Google Git
Sign in
dart / sdk / 7cf078c05dd47126e1c66e42a33b58ecf7aa3998 / . / pkg / analyzer / test / src / dart / analysis / search_test.dart
blob: 25080507af4146082c6664a5cfc510a40142c88d [file] [log] [blame]
// Copyright (c) 2016, 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 'dart:async';
import 'dart:collection';
import 'package:analyzer/dart/ast/ast.dart' hide Declaration;
import 'package:analyzer/dart/ast/standard_resolution_map.dart';
import 'package:analyzer/dart/element/element.dart';
import 'package:analyzer/src/dart/analysis/driver.dart';
import 'package:analyzer/src/dart/analysis/search.dart';
import 'package:analyzer/src/dart/ast/utilities.dart';
import 'package:analyzer/src/dart/element/member.dart';
import 'package:analyzer/src/generated/testing/element_search.dart';
import 'package:test/test.dart';
import 'package:test_reflective_loader/test_reflective_loader.dart';
import 'base.dart';
main() {
defineReflectiveSuite(() {
defineReflectiveTests(SearchTest);
});
}
class ExpectedResult {
final Element enclosingElement;
final SearchResultKind kind;
final int offset;
final int length;
final bool isResolved;
final bool isQualified;
ExpectedResult(this.enclosingElement, this.kind, this.offset, this.length,
{this.isResolved: true, this.isQualified: false});
bool operator ==(Object result) {
return result is SearchResult &&
result.kind == this.kind &&
result.isResolved == this.isResolved &&
result.isQualified == this.isQualified &&
result.offset == this.offset &&
result.length == this.length &&
result.enclosingElement == this.enclosingElement;
}
@override
String toString() {
StringBuffer buffer = new StringBuffer();
buffer.write("ExpectedResult(kind=");
buffer.write(kind);
buffer.write(", enclosingElement=");
buffer.write(enclosingElement);
buffer.write(", offset=");
buffer.write(offset);
buffer.write(", length=");
buffer.write(length);
buffer.write(", isResolved=");
buffer.write(isResolved);
buffer.write(", isQualified=");
buffer.write(isQualified);
buffer.write(")");
return buffer.toString();
}
}
@reflectiveTest
class SearchTest extends BaseAnalysisDriverTest {
static const testUri = 'package:test/test.dart';
CompilationUnit testUnit;
CompilationUnitElement testUnitElement;
LibraryElement testLibraryElement;
test_classMembers_class() async {
await _resolveTestUnit('''
class A {
test() {}
}
class B {
int test = 1;
int testTwo = 2;
main() {
int test = 3;
}
}
''');
ClassElement a = _findElement('A');
ClassElement b = _findElement('B');
expect(await driver.search.classMembers('test'),
unorderedEquals([a.methods[0], b.fields[0]]));
}
test_classMembers_importNotDart() async {
await _resolveTestUnit('''
import 'not-dart.txt';
''');
expect(await driver.search.classMembers('test'), isEmpty);
}
test_classMembers_mixin() async {
await _resolveTestUnit('''
mixin A {
test() {}
}
mixin B {
int test = 1;
int testTwo = 2;
main() {
int test = 3;
}
}
''');
ClassElement a = _findElement('A');
ClassElement b = _findElement('B');
expect(await driver.search.classMembers('test'),
unorderedEquals([a.methods[0], b.fields[0]]));
}
test_declarations_class() async {
await _resolveTestUnit('''
class C {
int f;
C();
C.named();
int get g => 0;
void set s(_) {}
void m() {}
}
''');
var files = new LinkedHashSet<String>();
List<Declaration> declarations =
await driver.search.declarations(null, null, files);
_assertHasDeclaration(declarations, 'C', DeclarationKind.CLASS,
offset: 6, codeOffset: 0, codeLength: 91);
_assertHasDeclaration(declarations, 'f', DeclarationKind.FIELD,
offset: 16, codeOffset: 12, codeLength: 5, className: 'C');
_assertHasDeclaration(declarations, '', DeclarationKind.CONSTRUCTOR,
offset: 21, codeOffset: 21, codeLength: 4, className: 'C');
_assertHasDeclaration(declarations, 'named', DeclarationKind.CONSTRUCTOR,
offset: 30, codeOffset: 28, codeLength: 10, className: 'C');
_assertHasDeclaration(declarations, 'g', DeclarationKind.GETTER,
offset: 49, codeOffset: 41, codeLength: 15, className: 'C');
_assertHasDeclaration(declarations, 's', DeclarationKind.SETTER,
offset: 68, codeOffset: 59, codeLength: 16, className: 'C');
_assertHasDeclaration(declarations, 'm', DeclarationKind.METHOD,
offset: 83, codeOffset: 78, codeLength: 11, className: 'C');
}
test_declarations_discover() async {
var t = _p('/test/lib/t.dart');
var a = _p('/aaa/lib/a.dart');
var b = _p('/bbb/lib/b.dart');
var c = _p('/ccc/lib/c.dart');
provider.newFile(t, 'class T {}');
provider.newFile(a, 'class A {}');
provider.newFile(b, 'class B {}');
provider.newFile(c, 'class C {}');
driver.addFile(t);
var files = new LinkedHashSet<String>();
var declarations = await driver.search.declarations(null, null, files);
_assertHasDeclaration(declarations, 'T', DeclarationKind.CLASS);
_assertHasDeclaration(declarations, 'A', DeclarationKind.CLASS);
_assertHasDeclaration(declarations, 'B', DeclarationKind.CLASS);
_assertNoDeclaration(declarations, 'C');
}
test_declarations_duplicateFile() async {
var a = _p('/test/lib/a.dart');
var b = _p('/test/lib/b.dart');
provider.newFile(a, 'class A {}');
provider.newFile(b, 'class B {}');
driver.addFile(a);
driver.addFile(b);
var files = new LinkedHashSet<String>();
files.add(b);
var declarations = await driver.search.declarations(null, null, files);
_assertHasDeclaration(declarations, 'A', DeclarationKind.CLASS);
_assertNoDeclaration(declarations, 'B');
}
test_declarations_enum() async {
await _resolveTestUnit('''
enum E {
a, bb, ccc
}
''');
var files = new LinkedHashSet<String>();
List<Declaration> declarations =
await driver.search.declarations(null, null, files);
_assertHasDeclaration(declarations, 'E', DeclarationKind.ENUM,
offset: 5, codeOffset: 0, codeLength: 23);
_assertHasDeclaration(declarations, 'a', DeclarationKind.ENUM_CONSTANT,
offset: 11, codeOffset: 11, codeLength: 1);
_assertHasDeclaration(declarations, 'bb', DeclarationKind.ENUM_CONSTANT,
offset: 14, codeOffset: 14, codeLength: 2);
_assertHasDeclaration(declarations, 'ccc', DeclarationKind.ENUM_CONSTANT,
offset: 18, codeOffset: 18, codeLength: 3);
}
test_declarations_maxResults() async {
await _resolveTestUnit('''
class A {}
class B {}
class C {}
''');
var files = new LinkedHashSet<String>();
List<Declaration> declarations =
await driver.search.declarations(null, 2, files);
expect(declarations, hasLength(2));
}
test_declarations_mixin() async {
await _resolveTestUnit('''
mixin M {
int f;
int get g => 0;
void set s(_) {}
void m() {}
}
''');
var files = new LinkedHashSet<String>();
List<Declaration> declarations =
await driver.search.declarations(null, null, files);
_assertHasDeclaration(declarations, 'M', DeclarationKind.MIXIN,
offset: 6, codeOffset: 0, codeLength: 71);
_assertHasDeclaration(declarations, 'f', DeclarationKind.FIELD,
offset: 16, codeOffset: 12, codeLength: 5, mixinName: 'M');
_assertHasDeclaration(declarations, 'g', DeclarationKind.GETTER,
offset: 29, codeOffset: 21, codeLength: 15, mixinName: 'M');
_assertHasDeclaration(declarations, 's', DeclarationKind.SETTER,
offset: 48, codeOffset: 39, codeLength: 16, mixinName: 'M');
_assertHasDeclaration(declarations, 'm', DeclarationKind.METHOD,
offset: 63, codeOffset: 58, codeLength: 11, mixinName: 'M');
}
test_declarations_onlyForFile() async {
var a = _p('/test/lib/a.dart');
var b = _p('/test/lib/b.dart');
provider.newFile(a, 'class A {}');
provider.newFile(b, 'class B {}');
driver.addFile(a);
driver.addFile(b);
