| // Copyright (c) 2019, the Dart project authors. Please see the AUTHORS file |
| // for details. All rights reserved. Use of this source code is governed by a |
| // BSD-style license that can be found in the LICENSE file. |
| |
| import 'package:analyzer/dart/ast/ast.dart'; |
| import 'package:analyzer/dart/element/type.dart'; |
| import 'package:analyzer/dart/element/type_provider.dart'; |
| import 'package:analyzer/src/dart/element/type_provider.dart'; |
| import 'package:analyzer/src/dart/error/hint_codes.dart'; |
| import 'package:analyzer/src/generated/element_type_provider.dart'; |
| import 'package:nnbd_migration/fix_reason_target.dart'; |
| import 'package:nnbd_migration/nnbd_migration.dart'; |
| import 'package:nnbd_migration/src/edit_plan.dart'; |
| import 'package:nnbd_migration/src/fix_aggregator.dart'; |
| import 'package:nnbd_migration/src/fix_builder.dart'; |
| import 'package:nnbd_migration/src/nullability_node.dart'; |
| import 'package:test/test.dart'; |
| import 'package:test_reflective_loader/test_reflective_loader.dart'; |
| |
| import 'migration_visitor_test_base.dart'; |
| |
| main() { |
| defineReflectiveSuite(() { |
| defineReflectiveTests(FixBuilderTest); |
| }); |
| } |
| |
| /// Information about the target of an assignment expression analyzed by |
| /// [FixBuilder]. |
| class AssignmentTargetInfo { |
| /// The type that the assignment target has when read. This is only relevant |
| /// for compound assignments (since they both read and write the assignment |
| /// target) |
| final DartType readType; |
| |
| /// The type that the assignment target has when written to. |
| final DartType writeType; |
| |
| AssignmentTargetInfo(this.readType, this.writeType); |
| } |
| |
| @reflectiveTest |
| class FixBuilderTest extends EdgeBuilderTestBase { |
| static final isAddRequiredKeyword = |
| TypeMatcher<NodeChangeForDefaultFormalParameter>() |
| .having((c) => c.addRequiredKeyword, 'addRequiredKeyword', true); |
| |
| static final isMakeNullable = TypeMatcher<NodeChangeForTypeAnnotation>() |
| .having((c) => c.makeNullable, 'makeNullable', true) |
| .having((c) => c.nullabilityHint, 'nullabilityHint', isNull); |
| |
| static final isMakeNullableDueToHint = |
| TypeMatcher<NodeChangeForTypeAnnotation>() |
| .having((c) => c.makeNullable, 'makeNullable', true) |
| .having((c) => c.nullabilityHint, 'nullabilityHint', isNotNull); |
| |
| static const isEdge = TypeMatcher<NullabilityEdge>(); |
| |
| static final isExplainNonNullable = TypeMatcher<NodeChangeForTypeAnnotation>() |
| .having((c) => c.makeNullable, 'makeNullable', false); |
| |
| static final isBadCombinedType = TypeMatcher<NodeChangeForAssignmentLike>() |
| .having((c) => c.hasBadCombinedType, 'hasBadCombinedType', true); |
| |
| static final isNullableSource = TypeMatcher<NodeChangeForAssignmentLike>() |
| .having((c) => c.hasNullableSource, 'hasNullableSource', true); |
| |
| static final isNodeChangeForExpression = |
| TypeMatcher<NodeChangeForExpression>(); |
| |
| static final isNoValidMigration = |
| isNodeChangeForExpression.havingNoValidMigrationWithInfo(anything); |
| |
| static final isNullCheck = |
| isNodeChangeForExpression.havingNullCheckWithInfo(anything); |
| |
| static final isRemoveLanguageVersion = |
| TypeMatcher<NodeChangeForCompilationUnit>().having( |
| (c) => c.removeLanguageVersionComment, |
| 'removeLanguageVersionComment', |
| true); |
| |
| static final isAddImportOfIterableExtension = |
| TypeMatcher<NodeChangeForCompilationUnit>() |
| .having((c) => c.addImports, 'addImports', { |
| 'package:collection/collection.dart': {'IterableExtension'} |
| }); |
| |
| static final isAddShowOfIterableExtension = |
| TypeMatcher<NodeChangeForShowCombinator>().having((c) => c.addNames, |
| 'addNames', unorderedEquals(['IterableExtension'])); |
| |
| static final isRemoveNullAwareness = |
| TypeMatcher<NodeChangeForPropertyAccess>() |
| .having((c) => c.removeNullAwareness, 'removeNullAwareness', true); |
| |
| static final isRemoveAs = TypeMatcher<NodeChangeForAsExpression>() |
| .having((c) => c.removeAs, 'removeAs', true); |
| |
| static final isRequiredAnnotationToRequiredKeyword = |
| TypeMatcher<NodeChangeForAnnotation>().having( |
| (c) => c.changeToRequiredKeyword, 'changeToRequiredKeyword', true); |
| |
| static final isWeakNullAwareAssignment = |
| TypeMatcher<NodeChangeForAssignment>() |
| .having((c) => c.isWeakNullAware, 'isWeakNullAware', true); |
| |
| DartType get dynamicType => postMigrationTypeProvider.dynamicType; |
| |
| DartType get objectType => postMigrationTypeProvider.objectType; |
| |
| TypeProvider get postMigrationTypeProvider => |
| (typeProvider as TypeProviderImpl).asNonNullableByDefault; |
| |
| @override |
| Future<CompilationUnit> analyze(String code) async { |
| var unit = await super.analyze(code); |
| graph.propagate(null); |
| return unit; |
| } |
| |
| TypeMatcher<NodeChangeForArgumentList> isDropArgument( |
| dynamic argumentsToDrop) => |
| TypeMatcher<NodeChangeForArgumentList>() |
| .having((c) => c.argumentsToDrop, 'argumentsToDrop', argumentsToDrop); |
| |
| TypeMatcher<AtomicEditInfo> isInfo(description, fixReasons) => |
| TypeMatcher<AtomicEditInfo>() |
| .having((i) => i.description, 'description', description) |
| .having((i) => i.fixReasons, 'fixReasons', fixReasons); |
| |
| TypeMatcher<NodeChangeForMethodName> isMethodNameChange( |
| dynamic replacement) => |
| TypeMatcher<NodeChangeForMethodName>() |
| .having((c) => c.replacement, 'replacement', replacement); |
| |
| Map<AstNode, NodeChange> scopedChanges( |
| FixBuilder fixBuilder, AstNode scope) => |
| { |
| for (var entry in fixBuilder.changes.entries) |
| if (_isInScope(entry.key, scope) && !entry.value.isInformative) |
| entry.key: entry.value |
| }; |
| |
| Map<AstNode, NodeChange> scopedInformative( |
| FixBuilder fixBuilder, AstNode scope) => |
| { |
| for (var entry in fixBuilder.changes.entries) |
| if (_isInScope(entry.key, scope) && entry.value.isInformative) |
| entry.key: entry.value |
| }; |
| |
| Map<AstNode, Set<Problem>> scopedProblems( |
| FixBuilder fixBuilder, AstNode scope) => |
| { |
| for (var entry in fixBuilder.problems.entries) |
| if (_isInScope(entry.key, scope)) entry.key: entry.value |
| }; |
| |
| Future<void> test_asExpression_keep() async { |
| await analyze(''' |
| _f(Object x) { |
| print((x as int) + 1); |
| } |
| '''); |
| var asExpression = findNode.simple('x as').parent as Expression; |
| visitSubexpression(asExpression, 'int'); |
| } |
| |
| Future<void> test_asExpression_keep_previously_unnecessary() async { |
| verifyNoTestUnitErrors = false; |
| await analyze(''' |
| f(int i) { |
| print((i as int) + 1); |
| } |
| '''); |
| expect( |
| testAnalysisResult.errors.single.errorCode, HintCode.UNNECESSARY_CAST); |
| var asExpression = findNode.simple('i as').parent as Expression; |
| visitSubexpression(asExpression, 'int'); |
| } |
| |
| Future<void> test_asExpression_remove() async { |
| await analyze(''' |
| _f(Object x) { |
| if (x is! int) return; |
| print((x as int) + 1); |
| } |
| '''); |
| var asExpression = findNode.simple('x as').parent as Expression; |
| visitSubexpression(asExpression, 'int', |
| changes: {asExpression: isRemoveAs}); |
| } |
| |
| Future<void> |
| test_assignmentExpression_compound_combined_nullable_noProblem() async { |
| await analyze(''' |
| abstract class _C { |
| _D/*?*/ operator+(int/*!*/ value); |
| } |
| abstract class _D extends _C {} |
| abstract class _E { |
| _C/*!*/ get x; |
| void set x(_C/*?*/ value); |
| f(int/*!*/ y) => x += y; |
| } |
| '''); |
| visitSubexpression(findNode.assignment('+='), '_D?'); |
| } |
| |
| Future<void> |
| test_assignmentExpression_compound_combined_nullable_noProblem_dynamic() async { |
| await analyze(''' |
| abstract class _E { |
| dynamic get x; |
| void set x(Object/*!*/ value); |
| f(int/*!*/ y) => x += y; |
| } |
| '''); |
| var assignment = findNode.assignment('+='); |
