blob: 3987353eb87b7f9ba578fd2d345ee4c21c29c5f6 [file] [log] [blame]
// 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.
import 'package:analysis_server/src/protocol_server.dart';
import 'package:analysis_server/src/provisional/completion/dart/completion_dart.dart';
import 'package:analysis_server/src/services/completion/dart/local_reference_contributor.dart';
import 'package:test/test.dart';
import 'package:test_reflective_loader/test_reflective_loader.dart';
import 'completion_contributor_util.dart';
main() {
defineReflectiveSuite(() {
defineReflectiveTests(LocalReferenceContributorTest);
});
}
@reflectiveTest
class LocalReferenceContributorTest extends DartCompletionContributorTest {
CompletionSuggestion assertSuggestLocalVariable(
String name, String returnType,
{int relevance: DART_RELEVANCE_LOCAL_VARIABLE,
bool hasTypeBoost: false,
bool hasSubtypeBoost: false}) {
if (hasTypeBoost) {
relevance += DART_RELEVANCE_BOOST_TYPE;
} else if (hasSubtypeBoost) {
relevance += DART_RELEVANCE_BOOST_SUBTYPE;
}
// Local variables should only be suggested by LocalReferenceContributor
CompletionSuggestion cs = assertSuggest(name,
csKind: CompletionSuggestionKind.INVOCATION, relevance: relevance);
expect(cs.returnType, returnType != null ? returnType : 'dynamic');
Element element = cs.element;
expect(element, isNotNull);
expect(element.kind, equals(ElementKind.LOCAL_VARIABLE));
expect(element.name, equals(name));
expect(element.parameters, isNull);
expect(element.returnType, returnType != null ? returnType : 'dynamic');
assertHasNoParameterInfo(cs);
return cs;
}
CompletionSuggestion assertSuggestParameter(String name, String returnType,
{int relevance: DART_RELEVANCE_PARAMETER}) {
CompletionSuggestion cs = assertSuggest(name,
csKind: CompletionSuggestionKind.INVOCATION, relevance: relevance);
expect(cs.returnType, returnType != null ? returnType : 'dynamic');
Element element = cs.element;
expect(element, isNotNull);
expect(element.kind, equals(ElementKind.PARAMETER));
expect(element.name, equals(name));
expect(element.parameters, isNull);
expect(element.returnType,
equals(returnType != null ? returnType : 'dynamic'));
return cs;
}
@override
DartCompletionContributor createContributor() {
return new LocalReferenceContributor();
}
test_ArgDefaults_function() async {
addTestSource('''
bool hasLength(int a, bool b) => false;
void main() {h^}''');
await computeSuggestions();
assertSuggestFunction('hasLength', 'bool',
relevance: DART_RELEVANCE_LOCAL_FUNCTION,
defaultArgListString: 'a, b',
defaultArgumentListTextRanges: [0, 1, 3, 1]);
}
test_ArgDefaults_function_none() async {
addTestSource('''
bool hasLength() => false;
void main() {h^}''');
await computeSuggestions();
assertSuggestFunction('hasLength', 'bool',
relevance: DART_RELEVANCE_LOCAL_FUNCTION,
defaultArgListString: null,
defaultArgumentListTextRanges: null);
}
test_ArgDefaults_function_with_optional_positional() async {
addMetaPackageSource();
addTestSource('''
import 'package:meta/meta.dart';
bool foo(int bar, [bool boo, int baz]) => false;
void main() {h^}''');
await computeSuggestions();
assertSuggestFunction('foo', 'bool',
relevance: DART_RELEVANCE_LOCAL_FUNCTION,
defaultArgListString: 'bar',
defaultArgumentListTextRanges: [0, 3]);
}
test_ArgDefaults_function_with_required_named() async {
addMetaPackageSource();
addTestSource('''
import 'package:meta/meta.dart';
bool foo(int bar, {bool boo, @required int baz}) => false;
void main() {h^}''');
await computeSuggestions();
assertSuggestFunction('foo', 'bool',
relevance: DART_RELEVANCE_LOCAL_FUNCTION,
defaultArgListString: 'bar, baz: null',
defaultArgumentListTextRanges: [0, 3, 10, 4]);
}
test_ArgDefaults_method_with_required_named() async {
addMetaPackageSource();
addTestSource('''
import 'package:meta/meta.dart';
class A {
bool foo(int bar, {bool boo, @required int baz}) => false;
baz() {
f^
}
}''');
await computeSuggestions();
assertSuggestMethod('foo', 'A', 'bool',
relevance: DART_RELEVANCE_LOCAL_METHOD,
defaultArgListString: 'bar, baz: null',
defaultArgumentListTextRanges: [0, 3, 10, 4]);
}
test_ArgumentList() async {
// ArgumentList MethodInvocation ExpressionStatement Block
addSource('/libA.dart', '''
library A;
bool hasLength(int expected) { }
void baz() { }''');
addTestSource('''
import "${convertPathForImport('/libA.dart')}";
class B { }
String bar() => true;
void main() {expect(^)}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNoSuggestions(kind: CompletionSuggestionKind.ARGUMENT_LIST);
assertSuggestFunction('bar', 'String',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertNotSuggested('hasLength');
assertNotSuggested('identical');
assertSuggestClass('B');
assertNotSuggested('Object');
assertNotSuggested('main');
assertNotSuggested('baz');
assertNotSuggested('print');
}
test_ArgumentList_imported_function() async {
// ArgumentList MethodInvocation ExpressionStatement Block
addSource('/libA.dart', '''
library A;
bool hasLength(int expected) { }
expect(arg) { }
void baz() { }''');
addTestSource('''
import "${convertPathForImport('/libA.dart')}"
class B { }
String bar() => true;
void main() {expect(^)}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNoSuggestions(kind: CompletionSuggestionKind.ARGUMENT_LIST);
assertSuggestFunction('bar', 'String',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertNotSuggested('hasLength');
assertNotSuggested('identical');
assertSuggestClass('B');
assertNotSuggested('Object');
assertNotSuggested('main');
assertNotSuggested('baz');
assertNotSuggested('print');
}
test_ArgumentList_InstanceCreationExpression_functionalArg() async {
// ArgumentList InstanceCreationExpression ExpressionStatement Block
addSource('/libA.dart', '''
library A;
class A { A(f()) { } }
bool hasLength(int expected) { }
void baz() { }''');
addTestSource('''
import 'dart:async';
import "${convertPathForImport('/libA.dart')}";
class B { }
String bar() => true;
void main() {new A(^)}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNoSuggestions(kind: CompletionSuggestionKind.ARGUMENT_LIST);
assertSuggestFunction('bar', 'String',
kind: CompletionSuggestionKind.IDENTIFIER,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertNotSuggested('hasLength');
assertNotSuggested('identical');
assertSuggestClass('B', kind: CompletionSuggestionKind.IDENTIFIER);
assertNotSuggested('A');
assertNotSuggested('Object');
assertNotSuggested('main');
assertNotSuggested('baz');
assertNotSuggested('print');
}
test_ArgumentList_InstanceCreationExpression_typedefArg() async {
// ArgumentList InstanceCreationExpression ExpressionStatement Block
addSource('/libA.dart', '''
library A;
typedef Funct();
class A { A(Funct f) { } }
bool hasLength(int expected) { }
void baz() { }''');
addTestSource('''
import 'dart:async';
import "${convertPathForImport('/libA.dart')}";
class B { }
String bar() => true;
void main() {new A(^)}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNoSuggestions(kind: CompletionSuggestionKind.ARGUMENT_LIST);
assertSuggestFunction('bar', 'String',
kind: CompletionSuggestionKind.IDENTIFIER,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertNotSuggested('hasLength');
assertNotSuggested('identical');
assertSuggestClass('B', kind: CompletionSuggestionKind.IDENTIFIER);
assertNotSuggested('A');
assertNotSuggested('Object');
assertNotSuggested('main');
assertNotSuggested('baz');
assertNotSuggested('print');
}
test_ArgumentList_local_function() async {
// ArgumentList MethodInvocation ExpressionStatement Block
addSource('/libA.dart', '''
library A;
bool hasLength(int expected) { }
void baz() { }''');
addTestSource('''
import "${convertPathForImport('/libA.dart')}"
expect(arg) { }
class B { }
String bar() => true;
void main() {expect(^)}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNoSuggestions(kind: CompletionSuggestionKind.ARGUMENT_LIST);
assertSuggestFunction('bar', 'String',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertNotSuggested('hasLength');
assertNotSuggested('identical');
assertSuggestClass('B');
assertNotSuggested('Object');
assertNotSuggested('main');
assertNotSuggested('baz');
assertNotSuggested('print');
}
test_ArgumentList_local_method() async {
// ArgumentList MethodInvocation ExpressionStatement Block
addSource('/libA.dart', '''
library A;
bool hasLength(int expected) { }
void baz() { }''');
addTestSource('''
import "${convertPathForImport('/libA.dart')}"
class B {
expect(arg) { }
void foo() {expect(^)}}
String bar() => true;''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNoSuggestions(kind: CompletionSuggestionKind.ARGUMENT_LIST);
assertSuggestFunction('bar', 'String',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertNotSuggested('hasLength');
assertNotSuggested('identical');
assertSuggestClass('B');
assertNotSuggested('Object');
assertNotSuggested('main');
assertNotSuggested('baz');
assertNotSuggested('print');
}
test_ArgumentList_MethodInvocation_functionalArg() async {
// ArgumentList MethodInvocation ExpressionStatement Block
addSource('/libA.dart', '''
library A;
class A { A(f()) { } }
bool hasLength(int expected) { }
void baz() { }''');
addTestSource('''
import 'dart:async';
import "${convertPathForImport('/libA.dart')}";
class B { }
String bar(f()) => true;
void main() {boo(){} bar(^);}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNoSuggestions(kind: CompletionSuggestionKind.ARGUMENT_LIST);
assertSuggestFunction('bar', 'String',
kind: CompletionSuggestionKind.IDENTIFIER,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertSuggestFunction('boo', 'Null',
kind: CompletionSuggestionKind.IDENTIFIER,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertNotSuggested('hasLength');
assertNotSuggested('identical');
assertSuggestClass('B', kind: CompletionSuggestionKind.IDENTIFIER);
assertNotSuggested('A');
assertNotSuggested('Object');
assertNotSuggested('main');
assertNotSuggested('baz');
assertNotSuggested('print');
}
test_ArgumentList_MethodInvocation_functionalArg2() async {
// ArgumentList MethodInvocation ExpressionStatement Block
addSource('/libA.dart', '''
library A;
class A { A(f()) { } }
bool hasLength(int expected) { }
void baz() { }''');
addTestSource('''
import 'dart:async';
import "${convertPathForImport('/libA.dart')}";
class B { }
String bar({inc()}) => true;
void main() {boo(){} bar(inc: ^);}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNoSuggestions(kind: CompletionSuggestionKind.ARGUMENT_LIST);
