilationUnit('M.$lexeme f;');
parseCompilationUnit('class C {M.$lexeme f;}');
}
}
}
void test_parseCompilationUnit_script() {
createParser('#! /bin/dart');
CompilationUnit unit = parser.parseCompilationUnit2();
expect(unit, isNotNull);
assertNoErrors();
expect(unit.scriptTag, isNotNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(0));
}
void test_parseCompilationUnit_skipFunctionBody_withInterpolation() {
ParserTestCase.parseFunctionBodies = false;
createParser('f() { "\${n}"; }');
CompilationUnit unit = parser.parseCompilationUnit2();
expect(unit, isNotNull);
assertNoErrors();
expect(unit.scriptTag, isNull);
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnit_topLevelDeclaration() {
createParser('class A {}');
CompilationUnit unit = parser.parseCompilationUnit2();
expect(unit, isNotNull);
assertNoErrors();
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(1));
expect(unit.beginToken, isNotNull);
expect(unit.beginToken.keyword, Keyword.CLASS);
expect(unit.endToken, isNotNull);
expect(unit.endToken.type, TokenType.EOF);
}
void test_parseCompilationUnit_typedefAsPrefix() {
createParser('typedef.A _typedef = new typedef.A();');
CompilationUnit unit = parser.parseCompilationUnit2();
expect(unit, isNotNull);
assertNoErrors();
expect(unit.scriptTag, isNull);
expect(unit.directives, hasLength(0));
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnitMember_abstractAsPrefix() {
createParser('abstract.A _abstract = new abstract.A();');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isTopLevelVariableDeclaration);
TopLevelVariableDeclaration declaration = member;
expect(declaration.semicolon, isNotNull);
expect(declaration.variables, isNotNull);
}
void test_parseCompilationUnitMember_class() {
createParser('class A {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassDeclaration);
ClassDeclaration declaration = member;
expect(declaration.name.name, "A");
expect(declaration.members, hasLength(0));
}
void test_parseCompilationUnitMember_classTypeAlias() {
createParser('abstract class A = B with C;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassTypeAlias);
ClassTypeAlias declaration = member;
expect(declaration.name.name, "A");
expect(declaration.abstractKeyword, isNotNull);
}
void test_parseCompilationUnitMember_constVariable() {
createParser('const int x = 0;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isTopLevelVariableDeclaration);
TopLevelVariableDeclaration declaration = member;
expect(declaration.semicolon, isNotNull);
expect(declaration.variables, isNotNull);
expect(declaration.variables.keyword.lexeme, 'const');
_assertIsDeclarationName(declaration.variables.variables[0].name);
}
void test_parseCompilationUnitMember_expressionFunctionBody_tokens() {
createParser('f() => 0;');
var f = parseFullCompilationUnitMember() as FunctionDeclaration;
var body = f.functionExpression.body as ExpressionFunctionBody;
expect(body.functionDefinition.lexeme, '=>');
expect(body.semicolon.lexeme, ';');
_assertIsDeclarationName(f.name);
}
void test_parseCompilationUnitMember_finalVariable() {
createParser('final x = 0;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isTopLevelVariableDeclaration);
TopLevelVariableDeclaration declaration = member;
expect(declaration.semicolon, isNotNull);
expect(declaration.variables, isNotNull);
expect(declaration.variables.keyword.lexeme, 'final');
}
void test_parseCompilationUnitMember_function_external_noType() {
createParser('external f();');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.externalKeyword, isNotNull);
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNull);
}
void test_parseCompilationUnitMember_function_external_type() {
createParser('external int f();');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.externalKeyword, isNotNull);
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNull);
}
void test_parseCompilationUnitMember_function_generic_noReturnType() {
createParser('f<E>() {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.returnType, isNull);
expect(declaration.functionExpression.typeParameters, isNotNull);
}
void
test_parseCompilationUnitMember_function_generic_noReturnType_annotated() {
createParser('f<@a E>() {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.returnType, isNull);
expect(declaration.functionExpression.typeParameters, isNotNull);
}
void test_parseCompilationUnitMember_function_generic_returnType() {
createParser('E f<E>() {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.returnType, isNotNull);
expect(declaration.functionExpression.typeParameters, isNotNull);
}
void test_parseCompilationUnitMember_function_generic_void() {
createParser('void f<T>(T t) {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNull);
}
void test_parseCompilationUnitMember_function_gftReturnType() {
createParser('''
void Function<A>(core.List<core.int> x) f() => null;
''');
CompilationUnit unit = parser.parseCompilationUnit2();
assertNoErrors();
expect(unit, isNotNull);
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnitMember_function_noReturnType() {
createParser('''
Function<A>(core.List<core.int> x) f() => null;
''');
CompilationUnit unit = parser.parseCompilationUnit2();
assertNoErrors();
expect(unit, isNotNull);
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnitMember_function_noType() {
createParser('f() {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNull);
}
void test_parseCompilationUnitMember_function_type() {
createParser('int f() {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNull);
}
void test_parseCompilationUnitMember_function_void() {
createParser('void f() {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.returnType, isNotNull);
}
void test_parseCompilationUnitMember_getter_external_noType() {
createParser('external get p;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.externalKeyword, isNotNull);
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
_assertIsDeclarationName(declaration.name);
}
void test_parseCompilationUnitMember_getter_external_type() {
createParser('external int get p;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.externalKeyword, isNotNull);