var files = new LinkedHashSet<String>();
List<Declaration> declarations =
await driver.search.declarations(null, null, files, onlyForFile: b);
expect(files, [b]);
_assertNoDeclaration(declarations, 'A');
_assertHasDeclaration(declarations, 'B', DeclarationKind.CLASS);
}
test_declarations_parameters() async {
await _resolveTestUnit('''
class C {
int get g => 0;
void m(int a, double b) {}
}
void f(bool a, String b) {}
typedef F(int a);
typedef T F2<T, U>(U a);
''');
var files = new LinkedHashSet<String>();
List<Declaration> declarations =
await driver.search.declarations(null, null, files);
Declaration declaration;
declaration =
_assertHasDeclaration(declarations, 'C', DeclarationKind.CLASS);
expect(declaration.parameters, isNull);
declaration = _assertHasDeclaration(
declarations, 'g', DeclarationKind.GETTER,
className: 'C');
expect(declaration.parameters, isNull);
declaration = _assertHasDeclaration(
declarations, 'm', DeclarationKind.METHOD,
className: 'C');
expect(declaration.parameters, '(int a, double b)');
declaration =
_assertHasDeclaration(declarations, 'f', DeclarationKind.FUNCTION);
expect(declaration.parameters, '(bool a, String b)');
declaration = _assertHasDeclaration(
declarations, 'F', DeclarationKind.FUNCTION_TYPE_ALIAS);
expect(declaration.parameters, '(int a)');
declaration = _assertHasDeclaration(
declarations, 'F2', DeclarationKind.FUNCTION_TYPE_ALIAS);
expect(declaration.parameters, '(U a)');
}
test_declarations_parameters_functionTyped() async {
await _resolveTestUnit('''
void f1(bool a(int b, String c)) {}
void f2(a(b, c)) {}
void f3(bool Function(int a, String b) c) {}
void f4(bool Function(int, String) a) {}
''');
var files = new LinkedHashSet<String>();
List<Declaration> declarations =
await driver.search.declarations(null, null, files);
Declaration declaration;
declaration =
_assertHasDeclaration(declarations, 'f1', DeclarationKind.FUNCTION);
expect(declaration.parameters, '(bool a(int b, String c))');
declaration =
_assertHasDeclaration(declarations, 'f2', DeclarationKind.FUNCTION);
expect(declaration.parameters, '(a(b, c))');
declaration =
_assertHasDeclaration(declarations, 'f3', DeclarationKind.FUNCTION);
expect(declaration.parameters, '(bool Function(int a, String b) c)');
declaration =
_assertHasDeclaration(declarations, 'f4', DeclarationKind.FUNCTION);
expect(declaration.parameters, '(bool Function(int, String) a)');
}
test_declarations_parameters_typeArguments() async {
await _resolveTestUnit('''
class A<T, T2> {
void m1(Map<int, String> a) {}
void m2<U>(Map<T, U> a) {}
void m3<U1, U2>(Map<Map<T2, U2>, Map<U1, T>> a) {}
}
''');
var files = new LinkedHashSet<String>();
List<Declaration> declarations =
await driver.search.declarations(null, null, files);
Declaration declaration;
declaration = _assertHasDeclaration(
declarations, 'm1', DeclarationKind.METHOD,
className: 'A');
expect(declaration.parameters, '(Map<int, String> a)');
declaration = _assertHasDeclaration(
declarations, 'm2', DeclarationKind.METHOD,
className: 'A');
expect(declaration.parameters, '(Map<T, U> a)');
declaration = _assertHasDeclaration(
declarations, 'm3', DeclarationKind.METHOD,
className: 'A');
expect(declaration.parameters, '(Map<Map<T2, U2>, Map<U1, T>> a)');
}
test_declarations_regExp() async {
await _resolveTestUnit('''
class A {}
class B {}
class C {}
class D {}
''');
var files = new LinkedHashSet<String>();
List<Declaration> declarations =
await driver.search.declarations(new RegExp(r'[A-C]'), null, files);
_assertHasDeclaration(declarations, 'A', DeclarationKind.CLASS);
_assertHasDeclaration(declarations, 'B', DeclarationKind.CLASS);
_assertHasDeclaration(declarations, 'C', DeclarationKind.CLASS);
_assertNoDeclaration(declarations, 'D');
}
test_declarations_top() async {
await _resolveTestUnit('''
int get g => 0;
void set s(_) {}
void f(int p) {}
int v;
typedef void tf1();
typedef tf2<T> = int Function<S>(T tp, S sp);
''');
var files = new LinkedHashSet<String>();
List<Declaration> declarations =
await driver.search.declarations(null, null, files);
_assertHasDeclaration(declarations, 'g', DeclarationKind.GETTER,
offset: 8, codeOffset: 0, codeLength: 15);
_assertHasDeclaration(declarations, 's', DeclarationKind.SETTER,
offset: 25, codeOffset: 16, codeLength: 16);
_assertHasDeclaration(
declarations,
'f',
DeclarationKind.FUNCTION,
offset: 38,
codeOffset: 33,
codeLength: 16,
);
_assertHasDeclaration(declarations, 'v', DeclarationKind.VARIABLE,
offset: 54, codeOffset: 50, codeLength: 5);
_assertHasDeclaration(
declarations, 'tf1', DeclarationKind.FUNCTION_TYPE_ALIAS,
offset: 70, codeOffset: 57, codeLength: 19);
_assertHasDeclaration(
declarations, 'tf2', DeclarationKind.FUNCTION_TYPE_ALIAS,
offset: 85, codeOffset: 77, codeLength: 45);
// No declaration for type variables.
_assertNoDeclaration(declarations, 'T');
_assertNoDeclaration(declarations, 'S');
// No declarations for parameters.
_assertNoDeclaration(declarations, '_');
_assertNoDeclaration(declarations, 'p');
_assertNoDeclaration(declarations, 'tp');
_assertNoDeclaration(declarations, 'sp');
}
test_references_discover() async {
var t = _p('/test/lib/t.dart');
var a = _p('/aaa/lib/a.dart');
var b = _p('/bbb/lib/b.dart');
var c = _p('/ccc/lib/c.dart');
provider.newFile(t, 'List t;');
provider.newFile(a, 'List a;');
provider.newFile(b, 'List b;');
provider.newFile(c, 'List c;');
driver.addFile(t);
LibraryElement coreLib = await driver.getLibraryByUri('dart:core');
ClassElement listElement = coreLib.getType('List');
var searchedFiles = new SearchedFiles();
var results = await driver.search.references(listElement, searchedFiles);
void assertHasResult(String path, String name, {bool not: false}) {
var matcher = contains(predicate((SearchResult r) {
var element = r.enclosingElement;
return element.name == name && element.source.fullName == path;
}));
expect(results, not ? isNot(matcher) : matcher);
}
assertHasResult(t, 't');
assertHasResult(a, 'a');
assertHasResult(b, 'b');
assertHasResult(c, 'c', not: true);
}
test_references_discover_onlyOwned() async {
var t = _p('/test/lib/t.dart');
var a = _p('/aaa/lib/a.dart');
var b = _p('/bbb/lib/b.dart');
provider.newFile(t, 'List t;');
provider.newFile(a, 'List a;');
provider.newFile(b, 'List b;');
driver.addFile(t);
driver.addFile(a);
LibraryElement coreLib = await driver.getLibraryByUri('dart:core');
ClassElement listElement = coreLib.getType('List');
var searchedFiles = new SearchedFiles();
// Make b.dart owned by a different driver.
var driver2 = createAnalysisDriver();
searchedFiles.add(b, driver2.search);
var results = await driver.search.references(listElement, searchedFiles);
void assertHasResult(String path, String name, {bool not: false}) {
var matcher = contains(predicate((SearchResult r) {
var element = r.enclosingElement;
return element.name == name && element.source.fullName == path;
}));
expect(results, not ? isNot(matcher) : matcher);
}
assertHasResult(t, 't');
assertHasResult(a, 'a');
assertHasResult(b, 'b', not: true);
}
test_references_discover_onlyOwned_samePath() async {
var p = _p('/test/lib/t.dart');
provider.newFile(p, 'int t;');
var driver1 = createAnalysisDriver(packageMap: {
'test': [provider.newFolder(_p('/test/lib'))]
});
var driver2 = createAnalysisDriver(packageMap: {});
var searchedFiles = new SearchedFiles();
searchedFiles.ownAdded(driver1.search);
searchedFiles.ownAdded(driver2.search); // does not own any file, but...