| visitSubexpression(assignment, 'dynamic'); |
| } |
| |
| @FailingTest(reason: 'TODO(paulberry)') |
| Future<void> |
| test_assignmentExpression_compound_combined_nullable_problem() async { |
| await analyze(''' |
| abstract class _C { |
| _D/*?*/ operator+(int/*!*/ value); |
| } |
| abstract class _D extends _C {} |
| abstract class _E { |
| _C/*!*/ get x; |
| void set x(_C/*!*/ value); |
| f(int/*!*/ y) => x += y; |
| } |
| '''); |
| var assignment = findNode.assignment('+='); |
| visitSubexpression(assignment, '_D', problems: { |
| assignment: {const CompoundAssignmentCombinedNullable()} |
| }); |
| } |
| |
| Future<void> test_assignmentExpression_compound_dynamic() async { |
| // To confirm that the RHS is visited, we check that a null check was |
| // properly inserted into a subexpression of the RHS. |
| await analyze(''' |
| _f(dynamic x, int/*?*/ y) => x += y + 1; |
| '''); |
| visitSubexpression(findNode.assignment('+='), 'dynamic', |
| changes: {findNode.simple('y +'): isNullCheck}); |
| } |
| |
| Future<void> test_assignmentExpression_compound_intRules() async { |
| await analyze(''' |
| _f(int x, int y) => x += y; |
| '''); |
| visitSubexpression(findNode.assignment('+='), 'int'); |
| } |
| |
| @FailingTest(reason: 'TODO(paulberry)') |
| Future<void> test_assignmentExpression_compound_lhs_nullable_problem() async { |
| await analyze(''' |
| abstract class _C { |
| _D/*!*/ operator+(int/*!*/ value); |
| } |
| abstract class _D extends _C {} |
| abstract class _E { |
| _C/*?*/ get x; |
| void set x(_C/*?*/ value); |
| f(int/*!*/ y) => x += y; |
| } |
| '''); |
| var assignment = findNode.assignment('+='); |
| visitSubexpression(assignment, '_D', problems: { |
| assignment: {const CompoundAssignmentReadNullable()} |
| }); |
| } |
| |
| @FailingTest(issue: 'https://github.com/dart-lang/sdk/issues/39641') |
| Future<void> test_assignmentExpression_compound_promoted() async { |
| await analyze(''' |
| f(bool/*?*/ x, bool/*?*/ y) => x != null && (x = y); |
| '''); |
| // It is ok to assign a nullable value to `x` even though it is promoted to |
| // non-nullable, so `y` should not be null-checked. However, the whole |
| // assignment `x = y` should be null checked because the RHS of `&&` cannot |
| // be nullable. |
| visitSubexpression(findNode.binary('&&'), 'bool', |
| changes: {findNode.parenthesized('x = y'): isNullCheck}); |
| } |
| |
| Future<void> test_assignmentExpression_compound_rhs_nonNullable() async { |
| await analyze(''' |
| abstract class _C { |
| _D/*!*/ operator+(int/*!*/ value); |
| } |
| abstract class _D extends _C {} |
| _f(_C/*!*/ x, int/*!*/ y) => x += y; |
| '''); |
| visitSubexpression(findNode.assignment('+='), '_D'); |
| } |
| |
| Future<void> test_assignmentExpression_compound_rhs_nullable_check() async { |
| await analyze(''' |
| abstract class _C { |
| _D/*!*/ operator+(int/*!*/ value); |
| } |
| abstract class _D extends _C {} |
| _f(_C/*!*/ x, int/*?*/ y) => x += y; |
| '''); |
| visitSubexpression(findNode.assignment('+='), '_D', |
| changes: {findNode.simple('y;'): isNullCheck}); |
| } |
| |
| Future<void> test_assignmentExpression_compound_rhs_nullable_noCheck() async { |
| await analyze(''' |
| abstract class _C { |
| _D/*!*/ operator+(int/*?*/ value); |
| } |
| abstract class _D extends _C {} |
| _f(_C/*!*/ x, int/*?*/ y) => x += y; |
| '''); |
| visitSubexpression(findNode.assignment('+='), '_D'); |
| } |
| |
| Future<void> |
| test_assignmentExpression_null_aware_rhs_does_not_promote() async { |
| await analyze(''' |
| _f(bool/*?*/ b, int/*?*/ i) { |
| b ??= i.isEven; // 1 |
| b = i.isEven; // 2 |
| b = i.isEven; // 3 |
| } |
| '''); |
| // The null check inserted at 1 fails to promote i because it's inside the |
| // `??=`, so a null check is inserted at 2. This does promote i, so no null |
| // check is inserted at 3. |
| visitStatement(findNode.block('{'), changes: { |
| findNode.simple('i.isEven; // 1'): isNullCheck, |
| findNode.simple('i.isEven; // 2'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_assignmentExpression_null_aware_rhs_nonNullable() async { |
| await analyze(''' |
| abstract class _B {} |
| abstract class _C extends _B {} |
| abstract class _D extends _C {} |
| abstract class _E extends _C {} |
| abstract class _F { |
| _D/*?*/ get x; |
| void set x(_B/*?*/ value); |
| f(_E/*!*/ y) => x ??= y; |
| } |
| '''); |
| visitSubexpression(findNode.assignment('??='), '_C'); |
| } |
| |
| Future<void> test_assignmentExpression_null_aware_rhs_nullable() async { |
| await analyze(''' |
| abstract class _B {} |
| abstract class _C extends _B {} |
| abstract class _D extends _C {} |
| abstract class _E extends _C {} |
| abstract class _F { |
| _D/*?*/ get x; |
| void set x(_B/*?*/ value); |
| f(_E/*?*/ y) => x ??= y; |
| } |
| '''); |
| visitSubexpression(findNode.assignment('??='), '_C?'); |
| } |
| |
| Future<void> test_assignmentExpression_null_aware_simple_promoted() async { |
| await analyze(''' |
| _f(bool/*?*/ x, bool/*?*/ y) => x != null && (x ??= y) != null; |
| '''); |
| // On the RHS of the `&&`, `x` is promoted to non-nullable, but it is still |
| // considered to be a nullable assignment target, so no null check is |
| // generated for `y`. |
| visitSubexpression(findNode.binary('&&'), 'bool', |
| changes: {findNode.assignment('??='): isWeakNullAwareAssignment}); |
| } |
| |
| Future<void> |
| test_assignmentExpression_simple_nonNullable_to_nonNullable() async { |
| await analyze(''' |
| _f(int/*!*/ x, int/*!*/ y) => x = y; |
| '''); |
| visitSubexpression(findNode.assignment('= '), 'int'); |
| } |
| |
| Future<void> |
| test_assignmentExpression_simple_nonNullable_to_nullable() async { |
| await analyze(''' |
| _f(int/*?*/ x, int/*!*/ y) => x = y; |
| '''); |
| visitSubexpression(findNode.assignment('= '), 'int'); |
| } |
| |
| Future<void> |
| test_assignmentExpression_simple_nullable_to_nonNullable() async { |
| await analyze(''' |
| _f(int/*!*/ x, int/*?*/ y) => x = y; |
| '''); |
| visitSubexpression(findNode.assignment('= '), 'int', |
| changes: {findNode.simple('y;'): isNullCheck}); |
| } |
| |
| Future<void> test_assignmentExpression_simple_nullable_to_nullable() async { |
| await analyze(''' |
| _f(int/*?*/ x, int/*?*/ y) => x = y; |
| '''); |
| visitSubexpression(findNode.assignment('= '), 'int?'); |
| } |
| |
| Future<void> test_assignmentExpression_simple_promoted() async { |
| await analyze(''' |
| _f(bool/*?*/ x, bool/*?*/ y) => x != null && (x = y) != null; |
| '''); |
| // On the RHS of the `&&`, `x` is promoted to non-nullable, but it is still |
| // considered to be a nullable assignment target, so no null check is |
| // generated for `y`. |
| visitSubexpression(findNode.binary('&&'), 'bool'); |
| } |
| |
| Future<void> test_assignmentTarget_indexExpression_compound_dynamic() async { |
| await analyze(''' |
| _f(dynamic d, int/*?*/ i) => d[i] += 0; |
| '''); |
| visitAssignmentTarget(findNode.index('d[i]'), 'dynamic', 'dynamic'); |
| } |
| |
| Future<void> test_assignmentTarget_indexExpression_compound_simple() async { |
| await analyze(''' |
| class _C { |
| int operator[](String s) => 1; |
| void operator[]=(String s, num n) {} |
| } |
| _f(_C c) => c['foo'] += 0; |
| '''); |
| visitAssignmentTarget(findNode.index('c['), 'int', 'num'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_indexExpression_compound_simple_check_lhs() async { |
| await analyze(''' |
| class _C { |
| int operator[](String s) => 1; |
| void operator[]=(String s, num n) {} |
| } |
| _f(_C/*?*/ c) => c['foo'] += 0; |
| '''); |
| visitAssignmentTarget(findNode.index('c['), 'int', 'num', |
| changes: {findNode.simple('c['): isNullCheck}); |
| } |
| |
| @FailingTest(reason: 'TODO(paulberry): decide if this is worth caring about') |
| Future<void> |
| test_assignmentTarget_indexExpression_compound_simple_check_rhs() async { |
| await analyze(''' |
| class _C { |
| int operator[](String/*!*/ s) => 1; |