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
}
void test_parseCompilationUnitMember_getter_noType() {
createParser('get p => 0;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
}
void test_parseCompilationUnitMember_getter_type() {
createParser('int get p => 0;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
}
void test_parseCompilationUnitMember_setter_external_noType() {
createParser('external set p(v);');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.externalKeyword, isNotNull);
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
}
void test_parseCompilationUnitMember_setter_external_type() {
createParser('external void set p(int v);');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.externalKeyword, isNotNull);
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
}
void test_parseCompilationUnitMember_setter_noType() {
createParser('set p(v) {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
_assertIsDeclarationName(declaration.name);
}
void test_parseCompilationUnitMember_setter_type() {
createParser('void set p(int v) {}');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isFunctionDeclaration);
FunctionDeclaration declaration = member;
expect(declaration.functionExpression, isNotNull);
expect(declaration.propertyKeyword, isNotNull);
expect(declaration.returnType, isNotNull);
}
void test_parseCompilationUnitMember_typeAlias_abstract() {
createParser('abstract class C = S with M;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassTypeAlias);
ClassTypeAlias typeAlias = member;
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name.name, "C");
_assertIsDeclarationName(typeAlias.name);
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() {
createParser('class C<E> = S<E> with M<E> implements I<E>;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassTypeAlias);
ClassTypeAlias typeAlias = member;
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() {
createParser('class C = S with M implements I;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassTypeAlias);
ClassTypeAlias typeAlias = member;
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() {
createParser('class C = S with M;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isClassTypeAlias);
ClassTypeAlias typeAlias = member;
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() {
createParser('typedef F();');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, TypeMatcher<FunctionTypeAlias>());
FunctionTypeAlias typeAlias = member;
expect(typeAlias.name.name, "F");
expect(typeAlias.parameters.parameters, hasLength(0));
_assertIsDeclarationName(typeAlias.name);
}
void test_parseCompilationUnitMember_typedef_withDocComment() {
createParser('/// Doc\ntypedef F();');
var typeAlias = parseFullCompilationUnitMember() as FunctionTypeAlias;
expectCommentText(typeAlias.documentationComment, '/// Doc');
}
void test_parseCompilationUnitMember_typedVariable() {
createParser('int x = 0;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isTopLevelVariableDeclaration);
TopLevelVariableDeclaration declaration = member;
expect(declaration.semicolon, isNotNull);
expect(declaration.variables, isNotNull);
expect(declaration.variables.type, isNotNull);
expect(declaration.variables.keyword, isNull);
_assertIsDeclarationName(declaration.variables.variables[0].name);
}
void test_parseCompilationUnitMember_variable() {
createParser('var x = 0;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isTopLevelVariableDeclaration);
TopLevelVariableDeclaration declaration = member;
expect(declaration.semicolon, isNotNull);
expect(declaration.variables, isNotNull);
expect(declaration.variables.keyword.lexeme, 'var');
}
void test_parseCompilationUnitMember_variable_gftType_gftReturnType() {
createParser('''
Function(int) Function(String) v;
''');
CompilationUnit unit = parser.parseCompilationUnit2();
assertNoErrors();
expect(unit, isNotNull);
expect(unit.declarations, hasLength(1));
TopLevelVariableDeclaration declaration =
unit.declarations[0] as TopLevelVariableDeclaration;
expect(declaration.variables.type, isGenericFunctionType);
}
void test_parseCompilationUnitMember_variable_gftType_noReturnType() {
createParser('''
Function(int, String) v;
''');
CompilationUnit unit = parser.parseCompilationUnit2();
assertNoErrors();
expect(unit, isNotNull);
expect(unit.declarations, hasLength(1));
}
void test_parseCompilationUnitMember_variable_withDocumentationComment() {
createParser('/// Doc\nvar x = 0;');
var declaration =
parseFullCompilationUnitMember() as TopLevelVariableDeclaration;
expectCommentText(declaration.documentationComment, '/// Doc');
}
void test_parseCompilationUnitMember_variableGet() {
createParser('String get = null;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isTopLevelVariableDeclaration);
TopLevelVariableDeclaration declaration = member;
expect(declaration.semicolon, isNotNull);
expect(declaration.variables, isNotNull);
}
void test_parseCompilationUnitMember_variableSet() {
createParser('String set = null;');
CompilationUnitMember member = parseFullCompilationUnitMember();
expect(member, isNotNull);
assertNoErrors();
expect(member, isTopLevelVariableDeclaration);
TopLevelVariableDeclaration declaration = member;
expect(declaration.semicolon, isNotNull);
expect(declaration.variables, isNotNull);
}
void test_parseDirective_export() {
createParser("export 'lib/lib.dart';");
Directive directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
expect(directive, TypeMatcher<ExportDirective>());
ExportDirective exportDirective = directive;
expect(exportDirective.keyword, isNotNull);
expect(exportDirective.uri, isNotNull);
expect(exportDirective.combinators, hasLength(0));
expect(exportDirective.semicolon, isNotNull);
}
void test_parseDirective_export_withDocComment() {
createParser("/// Doc\nexport 'foo.dart';");
var directive = parseFullDirective() as ExportDirective;
expectCommentText(directive.documentationComment, '/// Doc');
}
void test_parseDirective_import() {
createParser("import 'lib/lib.dart';");
Directive directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
expect(directive, TypeMatcher<ImportDirective>());