// driver1 owns both path and URI.
expect(searchedFiles.add(p, driver1.search), isTrue);
// The path is already owned by driver1, so cannot be handled in driver2.
expect(searchedFiles.add(p, driver2.search), isFalse);
}
test_references_discover_onlyOwned_sameUri() async {
var a = _p('/aaa/lib/t.dart');
var b = _p('/bbb/lib/t.dart');
provider.newFile(a, 'int t;');
provider.newFile(b, 'double t;');
var driver1 = createAnalysisDriver(packageMap: {
'ttt': [provider.newFolder(_p('/aaa/lib'))]
});
var driver2 = createAnalysisDriver(packageMap: {
'ttt': [provider.newFolder(_p('/bbb/lib'))]
});
// driver1 owns `/aaa/lib/t.dart` with `package:ttt/t.dart`.
driver1.addFile(a);
var searchedFiles = new SearchedFiles();
searchedFiles.ownAdded(driver1.search);
searchedFiles.ownAdded(driver2.search); // does not own any file, but...
// driver1 owns both path and URI.
expect(searchedFiles.add(a, driver1.search), isTrue);
// The URI is already owned by driver1, so cannot be handled in driver2.
expect(searchedFiles.add(b, driver2.search), isFalse);
}
test_searchMemberReferences_qualified_resolved() async {
await _resolveTestUnit('''
class C {
var test;
}
main(C c) {
print(c.test);
c.test = 1;
c.test += 2;
c.test();
}
''');
await _verifyNameReferences('test', []);
}
test_searchMemberReferences_qualified_unresolved() async {
await _resolveTestUnit('''
main(p) {
print(p.test);
p.test = 1;
p.test += 2;
p.test();
}
''');
Element main = _findElement('main');
await _verifyNameReferences('test', <ExpectedResult>[
_expectIdQU(main, SearchResultKind.READ, 'test);'),
_expectIdQU(main, SearchResultKind.WRITE, 'test = 1;'),
_expectIdQU(main, SearchResultKind.READ_WRITE, 'test += 2;'),
_expectIdQU(main, SearchResultKind.INVOCATION, 'test();'),
]);
}
test_searchMemberReferences_unqualified_resolved() async {
await _resolveTestUnit('''
class C {
var test;
main() {
print(test);
test = 1;
test += 2;
test();
}
}
''');
await _verifyNameReferences('test', []);
}
test_searchMemberReferences_unqualified_unresolved() async {
await _resolveTestUnit('''
class C {
main() {
print(test);
test = 1;
test += 2;
test();
}
}
''');
Element main = _findElement('main');
await _verifyNameReferences('test', <ExpectedResult>[
_expectIdU(main, SearchResultKind.READ, 'test);'),
_expectIdU(main, SearchResultKind.WRITE, 'test = 1;'),
_expectIdU(main, SearchResultKind.READ_WRITE, 'test += 2;'),
_expectIdU(main, SearchResultKind.INVOCATION, 'test();'),
]);
}
test_searchReferences_ClassElement_definedInSdk_declarationSite() async {
await _resolveTestUnit('''
import 'dart:math';
Random v1;
Random v2;
''');
// Find the Random class element in the SDK source.
// IDEA performs search always at declaration, never at reference.
ClassElement randomElement;
{
String randomPath = sdk.mapDartUri('dart:math').fullName;
AnalysisResult result = await driver.getResult(randomPath);
randomElement = result.unit.declaredElement.getType('Random');
}
Element v1 = _findElement('v1');
Element v2 = _findElement('v2');
var expected = [
_expectId(v1, SearchResultKind.REFERENCE, 'Random v1;'),
_expectId(v2, SearchResultKind.REFERENCE, 'Random v2;'),
];
await _verifyReferences(randomElement, expected);
}
test_searchReferences_ClassElement_definedInSdk_useSite() async {
await _resolveTestUnit('''
import 'dart:math';
Random v1;
Random v2;
''');
var v1 = _findElement('v1') as VariableElement;
var v2 = _findElement('v2') as VariableElement;
var randomElement = v1.type.element as ClassElement;
var expected = [
_expectId(v1, SearchResultKind.REFERENCE, 'Random v1;'),
_expectId(v2, SearchResultKind.REFERENCE, 'Random v2;'),
];
await _verifyReferences(randomElement, expected);
}
test_searchReferences_ClassElement_definedInside() async {
await _resolveTestUnit('''
class A {};
main(A p) {
A v;
}
class B1 extends A {} // extends
class B2 implements A {} // implements
class B3 extends Object with A {} // with
List<A> v2 = null;
''');
ClassElement element = _findElementAtString('A {}');
Element p = _findElement('p');
Element main = _findElement('main');
Element b1 = _findElement('B1');
Element b2 = _findElement('B2');
Element b3 = _findElement('B3');
Element v2 = _findElement('v2');
var expected = [
_expectId(p, SearchResultKind.REFERENCE, 'A p'),
_expectId(main, SearchResultKind.REFERENCE, 'A v'),
_expectId(b1, SearchResultKind.REFERENCE, 'A {} // extends'),
_expectId(b2, SearchResultKind.REFERENCE, 'A {} // implements'),
_expectId(b3, SearchResultKind.REFERENCE, 'A {} // with'),
_expectId(v2, SearchResultKind.REFERENCE, 'A> v2'),
];
await _verifyReferences(element, expected);
}
test_searchReferences_ClassElement_definedOutside() async {
provider.newFile(_p('$testProject/lib.dart'), r'''
class A {};
''');
await _resolveTestUnit('''
import 'lib.dart';
main(A p) {
A v;
}
''');
ClassElement element = _findElementAtString('A p');
Element p = _findElement('p');
Element main = _findElement('main');
var expected = [
_expectId(p, SearchResultKind.REFERENCE, 'A p'),
_expectId(main, SearchResultKind.REFERENCE, 'A v')
];
await _verifyReferences(element, expected);
}
test_searchReferences_CompilationUnitElement() async {
provider.newFile(_p('$testProject/foo.dart'), '');
await _resolveTestUnit('''
import 'foo.dart'; // import
export 'foo.dart'; // export
''');
CompilationUnitElement element =
testLibraryElement.imports[0].importedLibrary.definingCompilationUnit;
int uriLength = "'foo.dart'".length;
var expected = [
_expectIdQ(
testUnitElement, SearchResultKind.REFERENCE, "'foo.dart'; // import",
length: uriLength),
_expectIdQ(
testUnitElement, SearchResultKind.REFERENCE, "'foo.dart'; // export",
length: uriLength),
];
await _verifyReferences(element, expected);
}
test_searchReferences_ConstructorElement_default() async {
await _resolveTestUnit('''
class A {
A() {}
}
main() {
new A();
}
''');
ConstructorElement element = _findElementAtString('A() {}');
Element mainElement = _findElement('main');
var expected = [
_expectIdQ(mainElement, SearchResultKind.REFERENCE, '();', length: 0)
];
await _verifyReferences(element, expected);
}
test_searchReferences_ConstructorElement_default_otherFile() async {
String other = _p('$testProject/other.dart');
String otherCode = '''
import 'test.dart';
main() {
new A(); // in other
}
''';
provider.newFile(other, otherCode);
driver.addFile(other);
await _resolveTestUnit('''
class A {
A() {}
}
''');
ConstructorElement element = _findElementAtString('A() {}');
CompilationUnit otherUnit = (await driver.getResult(other)).unit;
Element main =
resolutionMap.elementDeclaredByCompilationUnit(otherUnit).functions[0];
var expected = [
new ExpectedResult(main, SearchResultKind.REFERENCE,
otherCode.indexOf('(); // in other'), 0,
isResolved: true, isQualified: true)
];
await _verifyReferences(element, expected);
}