assertSuggestFunction('bar', 'String',
kind: CompletionSuggestionKind.IDENTIFIER,
relevance:
DART_RELEVANCE_LOCAL_FUNCTION + DART_RELEVANCE_BOOST_SUBTYPE);
assertSuggestFunction('boo', 'Null',
kind: CompletionSuggestionKind.IDENTIFIER,
relevance:
DART_RELEVANCE_LOCAL_FUNCTION + DART_RELEVANCE_BOOST_SUBTYPE);
assertNotSuggested('hasLength');
assertNotSuggested('identical');
assertSuggestClass('B', kind: CompletionSuggestionKind.IDENTIFIER);
assertNotSuggested('A');
assertNotSuggested('Object');
assertNotSuggested('main');
assertNotSuggested('baz');
assertNotSuggested('print');
}
test_ArgumentList_MethodInvocation_methodArg() async {
// ArgumentList MethodInvocation ExpressionStatement Block
addSource('/libA.dart', '''
library A;
class A { A(f()) { } }
bool hasLength(int expected) { }
void baz() { }''');
addTestSource('''
import 'dart:async';
import "${convertPathForImport('/libA.dart')}";
class B { String bar(f()) => true; }
void main() {new B().bar(^);}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNoSuggestions(kind: CompletionSuggestionKind.ARGUMENT_LIST);
assertNotSuggested('hasLength');
assertNotSuggested('identical');
assertSuggestClass('B', kind: CompletionSuggestionKind.IDENTIFIER);
assertNotSuggested('A');
assertNotSuggested('Object');
assertNotSuggested('main');
assertNotSuggested('baz');
assertNotSuggested('print');
}
test_ArgumentList_namedFieldParam_tear_off() async {
addSource('/libA.dart', '''
typedef void VoidCallback();
class Button {
final VoidCallback onPressed;
Button({this.onPressed});
}
''');
addTestSource('''
import "${convertPathForImport('/libA.dart')}";
class PageState {
void _incrementCounter() { }
build() =>
new Button(
onPressed: ^
);
}
''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggest('_incrementCounter',
csKind: CompletionSuggestionKind.IDENTIFIER);
}
test_ArgumentList_namedParam() async {
// SimpleIdentifier NamedExpression ArgumentList MethodInvocation
// ExpressionStatement
addSource('/libA.dart', '''
library A;
bool hasLength(int expected) { }''');
addTestSource('''
import "${convertPathForImport('/libA.dart')}"
String bar() => true;
void main() {expect(foo: ^)}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestFunction('bar', 'String',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertNotSuggested('hasLength');
assertNotSuggested('main');
}
test_ArgumentList_namedParam_filter() async {
// SimpleIdentifier NamedExpression ArgumentList
// InstanceCreationExpression
addTestSource('''
class A {}
class B extends A {}
class C implements A {}
class D {}
class E {
A a;
E({A someA});
}
A a = new A();
B b = new B();
C c = new C();
D d = new D();
E e = new E(someA: ^);
''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestTopLevelVar('a', 'A',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE +
DART_RELEVANCE_BOOST_TYPE);
assertSuggestTopLevelVar('b', 'B',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE +
DART_RELEVANCE_BOOST_SUBTYPE);
assertSuggestTopLevelVar('c', 'C',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE +
DART_RELEVANCE_BOOST_SUBTYPE);
assertSuggestTopLevelVar('d', 'D',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
assertSuggestTopLevelVar('e', 'E',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
}
test_ArgumentList_namedParam_tear_off() async {
addSource('/libA.dart', '''
typedef void VoidCallback();
class Button {
Button({VoidCallback onPressed});
}
''');
addTestSource('''
import "${convertPathForImport('/libA.dart')}";
class PageState {
void _incrementCounter() { }
build() =>
new Button(
onPressed: ^
);
}
''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggest('_incrementCounter',
csKind: CompletionSuggestionKind.IDENTIFIER);
}
test_ArgumentList_namedParam_tear_off_1() async {
addSource('/libA.dart', '''
typedef void VoidCallback();
class Button {
Button({VoidCallback onPressed, int x});
}
''');
addTestSource('''
import "${convertPathForImport('/libA.dart')}";
class PageState {
void _incrementCounter() { }
build() =>
new Button(
onPressed: ^
);
}
''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggest('_incrementCounter',
csKind: CompletionSuggestionKind.IDENTIFIER);
}
test_ArgumentList_namedParam_tear_off_2() async {
addSource('/libA.dart', '''
typedef void VoidCallback();
class Button {
Button({ int x, VoidCallback onPressed);
}
''');
addTestSource('''
import "${convertPathForImport('/libA.dart')}";
class PageState {
void _incrementCounter() { }
build() =>
new Button(
onPressed: ^
);
}
''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggest('_incrementCounter',
csKind: CompletionSuggestionKind.IDENTIFIER);
}
test_AsExpression_type() async {
// SimpleIdentifier TypeName AsExpression
addTestSource('''
class A {var b; X _c; foo() {var a; (a as ^).foo();}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('b');
assertNotSuggested('_c');
assertNotSuggested('Object');
assertSuggestClass('A');
assertNotSuggested('==');
}
test_AsExpression_type_filter_extends() async {
// SimpleIdentifier TypeName AsExpression
addTestSource('''
class A {} class B extends A {} class C extends A {} class D {}
f(A a){ (a as ^) }''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('B');
assertSuggestClass('C');
assertNotSuggested('A');
assertNotSuggested('D');
assertNotSuggested('Object');
}
test_AsExpression_type_filter_implements() async {
// SimpleIdentifier TypeName AsExpression
addTestSource('''
class A {} class B implements A {} class C implements A {} class D {}
f(A a){ (a as ^) }''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('B');
assertSuggestClass('C');
assertNotSuggested('A');
assertNotSuggested('D');
assertNotSuggested('Object');
}
test_AsExpression_type_filter_undefined_type() async {
// SimpleIdentifier TypeName AsExpression
addTestSource('''
class A {}
f(U u){ (u as ^) }''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('A');
}
test_AssignmentExpression_name() async {
// SimpleIdentifier VariableDeclaration VariableDeclarationList
// VariableDeclarationStatement Block
addTestSource('class A {} main() {int a; int ^b = 1;}');
await computeSuggestions();
assertNoSuggestions();
}
test_AssignmentExpression_RHS() async {
// SimpleIdentifier VariableDeclaration VariableDeclarationList
// VariableDeclarationStatement Block
addTestSource('class A {} main() {int a; int b = ^}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestLocalVariable('a', 'int', hasTypeBoost: true);
assertSuggestFunction('main', null,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertSuggestClass('A');
assertNotSuggested('Object');
}
test_AssignmentExpression_type() async {
// SimpleIdentifier TypeName VariableDeclarationList
// VariableDeclarationStatement Block
addTestSource('''
class A {} main() {
int a;
^ b = 1;
}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('A');
assertNotSuggested('int');
// TODO (danrubel) When entering 1st of 2 identifiers on assignment LHS
// the user may be either (1) entering a type for the assignment
// or (2) starting a new statement.
// Consider suggesting only types
// if only spaces separates the 1st and 2nd identifiers.
//assertNotSuggested('a');
//assertNotSuggested('main');
//assertNotSuggested('identical');
}
test_AssignmentExpression_type_newline() async {
// SimpleIdentifier TypeName VariableDeclarationList
// VariableDeclarationStatement Block
addTestSource('''
class A {} main() {
int a;
^
b = 1;
}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('A');
assertNotSuggested('int');
// Allow non-types preceding an identifier on LHS of assignment
// if newline follows first identifier
// because user is probably starting a new statement
assertSuggestLocalVariable('a', 'int');
assertSuggestFunction('main', null,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertNotSuggested('identical');
}
test_AssignmentExpression_type_partial() async {
// SimpleIdentifier TypeName VariableDeclarationList
// VariableDeclarationStatement Block
addTestSource('''
class A {} main() {
int a;
int^ b = 1;
}''');
await computeSuggestions();
expect(replacementOffset, completionOffset - 3);
expect(replacementLength, 3);
assertSuggestClass('A');
assertNotSuggested('int');
// TODO (danrubel) When entering 1st of 2 identifiers on assignment LHS
// the user may be either (1) entering a type for the assignment
// or (2) starting a new statement.
// Consider suggesting only types
// if only spaces separates the 1st and 2nd identifiers.
//assertNotSuggested('a');
//assertNotSuggested('main');
//assertNotSuggested('identical');
}
test_AssignmentExpression_type_partial_newline() async {
// SimpleIdentifier TypeName VariableDeclarationList
// VariableDeclarationStatement Block
addTestSource('''
class A {} main() {
int a;
i^
b = 1;
}''');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertSuggestClass('A');
assertNotSuggested('int');
// Allow non-types preceding an identifier on LHS of assignment
// if newline follows first identifier
// because user is probably starting a new statement
assertSuggestLocalVariable('a', 'int');
assertSuggestFunction('main', null,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertNotSuggested('identical');
}
test_AwaitExpression() async {
// SimpleIdentifier AwaitExpression ExpressionStatement
addTestSource('''
class A {int x; int y() => 0;}
main() async {A a; await ^}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestLocalVariable('a', 'A');
assertSuggestFunction('main', null,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertSuggestClass('A');
assertNotSuggested('Object');
}
test_AwaitExpression2() async {
// SimpleIdentifier AwaitExpression ExpressionStatement
addTestSource('''
class A {
int x;
Future y() async {return 0;}
foo() async {await ^ await y();}
}
''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestMethod('y', 'A', 'Future',
relevance: DART_RELEVANCE_LOCAL_METHOD);
assertSuggestClass('A');
assertNotSuggested('Object');
}
test_BinaryExpression_LHS() async {
// SimpleIdentifier BinaryExpression VariableDeclaration
// VariableDeclarationList VariableDeclarationStatement
addTestSource('main() {int a = 1, b = ^ + 2;}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
// We should not have the type boost, but we do.
// The reason is that coveringNode is VariableDeclaration, and the
// entity is BinaryExpression, so the expected type is int.