ImportDirective importDirective = directive;
expect(importDirective.keyword, isNotNull);
expect(importDirective.uri, isNotNull);
expect(importDirective.asKeyword, isNull);
expect(importDirective.prefix, isNull);
expect(importDirective.combinators, hasLength(0));
expect(importDirective.semicolon, isNotNull);
}
void test_parseDirective_library() {
createParser("library l;");
Directive directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
expect(directive, TypeMatcher<LibraryDirective>());
LibraryDirective libraryDirective = directive;
expect(libraryDirective.libraryKeyword, isNotNull);
expect(libraryDirective.name, isNotNull);
expect(libraryDirective.semicolon, isNotNull);
}
void test_parseDirective_library_1_component() {
createParser("library a;");
var lib = parseFullDirective() as LibraryDirective;
expect(lib.name.components, hasLength(1));
expect(lib.name.components[0].name, 'a');
}
void test_parseDirective_library_2_components() {
createParser("library a.b;");
var lib = parseFullDirective() as LibraryDirective;
expect(lib.name.components, hasLength(2));
expect(lib.name.components[0].name, 'a');
expect(lib.name.components[1].name, 'b');
}
void test_parseDirective_library_3_components() {
createParser("library a.b.c;");
var lib = parseFullDirective() as LibraryDirective;
expect(lib.name.components, hasLength(3));
expect(lib.name.components[0].name, 'a');
expect(lib.name.components[1].name, 'b');
expect(lib.name.components[2].name, 'c');
}
void test_parseDirective_library_annotation() {
createParser("@A library l;");
Directive directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
expect(directive, TypeMatcher<LibraryDirective>());
LibraryDirective libraryDirective = directive;
expect(libraryDirective.libraryKeyword, isNotNull);
expect(libraryDirective.name, isNotNull);
expect(libraryDirective.semicolon, isNotNull);
expect(libraryDirective.metadata, hasLength(1));
expect(libraryDirective.metadata[0].name.name, 'A');
}
void test_parseDirective_library_annotation2() {
createParser("@A library l;");
CompilationUnit unit = parser.parseCompilationUnit2();
Directive directive = unit.directives[0];
expect(directive, isNotNull);
assertNoErrors();
expect(directive, TypeMatcher<LibraryDirective>());
LibraryDirective libraryDirective = directive;
expect(libraryDirective.libraryKeyword, isNotNull);
expect(libraryDirective.name, isNotNull);
expect(libraryDirective.semicolon, isNotNull);
expect(libraryDirective.metadata, hasLength(1));
expect(libraryDirective.metadata[0].name.name, 'A');
}
void test_parseDirective_library_withDocumentationComment() {
createParser('/// Doc\nlibrary l;');
var directive = parseFullDirective() as LibraryDirective;
expectCommentText(directive.documentationComment, '/// Doc');
}
void test_parseDirective_part() {
createParser("part 'lib/lib.dart';");
Directive directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
expect(directive, TypeMatcher<PartDirective>());
PartDirective partDirective = directive;
expect(partDirective.partKeyword, isNotNull);
expect(partDirective.uri, isNotNull);
expect(partDirective.semicolon, isNotNull);
}
void test_parseDirective_part_of_1_component() {
createParser("part of a;");
var partOf = parseFullDirective() as PartOfDirective;
expect(partOf.libraryName.components, hasLength(1));
expect(partOf.libraryName.components[0].name, 'a');
}
void test_parseDirective_part_of_2_components() {
createParser("part of a.b;");
var partOf = parseFullDirective() as PartOfDirective;
expect(partOf.libraryName.components, hasLength(2));
expect(partOf.libraryName.components[0].name, 'a');
expect(partOf.libraryName.components[1].name, 'b');
}
void test_parseDirective_part_of_3_components() {
createParser("part of a.b.c;");
var partOf = parseFullDirective() as PartOfDirective;
expect(partOf.libraryName.components, hasLength(3));
expect(partOf.libraryName.components[0].name, 'a');
expect(partOf.libraryName.components[1].name, 'b');
expect(partOf.libraryName.components[2].name, 'c');
}
void test_parseDirective_part_of_withDocumentationComment() {
createParser('/// Doc\npart of a;');
var partOf = parseFullDirective() as PartOfDirective;
expectCommentText(partOf.documentationComment, '/// Doc');
}
void test_parseDirective_part_withDocumentationComment() {
createParser("/// Doc\npart 'lib.dart';");
var directive = parseFullDirective() as PartDirective;
expectCommentText(directive.documentationComment, '/// Doc');
}
void test_parseDirective_partOf() {
createParser("part of l;");
Directive directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
expect(directive, TypeMatcher<PartOfDirective>());
PartOfDirective partOfDirective = directive;
expect(partOfDirective.partKeyword, isNotNull);
expect(partOfDirective.ofKeyword, isNotNull);
expect(partOfDirective.libraryName, isNotNull);
expect(partOfDirective.semicolon, isNotNull);
}
void test_parseDirectives_annotations() {
CompilationUnit unit =
parseDirectives("@A library l; @B import 'foo.dart';");
expect(unit.directives, hasLength(2));
expect(unit.directives[0].metadata[0].name.name, 'A');
expect(unit.directives[1].metadata[0].name.name, 'B');
}
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_parseEnumDeclaration_one() {
createParser("enum E {ONE}");
EnumDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
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() {
createParser("enum E {ONE,}");
EnumDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
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() {
createParser("enum E {ONE, TWO}");
EnumDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
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_parseEnumDeclaration_withDocComment_onEnum() {
createParser('/// Doc\nenum E {ONE}');
var declaration = parseFullCompilationUnitMember() as EnumDeclaration;
expectCommentText(declaration.documentationComment, '/// Doc');
}
void test_parseEnumDeclaration_withDocComment_onValue() {
createParser('''
enum E {
/// Doc
ONE
}''');
var declaration = parseFullCompilationUnitMember() as EnumDeclaration;
var value = declaration.constants[0];
expectCommentText(value.documentationComment, '/// Doc');