test_searchReferences_ConstructorElement_named() async {
await _resolveTestUnit('''
class A {
A.named() {}
}
main() {
new A.named();
}
''');
ConstructorElement element = _findElement('named');
Element mainElement = _findElement('main');
var expected = [
_expectIdQ(mainElement, SearchResultKind.REFERENCE, '.named();',
length: '.named'.length)
];
await _verifyReferences(element, expected);
}
test_searchReferences_ConstructorElement_synthetic() async {
await _resolveTestUnit('''
class A {
}
main() {
new A();
}
''');
ClassElement classElement = _findElement('A');
ConstructorElement element = classElement.unnamedConstructor;
Element mainElement = _findElement('main');
var expected = [
_expectIdQ(mainElement, SearchResultKind.REFERENCE, '();', length: 0)
];
await _verifyReferences(element, expected);
}
test_searchReferences_FieldElement() async {
await _resolveTestUnit('''
class A {
var field;
A({this.field});
main() {
new A(field: 1);
// getter
print(field); // ref-nq
print(this.field); // ref-q
field(); // inv-nq
this.field(); // inv-q
// setter
field = 2; // ref-nq;
this.field = 3; // ref-q;
}
}
''');
FieldElement element = _findElement('field', ElementKind.FIELD);
Element main = _findElement('main');
Element fieldParameter = _findElement('field', ElementKind.PARAMETER);
var expected = [
_expectIdQ(fieldParameter, SearchResultKind.WRITE, 'field}'),
_expectIdQ(main, SearchResultKind.REFERENCE, 'field: 1'),
_expectId(main, SearchResultKind.READ, 'field); // ref-nq'),
_expectIdQ(main, SearchResultKind.READ, 'field); // ref-q'),
_expectId(main, SearchResultKind.INVOCATION, 'field(); // inv-nq'),
_expectIdQ(main, SearchResultKind.INVOCATION, 'field(); // inv-q'),
_expectId(main, SearchResultKind.WRITE, 'field = 2; // ref-nq'),
_expectIdQ(main, SearchResultKind.WRITE, 'field = 3; // ref-q'),
];
await _verifyReferences(element, expected);
}
test_searchReferences_FieldElement_ofEnum() async {
await _resolveTestUnit('''
enum MyEnum {
A, B, C
}
main() {
print(MyEnum.A.index);
print(MyEnum.values);
print(MyEnum.A);
print(MyEnum.B);
}
''');
ClassElement enumElement = _findElement('MyEnum');
Element mainElement = _findElement('main');
await _verifyReferences(enumElement.getField('index'),
[_expectIdQ(mainElement, SearchResultKind.READ, 'index);')]);
await _verifyReferences(enumElement.getField('values'),
[_expectIdQ(mainElement, SearchResultKind.READ, 'values);')]);
await _verifyReferences(enumElement.getField('A'), [
_expectIdQ(mainElement, SearchResultKind.READ, 'A.index);'),
_expectIdQ(mainElement, SearchResultKind.READ, 'A);')
]);
await _verifyReferences(enumElement.getField('B'),
[_expectIdQ(mainElement, SearchResultKind.READ, 'B);')]);
}
test_searchReferences_FieldElement_synthetic() async {
await _resolveTestUnit('''
class A {
get field => null;
set field(x) {}
main() {
// getter
print(field); // ref-nq
print(this.field); // ref-q
field(); // inv-nq
this.field(); // inv-q
// setter
field = 2; // ref-nq;
this.field = 3; // ref-q;
}
}
''');
FieldElement element = _findElement('field', ElementKind.FIELD);
Element main = _findElement('main');
var expected = [
_expectId(main, SearchResultKind.READ, 'field); // ref-nq'),
_expectIdQ(main, SearchResultKind.READ, 'field); // ref-q'),
_expectId(main, SearchResultKind.INVOCATION, 'field(); // inv-nq'),
_expectIdQ(main, SearchResultKind.INVOCATION, 'field(); // inv-q'),
_expectId(main, SearchResultKind.WRITE, 'field = 2; // ref-nq'),
_expectIdQ(main, SearchResultKind.WRITE, 'field = 3; // ref-q'),
];
await _verifyReferences(element, expected);
}
test_searchReferences_FunctionElement() async {
await _resolveTestUnit('''
test() {}
main() {
test();
print(test);
}
''');
FunctionElement element = _findElement('test');
Element mainElement = _findElement('main');
var expected = [
_expectId(mainElement, SearchResultKind.INVOCATION, 'test();'),
_expectId(mainElement, SearchResultKind.REFERENCE, 'test);')
];
await _verifyReferences(element, expected);
}
test_searchReferences_FunctionElement_local() async {
await _resolveTestUnit('''
main() {
test() {}
test();
print(test);
}
''');
FunctionElement element = findElementsByName(testUnit, 'test').single;
Element main = _findElement('main');
var expected = [
_expectId(main, SearchResultKind.INVOCATION, 'test();'),
_expectId(main, SearchResultKind.REFERENCE, 'test);')
];
await _verifyReferences(element, expected);
}
test_searchReferences_ImportElement_noPrefix() async {
await _resolveTestUnit('''
import 'dart:math' show max, PI, Random hide min;
export 'dart:math' show max, PI, Random hide min;
main() {
print(PI);
print(new Random());
print(max(1, 2));
}
Random bar() => null;
''');
ImportElement element = testLibraryElement.imports[0];
Element mainElement = await _findElement('main');
Element barElement = await _findElement('bar');
var kind = SearchResultKind.REFERENCE;
var expected = [
_expectId(mainElement, kind, 'PI);', length: 0),
_expectId(mainElement, kind, 'Random()', length: 0),
_expectId(mainElement, kind, 'max(', length: 0),
_expectId(barElement, kind, 'Random bar()', length: 0),
];
await _verifyReferences(element, expected);
}
test_searchReferences_ImportElement_noPrefix_inPackage() async {
testFile = _p('/aaa/lib/a.dart');
await _resolveTestUnit('''
import 'dart:math' show max, PI, Random hide min;
export 'dart:math' show max, PI, Random hide min;
main() {
PI;
new Random();
max(1, 2);
}
Random bar() => null;
''', addToDriver: false);
ImportElement element = testLibraryElement.imports[0];
Element mainElement = await _findElement('main');
Element barElement = await _findElement('bar');
var kind = SearchResultKind.REFERENCE;
var expected = [
_expectId(mainElement, kind, 'PI;', length: 0),
_expectId(mainElement, kind, 'Random();', length: 0),
_expectId(mainElement, kind, 'max(1, 2);', length: 0),
_expectId(barElement, kind, 'Random bar()', length: 0),
];
await _verifyReferences(element, expected);
}
test_searchReferences_ImportElement_withPrefix() async {
await _resolveTestUnit('''
import 'dart:math' as math show max, PI, Random hide min;
export 'dart:math' show max, PI, Random hide min;
main() {
print(math.PI);
print(new math.Random());
print(math.max(1, 2));
}
math.Random bar() => null;
''');
ImportElement element = testLibraryElement.imports[0];
Element mainElement = await _findElement('main');
Element barElement = await _findElement('bar');
var kind = SearchResultKind.REFERENCE;
var length = 'math.'.length;
var expected = [
_expectId(mainElement, kind, 'math.PI);', length: length),
_expectId(mainElement, kind, 'math.Random()', length: length),
_expectId(mainElement, kind, 'math.max(', length: length),
_expectId(barElement, kind, 'math.Random bar()', length: length),
];
await _verifyReferences(element, expected);
}
test_searchReferences_ImportElement_withPrefix_forMultipleImports() async {