// It would be more correct to use BinaryExpression as coveringNode.
assertSuggestLocalVariable('a', 'int', hasTypeBoost: true);
assertNotSuggested('Object');
assertNotSuggested('b');
}
test_BinaryExpression_RHS() async {
// SimpleIdentifier BinaryExpression VariableDeclaration
// VariableDeclarationList VariableDeclarationStatement
addTestSource('main() {int a = 1, b = 2 + ^;}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestLocalVariable('a', 'int', hasSubtypeBoost: true);
assertNotSuggested('Object');
assertNotSuggested('b');
assertNotSuggested('==');
}
test_Block() async {
// Block BlockFunctionBody MethodDeclaration
addSource('/testAB.dart', '''
export "dart:math" hide max;
class A {int x;}
@deprecated D1() {int x;}
class _B {boo() { partBoo() {}} }''');
addSource('/testCD.dart', '''
String T1;
var _T2;
class C { }
class D { }''');
addSource('/testEEF.dart', '''
class EE { }
class F { }''');
addSource('/testG.dart', 'class G { }');
addSource('/testH.dart', '''
class H { }
int T3;
var _T4;'''); // not imported
addTestSource('''
import "${convertPathForImport("/testAB.dart")}";
import "${convertPathForImport("/testCD.dart")}" hide D;
import "${convertPathForImport("/testEEF.dart")}" show EE;
import "${convertPathForImport("/testG.dart")}" as g;
int T5;
var _T6;
String get T7 => 'hello';
set T8(int value) { partT8() {} }
Z D2() {int x;}
class X {
int get clog => 8;
set blog(value) { }
a() {
var f;
localF(int arg1) { }
{var x;}
^ var r;
}
void b() { }}
class Z { }''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('X', elemFile: testFile);
assertSuggestClass('Z');
assertSuggestMethod('a', 'X', null, relevance: DART_RELEVANCE_LOCAL_METHOD);
assertSuggestMethod('b', 'X', 'void',
relevance: DART_RELEVANCE_LOCAL_METHOD);
assertSuggestFunction('localF', 'Null',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertSuggestLocalVariable('f', null);
// Don't suggest locals out of scope
assertNotSuggested('r');
assertNotSuggested('x');
assertNotSuggested('partT8');
assertNotSuggested('A');
assertNotSuggested('_B');
assertNotSuggested('C');
assertNotSuggested('partBoo');
// hidden element suggested as low relevance
// but imported results are partially filtered
//assertNotSuggested('D');
//assertNotSuggested(
// 'D1', null, true, COMPLETION_RELEVANCE_LOW);
assertSuggestFunction('D2', 'Z', relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertNotSuggested('EE');
// hidden element suggested as low relevance
//assertNotSuggested('F');
// Suggested by LibraryPrefixContributor
assertNotSuggested('g');
assertNotSuggested('G');
//assertNotSuggested('H');
assertNotSuggested('Object');
assertNotSuggested('min');
assertNotSuggested('_T2');
//assertNotSuggested('T3');
assertNotSuggested('_T4');
assertSuggestTopLevelVar('T5', 'int',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
assertSuggestTopLevelVar('_T6', null, relevance: DART_RELEVANCE_DEFAULT);
assertNotSuggested('==');
assertSuggestGetter('T7', 'String',
relevance: DART_RELEVANCE_LOCAL_ACCESSOR);
assertSuggestSetter('T8', relevance: DART_RELEVANCE_LOCAL_ACCESSOR);
assertSuggestGetter('clog', 'int',
relevance: DART_RELEVANCE_LOCAL_ACCESSOR);
assertSuggestSetter('blog', relevance: DART_RELEVANCE_LOCAL_ACCESSOR);
// TODO (danrubel) suggest HtmlElement as low relevance
assertNotSuggested('HtmlElement');
assertNotSuggested('Uri');
assertNotSuggested('parseIPv6Address');
assertNotSuggested('parseHex');
}
test_Block_final() async {
// Block BlockFunctionBody MethodDeclaration
addSource('/testAB.dart', '''
export "dart:math" hide max;
class A {int x;}
@deprecated D1() {int x;}
class _B {boo() { partBoo() {}} }''');
addSource('/testCD.dart', '''
String T1;
var _T2;
class C { }
class D { }''');
addSource('/testEEF.dart', '''
class EE { }
class F { }''');
addSource('/testG.dart', 'class G { }');
addSource('/testH.dart', '''
class H { }
int T3;
var _T4;'''); // not imported
addTestSource('''
import "${convertPathForImport("/testAB.dart")}";
import "${convertPathForImport("/testCD.dart")}" hide D;
import "${convertPathForImport("/testEEF.dart")}" show EE;
import "${convertPathForImport("/testG.dart")}" as g;
int T5;
var _T6;
String get T7 => 'hello';
set T8(int value) { partT8() {} }
Z D2() {int x;}
class X {
int get clog => 8;
set blog(value) { }
a() {
var f;
localF(int arg1) { }
{var x;}
final ^
}
void b() { }}
class Z { }''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('X');
assertSuggestClass('Z');
assertNotSuggested('a');
assertNotSuggested('b');
assertNotSuggested('localF');
assertNotSuggested('f');
// Don't suggest locals out of scope
assertNotSuggested('r');
assertNotSuggested('x');
assertNotSuggested('partT8');
assertNotSuggested('A');
assertNotSuggested('_B');
assertNotSuggested('C');
assertNotSuggested('partBoo');
// hidden element suggested as low relevance
// but imported results are partially filtered
//assertNotSuggested('D');
//assertNotSuggested(
// 'D1', null, true, COMPLETION_RELEVANCE_LOW);
assertNotSuggested('D2');
assertNotSuggested('EE');
// hidden element suggested as low relevance
//assertNotSuggested('F');
// Suggested by LibraryPrefixContributor
assertNotSuggested('g');
assertNotSuggested('G');
//assertNotSuggested('H');
assertNotSuggested('Object');
assertNotSuggested('min');
//assertNotSuggested(
// 'max',
// 'num',
// false,
// COMPLETION_RELEVANCE_LOW);
assertNotSuggested('T1');
assertNotSuggested('_T2');
//assertNotSuggested('T3');
assertNotSuggested('_T4');
assertNotSuggested('T5');
assertNotSuggested('_T6');
assertNotSuggested('==');
assertNotSuggested('T7');
assertNotSuggested('T8');
assertNotSuggested('clog');
assertNotSuggested('blog');
// TODO (danrubel) suggest HtmlElement as low relevance
assertNotSuggested('HtmlElement');
assertNotSuggested('Uri');
assertNotSuggested('parseIPv6Address');
assertNotSuggested('parseHex');
}
test_Block_final2() async {
addTestSource('main() {final S^ v;}');
await computeSuggestions();
assertNotSuggested('String');
}
test_Block_final3() async {
addTestSource('main() {final ^ v;}');
await computeSuggestions();
assertNotSuggested('String');
}
test_Block_final_final() async {
// Block BlockFunctionBody MethodDeclaration
addSource('/testAB.dart', '''
export "dart:math" hide max;
class A {int x;}
@deprecated D1() {int x;}
class _B {boo() { partBoo() {}} }''');
addSource('/testCD.dart', '''
String T1;
var _T2;
class C { }
class D { }''');
addSource('/testEEF.dart', '''
class EE { }
class F { }''');
addSource('/testG.dart', 'class G { }');
addSource('/testH.dart', '''
class H { }
int T3;
var _T4;'''); // not imported
addTestSource('''
import "${convertPathForImport("/testAB.dart")}";
import "${convertPathForImport("/testCD.dart")}" hide D;
import "${convertPathForImport("/testEEF.dart")}" show EE;
import "${convertPathForImport("/testG.dart")}" as g;
int T5;
var _T6;
String get T7 => 'hello';
set T8(int value) { partT8() {} }
Z D2() {int x;}
class X {
int get clog => 8;
set blog(value) { }
a() {
final ^
final var f;
localF(int arg1) { }
{var x;}
}
void b() { }}
class Z { }''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('X');
assertSuggestClass('Z');
assertNotSuggested('a');
assertNotSuggested('b');
assertNotSuggested('localF');
assertNotSuggested('f');
// Don't suggest locals out of scope
assertNotSuggested('r');
assertNotSuggested('x');
assertNotSuggested('partT8');
assertNotSuggested('A');
assertNotSuggested('_B');
assertNotSuggested('C');
assertNotSuggested('partBoo');
// hidden element suggested as low relevance
// but imported results are partially filtered
//assertNotSuggested('D');
//assertNotSuggested(
// 'D1', null, true, COMPLETION_RELEVANCE_LOW);
assertNotSuggested('D2');
assertNotSuggested('EE');
// hidden element suggested as low relevance
//assertNotSuggested('F');
// Suggested by LibraryPrefixContributor
assertNotSuggested('g');
assertNotSuggested('G');
//assertNotSuggested('H');
assertNotSuggested('Object');
assertNotSuggested('min');
//assertNotSuggested(
// 'max',
// 'num',
// false,
// COMPLETION_RELEVANCE_LOW);
assertNotSuggested('T1');
assertNotSuggested('_T2');
//assertNotSuggested('T3');
assertNotSuggested('_T4');
assertNotSuggested('T5');
assertNotSuggested('_T6');
assertNotSuggested('==');
assertNotSuggested('T7');
assertNotSuggested('T8');
assertNotSuggested('clog');
assertNotSuggested('blog');
// TODO (danrubel) suggest HtmlElement as low relevance
assertNotSuggested('HtmlElement');
assertNotSuggested('Uri');
assertNotSuggested('parseIPv6Address');
assertNotSuggested('parseHex');
}
test_Block_final_var() async {
// Block BlockFunctionBody MethodDeclaration
addSource('/testAB.dart', '''
export "dart:math" hide max;
class A {int x;}
@deprecated D1() {int x;}
class _B {boo() { partBoo() {}} }''');
addSource('/testCD.dart', '''
String T1;
var _T2;
class C { }
class D { }''');
addSource('/testEEF.dart', '''
class EE { }
class F { }''');
addSource('/testG.dart', 'class G { }');
addSource('/testH.dart', '''
class H { }
int T3;
var _T4;'''); // not imported
addTestSource('''
import "${convertPathForImport("/testAB.dart")}";
import "${convertPathForImport("/testCD.dart")}" hide D;
import "${convertPathForImport("/testEEF.dart")}" show EE;
import "${convertPathForImport("/testG.dart")}" as g;
int T5;
var _T6;
String get T7 => 'hello';
set T8(int value) { partT8() {} }
Z D2() {int x;}
class X {
int get clog => 8;
set blog(value) { }
a() {
final ^
var f;
localF(int arg1) { }
{var x;}
}
void b() { }}
class Z { }''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('X');
assertSuggestClass('Z');
assertNotSuggested('a');
assertNotSuggested('b');
assertNotSuggested('localF');
assertNotSuggested('f');
// Don't suggest locals out of scope
assertNotSuggested('r');
assertNotSuggested('x');
assertNotSuggested('partT8');
assertNotSuggested('A');
assertNotSuggested('_B');
assertNotSuggested('C');
assertNotSuggested('partBoo');
// hidden element suggested as low relevance
// but imported results are partially filtered
//assertNotSuggested('D');
//assertNotSuggested(
// 'D1', null, true, COMPLETION_RELEVANCE_LOW);
assertNotSuggested('D2');
assertNotSuggested('EE');
// hidden element suggested as low relevance
//assertNotSuggested('F');
// Suggested by LibraryPrefixContributor
assertNotSuggested('g');
assertNotSuggested('G');
//assertNotSuggested('H');
assertNotSuggested('Object');
assertNotSuggested('min');
//assertNotSuggested(
// 'max',
// 'num',
// false,
// COMPLETION_RELEVANCE_LOW);
assertNotSuggested('T1');
assertNotSuggested('_T2');
//assertNotSuggested('T3');
assertNotSuggested('_T4');
assertNotSuggested('T5');
assertNotSuggested('_T6');
assertNotSuggested('==');
assertNotSuggested('T7');
assertNotSuggested('T8');
assertNotSuggested('clog');
assertNotSuggested('blog');
// TODO (danrubel) suggest HtmlElement as low relevance