| void operator[]=(String/*?*/ s, num n) {} |
| } |
| _f(_C c, String/*?*/ s) => c[s] += 0; |
| '''); |
| visitAssignmentTarget(findNode.index('c['), 'int', 'num', |
| changes: {findNode.simple('s]'): isNullCheck}); |
| } |
| |
| Future<void> |
| test_assignmentTarget_indexExpression_compound_substituted() async { |
| await analyze(''' |
| class _C<T, U> { |
| T operator[](U u) => throw 'foo'; |
| void operator[]=(U u, T t) {} |
| } |
| _f(_C<int, String> c) => c['foo'] += 1; |
| '''); |
| visitAssignmentTarget(findNode.index('c['), 'int', 'int'); |
| } |
| |
| @FailingTest(reason: 'TODO(paulberry): decide if this is worth caring about') |
| Future<void> |
| test_assignmentTarget_indexExpression_compound_substituted_check_rhs() async { |
| await analyze(''' |
| class _C<T, U> { |
| T operator[](U u) => throw 'foo'; |
| void operator[]=(U/*?*/ u, T t) {} |
| } |
| _f(_C<int, String/*!*/> c, String/*?*/ s) => c[s] += 1; |
| '''); |
| visitAssignmentTarget(findNode.index('c['), 'int', 'int', |
| changes: {findNode.simple('s]'): isNullCheck}); |
| } |
| |
| Future<void> |
| test_assignmentTarget_indexExpression_compound_substituted_no_check_rhs() async { |
| await analyze(''' |
| class _C<T, U> { |
| T operator[](U u) => throw 'foo'; |
| void operator[]=(U u, T t) {} |
| } |
| _f(_C<int, String/*?*/> c, String/*?*/ s) => c[s] += 0; |
| '''); |
| visitAssignmentTarget(findNode.index('c['), 'int', 'int'); |
| } |
| |
| Future<void> test_assignmentTarget_indexExpression_dynamic() async { |
| await analyze(''' |
| _f(dynamic d, int/*?*/ i) => d[i] = 0; |
| '''); |
| visitAssignmentTarget(findNode.index('d[i]'), null, 'dynamic'); |
| } |
| |
| Future<void> test_assignmentTarget_indexExpression_simple() async { |
| await analyze(''' |
| class _C { |
| int operator[](String s) => 1; |
| void operator[]=(String s, num n) {} |
| } |
| _f(_C c) => c['foo'] = 0; |
| '''); |
| visitAssignmentTarget(findNode.index('c['), null, 'num'); |
| } |
| |
| Future<void> test_assignmentTarget_indexExpression_simple_check_lhs() async { |
| await analyze(''' |
| class _C { |
| int operator[](String s) => 1; |
| void operator[]=(String s, num n) {} |
| } |
| _f(_C/*?*/ c) => c['foo'] = 0; |
| '''); |
| visitAssignmentTarget(findNode.index('c['), null, 'num', |
| changes: {findNode.simple('c['): isNullCheck}); |
| } |
| |
| Future<void> test_assignmentTarget_indexExpression_simple_check_rhs() async { |
| await analyze(''' |
| class _C { |
| int operator[](String/*?*/ s) => 1; |
| void operator[]=(String/*!*/ s, num n) {} |
| } |
| _f(_C c, String/*?*/ s) => c[s] = 0; |
| '''); |
| visitAssignmentTarget(findNode.index('c['), null, 'num', |
| changes: {findNode.simple('s]'): isNullCheck}); |
| } |
| |
| Future<void> test_assignmentTarget_indexExpression_substituted() async { |
| await analyze(''' |
| class _C<T, U> { |
| T operator[](U u) => throw 'foo'; |
| void operator[]=(U u, T t) {} |
| } |
| _f(_C<int, String> c) => c['foo'] = 1; |
| '''); |
| visitAssignmentTarget(findNode.index('c['), null, 'int'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_indexExpression_substituted_check_rhs() async { |
| await analyze(''' |
| class _C<T, U> { |
| T operator[](U u) => throw 'foo'; |
| void operator[]=(U/*!*/ u, T t) {} |
| } |
| _f(_C<int, String/*!*/> c, String/*?*/ s) => c[s] = 1; |
| '''); |
| visitAssignmentTarget(findNode.index('c['), null, 'int', |
| changes: {findNode.simple('s]'): isNullCheck}); |
| } |
| |
| Future<void> |
| test_assignmentTarget_indexExpression_substituted_no_check_rhs() async { |
| await analyze(''' |
| class _C<T, U> { |
| T operator[](U u) => throw 'foo'; |
| void operator[]=(U u, T t) {} |
| } |
| _f(_C<int, String/*?*/> c, String/*?*/ s) => c[s] = 0; |
| '''); |
| visitAssignmentTarget(findNode.index('c['), null, 'int'); |
| } |
| |
| Future<void> test_assignmentTarget_prefixedIdentifier_dynamic() async { |
| await analyze(''' |
| Object/*!*/ _f(dynamic d) => d.x += 1; |
| '''); |
| visitAssignmentTarget(findNode.prefixed('d.x'), 'dynamic', 'dynamic'); |
| } |
| |
| Future<void> test_assignmentTarget_propertyAccess_dynamic() async { |
| await analyze(''' |
| _f(dynamic d) => (d).x += 1; |
| '''); |
| visitAssignmentTarget( |
| findNode.propertyAccess('(d).x'), 'dynamic', 'dynamic'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_propertyAccess_dynamic_notCompound() async { |
| await analyze(''' |
| _f(dynamic d) => (d).x = 1; |
| '''); |
| visitAssignmentTarget(findNode.propertyAccess('(d).x'), null, 'dynamic'); |
| } |
| |
| Future<void> test_assignmentTarget_propertyAccess_field_nonNullable() async { |
| await analyze(''' |
| class _C { |
| int/*!*/ x = 0; |
| } |
| _f(_C c) => (c).x += 1; |
| '''); |
| visitAssignmentTarget(findNode.propertyAccess('(c).x'), 'int', 'int'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_propertyAccess_field_nonNullable_notCompound() async { |
| await analyze(''' |
| class _C { |
| int/*!*/ x = 0; |
| } |
| _f(_C c) => (c).x = 1; |
| '''); |
| visitAssignmentTarget(findNode.propertyAccess('(c).x'), null, 'int'); |
| } |
| |
| Future<void> test_assignmentTarget_propertyAccess_field_nullable() async { |
| await analyze(''' |
| class _C { |
| int/*?*/ x = 0; |
| } |
| _f(_C c) => (c).x += 1; |
| '''); |
| visitAssignmentTarget(findNode.propertyAccess('(c).x'), 'int?', 'int?'); |
| } |
| |
| Future<void> test_assignmentTarget_propertyAccess_getter_nullable() async { |
| await analyze(''' |
| abstract class _C { |
| int/*?*/ get x; |
| void set x(num/*?*/ value); |
| } |
| _f(_C c) => (c).x += 1; |
| '''); |
| visitAssignmentTarget(findNode.propertyAccess('(c).x'), 'int?', 'num?'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_propertyAccess_getter_setter_check_lhs() async { |
| await analyze(''' |
| abstract class _C { |
| int get x; |
| void set x(num value); |
| } |
| _f(_C/*?*/ c) => (c).x += 1; |
| '''); |
| visitAssignmentTarget(findNode.propertyAccess('(c).x'), 'int', 'num', |
| changes: {findNode.parenthesized('(c).x'): isNullCheck}); |
| } |
| |
| Future<void> |
| test_assignmentTarget_propertyAccess_getter_setter_nonNullable() async { |
| await analyze(''' |
| abstract class _C { |
| int/*!*/ get x; |
| void set x(num/*!*/ value); |
| } |
| _f(_C c) => (c).x += 1; |
| '''); |
| visitAssignmentTarget(findNode.propertyAccess('(c).x'), 'int', 'num'); |
| } |
| |
| Future<void> test_assignmentTarget_propertyAccess_nullAware_dynamic() async { |
| await analyze(''' |
| _f(dynamic d) => d?.x += 1; |
| '''); |
| visitAssignmentTarget( |
| findNode.propertyAccess('d?.x'), 'dynamic', 'dynamic'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_propertyAccess_nullAware_field_nonNullable() async { |
| await analyze(''' |
| class _C { |
| int/*!*/ x = 0; |
| } |
| _f(_C/*?*/ c) => c?.x += 1; |
| '''); |
| visitAssignmentTarget(findNode.propertyAccess('c?.x'), 'int', 'int'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_propertyAccess_nullAware_field_nullable() async { |
| await analyze(''' |
| class _C { |
| int/*?*/ x = 0; |
| } |
| _f(_C/*?*/ c) => c?.x += 1; |
| '''); |
| visitAssignmentTarget(findNode.propertyAccess('c?.x'), 'int?', 'int?'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_propertyAccess_nullAware_getter_setter_nonNullable() async { |
| await analyze(''' |
| abstract class _C { |
| int/*!*/ get x; |
| void set x(num/*!*/ value); |
| } |
| _f(_C/*?*/ c) => c?.x += 1; |
| '''); |
| visitAssignmentTarget(findNode.propertyAccess('c?.x'), 'int', 'num'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_propertyAccess_nullAware_getter_setter_nullable() async { |
| await analyze(''' |
| abstract class _C { |
| int/*?*/ get x; |
| void set x(num/*?*/ value); |
| } |
| _f(_C/*?*/ c) => c?.x += 1; |
| '''); |
| visitAssignmentTarget(findNode.propertyAccess('c?.x'), 'int?', 'num?'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_propertyAccess_nullAware_substituted() async { |
| await analyze(''' |