await _resolveTestUnit('''
import 'dart:async' as p;
import 'dart:math' as p;
main() {
p.Random;
p.Future;
}
''');
Element mainElement = await _findElement('main');
var kind = SearchResultKind.REFERENCE;
var length = 'p.'.length;
{
ImportElement element = testLibraryElement.imports[0];
var expected = [
_expectId(mainElement, kind, 'p.Future;', length: length),
];
await _verifyReferences(element, expected);
}
{
ImportElement element = testLibraryElement.imports[1];
var expected = [
_expectId(mainElement, kind, 'p.Random', length: length),
];
await _verifyReferences(element, expected);
}
}
test_searchReferences_LabelElement() async {
await _resolveTestUnit('''
main() {
label:
while (true) {
if (true) {
break label; // 1
}
break label; // 2
}
}
''');
Element element = findElementsByName(testUnit, 'label').single;
Element main = _findElement('main');
var expected = [
_expectId(main, SearchResultKind.REFERENCE, 'label; // 1'),
_expectId(main, SearchResultKind.REFERENCE, 'label; // 2')
];
await _verifyReferences(element, expected);
}
test_searchReferences_LibraryElement() async {
var codeA = 'part of lib; // A';
var codeB = 'part of lib; // B';
provider.newFile(_p('$testProject/unitA.dart'), codeA);
provider.newFile(_p('$testProject/unitB.dart'), codeB);
await _resolveTestUnit('''
library lib;
part 'unitA.dart';
part 'unitB.dart';
''');
LibraryElement element = testLibraryElement;
CompilationUnitElement unitElementA = element.parts[0];
CompilationUnitElement unitElementB = element.parts[1];
var expected = [
new ExpectedResult(unitElementA, SearchResultKind.REFERENCE,
codeA.indexOf('lib; // A'), 'lib'.length),
new ExpectedResult(unitElementB, SearchResultKind.REFERENCE,
codeB.indexOf('lib; // B'), 'lib'.length),
];
await _verifyReferences(element, expected);
}
test_searchReferences_LibraryElement_inPackage() async {
testFile = _p('/aaa/lib/a.dart');
var partPathA = _p('/aaa/lib/unitA.dart');
var partPathB = _p('/aaa/lib/unitB.dart');
var codeA = 'part of lib; // A';
var codeB = 'part of lib; // B';
provider.newFile(partPathA, codeA);
provider.newFile(partPathB, codeB);
await _resolveTestUnit('''
library lib;
part 'unitA.dart';
part 'unitB.dart';
''', addToDriver: false);
LibraryElement element = testLibraryElement;
CompilationUnitElement unitElementA = element.parts[0];
CompilationUnitElement unitElementB = element.parts[1];
var expected = [
new ExpectedResult(unitElementA, SearchResultKind.REFERENCE,
codeA.indexOf('lib; // A'), 'lib'.length),
new ExpectedResult(unitElementB, SearchResultKind.REFERENCE,
codeB.indexOf('lib; // B'), 'lib'.length),
];
await _verifyReferences(element, expected);
}
test_searchReferences_LocalVariableElement() async {
await _resolveTestUnit(r'''
main() {
var v;
v = 1;
v += 2;
print(v);
v();
}
''');
Element element = findElementsByName(testUnit, 'v').single;
Element main = _findElement('main');
var expected = [
_expectId(main, SearchResultKind.WRITE, 'v = 1;'),
_expectId(main, SearchResultKind.READ_WRITE, 'v += 2;'),
_expectId(main, SearchResultKind.READ, 'v);'),
_expectId(main, SearchResultKind.INVOCATION, 'v();')
];
await _verifyReferences(element, expected);
}
test_searchReferences_LocalVariableElement_inForEachLoop() async {
await _resolveTestUnit('''
main() {
for (var v in []) {
v = 1;
v += 2;
print(v);
v();
}
}
''');
Element element = findElementsByName(testUnit, 'v').single;
Element main = _findElement('main');
var expected = [
_expectId(main, SearchResultKind.WRITE, 'v = 1;'),
_expectId(main, SearchResultKind.READ_WRITE, 'v += 2;'),
_expectId(main, SearchResultKind.READ, 'v);'),
_expectId(main, SearchResultKind.INVOCATION, 'v();')
];
await _verifyReferences(element, expected);
}
test_searchReferences_LocalVariableElement_inPackage() async {
testFile = _p('/aaa/lib/a.dart');
await _resolveTestUnit('''
main() {
var v;
v = 1;
v += 2;
print(v);
v();
}
''', addToDriver: false);
Element element = findElementsByName(testUnit, 'v').single;
Element main = _findElement('main');
var expected = [
_expectId(main, SearchResultKind.WRITE, 'v = 1;'),
_expectId(main, SearchResultKind.READ_WRITE, 'v += 2;'),
_expectId(main, SearchResultKind.READ, 'v);'),
_expectId(main, SearchResultKind.INVOCATION, 'v();')
];
await _verifyReferences(element, expected);
}
test_searchReferences_MethodElement() async {
await _resolveTestUnit('''
class A {
m() {}
main() {
m(); // 1
this.m(); // 2
print(m); // 3
print(this.m); // 4
}
}
''');
MethodElement method = _findElement('m');
Element mainElement = _findElement('main');
var expected = [
_expectId(mainElement, SearchResultKind.INVOCATION, 'm(); // 1'),
_expectIdQ(mainElement, SearchResultKind.INVOCATION, 'm(); // 2'),
_expectId(mainElement, SearchResultKind.REFERENCE, 'm); // 3'),
_expectIdQ(mainElement, SearchResultKind.REFERENCE, 'm); // 4')
];
await _verifyReferences(method, expected);
}
test_searchReferences_MethodMember() async {
await _resolveTestUnit('''
class A<T> {
T m() => null;
}
main(A<int> a) {
a.m(); // ref
}
''');
MethodMember method = _findElementAtString('m(); // ref');
Element mainElement = _findElement('main');
var expected = [
_expectIdQ(mainElement, SearchResultKind.INVOCATION, 'm(); // ref')
];
await _verifyReferences(method, expected);
}
test_searchReferences_ParameterElement_named() async {
await _resolveTestUnit('''
foo({p}) {
p = 1;
p += 2;
print(p);
p();
}
main() {
foo(p: 42);
}
''');
ParameterElement element = _findElement('p');
Element fooElement = _findElement('foo');
Element mainElement = _findElement('main');
var expected = [
_expectId(fooElement, SearchResultKind.WRITE, 'p = 1;'),
_expectId(fooElement, SearchResultKind.READ_WRITE, 'p += 2;'),
_expectId(fooElement, SearchResultKind.READ, 'p);'),
_expectId(fooElement, SearchResultKind.INVOCATION, 'p();'),
_expectIdQ(mainElement, SearchResultKind.REFERENCE, 'p: 42')
];
await _verifyReferences(element, expected);
}
test_searchReferences_ParameterElement_ofConstructor() async {
await _resolveTestUnit('''
class C {
var f;
C(p) : f = p + 1 {
p = 2;
p += 3;
print(p);
p();
}
}
main() {
new C(42);
}
''');
ParameterElement element = _findElement('p');
ClassElement classC = _findElement('C');
ConstructorElement constructorA = classC.unnamedConstructor;
var expected = [
_expectId(constructorA, SearchResultKind.READ, 'p + 1 {'),
_expectId(constructorA, SearchResultKind.WRITE, 'p = 2;'),
_expectId(constructorA, SearchResultKind.READ_WRITE, 'p += 3;'),
_expectId(constructorA, SearchResultKind.READ, 'p);'),
_expectId(constructorA, SearchResultKind.INVOCATION, 'p();')
];
await _verifyReferences(element, expected);
}
test_searchReferences_ParameterElement_ofLocalFunction() async {
await _resolveTestUnit('''
main() {
foo(p) {
p = 1;
p += 2;
print(p);
p();
}
foo(42);
}
''');
Element main = _findElement('main');