}
void test_parseEnumDeclaration_withDocComment_onValue_annotated() {
createParser('''
enum E {
/// Doc
@annotation
ONE
}
''');
var declaration = parseFullCompilationUnitMember() as EnumDeclaration;
var value = declaration.constants[0];
expectCommentText(value.documentationComment, '/// Doc');
expect(value.metadata, hasLength(1));
}
void test_parseExportDirective_configuration_multiple() {
createParser("export 'lib/lib.dart' if (a) 'b.dart' if (c) 'd.dart';");
ExportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
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() {
createParser("export 'lib/lib.dart' if (a.b == 'c.dart') '';");
ExportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
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() {
createParser("export 'lib/lib.dart' hide A, B;");
ExportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.combinators, hasLength(1));
expect(directive.semicolon, isNotNull);
}
void test_parseExportDirective_hide_show() {
createParser("export 'lib/lib.dart' hide A show B;");
ExportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.combinators, hasLength(2));
expect(directive.semicolon, isNotNull);
}
void test_parseExportDirective_noCombinator() {
createParser("export 'lib/lib.dart';");
ExportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.combinators, hasLength(0));
expect(directive.semicolon, isNotNull);
}
void test_parseExportDirective_show() {
createParser("export 'lib/lib.dart' show A, B;");
ExportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.combinators, hasLength(1));
expect(directive.semicolon, isNotNull);
}
void test_parseExportDirective_show_hide() {
createParser("export 'lib/lib.dart' show B hide A;");
ExportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
expect(directive.keyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.combinators, hasLength(2));
expect(directive.semicolon, isNotNull);
}
void test_parseFunctionDeclaration_function() {
createParser('/// Doc\nT f() {}');
FunctionDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
expectCommentText(declaration.documentationComment, '/// Doc');
expect((declaration.returnType as TypeName).name.name, 'T');
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() {
createParser('/// Doc\nT f<E>() {}');
FunctionDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
expectCommentText(declaration.documentationComment, '/// Doc');
expect((declaration.returnType as TypeName).name.name, 'T');
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() {
createParser('/// Doc\nT get p => 0;');
FunctionDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
expectCommentText(declaration.documentationComment, '/// Doc');
expect((declaration.returnType as TypeName).name.name, 'T');
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_metadata() {
createParser(
'T f(@A a, @B(2) Foo b, {@C.foo(3) c : 0, @d.E.bar(4, 5) x:0}) {}');
FunctionDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
expect(declaration.documentationComment, isNull);
expect((declaration.returnType as TypeName).name.name, 'T');
expect(declaration.name, isNotNull);
FunctionExpression expression = declaration.functionExpression;
expect(expression, isNotNull);
expect(expression.body, isNotNull);
expect(expression.typeParameters, isNull);
NodeList<FormalParameter> parameters = expression.parameters.parameters;
expect(parameters, hasLength(4));
expect(declaration.propertyKeyword, isNull);
{
var annotation = parameters[0].metadata[0];
expect(annotation.atSign, isNotNull);
expect(annotation.name, isSimpleIdentifier);
expect(annotation.name.name, 'A');
expect(annotation.period, isNull);
expect(annotation.constructorName, isNull);
expect(annotation.arguments, isNull);
}
{
var annotation = parameters[1].metadata[0];
expect(annotation.atSign, isNotNull);
expect(annotation.name, isSimpleIdentifier);
expect(annotation.name.name, 'B');
expect(annotation.period, isNull);
expect(annotation.constructorName, isNull);
expect(annotation.arguments, isNotNull);
expect(annotation.arguments.arguments, hasLength(1));
}
{
var annotation = parameters[2].metadata[0];
expect(annotation.atSign, isNotNull);
expect(annotation.name, isPrefixedIdentifier);
expect(annotation.name.name, 'C.foo');
expect(annotation.period, isNull);
expect(annotation.constructorName, isNull);
expect(annotation.arguments, isNotNull);
expect(annotation.arguments.arguments, hasLength(1));
}
{
var annotation = parameters[3].metadata[0];
expect(annotation.atSign, isNotNull);
expect(annotation.name, isPrefixedIdentifier);
expect(annotation.name.name, 'd.E');
expect(annotation.period, isNotNull);
expect(annotation.constructorName, isNotNull);
expect(annotation.constructorName.name, 'bar');
expect(annotation.arguments, isNotNull);
expect(annotation.arguments.arguments, hasLength(2));
}
}
void test_parseFunctionDeclaration_setter() {
createParser('/// Doc\nT set p(v) {}');
FunctionDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
expectCommentText(declaration.documentationComment, '/// Doc');
expect((declaration.returnType as TypeName).name.name, 'T');
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_parseGenericTypeAlias_noTypeParameters() {
createParser('typedef F = int Function(int);');
GenericTypeAlias alias = parseFullCompilationUnitMember();
expect(alias, isNotNull);
assertNoErrors();
expect(alias.name, isNotNull);
expect(alias.name.name, 'F');
expect(alias.typeParameters, isNull);
expect(alias.equals, isNotNull);
expect(alias.functionType, isNotNull);
expect(alias.semicolon, isNotNull);
}
void test_parseGenericTypeAlias_typeParameters() {
createParser('typedef F<T> = T Function(T);');
GenericTypeAlias alias = parseFullCompilationUnitMember();
expect(alias, isNotNull);
assertNoErrors();
expect(alias.name, isNotNull);
expect(alias.name.name, 'F');
expect(alias.typeParameters.typeParameters, hasLength(1));
expect(alias.equals, isNotNull);
expect(alias.functionType, isNotNull);
expect(alias.semicolon, isNotNull);
}
void test_parseGenericTypeAlias_typeParameters2() {
// The scanner creates a single token for `>=`
// then the parser must split it into two separate tokens.