| abstract class _C<T> { |
| _E<T> get x; |
| void set x(_D<T> value); |
| } |
| class _D<T> implements Iterable<T> { |
| noSuchMethod(invocation) => super.noSuchMethod(invocation); |
| _D<T> operator+(int i) => this; |
| } |
| class _E<T> extends _D<T> {} |
| _f(_C<int>/*?*/ c) => c?.x += 1; |
| '''); |
| visitAssignmentTarget( |
| findNode.propertyAccess('c?.x'), '_E<int>', '_D<int>'); |
| } |
| |
| Future<void> test_assignmentTarget_propertyAccess_substituted() async { |
| await analyze(''' |
| abstract class _C<T> { |
| _E<T> get x; |
| void set x(_D<T> value); |
| } |
| class _D<T> implements Iterable<T> { |
| noSuchMethod(invocation) => super.noSuchMethod(invocation); |
| _D<T> operator+(int i) => this; |
| } |
| class _E<T> extends _D<T> {} |
| _f(_C<int> c) => (c).x += 1; |
| '''); |
| visitAssignmentTarget( |
| findNode.propertyAccess('(c).x'), '_E<int>', '_D<int>'); |
| } |
| |
| Future<void> test_assignmentTarget_simpleIdentifier_field_generic() async { |
| await analyze(''' |
| abstract class _C<T> { |
| _C<T> operator+(int i); |
| } |
| class _D<T> { |
| _D(this.x); |
| _C<T/*!*/>/*!*/ x; |
| _f() => x += 0; |
| } |
| '''); |
| visitAssignmentTarget(findNode.simple('x +='), '_C<T>', '_C<T>'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_simpleIdentifier_field_nonNullable() async { |
| await analyze(''' |
| class _C { |
| int/*!*/ x; |
| _f() => x += 0; |
| } |
| '''); |
| visitAssignmentTarget(findNode.simple('x '), 'int', 'int'); |
| } |
| |
| Future<void> test_assignmentTarget_simpleIdentifier_field_nullable() async { |
| await analyze(''' |
| class _C { |
| int/*?*/ x; |
| _f() => x += 0; |
| } |
| '''); |
| visitAssignmentTarget(findNode.simple('x '), 'int?', 'int?'); |
| } |
| |
| Future<void> test_assignmentTarget_simpleIdentifier_getset_generic() async { |
| await analyze(''' |
| abstract class _C<T> { |
| _C<T> operator+(int i); |
| } |
| abstract class _D<T> extends _C<T> {} |
| abstract class _E<T> { |
| _D<T/*!*/>/*!*/ get x; |
| void set x(_C<T/*!*/>/*!*/ value); |
| _f() => x += 0; |
| } |
| '''); |
| visitAssignmentTarget(findNode.simple('x +='), '_D<T>', '_C<T>'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_simpleIdentifier_getset_getterNullable() async { |
| await analyze(''' |
| class _C { |
| int/*?*/ get x => 1; |
| void set x(int/*!*/ value) {} |
| _f() => x += 0; |
| } |
| '''); |
| visitAssignmentTarget(findNode.simple('x +='), 'int?', 'int'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_simpleIdentifier_getset_setterNullable() async { |
| await analyze(''' |
| class _C { |
| int/*!*/ get x => 1; |
| void set x(int/*?*/ value) {} |
| _f() => x += 0; |
| } |
| '''); |
| visitAssignmentTarget(findNode.simple('x +='), 'int', 'int?'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_simpleIdentifier_localVariable_nonNullable() async { |
| await analyze(''' |
| _f(int/*!*/ x) => x += 0; |
| '''); |
| visitAssignmentTarget(findNode.simple('x '), 'int', 'int'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_simpleIdentifier_localVariable_nullable() async { |
| await analyze(''' |
| _f(int/*?*/ x) => x += 0; |
| '''); |
| visitAssignmentTarget(findNode.simple('x '), 'int?', 'int?'); |
| } |
| |
| Future<void> |
| test_assignmentTarget_simpleIdentifier_setter_nonNullable() async { |
| await analyze(''' |
| class _C { |
| void set x(int/*!*/ value) {} |
| _f() => x = 0; |
| } |
| '''); |
| visitAssignmentTarget(findNode.simple('x '), null, 'int'); |
| } |
| |
| Future<void> test_assignmentTarget_simpleIdentifier_setter_nullable() async { |
| await analyze(''' |
| class _C { |
| void set x(int/*?*/ value) {} |
| _f() => x = 0; |
| } |
| '''); |
| visitAssignmentTarget(findNode.simple('x '), null, 'int?'); |
| } |
| |
| Future<void> test_binaryExpression_ampersand_ampersand() async { |
| await analyze(''' |
| _f(bool x, bool y) => x && y; |
| '''); |
| visitSubexpression(findNode.binary('&&'), 'bool'); |
| } |
| |
| Future<void> test_binaryExpression_ampersand_ampersand_flow() async { |
| await analyze(''' |
| _f(bool/*?*/ x) => x != null && x; |
| '''); |
| visitSubexpression(findNode.binary('&&'), 'bool'); |
| } |
| |
| Future<void> test_binaryExpression_ampersand_ampersand_nullChecked() async { |
| await analyze(''' |
| _f(bool/*?*/ x, bool/*?*/ y) => x && y; |
| '''); |
| var xRef = findNode.simple('x &&'); |
| var yRef = findNode.simple('y;'); |
| visitSubexpression(findNode.binary('&&'), 'bool', |
| changes: {xRef: isNullCheck, yRef: isNullCheck}); |
| } |
| |
| Future<void> test_binaryExpression_bang_eq() async { |
| await analyze(''' |
| _f(Object/*?*/ x, Object/*?*/ y) => x != y; |
| '''); |
| visitSubexpression(findNode.binary('!='), 'bool'); |
| } |
| |
| Future<void> test_binaryExpression_bar_bar() async { |
| await analyze(''' |
| _f(bool x, bool y) { |
| return x || y; |
| } |
| '''); |
| visitSubexpression(findNode.binary('||'), 'bool'); |
| } |
| |
| Future<void> test_binaryExpression_bar_bar_flow() async { |
| await analyze(''' |
| _f(bool/*?*/ x) { |
| return x == null || x; |
| } |
| '''); |
| visitSubexpression(findNode.binary('||'), 'bool'); |
| } |
| |
| Future<void> test_binaryExpression_bar_bar_nullChecked() async { |
| await analyze(''' |
| _f(bool/*?*/ x, bool/*?*/ y) { |
| return x || y; |
| } |
| '''); |
| var xRef = findNode.simple('x ||'); |
| var yRef = findNode.simple('y;'); |
| visitSubexpression(findNode.binary('||'), 'bool', |
| changes: {xRef: isNullCheck, yRef: isNullCheck}); |
| } |
| |
| Future<void> test_binaryExpression_eq_eq() async { |
| await analyze(''' |
| _f(Object/*?*/ x, Object/*?*/ y) { |
| return x == y; |
| } |
| '''); |
| visitSubexpression(findNode.binary('=='), 'bool'); |
| } |
| |
| Future<void> test_binaryExpression_question_question() async { |
| await analyze(''' |
| _f(int/*?*/ x, double/*?*/ y) { |
| return x ?? y; |
| } |
| '''); |
| visitSubexpression(findNode.binary('??'), 'num?'); |
| } |
| |
| Future<void> test_binaryExpression_question_question_flow() async { |
| await analyze(''' |
| _f(int/*?*/ x, int/*?*/ y) => |
| <dynamic>[x ?? (y != null ? 1 : throw 'foo'), y + 1]; |
| '''); |
| // The null check on the RHS of the `??` doesn't promote, because it is not |
| // guaranteed to execute. |
| visitSubexpression(findNode.listLiteral('['), 'List<dynamic>', |
| changes: {findNode.simple('y +'): isNullCheck}); |
| } |
| |
| Future<void> test_binaryExpression_question_question_nullChecked() async { |
| await analyze(''' |
| Object/*!*/ _f(int/*?*/ x, double/*?*/ y) { |
| return x ?? y; |
| } |
| '''); |
| var yRef = findNode.simple('y;'); |
| visitSubexpression(findNode.binary('??'), 'num', |
| changes: {yRef: isNullCheck}); |
| } |
| |
| Future<void> test_binaryExpression_userDefinable_dynamic() async { |
| await analyze(''' |
| Object/*!*/ _f(dynamic d, int/*?*/ i) => d + i; |
| '''); |
| visitSubexpression(findNode.binary('+'), 'dynamic'); |
| } |
| |
| Future<void> test_binaryExpression_userDefinable_intRules() async { |
| await analyze(''' |
| _f(int i, int j) => i + j; |
| '''); |
| visitSubexpression(findNode.binary('+'), 'int'); |
| } |
| |
| Future<void> test_binaryExpression_userDefinable_simple() async { |
| await analyze(''' |
| class _C { |
| int operator+(String s) => 1; |
| } |
| _f(_C c) => c + 'foo'; |
| '''); |
| visitSubexpression(findNode.binary('c +'), 'int'); |
| } |
| |
| Future<void> test_binaryExpression_userDefinable_simple_check_lhs() async { |
| await analyze(''' |
| class _C { |
| int operator+(String s) => 1; |
| } |
| _f(_C/*?*/ c) => c + 'foo'; |
| '''); |
| visitSubexpression(findNode.binary('c +'), 'int', |
| changes: {findNode.simple('c +'): isNullCheck}); |
| } |
| |
| Future<void> test_binaryExpression_userDefinable_simple_check_rhs() async { |
| await analyze(''' |
| class _C { |
| int operator+(String/*!*/ s) => 1; |
| } |
| _f(_C c, String/*?*/ s) => c + s; |
| '''); |
| visitSubexpression(findNode.binary('c +'), 'int', |