FunctionElement foo = findElementsByName(testUnit, 'foo').single;
ParameterElement element = foo.parameters.single;
var expected = [
_expectId(main, SearchResultKind.WRITE, 'p = 1;'),
_expectId(main, SearchResultKind.READ_WRITE, 'p += 2;'),
_expectId(main, SearchResultKind.READ, 'p);'),
_expectId(main, SearchResultKind.INVOCATION, 'p();')
];
await _verifyReferences(element, expected);
}
test_searchReferences_ParameterElement_ofMethod() async {
await _resolveTestUnit('''
class C {
foo(p) {
p = 1;
p += 2;
print(p);
p();
}
}
main(C c) {
c.foo(42);
}
''');
ParameterElement element = _findElement('p');
Element fooElement = _findElement('foo');
var expected = [
_expectId(fooElement, SearchResultKind.WRITE, 'p = 1;'),
_expectId(fooElement, SearchResultKind.READ_WRITE, 'p += 2;'),
_expectId(fooElement, SearchResultKind.READ, 'p);'),
_expectId(fooElement, SearchResultKind.INVOCATION, 'p();')
];
await _verifyReferences(element, expected);
}
test_searchReferences_ParameterElement_ofTopLevelFunction() async {
await _resolveTestUnit('''
foo(p) {
p = 1;
p += 2;
print(p);
p();
}
main() {
foo(42);
}
''');
ParameterElement element = _findElement('p');
Element fooElement = _findElement('foo');
var expected = [
_expectId(fooElement, SearchResultKind.WRITE, 'p = 1;'),
_expectId(fooElement, SearchResultKind.READ_WRITE, 'p += 2;'),
_expectId(fooElement, SearchResultKind.READ, 'p);'),
_expectId(fooElement, SearchResultKind.INVOCATION, 'p();')
];
await _verifyReferences(element, expected);
}
test_searchReferences_ParameterElement_optionalPositional() async {
await _resolveTestUnit('''
foo([p]) {
p = 1;
p += 2;
print(p);
p();
}
main() {
foo(42);
}
''');
ParameterElement element = _findElement('p');
Element fooElement = _findElement('foo');
Element mainElement = _findElement('main');
var expected = [
_expectId(fooElement, SearchResultKind.WRITE, 'p = 1;'),
_expectId(fooElement, SearchResultKind.READ_WRITE, 'p += 2;'),
_expectId(fooElement, SearchResultKind.READ, 'p);'),
_expectId(fooElement, SearchResultKind.INVOCATION, 'p();'),
_expectIdQ(mainElement, SearchResultKind.REFERENCE, '42', length: 0)
];
await _verifyReferences(element, expected);
}
test_searchReferences_PrefixElement() async {
String partCode = r'''
part of my_lib;
ppp.Future c;
''';
provider.newFile(_p('$testProject/my_part.dart'), partCode);
await _resolveTestUnit('''
library my_lib;
import 'dart:async' as ppp;
part 'my_part.dart';
main() {
ppp.Future a;
ppp.Stream b;
}
''');
PrefixElement element = _findElementAtString('ppp;');
Element main = _findElement('main');
Element c = findChildElement(testLibraryElement, 'c');
var expected = [
_expectId(main, SearchResultKind.REFERENCE, 'ppp.Future'),
_expectId(main, SearchResultKind.REFERENCE, 'ppp.Stream'),
new ExpectedResult(c, SearchResultKind.REFERENCE,
partCode.indexOf('ppp.Future c'), 'ppp'.length)
];
await _verifyReferences(element, expected);
}
test_searchReferences_PrefixElement_inPackage() async {
testFile = _p('/aaa/lib/a.dart');
var partPath = _p('/aaa/lib/my_part.dart');
String partCode = r'''
part of my_lib;
ppp.Future c;
''';
provider.newFile(partPath, partCode);
await _resolveTestUnit('''
library my_lib;
import 'dart:async' as ppp;
part 'my_part.dart';
main() {
ppp.Future a;
ppp.Stream b;
}
''', addToDriver: false);
PrefixElement element = _findElementAtString('ppp;');
Element main = _findElement('main');
Element c = findChildElement(testLibraryElement, 'c');
var expected = [
_expectId(main, SearchResultKind.REFERENCE, 'ppp.Future'),
_expectId(main, SearchResultKind.REFERENCE, 'ppp.Stream'),
new ExpectedResult(c, SearchResultKind.REFERENCE,
partCode.indexOf('ppp.Future c'), 'ppp'.length)
];
await _verifyReferences(element, expected);
}
test_searchReferences_private_declaredInDefiningUnit() async {
String p1 = _p('$testProject/part1.dart');
String p2 = _p('$testProject/part2.dart');
String p3 = _p('$testProject/part3.dart');
String code1 = 'part of lib; _C v1;';
String code2 = 'part of lib; _C v2;';
provider.newFile(p1, code1);
provider.newFile(p2, code2);
provider.newFile(p3, 'part of lib; int v3;');
driver.addFile(p1);
driver.addFile(p2);
driver.addFile(p3);
await _resolveTestUnit('''
library lib;
part 'part1.dart';
part 'part2.dart';
part 'part3.dart';
class _C {}
_C v;
''');
ClassElement element = _findElementAtString('_C {}');
Element v = testUnitElement.topLevelVariables[0];
Element v1 = testLibraryElement.parts[0].topLevelVariables[0];
Element v2 = testLibraryElement.parts[1].topLevelVariables[0];
var expected = [
_expectId(v, SearchResultKind.REFERENCE, '_C v;', length: 2),
new ExpectedResult(
v1, SearchResultKind.REFERENCE, code1.indexOf('_C v1;'), 2),
new ExpectedResult(
v2, SearchResultKind.REFERENCE, code2.indexOf('_C v2;'), 2),
];
await _verifyReferences(element, expected);
}
test_searchReferences_private_declaredInPart() async {
String p = _p('$testProject/lib.dart');
String p1 = _p('$testProject/part1.dart');
String p2 = _p('$testProject/part2.dart');
var code = '''
library lib;
part 'part1.dart';
part 'part2.dart';
_C v;
''';
var code1 = '''
part of lib;
class _C {}
_C v1;
''';
String code2 = 'part of lib; _C v2;';
provider.newFile(p, code);
provider.newFile(p1, code1);
provider.newFile(p2, code2);
driver.addFile(p);
driver.addFile(p1);
driver.addFile(p2);
AnalysisResult result = await driver.getResult(p);
testUnit = result.unit;
testUnitElement = testUnit.declaredElement;
testLibraryElement = testUnitElement.library;
ClassElement element = testLibraryElement.parts[0].types[0];
Element v = testUnitElement.topLevelVariables[0];
Element v1 = testLibraryElement.parts[0].topLevelVariables[0];
Element v2 = testLibraryElement.parts[1].topLevelVariables[0];
var expected = [
new ExpectedResult(
v, SearchResultKind.REFERENCE, code.indexOf('_C v;'), 2),
new ExpectedResult(
v1, SearchResultKind.REFERENCE, code1.indexOf('_C v1;'), 2),
new ExpectedResult(
v2, SearchResultKind.REFERENCE, code2.indexOf('_C v2;'), 2),
];
await _verifyReferences(element, expected);
}
test_searchReferences_private_inPackage() async {
testFile = _p('/aaa/lib/a.dart');
var p1 = _p('/aaa/lib/part1.dart');
var p2 = _p('/aaa/lib/part2.dart');
String code1 = 'part of lib; _C v1;';
String code2 = 'part of lib; _C v2;';
provider.newFile(p1, code1);
provider.newFile(p2, code2);
await _resolveTestUnit('''
library lib;
part 'part1.dart';
part 'part2.dart';
class _C {}
_C v;
''', addToDriver: false);
Element element = testUnitElement.types.single;
Element v = testUnitElement.topLevelVariables[0];
Element v1 = testLibraryElement.parts[0].topLevelVariables[0];
Element v2 = testLibraryElement.parts[1].topLevelVariables[0];
var expected = [
new ExpectedResult(
v, SearchResultKind.REFERENCE, testCode.indexOf('_C v;'), 2),
new ExpectedResult(