assertNotSuggested('HtmlElement');
assertNotSuggested('Uri');
assertNotSuggested('parseIPv6Address');
assertNotSuggested('parseHex');
}
test_Block_identifier_partial() async {
addSource('/testAB.dart', '''
export "dart:math" hide max;
class A {int x;}
@deprecated D1() {int x;}
class _B { }''');
addSource('/testCD.dart', '''
String T1;
var _T2;
class C { }
class D { }''');
addSource('/testEEF.dart', '''
class EE { }
class F { }''');
addSource('/testG.dart', 'class G { }');
addSource('/testH.dart', '''
class H { }
class D3 { }
int T3;
var _T4;'''); // not imported
addTestSource('''
import "${convertPathForImport("/testAB.dart")}";
import "${convertPathForImport("/testCD.dart")}" hide D;
import "${convertPathForImport("/testEEF.dart")}" show EE;
import "${convertPathForImport("/testG.dart")}" as g;
int T5;
var _T6;
Z D2() {int x;}
class X {a() {var f; {var x;} D^ var r;} void b() { }}
class Z { }''');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertSuggestClass('X');
assertSuggestClass('Z');
assertSuggestMethod('a', 'X', null, relevance: DART_RELEVANCE_LOCAL_METHOD);
assertSuggestMethod('b', 'X', 'void',
relevance: DART_RELEVANCE_LOCAL_METHOD);
assertSuggestLocalVariable('f', null);
// Don't suggest locals out of scope
assertNotSuggested('r');
assertNotSuggested('x');
// imported elements are portially filtered
//assertNotSuggested('A');
assertNotSuggested('_B');
//assertNotSuggested('C');
// hidden element suggested as low relevance
assertNotSuggested('D');
assertNotSuggested('D1');
assertSuggestFunction('D2', 'Z', relevance: DART_RELEVANCE_LOCAL_FUNCTION);
// unimported elements suggested with low relevance
assertNotSuggested('D3');
//assertNotSuggested('EE');
// hidden element suggested as low relevance
//assertNotSuggested('F');
//assertSuggestLibraryPrefix('g');
assertNotSuggested('G');
//assertNotSuggested('H');
//assertNotSuggested('Object');
//assertNotSuggested('min');
//assertNotSuggested(
// 'max',
// 'num',
// false,
// COMPLETION_RELEVANCE_LOW);
//assertSuggestTopLevelVarGetterSetter('T1', 'String');
assertNotSuggested('_T2');
//assertNotSuggested('T3');
assertNotSuggested('_T4');
//assertSuggestTopLevelVar('T5', 'int', relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
//assertSuggestTopLevelVar('_T6', null);
assertNotSuggested('==');
// TODO (danrubel) suggest HtmlElement as low relevance
assertNotSuggested('HtmlElement');
}
test_Block_inherited_imported() async {
// Block BlockFunctionBody MethodDeclaration ClassDeclaration
resolveSource('/testB.dart', '''
lib B;
class F { var f1; f2() { } get f3 => 0; set f4(fx) { } var _pf; }
class E extends F { var e1; e2() { } }
class I { int i1; i2() { } }
class M { var m1; int m2() { } }''');
addTestSource('''
import "${convertPathForImport("/testB.dart")}";
class A extends E implements I with M {a() {^}}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
// TODO (danrubel) prefer fields over getters
// If add `get e1;` to interface I
// then suggestions include getter e1 rather than field e1
assertNotSuggested('e1');
assertNotSuggested('f1');
assertNotSuggested('i1');
assertNotSuggested('m1');
assertNotSuggested('f3');
assertNotSuggested('f4');
assertNotSuggested('e2');
assertNotSuggested('f2');
assertNotSuggested('i2');
//assertNotSuggested('m2');
assertNotSuggested('==');
}
test_Block_inherited_local() async {
// Block BlockFunctionBody MethodDeclaration ClassDeclaration
addTestSource('''
class F { var f1; f2() { } get f3 => 0; set f4(fx) { } }
class E extends F { var e1; e2() { } }
class I { int i1; i2() { } }
class M { var m1; int m2() { } }
class A extends E implements I with M {a() {^}}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('e1');
assertNotSuggested('f1');
assertNotSuggested('i1');
assertNotSuggested('m1');
assertNotSuggested('f3');
assertNotSuggested('f4');
assertNotSuggested('e2');
assertNotSuggested('f2');
assertNotSuggested('i2');
assertNotSuggested('m2');
}
test_Block_local_function() async {
addSource('/testAB.dart', '''
export "dart:math" hide max;
class A {int x;}
@deprecated D1() {int x;}
class _B {boo() { partBoo() {}} }''');
addSource('/testCD.dart', '''
String T1;
var _T2;
class C { }
class D { }''');
addSource('/testEEF.dart', '''
class EE { }
class F { }''');
addSource('/testG.dart', 'class G { }');
addSource('/testH.dart', '''
class H { }
int T3;
var _T4;'''); // not imported
addTestSource('''
import "${convertPathForImport("/testAB.dart")}";
import "${convertPathForImport("/testCD.dart")}" hide D;
import "${convertPathForImport("/testEEF.dart")}" show EE;
import "${convertPathForImport("/testG.dart")}" as g;
int T5;
var _T6;
String get T7 => 'hello';
set T8(int value) { partT8() {} }
Z D2() {int x;}
class X {
int get clog => 8;
set blog(value) { }
a() {
var f;
localF(int arg1) { }
{var x;}
p^ var r;
}
void b() { }}
class Z { }''');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertNotSuggested('partT8');
assertNotSuggested('partBoo');
assertNotSuggested('parseIPv6Address');
assertNotSuggested('parseHex');
}
test_Block_unimported() async {
addPackageSource('myBar', 'bar.dart', 'class Foo2 { Foo2() { } }');
addSource(
'/proj/testAB.dart', 'import "package:myBar/bar.dart"; class Foo { }');
testFile = '/proj/completionTest.dart';
addTestSource('class C {foo(){F^}}');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertNotSuggested('Foo');
// TODO(danrubel) implement
assertNotSuggested('Foo2');
assertNotSuggested('Future');
}
test_CascadeExpression_selector1() async {
// PropertyAccess CascadeExpression ExpressionStatement Block
addSource('/testB.dart', '''
class B { }''');
addTestSource('''
import "${convertPathForImport("/testB.dart")}";
class A {var b; X _c;}
class X{}
// looks like a cascade to the parser
// but the user is trying to get completions for a non-cascade
main() {A a; a.^.z}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('b');
assertNotSuggested('_c');
assertNotSuggested('Object');
assertNotSuggested('A');
assertNotSuggested('B');
assertNotSuggested('X');
assertNotSuggested('z');
assertNotSuggested('==');
}
test_CascadeExpression_selector2() async {
// SimpleIdentifier PropertyAccess CascadeExpression ExpressionStatement
addSource('/testB.dart', '''
class B { }''');
addTestSource('''
import "${convertPathForImport("/testB.dart")}";
class A {var b; X _c;}
class X{}
main() {A a; a..^z}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 1);
assertNotSuggested('b');
assertNotSuggested('_c');
assertNotSuggested('Object');
assertNotSuggested('A');
assertNotSuggested('B');
assertNotSuggested('X');
assertNotSuggested('z');
assertNotSuggested('==');
}
test_CascadeExpression_selector2_withTrailingReturn() async {
// PropertyAccess CascadeExpression ExpressionStatement Block
addSource('/testB.dart', '''
class B { }''');
addTestSource('''
import "${convertPathForImport("/testB.dart")}";
class A {var b; X _c;}
class X{}
main() {A a; a..^ return}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('b');
assertNotSuggested('_c');
assertNotSuggested('Object');
assertNotSuggested('A');
assertNotSuggested('B');
assertNotSuggested('X');
assertNotSuggested('z');
assertNotSuggested('==');
}
test_CascadeExpression_target() async {
// SimpleIdentifier CascadeExpression ExpressionStatement
addTestSource('''
class A {var b; X _c;}
class X{}
main() {A a; a^..b}''');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertNotSuggested('b');
assertNotSuggested('_c');
assertSuggestLocalVariable('a', 'A');
assertSuggestClass('A');
assertSuggestClass('X');
// top level results are partially filtered
//assertNotSuggested('Object');
assertNotSuggested('==');
}
test_CatchClause_onType() async {
// TypeName CatchClause TryStatement
addTestSource('class A {a() {try{var x;} on ^ {}}}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('A');
assertNotSuggested('Object');
assertNotSuggested('a');
assertNotSuggested('x');
}
test_CatchClause_onType_noBrackets() async {
// TypeName CatchClause TryStatement
addTestSource('class A {a() {try{var x;} on ^}}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('A', elemOffset: 6);
assertNotSuggested('Object');
assertNotSuggested('x');
}
test_CatchClause_typed() async {
// Block CatchClause TryStatement
addTestSource('class A {a() {try{var x;} on E catch (e) {^}}}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestParameter('e', 'E');
assertSuggestMethod('a', 'A', null, relevance: DART_RELEVANCE_LOCAL_METHOD);
assertNotSuggested('Object');
assertNotSuggested('x');
}
test_CatchClause_untyped() async {
// Block CatchClause TryStatement
addTestSource('class A {a() {try{var x;} catch (e, s) {^}}}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestParameter('e', null);
assertSuggestParameter('s', 'StackTrace');
assertSuggestMethod('a', 'A', null, relevance: DART_RELEVANCE_LOCAL_METHOD);
assertNotSuggested('Object');
assertNotSuggested('x');
}
test_ClassDeclaration_body() async {
// ClassDeclaration CompilationUnit
addSource('/testB.dart', '''
class B { }''');
addTestSource('''
import "testB.dart" as x;
@deprecated class A {^}
class _B {}
A T;''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
CompletionSuggestion suggestionA = assertSuggestClass('A',
relevance: DART_RELEVANCE_LOW, isDeprecated: true);
if (suggestionA != null) {
expect(suggestionA.element.isDeprecated, isTrue);
expect(suggestionA.element.isPrivate, isFalse);
}
CompletionSuggestion suggestionB = assertSuggestClass('_B');
if (suggestionB != null) {
expect(suggestionB.element.isDeprecated, isFalse);
expect(suggestionB.element.isPrivate, isTrue);
}
assertNotSuggested('Object');
assertNotSuggested('T');
// Suggested by LibraryPrefixContributor
assertNotSuggested('x');
}
test_ClassDeclaration_body_final() async {
// ClassDeclaration CompilationUnit
addSource('/testB.dart', '''
class B { }''');
addTestSource('''
import "testB.dart" as x;
class A {final ^}
class _B {}
A T;''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('A');
assertSuggestClass('_B');
assertNotSuggested('Object');
assertNotSuggested('T');
// Suggested by LibraryPrefixContributor
assertNotSuggested('x');
}
test_ClassDeclaration_body_final_field() async {
// ClassDeclaration CompilationUnit
addSource('/testB.dart', '''
class B { }''');
addTestSource('''
import "testB.dart" as x;
class A {final ^ A(){}}
class _B {}
A T;''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('A');
assertSuggestClass('_B');
assertNotSuggested('String');
assertNotSuggested('T');
// Suggested by LibraryPrefixContributor
assertNotSuggested('x');
}
test_ClassDeclaration_body_final_field2() async {
// ClassDeclaration CompilationUnit
addSource('/testB.dart', '''
class B { }''');
addTestSource('''
import "testB.dart" as Soo;
class A {final S^ A();}
class _B {}
A Sew;''');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertSuggestClass('A');
