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dart / sdk.git / 06f380310e161759d6c13c9bcb28af4a4c4d320e / . / pkg / analysis_server / test / services / refactoring / inline_local_test.dart
blob: 335387b698a77f6f419a3ca7f38a8e02391c0a4c [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.
library test.services.refactoring.inline_local;
import 'package:analysis_server/src/protocol.dart' hide Element;
import 'package:analysis_server/src/services/correction/status.dart';
import 'package:analysis_server/src/services/refactoring/inline_local.dart';
import 'package:analysis_server/src/services/refactoring/refactoring.dart';
import 'package:unittest/unittest.dart';
import '../../reflective_tests.dart';
import 'abstract_refactoring.dart';
main() {
groupSep = ' | ';
runReflectiveTests(InlineLocalTest);
}
@reflectiveTest
class InlineLocalTest extends RefactoringTest {
InlineLocalRefactoringImpl refactoring;
test_access() async {
indexTestUnit('''
main() {
int test = 1 + 2;
print(test);
print(test);
}
''');
_createRefactoring('test =');
expect(refactoring.refactoringName, 'Inline Local Variable');
// check initial conditions and access
await refactoring.checkInitialConditions();
expect(refactoring.variableName, 'test');
expect(refactoring.referenceCount, 2);
}
test_bad_selectionMethod() async {
indexTestUnit(r'''
main() {
}
''');
_createRefactoring('main() {');
RefactoringStatus status = await refactoring.checkInitialConditions();
_assert_fatalError_selection(status);
}
test_bad_selectionParameter() async {
indexTestUnit(r'''
main(int test) {
}
''');
_createRefactoring('test) {');
RefactoringStatus status = await refactoring.checkInitialConditions();
_assert_fatalError_selection(status);
}
test_bad_selectionVariable_hasAssignments_1() async {
indexTestUnit(r'''
main() {
int test = 0;
test = 1;
}
''');
_createRefactoring('test = 0');
RefactoringStatus status = await refactoring.checkInitialConditions();
assertRefactoringStatus(
status,
RefactoringProblemSeverity.FATAL,
expectedContextSearch: 'test = 1');
}
test_bad_selectionVariable_hasAssignments_2() async {
indexTestUnit(r'''
main() {
int test = 0;
test += 1;
}
''');
_createRefactoring('test = 0');
RefactoringStatus status = await refactoring.checkInitialConditions();
assertRefactoringStatus(
status,
RefactoringProblemSeverity.FATAL,
expectedContextSearch: 'test += 1');
}
test_bad_selectionVariable_notInBlock() async {
indexTestUnit(r'''
main() {
if (true)
int test = 0;
}
''');
_createRefactoring('test = 0');
RefactoringStatus status = await refactoring.checkInitialConditions();
assertRefactoringStatus(status, RefactoringProblemSeverity.FATAL);
}
test_bad_selectionVariable_notInitialized() async {
indexTestUnit(r'''
main() {
int test;
}
''');
_createRefactoring('test;');
RefactoringStatus status = await refactoring.checkInitialConditions();
assertRefactoringStatus(status, RefactoringProblemSeverity.FATAL);
}
test_OK_cascade_intoCascade() {
indexTestUnit(r'''
class A {
foo() {}
bar() {}
}
main() {
A test = new A()..foo();
test..bar();
}
''');
_createRefactoring('test =');
// validate change
return assertSuccessfulRefactoring(r'''
class A {
foo() {}
bar() {}
}
main() {
new A()..foo()..bar();
}
''');
}
test_OK_cascade_intoNotCascade() {
indexTestUnit(r'''
class A {
foo() {}
bar() {}
}
main() {
A test = new A()..foo();
test.bar();
}
''');
_createRefactoring('test =');