v1, SearchResultKind.REFERENCE, code1.indexOf('_C v1;'), 2),
new ExpectedResult(
v2, SearchResultKind.REFERENCE, code2.indexOf('_C v2;'), 2),
];
await _verifyReferences(element, expected);
}
test_searchReferences_PropertyAccessorElement_getter() async {
await _resolveTestUnit('''
class A {
get ggg => null;
main() {
print(ggg); // ref-nq
print(this.ggg); // ref-q
ggg(); // inv-nq
this.ggg(); // inv-q
}
}
''');
PropertyAccessorElement element = _findElement('ggg', ElementKind.GETTER);
Element main = _findElement('main');
var expected = [
_expectId(main, SearchResultKind.REFERENCE, 'ggg); // ref-nq'),
_expectIdQ(main, SearchResultKind.REFERENCE, 'ggg); // ref-q'),
_expectId(main, SearchResultKind.INVOCATION, 'ggg(); // inv-nq'),
_expectIdQ(main, SearchResultKind.INVOCATION, 'ggg(); // inv-q'),
];
await _verifyReferences(element, expected);
}
test_searchReferences_PropertyAccessorElement_setter() async {
await _resolveTestUnit('''
class A {
set s(x) {}
main() {
s = 1;
this.s = 2;
}
}
''');
PropertyAccessorElement element = _findElement('s=');
Element mainElement = _findElement('main');
var expected = [
_expectId(mainElement, SearchResultKind.REFERENCE, 's = 1'),
_expectIdQ(mainElement, SearchResultKind.REFERENCE, 's = 2')
];
await _verifyReferences(element, expected);
}
test_searchReferences_TopLevelVariableElement() async {
provider.newFile(_p('$testProject/lib.dart'), '''
library lib;
var V;
''');
await _resolveTestUnit('''
import 'lib.dart' show V; // imp
import 'lib.dart' as pref;
main() {
pref.V = 1; // q
print(pref.V); // q
pref.V(); // q
V = 1; // nq
print(V); // nq
V(); // nq
}
''');
ImportElement importElement = testLibraryElement.imports[0];
CompilationUnitElement impUnit =
importElement.importedLibrary.definingCompilationUnit;
TopLevelVariableElement variable = impUnit.topLevelVariables[0];
Element main = _findElement('main');
var expected = [
_expectIdQ(testUnitElement, SearchResultKind.REFERENCE, 'V; // imp'),
_expectIdQ(main, SearchResultKind.WRITE, 'V = 1; // q'),
_expectIdQ(main, SearchResultKind.READ, 'V); // q'),
_expectIdQ(main, SearchResultKind.INVOCATION, 'V(); // q'),
_expectId(main, SearchResultKind.WRITE, 'V = 1; // nq'),
_expectId(main, SearchResultKind.READ, 'V); // nq'),
_expectId(main, SearchResultKind.INVOCATION, 'V(); // nq'),
];
await _verifyReferences(variable, expected);
}
test_searchReferences_TypeParameterElement_ofClass() async {
await _resolveTestUnit('''
class A<T> {
foo(T a) {}
bar(T b) {}
}
''');
TypeParameterElement element = _findElement('T');
Element a = _findElement('a');
Element b = _findElement('b');
var expected = [
_expectId(a, SearchResultKind.REFERENCE, 'T a'),
_expectId(b, SearchResultKind.REFERENCE, 'T b'),
];
await _verifyReferences(element, expected);
}
test_searchReferences_TypeParameterElement_ofLocalFunction() async {
await _resolveTestUnit('''
main() {
void foo<T>(T a) {
void bar(T b) {}
}
}
''');
Element main = _findElement('main');
FunctionElement foo = findElementsByName(testUnit, 'foo').single;
TypeParameterElement element = foo.typeParameters.single;
var expected = [
_expectId(main, SearchResultKind.REFERENCE, 'T a'),
_expectId(main, SearchResultKind.REFERENCE, 'T b'),
];
await _verifyReferences(element, expected);
}
test_searchReferences_TypeParameterElement_ofMethod() async {
await _resolveTestUnit('''
class A {
foo<T>(T p) {}
}
''');
TypeParameterElement element = _findElement('T');
Element p = _findElement('p');
var expected = [
_expectId(p, SearchResultKind.REFERENCE, 'T p'),
];
await _verifyReferences(element, expected);
}
test_searchReferences_TypeParameterElement_ofTopLevelFunction() async {
await _resolveTestUnit('''
foo<T>(T a) {
bar(T b) {}
}
''');
FunctionElement foo = _findElement('foo');
TypeParameterElement element = _findElement('T');
Element a = _findElement('a');
var expected = [
_expectId(a, SearchResultKind.REFERENCE, 'T a'),
_expectId(foo, SearchResultKind.REFERENCE, 'T b'),
];
await _verifyReferences(element, expected);
}
test_searchSubtypes() async {
await _resolveTestUnit('''
class T {}
class A extends T {} // A
class B = Object with T; // B
class C implements T {} // C
''');
ClassElement element = _findElement('T');
ClassElement a = _findElement('A');
ClassElement b = _findElement('B');
ClassElement c = _findElement('C');
var expected = [
_expectId(a, SearchResultKind.REFERENCE, 'T {} // A'),
_expectId(b, SearchResultKind.REFERENCE, 'T; // B'),
_expectId(c, SearchResultKind.REFERENCE, 'T {} // C'),
];
await _verifyReferences(element, expected);
}
test_searchSubtypes_mixinDeclaration() async {
await _resolveTestUnit('''
class T {}
mixin A on T {} // A
mixin B implements T {} // B
''');
ClassElement element = _findElement('T');
ClassElement a = _findElement('A');
ClassElement b = _findElement('B');
var expected = [
_expectId(a, SearchResultKind.REFERENCE, 'T {} // A'),
_expectId(b, SearchResultKind.REFERENCE, 'T {} // B'),
];
await _verifyReferences(element, expected);
}
test_subtypes() async {
await _resolveTestUnit('''
class A {}
class B extends A {
void methodB() {}
}
class C extends Object with A {
void methodC() {}
}
class D implements A {
void methodD() {}
}
class E extends B {
void methodE() {}
}
class F {}
''');
ClassElement a = _findElement('A');
// Search by 'type'.
List<SubtypeResult> subtypes = await driver.search.subtypes(type: a);
expect(subtypes, hasLength(3));
SubtypeResult b = subtypes.singleWhere((r) => r.name == 'B');
SubtypeResult c = subtypes.singleWhere((r) => r.name == 'C');
SubtypeResult d = subtypes.singleWhere((r) => r.name == 'D');
expect(b.libraryUri, testUri);
expect(b.id, '$testUri;$testUri;B');
expect(b.members, ['methodB']);
expect(c.libraryUri, testUri);
expect(c.id, '$testUri;$testUri;C');
expect(c.members, ['methodC']);
expect(d.libraryUri, testUri);
expect(d.id, '$testUri;$testUri;D');
expect(d.members, ['methodD']);
// Search by 'id'.
{
List<SubtypeResult> subtypes = await driver.search.subtypes(subtype: b);
expect(subtypes, hasLength(1));
SubtypeResult e = subtypes.singleWhere((r) => r.name == 'E');
expect(e.members, ['methodE']);
}
}
test_subtypes_discover() async {
var pathT = _p('/test/lib/t.dart');
var pathA = _p('/aaa/lib/a.dart');
var pathB = _p('/bbb/lib/b.dart');
var tUri = 'package:test/t.dart';
var aUri = 'package:aaa/a.dart';
var bUri = 'package:bbb/b.dart';
provider.newFile(pathT, r'''
import 'package:aaa/a.dart';
class T1 extends A {
void method1() {}
}
class T2 extends A {
void method2() {}
}
''');
provider.newFile(pathB, r'''
import 'package:aaa/a.dart';
class B extends A {
void method1() {}
}
''');
provider.newFile(pathA, r'''
class A {
void method1() {}
void method2() {}
}
''');
driver.addFile(pathT);
var aLibrary = await driver.getLibraryByUri(aUri);
ClassElement aClass = aLibrary.getType('A');
// Search by 'type'.