assertSuggestClass('_B');
assertNotSuggested('String');
assertNotSuggested('Sew');
// Suggested by LibraryPrefixContributor
assertNotSuggested('Soo');
}
test_ClassDeclaration_body_final_final() async {
// ClassDeclaration CompilationUnit
addSource('/testB.dart', '''
class B { }''');
addTestSource('''
import "testB.dart" as x;
class A {final ^ final foo;}
class _B {}
A T;''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('A');
assertSuggestClass('_B');
assertNotSuggested('Object');
assertNotSuggested('T');
// Suggested by LibraryPrefixContributor
assertNotSuggested('x');
}
test_ClassDeclaration_body_final_var() async {
// ClassDeclaration CompilationUnit
addSource('/testB.dart', '''
class B { }''');
addTestSource('''
import "testB.dart" as x;
class A {final ^ var foo;}
class _B {}
A T;''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('A');
assertSuggestClass('_B');
assertNotSuggested('Object');
assertNotSuggested('T');
// Suggested by LibraryPrefixContributor
assertNotSuggested('x');
}
test_Combinator_hide() async {
// SimpleIdentifier HideCombinator ImportDirective
addSource('/testAB.dart', '''
library libAB;
part 'partAB.dart';
class A { }
class B { }''');
addSource('/partAB.dart', '''
part of libAB;
var T1;
PB F1() => new PB();
class PB { }''');
addSource('/testCD.dart', '''
class C { }
class D { }''');
addTestSource('''
import "${convertPathForImport("/testAB.dart")}" hide ^;
import "${convertPathForImport("/testCD.dart")}";
class X {}''');
await computeSuggestions();
assertNoSuggestions();
}
test_Combinator_show() async {
// SimpleIdentifier HideCombinator ImportDirective
addSource('/testAB.dart', '''
library libAB;
part 'partAB.dart';
class A { }
class B { }''');
addSource('/partAB.dart', '''
part of libAB;
var T1;
PB F1() => new PB();
typedef PB2 F2(int blat);
class Clz = Object with Object;
class PB { }''');
addSource('/testCD.dart', '''
class C { }
class D { }''');
addTestSource('''
import "${convertPathForImport("/testAB.dart")}" show ^;
import "${convertPathForImport("/testCD.dart")}";
class X {}''');
await computeSuggestions();
assertNoSuggestions();
}
test_ConditionalExpression_elseExpression() async {
// SimpleIdentifier ConditionalExpression ReturnStatement
addSource('/testA.dart', '''
int T1;
F1() { }
class A {int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
class B {int x;}
class C {foo(){var f; {var x;} return a ? T1 : T^}}''');
await computeSuggestions();
// top level results are partially filtered based on first char
assertSuggestTopLevelVar('T2', 'int',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
// TODO (danrubel) getter is being suggested instead of top level var
//assertNotSuggested('T1');
}
test_ConditionalExpression_elseExpression_empty() async {
// SimpleIdentifier ConditionalExpression ReturnStatement
addSource('/testA.dart', '''
int T1;
F1() { }
class A {int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
class B {int x;}
class C {foo(){var f; {var x;} return a ? T1 : ^}}''');
await computeSuggestions();
assertNotSuggested('x');
assertSuggestLocalVariable('f', null);
assertSuggestMethod('foo', 'C', null,
relevance: DART_RELEVANCE_LOCAL_METHOD);
assertSuggestClass('C');
assertSuggestFunction('F2', null, relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertSuggestTopLevelVar('T2', 'int',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
assertNotSuggested('A');
assertNotSuggested('F1');
// TODO (danrubel) getter is being suggested instead of top level var
//assertNotSuggested('T1');
}
test_ConditionalExpression_partial_thenExpression() async {
// SimpleIdentifier ConditionalExpression ReturnStatement
addSource('/testA.dart', '''
int T1;
F1() { }
class A {int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
class B {int x;}
class C {foo(){var f; {var x;} return a ? T^}}''');
await computeSuggestions();
// top level results are partially filtered based on first char
assertSuggestTopLevelVar('T2', 'int',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
// TODO (danrubel) getter is being suggested instead of top level var
//assertNotSuggested('T1');
}
test_ConditionalExpression_partial_thenExpression_empty() async {
// SimpleIdentifier ConditionalExpression ReturnStatement
addSource('/testA.dart', '''
int T1;
F1() { }
class A {int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
class B {int x;}
class C {foo(){var f; {var x;} return a ? ^}}''');
await computeSuggestions();
assertNotSuggested('x');
assertSuggestLocalVariable('f', null);
assertSuggestMethod('foo', 'C', null,
relevance: DART_RELEVANCE_LOCAL_METHOD);
assertSuggestClass('C');
assertSuggestFunction('F2', null, relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertSuggestTopLevelVar('T2', 'int',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
assertNotSuggested('A');
assertNotSuggested('F1');
// TODO (danrubel) getter is being suggested instead of top level var
//assertNotSuggested('T1');
}
test_ConditionalExpression_thenExpression() async {
// SimpleIdentifier ConditionalExpression ReturnStatement
addSource('/testA.dart', '''
int T1;
F1() { }
class A {int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
class B {int x;}
class C {foo(){var f; {var x;} return a ? T^ : c}}''');
await computeSuggestions();
// top level results are partially filtered based on first char
assertSuggestTopLevelVar('T2', 'int',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
// TODO (danrubel) getter is being suggested instead of top level var
//assertNotSuggested('T1');
}
test_constructor_parameters_mixed_required_and_named() async {
addTestSource('class A {A(x, {int y}) {^}}');
await computeSuggestions();
assertSuggestParameter('x', null);
assertSuggestParameter('y', 'int');
}
test_constructor_parameters_mixed_required_and_positional() async {
addTestSource('class A {A(x, [int y]) {^}}');
await computeSuggestions();
assertSuggestParameter('x', null);
assertSuggestParameter('y', 'int');
}
test_constructor_parameters_named() async {
addTestSource('class A {A({x, int y}) {^}}');
await computeSuggestions();
assertSuggestParameter('x', null);
assertSuggestParameter('y', 'int');
}
test_constructor_parameters_positional() async {
addTestSource('class A {A([x, int y]) {^}}');
await computeSuggestions();
assertSuggestParameter('x', null);
assertSuggestParameter('y', 'int');
}
test_constructor_parameters_required() async {
addTestSource('class A {A(x, int y) {^}}');
await computeSuggestions();
assertSuggestParameter('x', null);
assertSuggestParameter('y', 'int');
}
test_ConstructorName_importedClass() async {
// SimpleIdentifier PrefixedIdentifier TypeName ConstructorName
// InstanceCreationExpression
addSource('/testB.dart', '''
lib B;
int T1;
F1() { }
class X {X.c(); X._d(); z() {}}''');
addTestSource('''
import "${convertPathForImport("/testB.dart")}";
var m;
main() {new X.^}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
// Suggested by NamedConstructorContributor
assertNotSuggested('c');
assertNotSuggested('F1');
assertNotSuggested('T1');
assertNotSuggested('_d');
assertNotSuggested('z');
assertNotSuggested('m');
}
test_ConstructorName_importedFactory() async {
// SimpleIdentifier PrefixedIdentifier TypeName ConstructorName
// InstanceCreationExpression
addSource('/testB.dart', '''
lib B;
int T1;
F1() { }
class X {factory X.c(); factory X._d(); z() {}}''');
addTestSource('''
import "${convertPathForImport("/testB.dart")}";
var m;
main() {new X.^}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
// Suggested by NamedConstructorContributor
assertNotSuggested('c');
assertNotSuggested('F1');
assertNotSuggested('T1');
assertNotSuggested('_d');
assertNotSuggested('z');
assertNotSuggested('m');
}
test_ConstructorName_importedFactory2() async {
// SimpleIdentifier PrefixedIdentifier TypeName ConstructorName
// InstanceCreationExpression
addTestSource('''
main() {new String.fr^omCharCodes([]);}''');
await computeSuggestions();
expect(replacementOffset, completionOffset - 2);
expect(replacementLength, 13);
// Suggested by NamedConstructorContributor
assertNotSuggested('fromCharCodes');
assertNotSuggested('isEmpty');
assertNotSuggested('isNotEmpty');
assertNotSuggested('length');
assertNotSuggested('Object');
assertNotSuggested('String');
}
test_ConstructorName_localClass() async {
// SimpleIdentifier PrefixedIdentifier TypeName ConstructorName
// InstanceCreationExpression
addTestSource('''
int T1;
F1() { }
class X {X.c(); X._d(); z() {}}
main() {new X.^}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
// Suggested by NamedConstructorContributor
assertNotSuggested('c');
assertNotSuggested('_d');
assertNotSuggested('F1');
assertNotSuggested('T1');
assertNotSuggested('z');
assertNotSuggested('m');
}
test_ConstructorName_localFactory() async {
// SimpleIdentifier PrefixedIdentifier TypeName ConstructorName
// InstanceCreationExpression
addTestSource('''
int T1;
F1() { }
class X {factory X.c(); factory X._d(); z() {}}
main() {new X.^}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
// Suggested by NamedConstructorContributor
assertNotSuggested('c');
assertNotSuggested('_d');
assertNotSuggested('F1');
assertNotSuggested('T1');
assertNotSuggested('z');
assertNotSuggested('m');
}
test_DefaultFormalParameter_named_expression() async {
// DefaultFormalParameter FormalParameterList MethodDeclaration
addTestSource('''
foo() { }
void bar() { }
class A {a(blat: ^) { }}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestFunction('foo', null,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertSuggestMethod('a', 'A', null, relevance: DART_RELEVANCE_LOCAL_METHOD);
assertSuggestClass('A');
assertNotSuggested('String');
assertNotSuggested('identical');
}
test_doc_classMember() async {
String docLines = r'''
/// My documentation.
/// Short description.
///
/// Longer description.
''';
void assertDoc(CompletionSuggestion suggestion) {
expect(suggestion.docSummary, 'My documentation.\nShort description.');
expect(suggestion.docComplete,
'My documentation.\nShort description.\n\nLonger description.');
}
addTestSource('''
class C {
$docLines
int myField;
$docLines
myMethod() {}
$docLines
int get myGetter => 0;
main() {^}
}''');
await computeSuggestions();
{
CompletionSuggestion suggestion = assertSuggestField('myField', 'int',
relevance: DART_RELEVANCE_LOCAL_FIELD);
assertDoc(suggestion);
}
{
CompletionSuggestion suggestion = assertSuggestMethod(
'myMethod', 'C', null,
relevance: DART_RELEVANCE_LOCAL_METHOD);
assertDoc(suggestion);
}
{
CompletionSuggestion suggestion = assertSuggestGetter('myGetter', 'int',
relevance: DART_RELEVANCE_LOCAL_ACCESSOR);
assertDoc(suggestion);
}
}
test_doc_topLevel() async {
String docLines = r'''
/// My documentation.
/// Short description.
///
/// Longer description.