| changes: {findNode.simple('s;'): isNullCheck}); |
| } |
| |
| Future<void> test_binaryExpression_userDefinable_substituted() async { |
| await analyze(''' |
| class _C<T, U> { |
| T operator+(U u) => throw 'foo'; |
| } |
| _f(_C<int, String> c) => c + 'foo'; |
| '''); |
| visitSubexpression(findNode.binary('c +'), 'int'); |
| } |
| |
| Future<void> |
| test_binaryExpression_userDefinable_substituted_check_rhs() async { |
| await analyze(''' |
| class _C<T, U> { |
| T operator+(U/*!*/ u) => throw 'foo'; |
| } |
| _f(_C<int, String/*!*/> c, String/*?*/ s) => c + s; |
| '''); |
| visitSubexpression(findNode.binary('c +'), 'int', |
| changes: {findNode.simple('s;'): isNullCheck}); |
| } |
| |
| Future<void> |
| test_binaryExpression_userDefinable_substituted_no_check_rhs() async { |
| await analyze(''' |
| class _C<T, U> { |
| T operator+(U u) => throw 'foo'; |
| } |
| _f(_C<int, String/*?*/> c, String/*?*/ s) => c + s; |
| '''); |
| visitSubexpression(findNode.binary('c +'), 'int'); |
| } |
| |
| Future<void> test_block() async { |
| await analyze(''' |
| _f(int/*?*/ x, int/*?*/ y) { |
| { // block |
| x + 1; |
| y + 1; |
| } |
| } |
| '''); |
| visitStatement(findNode.statement('{ // block'), changes: { |
| findNode.simple('x + 1'): isNullCheck, |
| findNode.simple('y + 1'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_booleanLiteral() async { |
| await analyze(''' |
| f() => true; |
| '''); |
| visitSubexpression(findNode.booleanLiteral('true'), 'bool'); |
| } |
| |
| Future<void> test_compound_assignment_null_shorted_ok() async { |
| await analyze(''' |
| class C { |
| int/*!*/ x; |
| } |
| _f(C/*?*/ c) { |
| c?.x += 1; |
| } |
| '''); |
| // Even though c?.x is nullable, it should not be a problem to use it as the |
| // LHS of a compound assignment, because null shorting will ensure that the |
| // assignment only happens if c is non-null. |
| var assignment = findNode.assignment('+='); |
| visitSubexpression(assignment, 'int?'); |
| } |
| |
| Future<void> test_compound_assignment_nullable_result_bad() async { |
| await analyze(''' |
| abstract class C { |
| C/*?*/ operator+(int i); |
| } |
| f(C c) { |
| c += 1; |
| } |
| '''); |
| var assignment = findNode.assignment('+='); |
| visitSubexpression(assignment, 'C?', |
| changes: {assignment: isBadCombinedType}); |
| } |
| |
| Future<void> test_compound_assignment_nullable_result_ok() async { |
| await analyze(''' |
| abstract class C { |
| C/*?*/ operator+(int i); |
| } |
| abstract class D { |
| void set x(C/*?*/ value); |
| C/*!*/ get x; |
| f() { |
| x += 1; |
| } |
| } |
| '''); |
| var assignment = findNode.assignment('+='); |
| visitSubexpression(assignment, 'C?'); |
| } |
| |
| Future<void> test_compound_assignment_nullable_source() async { |
| await analyze(''' |
| _f(int/*?*/ x) { |
| x += 1; |
| } |
| '''); |
| var assignment = findNode.assignment('+='); |
| visitSubexpression(assignment, 'int', |
| changes: {assignment: isNullableSource}); |
| } |
| |
| Future<void> test_compound_assignment_potentially_nullable_source() async { |
| await analyze(''' |
| class C<T extends num/*?*/> { |
| _f(T/*!*/ x) { |
| x += 1; |
| } |
| } |
| '''); |
| var assignment = findNode.assignment('+='); |
| visitSubexpression(assignment, 'num', |
| changes: {assignment: isNullableSource}); |
| } |
| |
| Future<void> test_compound_assignment_promoted_ok() async { |
| await analyze(''' |
| abstract class C { |
| C/*?*/ operator+(int i); |
| } |
| f(C/*?*/ x) { |
| if (x != null) { |
| x += 1; |
| } |
| } |
| '''); |
| // The compound assignment is ok, because: |
| // - prior to the assignment, x's value is promoted to non-nullable |
| // - the nullable return value of operator+ is ok to assign to x, because it |
| // un-does the promotion. |
| visitSubexpression(findNode.assignment('+='), 'C?'); |
| } |
| |
| Future<void> test_conditionalExpression_dead_else_remove() async { |
| await analyze('_f(int x, int/*?*/ y) => x != null ? x + 1 : y + 1.0;'); |
| var expression = findNode.conditionalExpression('x != null'); |
| visitSubexpression(expression, 'int', |
| changes: {expression: isConditionalWithKnownValue(true)}); |
| } |
| |
| Future<void> test_conditionalExpression_dead_else_warn() async { |
| await analyze('_f(int x, int/*?*/ y) => x != null ? x + 1 : y + 1.0;'); |
| var expression = findNode.conditionalExpression('x != null'); |
| visitSubexpression(expression, 'num', warnOnWeakCode: true, changes: { |
| expression: isConditionalWithKnownValue(true), |
| findNode.simple('y +'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_conditionalExpression_dead_then_remove() async { |
| await analyze('_f(int x, int/*?*/ y) => x == null ? y + 1.0 : x + 1;'); |
| var expression = findNode.conditionalExpression('x == null'); |
| visitSubexpression(expression, 'int', |
| changes: {expression: isConditionalWithKnownValue(false)}); |
| } |
| |
| Future<void> test_conditionalExpression_dead_then_warn() async { |
| await analyze('_f(int x, int/*?*/ y) => x == null ? y + 1.0 : x + 1;'); |
| var expression = findNode.conditionalExpression('x == null'); |
| visitSubexpression(expression, 'num', warnOnWeakCode: true, changes: { |
| expression: isConditionalWithKnownValue(false), |
| findNode.simple('y +'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_conditionalExpression_flow_as_condition() async { |
| await analyze(''' |
| _f(bool x, int/*?*/ y) => (x ? y != null : y != null) ? y + 1 : 0; |
| '''); |
| // No explicit check needs to be added to `y + 1`, because both arms of the |
| // conditional can only be true if `y != null`. |
| visitSubexpression(findNode.conditionalExpression('y + 1'), 'int'); |
| } |
| |
| Future<void> test_conditionalExpression_flow_condition() async { |
| await analyze(''' |
| _f(bool/*?*/ x) => x ? (x && true) : (x && true); |
| '''); |
| // No explicit check needs to be added to either `x && true`, because there |
| // is already an explicit null check inserted for the condition. |
| visitSubexpression(findNode.conditionalExpression('x ?'), 'bool', |
| changes: {findNode.simple('x ?'): isNullCheck}); |
| } |
| |
| Future<void> test_conditionalExpression_flow_then_else() async { |
| await analyze(''' |
| _f(bool x, bool/*?*/ y) => (x ? (y && true) : (y && true)) && y; |
| '''); |
| // No explicit check needs to be added to the final reference to `y`, |
| // because null checks are added to the "then" and "else" branches promoting |
| // y. |
| visitSubexpression(findNode.binary('&& y'), 'bool', changes: { |
| findNode.simple('y && true) '): isNullCheck, |
| findNode.simple('y && true))'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_conditionalExpression_lub() async { |
| await analyze(''' |
| _f(bool b) => b ? 1 : 1.0; |
| '''); |
| visitSubexpression(findNode.conditionalExpression('1.0'), 'num'); |
| } |
| |
| Future<void> test_conditionalExpression_throw_promotes() async { |
| await analyze(''' |
| _f(int/*?*/ x) => |
| <dynamic>[(x != null ? 1 : throw 'foo'), x + 1]; |
| '''); |
| // No null check needs to be added to `x + 1`, because there is already an |
| // explicit null check. |
| visitSubexpression(findNode.listLiteral('['), 'List<dynamic>'); |
| } |
| |
| Future<void> |
| test_defaultFormalParameter_add_required_ignore_decoy_annotation() async { |
| await analyze(''' |
| const foo = Object(); |
| int _f({@foo int x}) => x + 1; |
| '''); |
| visitAll( |
| changes: {findNode.defaultParameter('int x'): isAddRequiredKeyword}); |
| } |
| |
| Future<void> |
| test_defaultFormalParameter_add_required_no_because_default() async { |
| await analyze(''' |
| int _f({int x = 0}) => x + 1; |
| '''); |
| visitAll(); |
| } |
| |
| Future<void> |
| test_defaultFormalParameter_add_required_no_because_nullable() async { |
| await analyze(''' |
| int _f({int/*?*/ x}) => 1; |
| '''); |
| visitAll( |
| changes: {findNode.typeName('int/*?*/ x'): isMakeNullableDueToHint}); |
| } |
| |
| Future<void> |