// validate change
return assertSuccessfulRefactoring(r'''
class A {
foo() {}
bar() {}
}
main() {
(new A()..foo()).bar();
}
''');
}
test_OK_inSwitchCase() {
indexTestUnit('''
main(int p) {
switch (p) {
case 0:
int test = 42;
print(test);
break;
}
}
''');
_createRefactoring('test =');
// validate change
return assertSuccessfulRefactoring('''
main(int p) {
switch (p) {
case 0:
print(42);
break;
}
}
''');
}
test_OK_intoStringInterpolation_binaryExpression() {
indexTestUnit(r'''
main() {
int test = 1 + 2;
print('test = $test');
print('test = ${test}');
print('test = ${process(test)}');
}
process(x) {}
''');
_createRefactoring('test =');
// validate change
return assertSuccessfulRefactoring(r'''
main() {
print('test = ${1 + 2}');
print('test = ${1 + 2}');
print('test = ${process(1 + 2)}');
}
process(x) {}
''');
}
test_OK_intoStringInterpolation_simpleIdentifier() {
indexTestUnit(r'''
main() {
int foo = 1 + 2;
int test = foo;
print('test = $test');
print('test = ${test}');
print('test = ${process(test)}');
}
process(x) {}
''');
_createRefactoring('test =');
// validate change
return assertSuccessfulRefactoring(r'''
main() {
int foo = 1 + 2;
print('test = $foo');
print('test = ${foo}');
print('test = ${process(foo)}');
}
process(x) {}
''');
}
test_OK_intoStringInterpolation_string_differentQuotes() {
indexTestUnit(r'''
main() {
String a = "aaa";
String b = '$a bbb';
}
''');
_createRefactoring('a =');
// validate change
return assertSuccessfulRefactoring(r'''
main() {
String b = '${"aaa"} bbb';
}
''');
}
test_OK_intoStringInterpolation_string_doubleQuotes() {
indexTestUnit(r'''
main() {
String a = "aaa";
String b = "$a bbb";
}
''');
_createRefactoring('a =');
// validate change
return assertSuccessfulRefactoring(r'''
main() {
String b = "aaa bbb";
}
''');
}
test_OK_intoStringInterpolation_string_multiLineIntoMulti_unixEOL() {
indexTestUnit(r"""
main() {
String a = '''
a
a
a''';
String b = '''
$a
bbb''';
}
""");
_createRefactoring('a =');
// validate change
return assertSuccessfulRefactoring(r"""
main() {
String b = '''
a
a
a
bbb''';
}
""");
}
test_OK_intoStringInterpolation_string_multiLineIntoMulti_windowsEOL() {
indexTestUnit(r"""
main() {
String a = '''
a
a
a''';
String b = '''
$a
bbb''';
}
""".replaceAll('\n', '\r\n'));
_createRefactoring('a =');
// validate change
return assertSuccessfulRefactoring(r"""
main() {
String b = '''
a
a
a
bbb''';
}
""".replaceAll('\n', '\r\n'));
}
test_OK_intoStringInterpolation_string_multiLineIntoSingle() {
indexTestUnit(r'''
main() {
String a = """aaa""";
String b = "$a bbb";
}
''');
_createRefactoring('a =');
// validate change
return assertSuccessfulRefactoring(r'''
main() {
String b = "${"""aaa"""} bbb";
}
''');
}
test_OK_intoStringInterpolation_string_raw() {
indexTestUnit(r'''
main() {
String a = r'an $ignored interpolation';
String b = '$a bbb';
}
''');
_createRefactoring('a =');
// we don't unwrap raw strings
return assertSuccessfulRefactoring(r'''
main() {
String b = '${r'an $ignored interpolation'} bbb';
}
''');
}
test_OK_intoStringInterpolation_string_singleLineIntoMulti_doubleQuotes() {
indexTestUnit(r'''
main() {
String a = "aaa";
String b = """$a bbb""";
}
''');
_createRefactoring('a =');
// validate change
return assertSuccessfulRefactoring(r'''
main() {
String b = """aaa bbb""";
}
''');
}
test_OK_intoStringInterpolation_string_singleLineIntoMulti_singleQuotes() {
indexTestUnit(r"""
main() {