List<SubtypeResult> subtypes = await driver.search.subtypes(type: aClass);
expect(subtypes, hasLength(3));
SubtypeResult t1 = subtypes.singleWhere((r) => r.name == 'T1');
SubtypeResult t2 = subtypes.singleWhere((r) => r.name == 'T2');
SubtypeResult b = subtypes.singleWhere((r) => r.name == 'B');
expect(t1.libraryUri, tUri);
expect(t1.id, '$tUri;$tUri;T1');
expect(t1.members, ['method1']);
expect(t2.libraryUri, tUri);
expect(t2.id, '$tUri;$tUri;T2');
expect(t2.members, ['method2']);
expect(b.libraryUri, bUri);
expect(b.id, '$bUri;$bUri;B');
expect(b.members, ['method1']);
}
test_subTypes_discover() async {
var t = _p('/test/lib/t.dart');
var a = _p('/aaa/lib/a.dart');
var b = _p('/bbb/lib/b.dart');
var c = _p('/ccc/lib/c.dart');
provider.newFile(t, 'class T implements List {}');
provider.newFile(a, 'class A implements List {}');
provider.newFile(b, 'class B implements List {}');
provider.newFile(c, 'class C implements List {}');
driver.addFile(t);
LibraryElement coreLib = await driver.getLibraryByUri('dart:core');
ClassElement listElement = coreLib.getType('List');
var searchedFiles = new SearchedFiles();
var results = await driver.search.subTypes(listElement, searchedFiles);
void assertHasResult(String path, String name, {bool not: false}) {
var matcher = contains(predicate((SearchResult r) {
var element = r.enclosingElement;
return element.name == name && element.source.fullName == path;
}));
expect(results, not ? isNot(matcher) : matcher);
}
assertHasResult(t, 'T');
assertHasResult(a, 'A');
assertHasResult(b, 'B');
assertHasResult(c, 'C', not: true);
}
test_subtypes_files() async {
String pathB = _p('$testProject/b.dart');
String pathC = _p('$testProject/c.dart');
provider.newFile(pathB, r'''
import 'test.dart';
class B extends A {}
''');
provider.newFile(pathC, r'''
import 'test.dart';
class C extends A {}
class D {}
''');
await _resolveTestUnit('''
class A {}
''');
ClassElement a = _findElement('A');
driver.addFile(pathB);
driver.addFile(pathC);
await scheduler.waitForIdle();
List<SubtypeResult> subtypes = await driver.search.subtypes(type: a);
expect(subtypes, hasLength(2));
SubtypeResult b = subtypes.singleWhere((r) => r.name == 'B');
SubtypeResult c = subtypes.singleWhere((r) => r.name == 'C');
expect(b.id, endsWith('b.dart;B'));
expect(c.id, endsWith('c.dart;C'));
}
test_subtypes_partWithoutLibrary() async {
await _resolveTestUnit('''
part of lib;
class A {}
class B extends A {}
''');
ClassElement a = _findElement('A');
List<SubtypeResult> subtypes = await driver.search.subtypes(type: a);
expect(subtypes, hasLength(1));
SubtypeResult b = subtypes.singleWhere((r) => r.name == 'B');
expect(b.libraryUri, testUri);
expect(b.id, '$testUri;$testUri;B');
}
test_topLevelElements() async {
await _resolveTestUnit('''
class A {} // A
class B = Object with A;
mixin C {}
typedef D();
e() {}
var f = null;
class NoMatchABCDEF {}
''');
Element a = _findElement('A');
Element b = _findElement('B');
Element c = _findElement('C');
Element d = _findElement('D');
Element e = _findElement('e');
Element f = _findElement('f');
RegExp regExp = new RegExp(r'^[ABCDef]$');
expect(await driver.search.topLevelElements(regExp),
unorderedEquals([a, b, c, d, e, f]));
}
Declaration _assertHasDeclaration(
List<Declaration> declarations, String name, DeclarationKind kind,
{int offset,
int codeOffset,
int codeLength,
String className,
String mixinName}) {
for (var declaration in declarations) {
if (declaration.name == name &&
declaration.kind == kind &&
(offset == null || declaration.offset == offset) &&
(codeOffset == null || declaration.codeOffset == codeOffset) &&
(codeLength == null || declaration.codeLength == codeLength) &&
declaration.className == className &&
declaration.mixinName == mixinName) {
return declaration;
}
}
var actual = declarations
.map((d) => '(name=${d.name}, kind=${d.kind}, offset=${d.offset}, '
'codeOffset=${d.codeOffset}, codeLength=${d.codeLength})')
.join('\n');
fail('Exected to find (name=$name, kind=$kind, offset=$offset, '
'codeOffset=$codeOffset, codeLength=$codeLength) in\n$actual');
}
void _assertNoDeclaration(List<Declaration> declarations, String name) {
for (var declaration in declarations) {
if (declaration.name == name) {
fail('Unexpected declaration $name');
}
}
}
ExpectedResult _expectId(
Element enclosingElement, SearchResultKind kind, String search,
{int length, bool isResolved: true, bool isQualified: false}) {
int offset = findOffset(search);
if (length == null) {
length = getLeadingIdentifierLength(search);
}
return new ExpectedResult(enclosingElement, kind, offset, length,
isResolved: isResolved, isQualified: isQualified);
}
/**
* Create [ExpectedResult] for a qualified and resolved match.
*/
ExpectedResult _expectIdQ(
Element element, SearchResultKind kind, String search,
{int length, bool isResolved: true}) {
return _expectId(element, kind, search, isQualified: true, length: length);
}
/**
* Create [ExpectedResult] for a qualified and unresolved match.
*/
ExpectedResult _expectIdQU(
Element element, SearchResultKind kind, String search,
{int length}) {
return _expectId(element, kind, search,
isQualified: true, isResolved: false, length: length);
}
/**
* Create [ExpectedResult] for a unqualified and unresolved match.
*/
ExpectedResult _expectIdU(
Element element, SearchResultKind kind, String search,
{int length}) {
return _expectId(element, kind, search,
isQualified: false, isResolved: false, length: length);
}
Element _findElement(String name, [ElementKind kind]) {
return findChildElement(testUnit.declaredElement, name, kind);
}
Element _findElementAtString(String search) {
int offset = findOffset(search);
AstNode node = new NodeLocator(offset).searchWithin(testUnit);
return ElementLocator.locate(node);
}
String _p(String path) => provider.convertPath(path);
Future<Null> _resolveTestUnit(String code, {bool addToDriver: true}) async {
if (addToDriver) {
addTestFile(code);
} else {
testCode = code;
provider.newFile(testFile, testCode);
}
if (testUnit == null) {
AnalysisResult result = await driver.getResult(testFile);
testUnit = result.unit;
testUnitElement = testUnit.declaredElement;
testLibraryElement = testUnitElement.library;
}
}
Future<Null> _verifyNameReferences(
String name, List<ExpectedResult> expectedMatches) async {
var searchedFiles = new SearchedFiles();
List<SearchResult> results =
await driver.search.unresolvedMemberReferences(name, searchedFiles);
_assertResults(results, expectedMatches);
expect(results, hasLength(expectedMatches.length));
}
Future _verifyReferences(
Element element, List<ExpectedResult> expectedMatches) async {
var searchedFiles = new SearchedFiles();
var results = await driver.search.references(element, searchedFiles);
_assertResults(results, expectedMatches);
expect(results, hasLength(expectedMatches.length));
}
static void _assertResults(
List<SearchResult> matches, List<ExpectedResult> expectedMatches) {
expect(matches, unorderedEquals(expectedMatches));
}
}