| test_defaultFormalParameter_add_required_no_because_positional() async { |
| await analyze(''' |
| int _f([int/*!*/ x]) => x + 1; |
| '''); |
| visitAll(problems: { |
| findNode.defaultParameter('int/*!*/ x'): { |
| const NonNullableUnnamedOptionalParameter() |
| } |
| }); |
| } |
| |
| Future<void> |
| test_defaultFormalParameter_add_required_replace_annotation() async { |
| // TODO(paulberry): it would be nice to remove the import of `meta` if it's |
| // no longer needed after the change. |
| addMetaPackage(); |
| await analyze(''' |
| import 'package:meta/meta.dart'; |
| int _f({@required int x}) => x + 1; |
| '''); |
| visitAll(changes: { |
| findNode.annotation('required'): isRequiredAnnotationToRequiredKeyword |
| }); |
| } |
| |
| Future<void> |
| test_defaultFormalParameter_add_required_replace_annotation_nullable() async { |
| // TODO(paulberry): it would be nice to remove the import of `meta` if it's |
| // no longer needed after the change. |
| addMetaPackage(); |
| await analyze(''' |
| import 'package:meta/meta.dart'; |
| void _f({@required int/*?*/ x}) {} |
| '''); |
| visitAll(changes: { |
| findNode.annotation('required'): isRequiredAnnotationToRequiredKeyword, |
| findNode.typeName('int'): isMakeNullableDueToHint, |
| }); |
| } |
| |
| Future<void> test_defaultFormalParameter_add_required_yes() async { |
| await analyze(''' |
| int _f({int x}) => x + 1; |
| '''); |
| visitAll( |
| changes: {findNode.defaultParameter('int x'): isAddRequiredKeyword}); |
| } |
| |
| Future<void> test_doubleLiteral() async { |
| await analyze(''' |
| f() => 1.0; |
| '''); |
| visitSubexpression(findNode.doubleLiteral('1.0'), 'double'); |
| } |
| |
| Future<void> test_enum_ref_index() async { |
| await analyze(''' |
| enum E { V } |
| _f(E e) => e.index; |
| '''); |
| visitSubexpression(findNode.prefixed('e.index'), 'int'); |
| } |
| |
| Future<void> test_enum_ref_value() async { |
| await analyze(''' |
| enum E { V } |
| _f() => E.V; |
| '''); |
| visitSubexpression(findNode.prefixed('E.V'), 'E'); |
| } |
| |
| Future<void> test_enum_ref_values() async { |
| await analyze(''' |
| enum E { V } |
| _f() => E.values; |
| '''); |
| visitSubexpression(findNode.prefixed('E.values'), 'List<E>'); |
| } |
| |
| Future<void> test_expressionStatement() async { |
| await analyze(''' |
| _f(int/*!*/ x, int/*?*/ y) { |
| x = y; |
| } |
| '''); |
| visitStatement(findNode.statement('x = y'), |
| changes: {findNode.simple('y;'): isNullCheck}); |
| } |
| |
| Future<void> test_firstWhere_transform() async { |
| await analyze(''' |
| _f(Iterable<int> x) => x.firstWhere((n) => n.isEven, orElse: () => null); |
| '''); |
| var methodInvocation = findNode.methodInvocation('firstWhere'); |
| var functionExpression = findNode.functionExpression('() => null'); |
| var fixBuilder = visitSubexpression(methodInvocation, 'int?', changes: { |
| methodInvocation.methodName: isMethodNameChange('firstWhereOrNull'), |
| methodInvocation.argumentList: |
| isDropArgument({functionExpression.parent: anything}), |
| // Behavior of the function expression and its subexpression don't matter |
| // because they're being dropped. |
| functionExpression.parent: anything, |
| findNode.nullLiteral('null'): anything |
| }); |
| expect(fixBuilder.needsIterableExtension, true); |
| } |
| |
| Future<void> test_functionExpressionInvocation_dynamic() async { |
| await analyze(''' |
| _f(dynamic d) => d(); |
| '''); |
| visitSubexpression(findNode.functionExpressionInvocation('d('), 'dynamic'); |
| } |
| |
| Future<void> test_functionExpressionInvocation_function_checked() async { |
| await analyze(''' |
| _f(Function/*?*/ func) => func(); |
| '''); |
| visitSubexpression( |
| findNode.functionExpressionInvocation('func('), 'dynamic', |
| changes: {findNode.simple('func()'): isNullCheck}); |
| } |
| |
| Future<void> test_functionExpressionInvocation_getter() async { |
| await analyze(''' |
| abstract class _C { |
| int Function() get f; |
| } |
| _f(_C c) => (c.f)(); |
| '''); |
| visitSubexpression(findNode.functionExpressionInvocation('c.f'), 'int'); |
| } |
| |
| Future<void> |
| test_functionExpressionInvocation_getter_looksLikeMethodCall() async { |
| await analyze(''' |
| abstract class _C { |
| int Function() get f; |
| } |
| _f(_C c) => c.f(); |
| '''); |
| visitSubexpression(findNode.functionExpressionInvocation('c.f'), 'int'); |
| } |
| |
| Future<void> test_functionExpressionInvocation_getter_nullChecked() async { |
| await analyze(''' |
| abstract class _C { |
| int Function()/*?*/ get f; |
| } |
| _f(_C c) => (c.f)(); |
| '''); |
| visitSubexpression(findNode.functionExpressionInvocation('c.f'), 'int', |
| changes: {findNode.parenthesized('c.f'): isNullCheck}); |
| } |
| |
| Future<void> |
| test_functionExpressionInvocation_getter_nullChecked_looksLikeMethodCall() async { |
| await analyze(''' |
| abstract class _C { |
| int Function()/*?*/ get f; |
| } |
| _f(_C c) => c.f(); |
| '''); |
| visitSubexpression(findNode.functionExpressionInvocation('c.f'), 'int', |
| changes: {findNode.propertyAccess('c.f'): isNullCheck}); |
| } |
| |
| Future<void> test_genericFunctionType_nonNullable() async { |
| await analyze(''' |
| void _f() { |
| void Function() x = _f; |
| } |
| '''); |
| var genericFunctionType = findNode.genericFunctionType('Function'); |
| visitTypeAnnotation(genericFunctionType, 'void Function()', |
| informative: {genericFunctionType: isExplainNonNullable}); |
| } |
| |
| Future<void> test_genericFunctionType_nonNullable_by_context() async { |
| await analyze(''' |
| typedef F = void Function(); |
| '''); |
| var genericFunctionType = findNode.genericFunctionType('Function'); |
| visitTypeAnnotation(genericFunctionType, 'void Function()', |
| informative: isEmpty); |
| } |
| |
| Future<void> test_genericFunctionType_nullable() async { |
| await analyze(''' |
| void _f() { |
| void Function() x = null; |
| } |
| '''); |
| var genericFunctionTypeAnnotation = |
| findNode.genericFunctionType('Function'); |
| visitTypeAnnotation(genericFunctionTypeAnnotation, 'void Function()?', |
| changes: {genericFunctionTypeAnnotation: isMakeNullable}); |
| } |
| |
| Future<void> test_genericFunctionType_nullable_arg() async { |
| await analyze(''' |
| void Function(int/*?*/) _f() { |
| void Function(int) x = _g; |
| return x; |
| } |
| void _g(int/*?*/ x) {} |
| '''); |
| var intTypeAnnotation = findNode.typeName('int)'); |
| var genericFunctionTypeAnnotation = |
| findNode.genericFunctionType('Function(int)'); |
| visitTypeAnnotation(genericFunctionTypeAnnotation, 'void Function(int?)', |
| changes: {intTypeAnnotation: isMakeNullable}); |
| } |
| |
| Future<void> test_genericFunctionType_nullable_return() async { |
| await analyze(''' |
| void _f() { |
| int Function() x = _g; |
| } |
| int/*?*/ _g() => null; |
| '''); |
| var intTypeAnnotation = findNode.typeName('int Function'); |
| var genericFunctionTypeAnnotation = |
| findNode.genericFunctionType('Function'); |
| visitTypeAnnotation(genericFunctionTypeAnnotation, 'int? Function()', |
| changes: {intTypeAnnotation: isMakeNullable}); |
| } |
| |
| Future<void> test_ifStatement_dead_else() async { |
| await analyze(''' |
| _f(int x, int/*?*/ y) { |
| if (x != null) { |
| print(x + 1); |
| } else { |
| print(y + 1); |
| } |
| } |
| '''); |
| var ifStatement = findNode.statement('if'); |
| visitStatement(ifStatement, |
| changes: {ifStatement: isConditionalWithKnownValue(true)}); |
| } |
| |
| Future<void> test_ifStatement_dead_then() async { |
| await analyze(''' |
| _f(int x, int/*?*/ y) { |
| if (x == null) { |
| print(y + 1); |
| } else { |
| print(x + 1); |
| } |
| } |
| '''); |
| var ifStatement = findNode.statement('if'); |
| visitStatement(ifStatement, |
| changes: {ifStatement: isConditionalWithKnownValue(false)}); |
| } |
| |
| Future<void> test_ifStatement_flow_promote_in_else() async { |
| await analyze(''' |
| _f(int/*?*/ x) { |
| if (x == null) { |