''';
void assertDoc(CompletionSuggestion suggestion) {
expect(suggestion.docSummary, 'My documentation.\nShort description.');
expect(suggestion.docComplete,
'My documentation.\nShort description.\n\nLonger description.');
}
addTestSource('''
$docLines
class MyClass {}
$docLines
class MyClassTypeAlias = Object with MyClass;
$docLines
enum MyEnum {A, B, C}
$docLines
void myFunction() {}
$docLines
int myVariable;
main() {^}
''');
await computeSuggestions();
{
CompletionSuggestion suggestion = assertSuggestClass('MyClass');
assertDoc(suggestion);
}
{
CompletionSuggestion suggestion =
assertSuggestClassTypeAlias('MyClassTypeAlias');
assertDoc(suggestion);
}
{
CompletionSuggestion suggestion = assertSuggestEnum('MyEnum');
assertDoc(suggestion);
}
{
CompletionSuggestion suggestion = assertSuggestFunction(
'myFunction', 'void',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertDoc(suggestion);
}
{
CompletionSuggestion suggestion = assertSuggestTopLevelVar(
'myVariable', 'int',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
assertDoc(suggestion);
}
}
test_enum() async {
addTestSource('enum E { one, two } main() {^}');
await computeSuggestions();
assertSuggestEnum('E');
assertSuggestEnumConst('E.one');
assertSuggestEnumConst('E.two');
assertNotSuggested('one');
assertNotSuggested('two');
}
test_enum_deprecated() async {
addTestSource('@deprecated enum E { one, two } main() {^}');
await computeSuggestions();
assertSuggestEnum('E', isDeprecated: true);
assertSuggestEnumConst('E.one', isDeprecated: true);
assertSuggestEnumConst('E.two', isDeprecated: true);
assertNotSuggested('one');
assertNotSuggested('two');
}
test_enum_filter() async {
addTestSource('''
enum E { one, two }
enum F { three, four }
void foo({E e}) {}
main() {
foo(e: ^);
}
''');
await computeSuggestions();
assertSuggestEnum('E');
assertSuggestEnumConst('E.one', hasTypeBoost: true);
assertSuggestEnumConst('E.two', hasTypeBoost: true);
assertSuggestEnum('F');
assertSuggestEnumConst('F.three');
assertSuggestEnumConst('F.four');
}
test_enum_filter_assignment() async {
addTestSource('''
enum E { one, two }
enum F { three, four }
main() {
E e;
e = ^;
}
''');
await computeSuggestions();
assertSuggestEnum('E');
assertSuggestEnumConst('E.one', hasTypeBoost: true);
assertSuggestEnumConst('E.two', hasTypeBoost: true);
assertSuggestEnum('F');
assertSuggestEnumConst('F.three');
assertSuggestEnumConst('F.four');
}
test_enum_filter_binaryEquals() async {
addTestSource('''
enum E { one, two }
enum F { three, four }
main(E e) {
e == ^;
}
''');
await computeSuggestions();
assertSuggestEnum('E');
assertSuggestEnumConst('E.one', hasTypeBoost: true);
assertSuggestEnumConst('E.two', hasTypeBoost: true);
assertSuggestEnum('F');
assertSuggestEnumConst('F.three');
assertSuggestEnumConst('F.four');
}
test_enum_filter_switchCase() async {
addTestSource('''
enum E { one, two }
enum F { three, four }
main(E e) {
switch (e) {
case ^
}
}
''');
await computeSuggestions();
assertSuggestEnum('E');
assertSuggestEnumConst('E.one', hasTypeBoost: true);
assertSuggestEnumConst('E.two', hasTypeBoost: true);
assertSuggestEnum('F');
assertSuggestEnumConst('F.three');
assertSuggestEnumConst('F.four');
}
test_enum_filter_variableDeclaration() async {
addTestSource('''
enum E { one, two }
enum F { three, four }
main() {
E e = ^;
}
''');
await computeSuggestions();
assertSuggestEnum('E');
assertSuggestEnumConst('E.one', hasTypeBoost: true);
assertSuggestEnumConst('E.two', hasTypeBoost: true);
assertSuggestEnum('F');
assertSuggestEnumConst('F.three');
assertSuggestEnumConst('F.four');
}
test_ExpressionStatement_identifier() async {
// SimpleIdentifier ExpressionStatement Block
addSource('/testA.dart', '''
_B F1() { }
class A {int x;}
class _B { }''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
typedef int F2(int blat);
class Clz = Object with Object;
class C {foo(){^} void bar() {}}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('A');
assertNotSuggested('F1');
assertSuggestClass('C');
assertSuggestMethod('foo', 'C', null,
relevance: DART_RELEVANCE_LOCAL_METHOD);
assertSuggestMethod('bar', 'C', 'void',
relevance: DART_RELEVANCE_LOCAL_METHOD);
assertSuggestFunctionTypeAlias('F2', 'int');
assertSuggestClassTypeAlias('Clz');
assertSuggestClass('C');
assertNotSuggested('x');
assertNotSuggested('_B');
}
test_ExpressionStatement_name() async {
// ExpressionStatement Block BlockFunctionBody MethodDeclaration
addSource('/testA.dart', '''
B T1;
class B{}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
class C {a() {C ^}}''');
await computeSuggestions();
assertNoSuggestions();
}
test_FieldDeclaration_name_typed() async {
// SimpleIdentifier VariableDeclaration VariableDeclarationList
// FieldDeclaration
addSource('/testA.dart', 'class A { }');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
class C {A ^}''');
await computeSuggestions();
assertNoSuggestions();
}
test_FieldDeclaration_name_var() async {
// SimpleIdentifier VariableDeclaration VariableDeclarationList
// FieldDeclaration
addSource('/testA.dart', 'class A { }');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
class C {var ^}''');
await computeSuggestions();
assertNoSuggestions();
}
test_FieldFormalParameter_in_non_constructor() async {
// SimpleIdentifier FieldFormalParameter FormalParameterList
addTestSource('class A {B(this.^foo) {}}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 3);
assertNoSuggestions();
}
test_ForEachStatement() async {
// SimpleIdentifier ForEachStatement
addTestSource('main() {List<int> values; for (int index in ^)}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestLocalVariable('values', 'List<int>');
assertNotSuggested('index');
}
test_ForEachStatement2() async {
// SimpleIdentifier ForEachStatement
addTestSource('main() {List<int> values; for (int index in i^)}');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertSuggestLocalVariable('values', 'List<int>');
assertNotSuggested('index');
}
test_ForEachStatement3() async {
// SimpleIdentifier ParenthesizedExpression ForEachStatement
addTestSource('main() {List<int> values; for (int index in (i^))}');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertSuggestLocalVariable('values', 'List<int>');
assertNotSuggested('index');
}
test_ForEachStatement_body_typed() async {
// Block ForEachStatement
addTestSource('main(args) {for (int foo in bar) {^}}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestParameter('args', null);
assertSuggestLocalVariable('foo', 'int');
assertNotSuggested('Object');
}
test_ForEachStatement_body_untyped() async {
// Block ForEachStatement
addTestSource('main(args) {for (foo in bar) {^}}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestParameter('args', null);
assertSuggestLocalVariable('foo', null);
assertNotSuggested('Object');
}
test_ForEachStatement_iterable() async {
// SimpleIdentifier ForEachStatement Block
addTestSource('main(args) {for (int foo in ^) {}}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestParameter('args', null);
assertNotSuggested('Object');
}
test_ForEachStatement_loopVariable() async {
// SimpleIdentifier ForEachStatement Block
addTestSource('main(args) {for (^ in args) {}}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('args');
assertNotSuggested('String');
}
test_ForEachStatement_loopVariable_type() async {
// SimpleIdentifier ForEachStatement Block
addTestSource('main(args) {for (^ foo in args) {}}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('args');
assertNotSuggested('foo');
assertNotSuggested('String');
}
test_ForEachStatement_loopVariable_type2() async {
// DeclaredIdentifier ForEachStatement Block
addTestSource('main(args) {for (S^ foo in args) {}}');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertNotSuggested('args');
assertNotSuggested('foo');
assertNotSuggested('String');
}
test_FormalParameterList() async {
// FormalParameterList MethodDeclaration
addTestSource('''
foo() { }
void bar() { }
class A {a(^) { }}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('foo');
assertNotSuggested('a');
assertSuggestClass('A');
assertNotSuggested('String');
assertNotSuggested('identical');
assertNotSuggested('bar');
}
test_ForStatement_body() async {
// Block ForStatement
addTestSource('main(args) {for (int i; i < 10; ++i) {^}}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestLocalVariable('i', 'int');
assertNotSuggested('Object');
}
test_ForStatement_condition() async {
// SimpleIdentifier ForStatement
addTestSource('main() {for (int index = 0; i^)}');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertSuggestLocalVariable('index', 'int');
}
test_ForStatement_initializer() async {
// SimpleIdentifier ForStatement
addTestSource('main() {List a; for (^)}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('a');
assertNotSuggested('Object');
assertNotSuggested('int');
}
test_ForStatement_updaters() async {
// SimpleIdentifier ForStatement
addTestSource('main() {for (int index = 0; index < 10; i^)}');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertSuggestLocalVariable('index', 'int');
}
test_ForStatement_updaters_prefix_expression() async {
// SimpleIdentifier PrefixExpression ForStatement
addTestSource('''
void bar() { }
main() {for (int index = 0; index < 10; ++i^)}''');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertSuggestLocalVariable('index', 'int');
assertSuggestFunction('main', null,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertNotSuggested('bar');
}
test_function_parameters_mixed_required_and_named() async {
addTestSource('''
void m(x, {int y}) {}
class B extends A {
main() {^}
}
''');
await computeSuggestions();
CompletionSuggestion suggestion = assertSuggestFunction('m', 'void',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
expect(suggestion.parameterNames, hasLength(2));
expect(suggestion.parameterNames[0], 'x');
expect(suggestion.parameterTypes[0], 'dynamic');
expect(suggestion.parameterNames[1], 'y');
expect(suggestion.parameterTypes[1], 'int');
expect(suggestion.requiredParameterCount, 1);
expect(suggestion.hasNamedParameters, true);
}
test_function_parameters_mixed_required_and_positional() async {
addTestSource('''
void m(x, [int y]) {}
class B extends A {
main() {^}
}
''');
await computeSuggestions();
CompletionSuggestion suggestion = assertSuggestFunction('m', 'void',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
expect(suggestion.parameterNames, hasLength(2));
expect(suggestion.parameterNames[0], 'x');
expect(suggestion.parameterTypes[0], 'dynamic');
expect(suggestion.parameterNames[1], 'y');
expect(suggestion.parameterTypes[1], 'int');
expect(suggestion.requiredParameterCount, 1);
expect(suggestion.hasNamedParameters, false);
}
test_function_parameters_named() async {
addTestSource('''
void m({x, int y}) {}
class B extends A {
main() {^}
}
''');
await computeSuggestions();
CompletionSuggestion suggestion = assertSuggestFunction('m', 'void',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
expect(suggestion.parameterNames, hasLength(2));
expect(suggestion.parameterNames[0], 'x');
expect(suggestion.parameterTypes[0], 'dynamic');