createParser('typedef F<T>= T Function(T);');
GenericTypeAlias alias = parseFullCompilationUnitMember();
expect(alias, isNotNull);
assertNoErrors();
expect(alias.name, isNotNull);
expect(alias.name.name, 'F');
expect(alias.typeParameters.typeParameters, hasLength(1));
expect(alias.equals, isNotNull);
expect(alias.functionType, isNotNull);
expect(alias.semicolon, isNotNull);
}
void test_parseGenericTypeAlias_typeParameters3() {
createParser('typedef F<A,B,C> = Function(A a, B b, C c);');
GenericTypeAlias alias = parseFullCompilationUnitMember();
expect(alias, isNotNull);
assertNoErrors();
expect(alias.name, isNotNull);
expect(alias.name.name, 'F');
expect(alias.typeParameters.typeParameters, hasLength(3));
expect(alias.equals, isNotNull);
expect(alias.functionType, isNotNull);
expect(alias.semicolon, isNotNull);
}
void test_parseGenericTypeAlias_typeParameters3_gtEq() {
// The scanner creates a single token for `>=`
// then the parser must split it into two separate tokens.
createParser('typedef F<A,B,C>=Function(A a, B b, C c);');
GenericTypeAlias alias = parseFullCompilationUnitMember();
expect(alias, isNotNull);
assertNoErrors();
expect(alias.name, isNotNull);
expect(alias.name.name, 'F');
expect(alias.typeParameters.typeParameters, hasLength(3));
expect(alias.equals, isNotNull);
expect(alias.functionType, isNotNull);
expect(alias.semicolon, isNotNull);
}
void test_parseGenericTypeAlias_typeParameters_extends() {
createParser('typedef F<A,B,C extends D<E>> = Function(A a, B b, C c);');
GenericTypeAlias alias = parseFullCompilationUnitMember();
expect(alias, isNotNull);
assertNoErrors();
expect(alias.name, isNotNull);
expect(alias.name.name, 'F');
expect(alias.typeParameters.typeParameters, hasLength(3));
TypeParameter typeParam = alias.typeParameters.typeParameters[2];
NamedType type = typeParam.bound;
expect(type.typeArguments.arguments, hasLength(1));
expect(alias.equals, isNotNull);
expect(alias.functionType, isNotNull);
expect(alias.semicolon, isNotNull);
}
void test_parseGenericTypeAlias_typeParameters_extends3() {
createParser(
'typedef F<A,B,C extends D<E,G,H>> = Function(A a, B b, C c);');
GenericTypeAlias alias = parseFullCompilationUnitMember();
expect(alias, isNotNull);
assertNoErrors();
expect(alias.name, isNotNull);
expect(alias.name.name, 'F');
expect(alias.typeParameters.typeParameters, hasLength(3));
TypeParameter typeParam = alias.typeParameters.typeParameters[2];
NamedType type = typeParam.bound;
expect(type.typeArguments.arguments, hasLength(3));
expect(alias.equals, isNotNull);
expect(alias.functionType, isNotNull);
expect(alias.semicolon, isNotNull);
}
void test_parseGenericTypeAlias_typeParameters_extends3_gtGtEq() {
// The scanner creates a single token for `>>=`
// then the parser must split it into three separate tokens.
createParser('typedef F<A,B,C extends D<E,G,H>>=Function(A a, B b, C c);');
GenericTypeAlias alias = parseFullCompilationUnitMember();
expect(alias, isNotNull);
assertNoErrors();
expect(alias.name, isNotNull);
expect(alias.name.name, 'F');
expect(alias.typeParameters.typeParameters, hasLength(3));
TypeParameter typeParam = alias.typeParameters.typeParameters[2];
NamedType type = typeParam.bound;
expect(type.typeArguments.arguments, hasLength(3));
expect(alias.equals, isNotNull);
expect(alias.functionType, isNotNull);
expect(alias.semicolon, isNotNull);
}
void test_parseGenericTypeAlias_typeParameters_extends_gtGtEq() {
// The scanner creates a single token for `>>=`
// then the parser must split it into three separate tokens.