| x + 1; |
| } else { |
| x + 2; |
| } |
| } |
| '''); |
| visitStatement(findNode.statement('if'), |
| changes: {findNode.simple('x + 1'): isNullCheck}); |
| } |
| |
| Future<void> test_ifStatement_flow_promote_in_then() async { |
| await analyze(''' |
| _f(int/*?*/ x) { |
| if (x != null) { |
| x + 1; |
| } else { |
| x + 2; |
| } |
| } |
| '''); |
| visitStatement(findNode.statement('if'), |
| changes: {findNode.simple('x + 2'): isNullCheck}); |
| } |
| |
| Future<void> test_ifStatement_flow_promote_in_then_no_else() async { |
| await analyze(''' |
| _f(int/*?*/ x) { |
| if (x != null) { |
| x + 1; |
| } |
| } |
| '''); |
| visitStatement(findNode.statement('if')); |
| } |
| |
| Future<void> test_implicit_downcast() async { |
| await analyze('int f(num x) => x;'); |
| var xRef = findNode.simple('x;'); |
| visitSubexpression(xRef, 'int', changes: { |
| xRef: isNodeChangeForExpression.havingIndroduceAsWithInfo( |
| 'int', |
| isInfo(NullabilityFixDescription.downcastExpression, |
| {FixReasonTarget.root: isEdge})) |
| }); |
| } |
| |
| Future<void> test_import_IterableExtension_already_imported_add_show() async { |
| addPackageFile('collection', 'collection.dart', 'class PriorityQueue {}'); |
| await analyze(''' |
| import 'package:collection/collection.dart' show PriorityQueue; |
| |
| main() {} |
| '''); |
| visitAll(injectNeedsIterableExtension: true, changes: { |
| findNode.import('package:collection').combinators[0]: |
| isAddShowOfIterableExtension |
| }); |
| } |
| |
| Future<void> test_import_IterableExtension_already_imported_all() async { |
| addPackageFile('collection', 'collection.dart', ''); |
| await analyze(''' |
| import 'package:collection/collection.dart'; |
| |
| main() {} |
| '''); |
| visitAll(injectNeedsIterableExtension: true, changes: {}); |
| } |
| |
| Future<void> |
| test_import_IterableExtension_already_imported_and_shown() async { |
| addPackageFile('collection', 'collection.dart', |
| 'extension IterableExtension<T> on Iterable<T> {}'); |
| await analyze(''' |
| import 'package:collection/collection.dart' show IterableExtension; |
| |
| main() {} |
| '''); |
| visitAll(injectNeedsIterableExtension: true, changes: {}); |
| } |
| |
| Future<void> test_import_IterableExtension_already_imported_prefixed() async { |
| addPackageFile('collection', 'collection.dart', ''); |
| await analyze(''' |
| import 'package:collection/collection.dart' as c; |
| |
| main() {} |
| '''); |
| visitAll( |
| injectNeedsIterableExtension: true, |
| changes: {findNode.unit: isAddImportOfIterableExtension}); |
| } |
| |
| Future<void> test_import_IterableExtension_other_import() async { |
| addPackageFile( |
| 'foo', 'foo.dart', 'extension IterableExtension<T> on Iterable<T> {}'); |
| await analyze(''' |
| import 'package:foo/foo.dart' show IterableExtension; |
| |
| main() {} |
| '''); |
| visitAll( |
| injectNeedsIterableExtension: true, |
| changes: {findNode.unit: isAddImportOfIterableExtension}); |
| } |
| |
| Future<void> test_import_IterableExtension_simple() async { |
| await analyze(''' |
| main() {} |
| '''); |
| visitAll( |
| injectNeedsIterableExtension: true, |
| changes: {findNode.unit: isAddImportOfIterableExtension}); |
| } |
| |
| Future<void> test_indexExpression_dynamic() async { |
| await analyze(''' |
| Object/*!*/ _f(dynamic d, int/*?*/ i) => d[i]; |
| '''); |
| visitSubexpression(findNode.index('d[i]'), 'dynamic'); |
| } |
| |
| Future<void> test_indexExpression_simple() async { |
| await analyze(''' |
| class _C { |
| int operator[](String s) => 1; |
| } |
| _f(_C c) => c['foo']; |
| '''); |
| visitSubexpression(findNode.index('c['), 'int'); |
| } |
| |
| Future<void> test_indexExpression_simple_check_lhs() async { |
| await analyze(''' |
| class _C { |
| int operator[](String s) => 1; |
| } |
| _f(_C/*?*/ c) => c['foo']; |
| '''); |
| visitSubexpression(findNode.index('c['), 'int', |
| changes: {findNode.simple('c['): isNullCheck}); |
| } |
| |
| Future<void> test_indexExpression_simple_check_rhs() async { |
| await analyze(''' |
| class _C { |
| int operator[](String/*!*/ s) => 1; |
| } |
| _f(_C c, String/*?*/ s) => c[s]; |
| '''); |
| visitSubexpression(findNode.index('c['), 'int', |
| changes: {findNode.simple('s]'): isNullCheck}); |
| } |
| |
| Future<void> test_indexExpression_substituted() async { |
| await analyze(''' |
| class _C<T, U> { |
| T operator[](U u) => throw 'foo'; |
| } |
| _f(_C<int, String> c) => c['foo']; |
| '''); |
| visitSubexpression(findNode.index('c['), 'int'); |
| } |
| |
| Future<void> test_indexExpression_substituted_check_rhs() async { |
| await analyze(''' |
| class _C<T, U> { |
| T operator[](U/*!*/ u) => throw 'foo'; |
| } |
| _f(_C<int, String/*!*/> c, String/*?*/ s) => c[s]; |
| '''); |
| visitSubexpression(findNode.index('c['), 'int', |
| changes: {findNode.simple('s]'): isNullCheck}); |
| } |
| |
| Future<void> test_indexExpression_substituted_no_check_rhs() async { |
| await analyze(''' |
| class _C<T, U> { |
| T operator[](U u) => throw 'foo'; |
| } |
| _f(_C<int, String/*?*/> c, String/*?*/ s) => c[s]; |
| '''); |
| visitSubexpression(findNode.index('c['), 'int'); |
| } |
| |
| Future<void> test_integerLiteral() async { |
| await analyze(''' |
| f() => 1; |
| '''); |
| visitSubexpression(findNode.integerLiteral('1'), 'int'); |
| } |
| |
| Future<void> test_list_ifElement_alive() async { |
| await analyze(''' |
| _f(int x, bool b, int/*?*/ y) => [if (b) h(y) else g(y)]; |
| int/*!*/ g(int/*!*/ y) => y; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.listLiteral('['), 'List<num>', changes: { |
| findNode.simple('y) else'): isNullCheck, |
| findNode.simple('y)]'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_list_ifElement_alive_with_null_check() async { |
| await analyze(''' |
| _f(int x, bool/*?*/ b, int/*?*/ y) => [if (b == null) h(y) else g(y)]; |
| int/*!*/ g(int/*!*/ y) => y; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.listLiteral('['), 'List<num>', changes: { |
| findNode.simple('y) else'): isNullCheck, |
| findNode.simple('y)]'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_list_ifElement_dead_else() async { |
| await analyze(''' |
| _f(int x, int/*?*/ y) => [if (x != null) g(y) else h(y)]; |
| int/*!*/ g(int/*!*/ y) => y; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.listLiteral('['), 'List<int>', changes: { |
| findNode.ifElement('null'): isConditionalWithKnownValue(true), |
| findNode.simple('y) else'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_list_ifElement_dead_else_no_else() async { |
| await analyze(''' |
| _f(int x, int/*?*/ y) => [if (x != null) g(y)]; |
| int/*!*/ g(int/*!*/ y) => y; |
| '''); |
| visitSubexpression(findNode.listLiteral('['), 'List<int>', changes: { |
| findNode.ifElement('null'): isConditionalWithKnownValue(true), |
| findNode.simple('y)]'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_list_ifElement_dead_then() async { |
| await analyze(''' |
| _f(int x, int/*?*/ y) => [if (x == null) h(y) else g(y)]; |
| int/*!*/ g(int/*!*/ y) => y; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.listLiteral('['), 'List<int>', changes: { |
| findNode.ifElement('null'): isConditionalWithKnownValue(false), |
| findNode.simple('y)]'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_list_ifElement_dead_then_no_else() async { |
| // TODO(paulberry): rather than infer the type to be List<dynamic>, |
| // FixBuilder should add an explicit type argument to ensure that it is |
| // still List<int>. |
| await analyze(''' |
| _f(int x, int/*?*/ y) => [if (x == null) h(y)]; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.listLiteral('['), 'List<dynamic>', changes: { |
| findNode.ifElement('null'): isConditionalWithKnownValue(false) |
| }); |
| } |
| |
| Future<void> test_list_make_explicit_type_nullable() async { |
| await analyze('_f() => <int>[null];'); |
| // The `null` should be analyzed with a context type of `int?`, so it should |