expect(suggestion.parameterNames[1], 'y');
expect(suggestion.parameterTypes[1], 'int');
expect(suggestion.requiredParameterCount, 0);
expect(suggestion.hasNamedParameters, true);
}
test_function_parameters_none() async {
addTestSource('''
void m() {}
class B extends A {
main() {^}
}
''');
await computeSuggestions();
CompletionSuggestion suggestion = assertSuggestFunction('m', 'void',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
expect(suggestion.parameterNames, isEmpty);
expect(suggestion.parameterTypes, isEmpty);
expect(suggestion.requiredParameterCount, 0);
expect(suggestion.hasNamedParameters, false);
}
test_function_parameters_positional() async {
addTestSource('''
void m([x, int y]) {}
class B extends A {
main() {^}
}
''');
await computeSuggestions();
CompletionSuggestion suggestion = assertSuggestFunction('m', 'void',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
expect(suggestion.parameterNames, hasLength(2));
expect(suggestion.parameterNames[0], 'x');
expect(suggestion.parameterTypes[0], 'dynamic');
expect(suggestion.parameterNames[1], 'y');
expect(suggestion.parameterTypes[1], 'int');
expect(suggestion.requiredParameterCount, 0);
expect(suggestion.hasNamedParameters, false);
}
test_function_parameters_required() async {
addTestSource('''
void m(x, int y) {}
class B extends A {
main() {^}
}
''');
await computeSuggestions();
CompletionSuggestion suggestion = assertSuggestFunction('m', 'void',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
expect(suggestion.parameterNames, hasLength(2));
expect(suggestion.parameterNames[0], 'x');
expect(suggestion.parameterTypes[0], 'dynamic');
expect(suggestion.parameterNames[1], 'y');
expect(suggestion.parameterTypes[1], 'int');
expect(suggestion.requiredParameterCount, 2);
expect(suggestion.hasNamedParameters, false);
}
test_FunctionDeclaration_returnType_afterComment() async {
// ClassDeclaration CompilationUnit
addSource('/testA.dart', '''
int T1;
F1() { }
typedef D1();
class C1 {C1(this.x) { } int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
typedef D2();
class C2 { }
/* */ ^ zoo(z) { } String name;''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('Object');
assertNotSuggested('T1');
assertNotSuggested('F1');
assertNotSuggested('D1');
assertNotSuggested('C1');
assertNotSuggested('T2');
assertNotSuggested('F2');
assertSuggestFunctionTypeAlias('D2', null);
assertSuggestClass('C2');
assertNotSuggested('name');
}
test_FunctionDeclaration_returnType_afterComment2() async {
// FunctionDeclaration ClassDeclaration CompilationUnit
addSource('/testA.dart', '''
int T1;
F1() { }
typedef D1();
class C1 {C1(this.x) { } int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
typedef D2();
class C2 { }
/** */ ^ zoo(z) { } String name;''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('Object');
assertNotSuggested('T1');
assertNotSuggested('F1');
assertNotSuggested('D1');
assertNotSuggested('C1');
assertNotSuggested('T2');
assertNotSuggested('F2');
assertSuggestFunctionTypeAlias('D2', null);
assertSuggestClass('C2');
assertNotSuggested('name');
}
test_FunctionDeclaration_returnType_afterComment3() async {
// FunctionDeclaration ClassDeclaration CompilationUnit
addSource('/testA.dart', '''
int T1;
F1() { }
typedef D1();
class C1 {C1(this.x) { } int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
typedef D2();
/// some dartdoc
class C2 { }
^ zoo(z) { } String name;''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('Object');
assertNotSuggested('T1');
assertNotSuggested('F1');
assertNotSuggested('D1');
assertNotSuggested('C1');
assertNotSuggested('T2');
assertNotSuggested('F2');
assertSuggestFunctionTypeAlias('D2', null);
assertSuggestClass('C2');
assertNotSuggested('name');
}
test_FunctionExpression_body_function() async {
// Block BlockFunctionBody FunctionExpression
addTestSource('''
void bar() { }
String foo(List args) {x.then((R b) {^});}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
var f = assertSuggestFunction('foo', 'String',
isDeprecated: false, relevance: DART_RELEVANCE_LOCAL_FUNCTION);
if (f != null) {
expect(f.element.isPrivate, isFalse);
}
assertSuggestFunction('bar', 'void',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertSuggestParameter('args', 'List<dynamic>');
assertSuggestParameter('b', 'R');
assertNotSuggested('Object');
}
test_IfStatement() async {
// SimpleIdentifier IfStatement
addTestSource('''
class A {var b; X _c; foo() {A a; if (true) ^}}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestField('b', null, relevance: DART_RELEVANCE_LOCAL_FIELD);
assertSuggestField('_c', 'X', relevance: DART_RELEVANCE_DEFAULT);
assertNotSuggested('Object');
assertSuggestClass('A');
assertNotSuggested('==');
}
test_IfStatement_condition() async {
// SimpleIdentifier IfStatement Block BlockFunctionBody
addTestSource('''
class A {int x; int y() => 0;}
main(){var a; if (^)}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestLocalVariable('a', null);
assertSuggestFunction('main', null,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertSuggestClass('A');
assertNotSuggested('Object');
}
test_IfStatement_empty() async {
// SimpleIdentifier IfStatement
addTestSource('''
class A {var b; X _c; foo() {A a; if (^) something}}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestField('b', null, relevance: DART_RELEVANCE_LOCAL_FIELD);
assertSuggestField('_c', 'X', relevance: DART_RELEVANCE_DEFAULT);
assertNotSuggested('Object');
assertSuggestClass('A');
assertNotSuggested('==');
}
test_IfStatement_empty_private() async {
// SimpleIdentifier IfStatement
addTestSource('''
class A {var b; X _c; foo() {A a; if (_^) something}}''');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertSuggestField('b', null, relevance: DART_RELEVANCE_LOCAL_FIELD);
assertSuggestField('_c', 'X', relevance: DART_RELEVANCE_LOCAL_FIELD);
assertNotSuggested('Object');
assertSuggestClass('A');
assertNotSuggested('==');
}
test_IfStatement_invocation() async {
// SimpleIdentifier PrefixIdentifier IfStatement
addTestSource('''
main() {var a; if (a.^) something}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('toString');
assertNotSuggested('Object');
assertNotSuggested('A');
assertNotSuggested('==');
}
test_ignore_symbol_being_completed() async {
addTestSource('class MyClass { } main(MC^) { }');
await computeSuggestions();
assertSuggestClass('MyClass');
assertNotSuggested('MC');
}
test_ImportDirective_dart() async {
// SimpleStringLiteral ImportDirective
addTestSource('''
import "dart^";
main() {}''');
await computeSuggestions();
assertNoSuggestions();
}
test_inDartDoc_reference3() async {
addTestSource('''
/// The [^]
main(aaa, bbb) {}''');
await computeSuggestions();
assertSuggestFunction('main', null,
kind: CompletionSuggestionKind.IDENTIFIER,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
}
test_inDartDoc_reference4() async {
addTestSource('''
/// The [m^]
main(aaa, bbb) {}''');
await computeSuggestions();
assertSuggestFunction('main', null,
kind: CompletionSuggestionKind.IDENTIFIER,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
}
test_IndexExpression() async {
// ExpressionStatement Block
addSource('/testA.dart', '''
int T1;
F1() { }
class A {int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
class B {int x;}
class C {foo(){var f; {var x;} f[^]}}''');
await computeSuggestions();
assertNotSuggested('x');
assertSuggestLocalVariable('f', null);
assertSuggestMethod('foo', 'C', null,
relevance: DART_RELEVANCE_LOCAL_METHOD);
assertSuggestClass('C');
assertSuggestFunction('F2', null, relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertSuggestTopLevelVar('T2', 'int',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
assertNotSuggested('A');
assertNotSuggested('F1');
// TODO (danrubel) getter is being suggested instead of top level var
//assertNotSuggested('T1');
}
test_IndexExpression2() async {
// SimpleIdentifier IndexExpression ExpressionStatement Block
addSource('/testA.dart', '''
int T1;
F1() { }
class A {int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
class B {int x;}
class C {foo(){var f; {var x;} f[T^]}}''');
await computeSuggestions();
// top level results are partially filtered based on first char
assertSuggestTopLevelVar('T2', 'int',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
// TODO (danrubel) getter is being suggested instead of top level var
//assertNotSuggested('T1');
}
test_inferredType() async {
addTestSource('main() { var v = 42; ^ }');
await computeSuggestions();
assertSuggestLocalVariable('v', 'int');
}
test_InstanceCreationExpression() async {
addTestSource('''
class A {foo(){var f; {var x;}}}
class B {B(this.x, [String boo]) { } int x;}
class C {C.bar({boo: 'hoo', int z: 0}) { } }
main() {new ^ String x = "hello";}''');
await computeSuggestions();
// Suggested by LocalConstructorContributor
assertNoSuggestions();
}
test_InstanceCreationExpression_imported() async {
// SimpleIdentifier TypeName ConstructorName InstanceCreationExpression
addSource('/testA.dart', '''
int T1;
F1() { }
class A {A(this.x) { } int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
import "dart:async";
int T2;
F2() { }
class B {B(this.x, [String boo]) { } int x;}
class C {foo(){var f; {var x;} new ^}}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('Object');
assertNotSuggested('Future');
assertNotSuggested('A');
// Suggested by LocalConstructorContributor
assertNotSuggested('B');
assertNotSuggested('C');
assertNotSuggested('f');
assertNotSuggested('x');
assertNotSuggested('foo');
assertNotSuggested('F1');
assertNotSuggested('F2');
assertNotSuggested('T1');
assertNotSuggested('T2');
}
test_InstanceCreationExpression_unimported() async {
// SimpleIdentifier TypeName ConstructorName InstanceCreationExpression
addSource('/testAB.dart', 'class Foo { }');
addTestSource('class C {foo(){new F^}}');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertNotSuggested('Future');
assertNotSuggested('Foo');
}
test_InterpolationExpression() async {
// SimpleIdentifier InterpolationExpression StringInterpolation
addSource('/testA.dart', '''
int T1;
F1() { }
typedef D1();
class C1 {C1(this.x) { } int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
typedef D2();
class C2 { }
main() {String name; print("hello \$^");}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('Object');
assertNotSuggested('T1');
assertNotSuggested('F1');
assertNotSuggested('D1');
assertNotSuggested('C1');
assertSuggestTopLevelVar('T2', 'int',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
assertSuggestFunction('F2', null, relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertNotSuggested('D2');
assertNotSuggested('C2');
assertSuggestLocalVariable('name', 'String');
}
test_InterpolationExpression_block() async {
// SimpleIdentifier InterpolationExpression StringInterpolation
addSource('/testA.dart', '''
int T1;
F1() { }
typedef D1();
class C1 {C1(this.x) { } int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
typedef D2();
class C2 { }
main() {String name; print("hello \${^}");}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('Object');
assertNotSuggested('T1');
assertNotSuggested('F1');