String a = 'aaa';
String b = '''$a bbb''';
}
""");
_createRefactoring('a =');
// validate change
return assertSuccessfulRefactoring(r"""
main() {
String b = '''aaa bbb''';
}
""");
}
test_OK_intoStringInterpolation_string_singleQuotes() {
indexTestUnit(r'''
main() {
String a = 'aaa';
String b = '$a bbb';
}
''');
_createRefactoring('a =');
// validate change
return assertSuccessfulRefactoring(r'''
main() {
String b = 'aaa bbb';
}
''');
}
test_OK_intoStringInterpolation_stringInterpolation() {
indexTestUnit(r'''
main() {
String a = 'aaa';
String b = '$a bbb';
String c = '$b ccc';
}
''');
_createRefactoring('b =');
// validate change
return assertSuccessfulRefactoring(r'''
main() {
String a = 'aaa';
String c = '$a bbb ccc';
}
''');
}
/**
* <p>
* https://code.google.com/p/dart/issues/detail?id=18587
*/
test_OK_keepNextCommentedLine() {
indexTestUnit('''
main() {
int test = 1 + 2;
// foo
print(test);
// bar
}
''');
_createRefactoring('test =');
// validate change
return assertSuccessfulRefactoring('''
main() {
// foo
print(1 + 2);
// bar
}
''');
}
test_OK_noUsages_1() {
indexTestUnit('''
main() {
int test = 1 + 2;
print(0);
}
''');
_createRefactoring('test =');
// validate change
return assertSuccessfulRefactoring('''
main() {
print(0);
}
''');
}
test_OK_noUsages_2() {
indexTestUnit('''
main() {
int test = 1 + 2;
}
''');
_createRefactoring('test =');
// validate change
return assertSuccessfulRefactoring('''
main() {
}
''');
}
test_OK_oneUsage() {
indexTestUnit('''
main() {
int test = 1 + 2;
print(test);
}
''');
_createRefactoring('test =');
// validate change
return assertSuccessfulRefactoring('''
main() {
print(1 + 2);
}
''');
}
test_OK_parenthesis_decrement_intoNegate() {
indexTestUnit('''
main() {
var a = 1;
var test = --a;
var b = -test;
}
''');
_createRefactoring('test =');
// validate change
return assertSuccessfulRefactoring('''
main() {
var a = 1;
var b = -(--a);
}
''');
}
test_OK_parenthesis_instanceCreation_intoList() {
indexTestUnit('''
class A {}
main() {
var test = new A();
var list = [test];
}
''');
_createRefactoring('test =');
// validate change
return assertSuccessfulRefactoring('''
class A {}
main() {
var list = [new A()];
}
''');
}
test_OK_parenthesis_negate_intoNegate() {
indexTestUnit('''
main() {
var a = 1;
var test = -a;
var b = -test;
}
''');
_createRefactoring('test =');
// validate change
return assertSuccessfulRefactoring('''
main() {
var a = 1;
var b = -(-a);
}
''');
}
test_OK_parenthesis_plus_intoMultiply() {
indexTestUnit('''
main() {
var test = 1 + 2;
print(test * 3);
}
''');
_createRefactoring('test =');
// validate change
return assertSuccessfulRefactoring('''
main() {
print((1 + 2) * 3);
}
''');
}
test_OK_twoUsages() {
indexTestUnit('''
main() {
int test = 1 + 2;
print(test);
print(test);
}
''');
_createRefactoring('test =');
// validate change
return assertSuccessfulRefactoring('''
main() {
print(1 + 2);
print(1 + 2);
}
''');
}
void _assert_fatalError_selection(RefactoringStatus status) {
expect(refactoring.variableName, isNull);
expect(refactoring.referenceCount, 0);
assertRefactoringStatus(
status,
RefactoringProblemSeverity.FATAL,
expectedMessage: 'Local variable declaration or reference must be '
'selected to activate this refactoring.');
}
void _createRefactoring(String search) {
int offset = findOffset(search);
refactoring = new InlineLocalRefactoring(searchEngine, testUnit, offset);
}
}