createParser('typedef F<A,B,C extends D<E>>=Function(A a, B b, C c);');
GenericTypeAlias alias = parseFullCompilationUnitMember();
expect(alias, isNotNull);
assertNoErrors();
expect(alias.name, isNotNull);
expect(alias.name.name, 'F');
expect(alias.typeParameters.typeParameters, hasLength(3));
TypeParameter typeParam = alias.typeParameters.typeParameters[2];
NamedType type = typeParam.bound;
expect(type.typeArguments.arguments, hasLength(1));
expect(alias.equals, isNotNull);
expect(alias.functionType, isNotNull);
expect(alias.semicolon, isNotNull);
}
void test_parseImportDirective_configuration_multiple() {
createParser("import 'lib/lib.dart' if (a) 'b.dart' if (c) 'd.dart';");
ImportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
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() {
createParser("import 'lib/lib.dart' if (a.b == 'c.dart') '';");
ImportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
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() {
createParser("import 'lib/lib.dart' deferred as a;");
ImportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
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() {
createParser("import 'lib/lib.dart' hide A, B;");
ImportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
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() {
createParser("import 'lib/lib.dart';");
ImportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
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() {
createParser("import 'lib/lib.dart' as a;");
ImportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
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() {
createParser("import 'lib/lib.dart' as a hide A show B;");
ImportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
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() {
createParser("import 'lib/lib.dart' as a show B hide A;");
ImportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
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() {
createParser("import 'lib/lib.dart' show A, B;");
ImportDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
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_parseLibraryDirective() {
createParser('library l;');
LibraryDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
expect(directive.libraryKeyword, isNotNull);
expect(directive.name, isNotNull);
expect(directive.semicolon, isNotNull);
}
void test_parseMixinDeclaration_empty() {
createParser('mixin A {}');
MixinDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
expect(declaration.metadata, isEmpty);
expect(declaration.documentationComment, isNull);
expect(declaration.onClause, isNull);
expect(declaration.implementsClause, isNull);
expect(declaration.mixinKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name.name, 'A');
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseMixinDeclaration_implements() {
createParser('mixin A implements B {}');
MixinDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
expect(declaration.metadata, isEmpty);
expect(declaration.documentationComment, isNull);
expect(declaration.onClause, isNull);
ImplementsClause implementsClause = declaration.implementsClause;
expect(implementsClause.implementsKeyword, isNotNull);
NodeList<TypeName> interfaces = implementsClause.interfaces;
expect(interfaces, hasLength(1));
expect(interfaces[0].name.name, 'B');
expect(interfaces[0].typeArguments, isNull);
expect(declaration.mixinKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name.name, 'A');
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseMixinDeclaration_implements2() {
createParser('mixin A implements B<T>, C {}');
MixinDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
expect(declaration.metadata, isEmpty);
expect(declaration.documentationComment, isNull);
expect(declaration.onClause, isNull);
ImplementsClause implementsClause = declaration.implementsClause;
expect(implementsClause.implementsKeyword, isNotNull);
NodeList<TypeName> interfaces = implementsClause.interfaces;
expect(interfaces, hasLength(2));
expect(interfaces[0].name.name, 'B');
expect(interfaces[0].typeArguments.arguments, hasLength(1));
expect(interfaces[1].name.name, 'C');
expect(interfaces[1].typeArguments, isNull);
expect(declaration.mixinKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name.name, 'A');
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseMixinDeclaration_metadata() {
createParser('@Z mixin A {}');
MixinDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
NodeList<Annotation> metadata = declaration.metadata;
expect(metadata, hasLength(1));
expect(metadata[0].name.name, 'Z');
expect(declaration.documentationComment, isNull);
expect(declaration.onClause, isNull);
expect(declaration.implementsClause, isNull);
expect(declaration.mixinKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name.name, 'A');
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseMixinDeclaration_on() {
createParser('mixin A on B {}');
MixinDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
expect(declaration.metadata, isEmpty);
expect(declaration.documentationComment, isNull);
OnClause onClause = declaration.onClause;
expect(onClause.onKeyword, isNotNull);
NodeList<TypeName> constraints = onClause.superclassConstraints;
expect(constraints, hasLength(1));
expect(constraints[0].name.name, 'B');
expect(constraints[0].typeArguments, isNull);
expect(declaration.implementsClause, isNull);
expect(declaration.mixinKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name.name, 'A');
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseMixinDeclaration_on2() {
createParser('mixin A on B, C<T> {}');
MixinDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
expect(declaration.metadata, isEmpty);
expect(declaration.documentationComment, isNull);
OnClause onClause = declaration.onClause;
expect(onClause.onKeyword, isNotNull);
NodeList<TypeName> constraints = onClause.superclassConstraints;
expect(constraints, hasLength(2));
expect(constraints[0].name.name, 'B');
expect(constraints[0].typeArguments, isNull);
expect(constraints[1].name.name, 'C');
expect(constraints[1].typeArguments.arguments, hasLength(1));
expect(declaration.implementsClause, isNull);
expect(declaration.mixinKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name.name, 'A');
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseMixinDeclaration_onAndImplements() {
createParser('mixin A on B implements C {}');
MixinDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
expect(declaration.metadata, isEmpty);
expect(declaration.documentationComment, isNull);
OnClause onClause = declaration.onClause;
expect(onClause.onKeyword, isNotNull);