assertNotSuggested('D1');
assertNotSuggested('C1');
assertSuggestTopLevelVar('T2', 'int',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
assertSuggestFunction('F2', null, relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertSuggestFunctionTypeAlias('D2', null);
assertSuggestClass('C2');
assertSuggestLocalVariable('name', 'String');
}
test_InterpolationExpression_block2() async {
// SimpleIdentifier InterpolationExpression StringInterpolation
addTestSource('main() {String name; print("hello \${n^}");}');
await computeSuggestions();
assertSuggestLocalVariable('name', 'String');
// top level results are partially filtered
//assertNotSuggested('Object');
}
test_InterpolationExpression_prefix_selector() async {
// SimpleIdentifier PrefixedIdentifier InterpolationExpression
addTestSource('main() {String name; print("hello \${name.^}");}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('length');
assertNotSuggested('name');
assertNotSuggested('Object');
assertNotSuggested('==');
}
test_InterpolationExpression_prefix_selector2() async {
// SimpleIdentifier PrefixedIdentifier InterpolationExpression
addTestSource('main() {String name; print("hello \$name.^");}');
await computeSuggestions();
assertNoSuggestions();
}
test_InterpolationExpression_prefix_target() async {
// SimpleIdentifier PrefixedIdentifier InterpolationExpression
addTestSource('main() {String name; print("hello \${nam^e.length}");}');
await computeSuggestions();
assertSuggestLocalVariable('name', 'String');
// top level results are partially filtered
//assertNotSuggested('Object');
assertNotSuggested('length');
}
test_IsExpression() async {
// SimpleIdentifier TypeName IsExpression IfStatement
addSource('/testB.dart', '''
lib B;
foo() { }
class X {X.c(); X._d(); z() {}}''');
addTestSource('''
import "${convertPathForImport("/testB.dart")}";
class Y {Y.c(); Y._d(); z() {}}
main() {var x; if (x is ^) { }}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('X');
assertSuggestClass('Y');
assertNotSuggested('x');
assertNotSuggested('main');
assertNotSuggested('foo');
}
test_IsExpression_target() async {
// IfStatement Block BlockFunctionBody
addTestSource('''
foo() { }
void bar() { }
class A {int x; int y() => 0;}
main(){var a; if (^ is A)}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestLocalVariable('a', null);
assertSuggestFunction('main', null,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertSuggestFunction('foo', null,
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertNotSuggested('bar');
assertSuggestClass('A');
assertNotSuggested('Object');
}
test_IsExpression_type() async {
// SimpleIdentifier TypeName IsExpression IfStatement
addTestSource('''
class A {int x; int y() => 0;}
main(){var a; if (a is ^)}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('a');
assertNotSuggested('main');
assertSuggestClass('A');
assertNotSuggested('Object');
}
test_IsExpression_type_filter_extends() async {
// SimpleIdentifier TypeName IsExpression IfStatement
addTestSource('''
class A {} class B extends A {} class C extends A {} class D {}
f(A a){ if (a is ^) {}}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('B');
assertSuggestClass('C');
assertNotSuggested('A');
assertNotSuggested('D');
assertNotSuggested('Object');
}
test_IsExpression_type_filter_implements() async {
// SimpleIdentifier TypeName IsExpression IfStatement
addTestSource('''
class A {} class B implements A {} class C implements A {} class D {}
f(A a){ if (a is ^) {}}''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('B');
assertSuggestClass('C');
assertNotSuggested('A');
assertNotSuggested('D');
assertNotSuggested('Object');
}
test_IsExpression_type_filter_undefined_type() async {
// SimpleIdentifier TypeName AsExpression
addTestSource('''
class A {}
f(U u){ (u as ^) }''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertSuggestClass('A');
}
test_IsExpression_type_partial() async {
// SimpleIdentifier TypeName IsExpression IfStatement
addTestSource('''
class A {int x; int y() => 0;}
main(){var a; if (a is Obj^)}''');
await computeSuggestions();
expect(replacementOffset, completionOffset - 3);
expect(replacementLength, 3);
assertNotSuggested('a');
assertNotSuggested('main');
assertSuggestClass('A');
assertNotSuggested('Object');
}
test_keyword() async {
addSource('/testB.dart', '''
lib B;
int newT1;
int T1;
nowIsIt() { }
class X {factory X.c(); factory X._d(); z() {}}''');
addTestSource('''
import "${convertPathForImport("/testB.dart")}";
String newer() {}
var m;
main() {new^ X.c();}''');
await computeSuggestions();
expect(replacementOffset, completionOffset - 3);
expect(replacementLength, 3);
assertNotSuggested('c');
assertNotSuggested('_d');
// Imported suggestion are filtered by 1st character
assertNotSuggested('nowIsIt');
assertNotSuggested('T1');
assertNotSuggested('newT1');
assertNotSuggested('z');
assertSuggestTopLevelVar('m', 'dynamic',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
assertSuggestFunction('newer', 'String',
relevance: DART_RELEVANCE_LOCAL_FUNCTION);
}
test_Literal_list() async {
// ']' ListLiteral ArgumentList MethodInvocation
addTestSource('main() {var Some; print([^]);}');
await computeSuggestions();
assertSuggestLocalVariable('Some', null);
assertNotSuggested('String');
}
test_Literal_list2() async {
// SimpleIdentifier ListLiteral ArgumentList MethodInvocation
addTestSource('main() {var Some; print([S^]);}');
await computeSuggestions();
assertSuggestLocalVariable('Some', null);
assertNotSuggested('String');
}
test_Literal_string() async {
// SimpleStringLiteral ExpressionStatement Block
addTestSource('class A {a() {"hel^lo"}}');
await computeSuggestions();
assertNoSuggestions();
}
test_localVariableDeclarationName() async {
addTestSource('main() {String m^}');
await computeSuggestions();
assertNotSuggested('main');
assertNotSuggested('min');
}
test_MapLiteralEntry() async {
// MapLiteralEntry MapLiteral VariableDeclaration
addSource('/testA.dart', '''
int T1;
F1() { }
typedef D1();
class C1 {C1(this.x) { } int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
typedef D2();
class C2 { }
foo = {^''');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
assertNotSuggested('Object');
assertNotSuggested('T1');
assertNotSuggested('F1');
assertNotSuggested('D1');
assertNotSuggested('C1');
assertSuggestTopLevelVar('T2', 'int',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
assertSuggestFunction('F2', null, relevance: DART_RELEVANCE_LOCAL_FUNCTION);
assertSuggestFunctionTypeAlias('D2', null);
assertSuggestClass('C2');
}
test_MapLiteralEntry1() async {
// MapLiteralEntry MapLiteral VariableDeclaration
addSource('/testA.dart', '''
int T1;
F1() { }
typedef D1();
class C1 {C1(this.x) { } int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
typedef D2();
class C2 { }
foo = {T^''');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertNotSuggested('T1');
assertSuggestTopLevelVar('T2', 'int',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
}
test_MapLiteralEntry2() async {
// SimpleIdentifier MapLiteralEntry MapLiteral VariableDeclaration
addSource('/testA.dart', '''
int T1;
F1() { }
typedef D1();
class C1 {C1(this.x) { } int x;}''');
addTestSource('''
import "${convertPathForImport("/testA.dart")}";
int T2;
F2() { }
typedef D2();
class C2 { }
foo = {7:T^};''');
await computeSuggestions();
expect(replacementOffset, completionOffset - 1);
expect(replacementLength, 1);
assertNotSuggested('T1');
assertSuggestTopLevelVar('T2', 'int',
relevance: DART_RELEVANCE_LOCAL_TOP_LEVEL_VARIABLE);
}
test_method_parameters_mixed_required_and_named() async {
addTestSource('''
class A {
void m(x, {int y}) {}
}
class B extends A {
main() {^}
}
''');
await computeSuggestions();
assertNotSuggested('m');
}
test_method_parameters_mixed_required_and_positional() async {
addTestSource('''
class A {
void m(x, [int y]) {}
}
class B extends A {
main() {^}
}
''');
await computeSuggestions();
assertNotSuggested('m');
}
test_method_parameters_named() async {
addTestSource('''
class A {
void m({x, int y}) {}
}
class B extends A {
main() {^}
}
''');
await computeSuggestions();
assertNotSuggested('m');
}
test_method_parameters_none() async {
addTestSource('''
class A {
void m() {}
}
class B extends A {
main() {^}
}
''');
await computeSuggestions();
assertNotSuggested('m');
}
test_method_parameters_positional() async {
addTestSource('''
class A {
void m([x, int y]) {}
}
class B extends A {
main() {^}
}
''');
await computeSuggestions();
assertNotSuggested('m');
}
test_method_parameters_required() async {
addTestSource('''
class A {
void m(x, int y) {}
}
class B extends A {
main() {^}
}
''');
await computeSuggestions();
assertNotSuggested('m');
}
test_MethodDeclaration_body_getters() async {
// Block BlockFunctionBody MethodDeclaration
addTestSource('class A {@deprecated X get f => 0; Z a() {^} get _g => 1;}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
CompletionSuggestion methodA = assertSuggestMethod('a', 'A', 'Z',
relevance: DART_RELEVANCE_LOCAL_METHOD);
if (methodA != null) {
expect(methodA.element.isDeprecated, isFalse);
expect(methodA.element.isPrivate, isFalse);
}
CompletionSuggestion getterF = assertSuggestGetter('f', 'X',
relevance: DART_RELEVANCE_LOW, isDeprecated: true);
if (getterF != null) {
expect(getterF.element.isDeprecated, isTrue);
expect(getterF.element.isPrivate, isFalse);
}
CompletionSuggestion getterG =
assertSuggestGetter('_g', null, relevance: DART_RELEVANCE_DEFAULT);
if (getterG != null) {
expect(getterG.element.isDeprecated, isFalse);
expect(getterG.element.isPrivate, isTrue);
}
}
test_MethodDeclaration_body_static() async {
// Block BlockFunctionBody MethodDeclaration
addSource('/testC.dart', '''
class C {
c1() {}
var c2;
static c3() {}
static var c4;}''');
addTestSource('''
import "${convertPathForImport("/testC.dart")}";
class B extends C {
b1() {}
var b2;
static b3() {}
static var b4;}
class A extends B {
a1() {}
var a2;
static a3() {}
static var a4;
static a() {^}}''');
await computeSuggestions();
assertNotSuggested('a1');
assertNotSuggested('a2');
assertSuggestMethod('a3', 'A', null,
relevance: DART_RELEVANCE_LOCAL_METHOD);
assertSuggestField('a4', null, relevance: DART_RELEVANCE_LOCAL_FIELD);
assertNotSuggested('b1');
assertNotSuggested('b2');
assertNotSuggested('b3');
assertNotSuggested('b4');
assertNotSuggested('c1');
assertNotSuggested('c2');
assertNotSuggested('c3');
assertNotSuggested('c4');
}
test_MethodDeclaration_members() async {
// Block BlockFunctionBody MethodDeclaration
addTestSource('class A {@deprecated X f; Z _a() {^} var _g;}');
await computeSuggestions();
expect(replacementOffset, completionOffset);
expect(replacementLength, 0);
CompletionSuggestion methodA =
assertSuggestMethod('_a', 'A', 'Z', relevance: DART_RELEVANCE_DEFAULT);
if (methodA != null) {
expect(methodA.element.isDeprecated, isFalse);
expect(methodA.element.isPrivate, isTrue);
}
CompletionSuggestion getterF = assertSuggestField('f', 'X',
relevance: DART_RELEVANCE_LOW, isDeprecated: true);
if (getterF != null) {
expect(getterF.element.isDeprecated, isTrue);
expect(getterF.element.isPrivate, isFalse);
expect(getterF