NodeList<TypeName> constraints = onClause.superclassConstraints;
expect(constraints, hasLength(1));
expect(constraints[0].name.name, 'B');
expect(constraints[0].typeArguments, isNull);
ImplementsClause implementsClause = declaration.implementsClause;
expect(implementsClause.implementsKeyword, isNotNull);
NodeList<TypeName> interfaces = implementsClause.interfaces;
expect(interfaces, hasLength(1));
expect(interfaces[0].name.name, 'C');
expect(interfaces[0].typeArguments, isNull);
expect(declaration.mixinKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name.name, 'A');
expect(declaration.members, hasLength(0));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseMixinDeclaration_simple() {
createParser('''
mixin A {
int f;
int get g => f;
set s(int v) {f = v;}
int add(int v) => f = f + v;
}''');
MixinDeclaration declaration = parseFullCompilationUnitMember();
expect(declaration, isNotNull);
assertNoErrors();
expect(declaration.metadata, isEmpty);
expect(declaration.documentationComment, isNull);
expect(declaration.onClause, isNull);
expect(declaration.implementsClause, isNull);
expect(declaration.mixinKeyword, isNotNull);
expect(declaration.leftBracket, isNotNull);
expect(declaration.name.name, 'A');
expect(declaration.members, hasLength(4));
expect(declaration.rightBracket, isNotNull);
expect(declaration.typeParameters, isNull);
}
void test_parseMixinDeclaration_withDocumentationComment() {
createParser('/// Doc\nmixin M {}');
MixinDeclaration declaration = parseFullCompilationUnitMember();
expectCommentText(declaration.documentationComment, '/// Doc');
}
void test_parsePartDirective() {
createParser("part 'lib/lib.dart';");
PartDirective directive = parseFullDirective();
expect(directive, isNotNull);
assertNoErrors();
expect(directive.partKeyword, isNotNull);
expect(directive.uri, isNotNull);
expect(directive.semicolon, isNotNull);
}
void test_parsePartOfDirective_name() {
enableUriInPartOf = true;
createParser("part of l;");
PartOfDirective directive = parseFullDirective();
expect(directive.partKeyword, isNotNull);
expect(directive.ofKeyword, isNotNull);
expect(directive.libraryName, isNotNull);
expect(directive.uri, isNull);
expect(directive.semicolon, isNotNull);
}
void test_parsePartOfDirective_uri() {
enableUriInPartOf = true;
createParser("part of 'lib.dart';");
PartOfDirective directive = parseFullDirective();
expect(directive.partKeyword, isNotNull);
expect(directive.ofKeyword, isNotNull);
expect(directive.libraryName, isNull);
expect(directive.uri, isNotNull);
expect(directive.semicolon, isNotNull);
}
void test_parseTopLevelVariable_external() {
var unit = parseCompilationUnit('external int i;', featureSet: nonNullable);
var declaration = unit.declarations[0] as TopLevelVariableDeclaration;
expect(declaration.externalKeyword, isNotNull);
}
void test_parseTopLevelVariable_external_late() {
var unit = parseCompilationUnit('external late int? i;',
featureSet: nonNullable,
errors: [
expectedError(ParserErrorCode.EXTERNAL_LATE_FIELD, 0, 8),
]);
var declaration = unit.declarations[0] as TopLevelVariableDeclaration;
expect(declaration.externalKeyword, isNotNull);
}
void test_parseTopLevelVariable_external_late_final() {
var unit = parseCompilationUnit('external late final int? i;',
featureSet: nonNullable,
errors: [
expectedError(ParserErrorCode.EXTERNAL_LATE_FIELD, 0, 8),
]);
var declaration = unit.declarations[0] as TopLevelVariableDeclaration;
expect(declaration.externalKeyword, isNotNull);
}
void test_parseTopLevelVariable_final_late() {
var unit = parseCompilationUnit('final late a;',
featureSet: nonNullable,
errors: [expectedError(ParserErrorCode.MODIFIER_OUT_OF_ORDER, 6, 4)]);
var declaration = unit.declarations[0] as TopLevelVariableDeclaration;
var declarationList = declaration.variables;
expect(declarationList.keyword.lexeme, 'final');
expect(declarationList.type, isNull);
expect(declarationList.variables, hasLength(1));
}
void test_parseTopLevelVariable_late() {
var unit = parseCompilationUnit('late a;',
featureSet: nonNullable,
errors: [
expectedError(ParserErrorCode.MISSING_CONST_FINAL_VAR_OR_TYPE, 5, 1)
]);
var declaration = unit.declarations[0] as TopLevelVariableDeclaration;
var declarationList = declaration.variables;
expect(declarationList.keyword, isNull);
expect(declarationList.type, isNull);
expect(declarationList.variables, hasLength(1));
}
void test_parseTopLevelVariable_late_final() {
var unit = parseCompilationUnit('late final a;', featureSet: nonNullable);
var declaration = unit.declarations[0] as TopLevelVariableDeclaration;
var declarationList = declaration.variables;
expect(declarationList.keyword.lexeme, 'final');
expect(declarationList.type, isNull);
expect(declarationList.variables, hasLength(1));
}
void test_parseTopLevelVariable_late_init() {
var unit = parseCompilationUnit('late a = 0;',
featureSet: nonNullable,
errors: [
expectedError(ParserErrorCode.MISSING_CONST_FINAL_VAR_OR_TYPE, 5, 1)
]);
var declaration = unit.declarations[0] as TopLevelVariableDeclaration;
var declarationList = declaration.variables;
expect(declarationList.keyword, isNull);
expect(declarationList.type, isNull);
expect(declarationList.variables, hasLength(1));
}
void test_parseTopLevelVariable_late_type() {
var unit = parseCompilationUnit('late A a;', featureSet: nonNullable);
var declaration = unit.declarations[0] as TopLevelVariableDeclaration;
var declarationList = declaration.variables;
expect(declarationList.lateKeyword, isNotNull);
expect(declarationList.keyword, isNull);
expect(declarationList.type, isNotNull);
expect(declarationList.variables, hasLength(1));
}
void test_parseTopLevelVariable_non_external() {
var unit = parseCompilationUnit('int i;', featureSet: nonNullable);
var declaration = unit.declarations[0] as TopLevelVariableDeclaration;
expect(declaration.externalKeyword, isNull);
}
void test_parseTypeAlias_function_noParameters() {
createParser('typedef bool F();');
FunctionTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
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() {
createParser('typedef F();');
FunctionTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
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() {
createParser('typedef A<B> F();');
FunctionTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
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() {
createParser('typedef bool F(Object value);');
FunctionTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
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() {
createParser('typedef bool F<E>();');
FunctionTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
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() {
createParser('typedef void F();');
FunctionTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
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_genericFunction_noParameters() {
createParser('typedef F = bool Function();');
GenericTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.typeParameters, isNull);
expect(typeAlias.semicolon, isNotNull);
GenericFunctionType functionType = typeAlias.functionType;
expect(functionType, isNotNull);
expect(functionType.parameters, isNotNull);
expect(functionType.returnType, isNotNull);
expect(functionType.typeParameters, isNull);
}
void test_parseTypeAlias_genericFunction_noReturnType() {
createParser('typedef F = Function();');
GenericTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.typeParameters, isNull);
expect(typeAlias.semicolon, isNotNull);
GenericFunctionType functionType = typeAlias.functionType;
expect(functionType, isNotNull);
expect(functionType.parameters, isNotNull);
expect(functionType.returnType, isNull);
expect(functionType.typeParameters, isNull);
}
void test_parseTypeAlias_genericFunction_parameterizedReturnType() {
createParser('typedef F = A<B> Function();');
GenericTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.typeParameters, isNull);
expect(typeAlias.semicolon, isNotNull);
GenericFunctionType functionType = typeAlias.functionType;
expect(functionType, isNotNull);
expect(functionType.parameters, isNotNull);
expect(functionType.returnType, isNotNull);
expect(functionType.typeParameters, isNull);
}
void test_parseTypeAlias_genericFunction_parameters() {
createParser('typedef F = bool Function(Object value);');
GenericTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.typeParameters, isNull);
expect(typeAlias.semicolon, isNotNull);
GenericFunctionType functionType = typeAlias.functionType;
expect(functionType, isNotNull);
expect(functionType.parameters, isNotNull);
expect(functionType.returnType, isNotNull);
expect(functionType.typeParameters, isNull);
}
void test_parseTypeAlias_genericFunction_typeParameters() {
createParser('typedef F = bool Function<E>();');
GenericTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.typeParameters, isNull);
expect(typeAlias.semicolon, isNotNull);
GenericFunctionType functionType = typeAlias.functionType;
expect(functionType, isNotNull);
expect(functionType.parameters, isNotNull);
expect(functionType.returnType, isNotNull);
expect(functionType.typeParameters, isNotNull);
}
void test_parseTypeAlias_genericFunction_typeParameters_noParameters() {
createParser('typedef F<T> = bool Function();');
GenericTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.typeParameters, isNotNull);
expect(typeAlias.semicolon, isNotNull);
GenericFunctionType functionType = typeAlias.functionType;
expect(functionType, isNotNull);
expect(functionType.parameters, isNotNull);
expect(functionType.returnType, isNotNull);
expect(functionType.typeParameters, isNull);
}
void test_parseTypeAlias_genericFunction_typeParameters_noReturnType() {
createParser('typedef F<T> = Function();');
GenericTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.typeParameters, isNotNull);
expect(typeAlias.semicolon, isNotNull);
GenericFunctionType functionType = typeAlias.functionType;
expect(functionType, isNotNull);
expect(functionType.parameters, isNotNull);
expect(functionType.returnType, isNull);
expect(functionType.typeParameters, isNull);
}
void
test_parseTypeAlias_genericFunction_typeParameters_parameterizedReturnType() {
createParser('typedef F<T> = A<B> Function();');
GenericTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.typeParameters, isNotNull);
expect(typeAlias.semicolon, isNotNull);
GenericFunctionType functionType = typeAlias.functionType;
expect(functionType, isNotNull);
expect(functionType.parameters, isNotNull);
expect(functionType.returnType, isNotNull);
expect(functionType.typeParameters, isNull);
}
void test_parseTypeAlias_genericFunction_typeParameters_parameters() {
createParser('typedef F<T> = bool Function(Object value);');
GenericTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.typeParameters, isNotNull);
expect(typeAlias.semicolon, isNotNull);
GenericFunctionType functionType = typeAlias.functionType;
expect(functionType, isNotNull);
expect(functionType.parameters, isNotNull);
expect(functionType.returnType, isNotNull);
expect(functionType.typeParameters, isNull);
}
void test_parseTypeAlias_genericFunction_typeParameters_typeParameters() {
createParser('typedef F<T> = bool Function<E>();');
GenericTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.typeParameters, isNotNull);
expect(typeAlias.semicolon, isNotNull);
GenericFunctionType functionType = typeAlias.functionType;
expect(functionType, isNotNull);
expect(functionType.parameters, isNotNull);
expect(functionType.returnType, isNotNull);
expect(functionType.typeParameters, isNotNull);
}
void test_parseTypeAlias_genericFunction_typeParameters_voidReturnType() {
createParser('typedef F<T> = void Function();');
GenericTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.typeParameters, isNotNull);
expect(typeAlias.semicolon, isNotNull);
GenericFunctionType functionType = typeAlias.functionType;
expect(functionType, isNotNull);
expect(functionType.parameters, isNotNull);
expect(functionType.returnType, isNotNull);
expect(functionType.typeParameters, isNull);
}
void test_parseTypeAlias_genericFunction_voidReturnType() {
createParser('typedef F = void Function();');
GenericTypeAlias typeAlias = parseFullCompilationUnitMember();
expect(typeAlias, isNotNull);
assertNoErrors();
expect(typeAlias.typedefKeyword, isNotNull);
expect(typeAlias.name, isNotNull);
expect(typeAlias.typeParameters, isNull);
expect(typeAlias.semicolon, isNotNull);
GenericFunctionType functionType = typeAlias.functionType;
expect(functionType, isNotNull);
expect(functionType.parameters, isNotNull);
expect(functionType.returnType, isNotNull);
expect(functionType.typeParameters, isNull);
}
void test_parseTypeAlias_genericFunction_withDocComment() {
createParser('/// Doc\ntypedef F = bool Function();');
var typeAlias = parseFullCompilationUnitMember() as GenericTypeAlias;
expectCommentText(typeAlias.documentationComment, '/// Doc');
}
void test_parseTypeVariable_withDocumentationComment() {
createParser('''
class A<
/// Doc
B> {}
''');
var classDeclaration = parseFullCompilationUnitMember() as ClassDeclaration;
var typeVariable = classDeclaration.typeParameters.typeParameters[0];
expectCommentText(typeVariable.documentationComment, '/// Doc');
}
/// Assert that the given [name] is in declaration context.
void _assertIsDeclarationName(SimpleIdentifier name) {
expect(name.inDeclarationContext(), isTrue);
}
}