| // not be null-checked. |
| visitSubexpression(findNode.listLiteral('['), 'List<int?>', |
| changes: {findNode.typeAnnotation('int'): isMakeNullable}); |
| } |
| |
| Future<void> test_list_unchanged() async { |
| await analyze('_f(int x) => [x];'); |
| visitSubexpression(findNode.listLiteral('['), 'List<int>'); |
| } |
| |
| Future<void> test_listLiteral_typed() async { |
| await analyze(''' |
| _f() => <int>[]; |
| '''); |
| visitSubexpression(findNode.listLiteral('['), 'List<int>'); |
| } |
| |
| Future<void> test_listLiteral_typed_visit_contents() async { |
| await analyze(''' |
| _f(int/*?*/ x) => <int/*!*/>[x]; |
| '''); |
| visitSubexpression(findNode.listLiteral('['), 'List<int>', |
| changes: {findNode.simple('x]'): isNullCheck}); |
| } |
| |
| Future<void> test_map_ifElement_alive() async { |
| await analyze(''' |
| _f(int x, bool b, int/*?*/ y) => {if (b) 0: h(y) else 0: g(y)}; |
| int/*!*/ g(int/*!*/ y) => y; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Map<int, num>', |
| changes: { |
| findNode.simple('y) else'): isNullCheck, |
| findNode.simple('y)}'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_map_ifElement_alive_with_null_check() async { |
| await analyze(''' |
| _f(int x, bool/*?*/ b, int/*?*/ y) => {if (b == null) 0: h(y) else 0: g(y)}; |
| int/*!*/ g(int/*!*/ y) => y; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Map<int, num>', |
| changes: { |
| findNode.simple('y) else'): isNullCheck, |
| findNode.simple('y)}'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_map_ifElement_dead_else() async { |
| await analyze(''' |
| _f(int x, int/*?*/ y) => {if (x != null) 0: g(y) else 0: h(y)}; |
| int/*!*/ g(int/*!*/ y) => y; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Map<int, int>', |
| changes: { |
| findNode.ifElement('null'): isConditionalWithKnownValue(true), |
| findNode.simple('y) else'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_map_ifElement_dead_else_no_else() async { |
| await analyze(''' |
| _f(int x, int/*?*/ y) => {if (x != null) 0: g(y)}; |
| int/*!*/ g(int/*!*/ y) => y; |
| '''); |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Map<int, int>', |
| changes: { |
| findNode.ifElement('null'): isConditionalWithKnownValue(true), |
| findNode.simple('y)}'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_map_ifElement_dead_then() async { |
| await analyze(''' |
| _f(int x, int/*?*/ y) => {if (x == null) 0: h(y) else 0: g(y)}; |
| int/*!*/ g(int/*!*/ y) => y; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Map<int, int>', |
| changes: { |
| findNode.ifElement('null'): isConditionalWithKnownValue(false), |
| findNode.simple('y)}'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_map_ifElement_dead_then_no_else() async { |
| // TODO(paulberry): rather than infer the type to be Map<dynamic, dynamic>, |
| // FixBuilder should add an explicit type argument to ensure that it is |
| // still Map<int, int>. |
| await analyze(''' |
| _f(int x, int/*?*/ y) => {if (x == null) 0: h(y)}; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Map<dynamic, dynamic>', |
| changes: { |
| findNode.ifElement('null'): isConditionalWithKnownValue(false) |
| }); |
| } |
| |
| Future<void> test_map_make_explicit_key_type_nullable() async { |
| await analyze('_f() => <int, double>{null: 0.0};'); |
| // The `null` should be analyzed with a context type of `int?`, so it should |
| // not be null-checked. |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Map<int?, double>', |
| changes: {findNode.typeAnnotation('int'): isMakeNullable}); |
| } |
| |
| Future<void> test_map_make_explicit_value_type_nullable() async { |
| await analyze('_f() => <double, int>{0.0: null};'); |
| // The `null` should be analyzed with a context type of `int?`, so it should |
| // not be null-checked. |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Map<double, int?>', |
| changes: {findNode.typeAnnotation('int'): isMakeNullable}); |
| } |
| |
| Future<void> test_methodInvocation_dynamic() async { |
| await analyze(''' |
| Object/*!*/ _f(dynamic d) => d.f(); |
| '''); |
| visitSubexpression(findNode.methodInvocation('d.f'), 'dynamic'); |
| } |
| |
| Future<void> test_methodInvocation_namedParameter() async { |
| await analyze(''' |
| abstract class _C { |
| int f({int/*!*/ x}); |
| } |
| _f(_C c, int/*?*/ y) => c.f(x: y); |
| '''); |
| visitSubexpression(findNode.methodInvocation('c.f'), 'int', |
| changes: {findNode.simple('y);'): isNullCheck}); |
| } |
| |
| Future<void> test_methodInvocation_ordinaryParameter() async { |
| await analyze(''' |
| abstract class _C { |
| int f(int/*!*/ x); |
| } |
| _f(_C c, int/*?*/ y) => c.f(y); |
| '''); |
| visitSubexpression(findNode.methodInvocation('c.f'), 'int', |
| changes: {findNode.simple('y);'): isNullCheck}); |
| } |
| |
| Future<void> test_methodInvocation_return_nonNullable() async { |
| await analyze(''' |
| abstract class _C { |
| int f(); |
| } |
| _f(_C c) => c.f(); |
| '''); |
| visitSubexpression(findNode.methodInvocation('c.f'), 'int'); |
| } |
| |
| Future<void> test_methodInvocation_return_nonNullable_check_target() async { |
| await analyze(''' |
| abstract class _C { |
| int f(); |
| } |
| _f(_C/*?*/ c) => c.f(); |
| '''); |
| visitSubexpression(findNode.methodInvocation('c.f'), 'int', |
| changes: {findNode.simple('c.f'): isNullCheck}); |
| } |
| |
| Future<void> test_methodInvocation_return_nonNullable_nullAware() async { |
| await analyze(''' |
| abstract class _C { |
| int f(); |
| } |
| _f(_C/*?*/ c) => c?.f(); |
| '''); |
| visitSubexpression(findNode.methodInvocation('c?.f'), 'int?'); |
| } |
| |
| Future<void> test_methodInvocation_return_nullable() async { |
| await analyze(''' |
| abstract class _C { |
| int/*?*/ f(); |
| } |
| _f(_C c) => c.f(); |
| '''); |
| visitSubexpression(findNode.methodInvocation('c.f'), 'int?'); |
| } |
| |
| Future<void> test_methodInvocation_static() async { |
| await analyze(''' |
| _f() => _C.g(); |
| class _C { |
| static int g() => 1; |
| } |
| '''); |
| visitSubexpression(findNode.methodInvocation('_C.g();'), 'int'); |
| } |
| |
| Future<void> test_methodInvocation_topLevel() async { |
| await analyze(''' |
| _f() => _g(); |
| int _g() => 1; |
| '''); |
| visitSubexpression(findNode.methodInvocation('_g();'), 'int'); |
| } |
| |
| Future<void> test_methodInvocation_toString() async { |
| await analyze(''' |
| abstract class _C {} |
| _f(_C/*?*/ c) => c.toString(); |
| '''); |
| visitSubexpression(findNode.methodInvocation('c.toString'), 'String'); |
| } |
| |
| Future<void> test_null_aware_assignment_non_nullable_source() async { |
| await analyze(''' |
| abstract class C { |
| int/*!*/ f(); |
| g(int/*!*/ x) { |
| x ??= f(); |
| } |
| } |
| '''); |
| var assignment = findNode.assignment('??='); |
| visitSubexpression(assignment, 'int', |
| changes: {assignment: isWeakNullAwareAssignment}); |
| } |
| |
| Future<void> test_null_aware_assignment_nullable_rhs_needs_check() async { |
| await analyze(''' |
| abstract class C { |
| void set x(int/*!*/ value); |
| int/*?*/ get x; |
| int/*?*/ f(); |
| g() { |
| x ??= f(); |
| } |
| } |
| '''); |
| var assignment = findNode.assignment('??='); |
| visitSubexpression(assignment, 'int', |
| changes: {assignment.rightHandSide: isNullCheck}); |
| } |
| |
| Future<void> test_null_aware_assignment_nullable_rhs_ok() async { |
| await analyze(''' |
| abstract class C { |
| int/*?*/ f(); |
| g(int/*?*/ x) { |
| x ??= f(); |
| } |
| } |
| '''); |
| var assignment = findNode.assignment('??='); |
| visitSubexpression(assignment, 'int?'); |
| } |
| |
| Future<void> test_nullable_value_in_null_context() async { |
| await analyze('int/*!*/ f(int/*?*/ i) => i;'); |
| var iRef = findNode.simple('i;'); |
| visitSubexpression(iRef, 'int', changes: { |
| iRef: isNodeChangeForExpression.havingNullCheckWithInfo(isInfo( |
| NullabilityFixDescription.checkExpression, |
| {FixReasonTarget.root: TypeMatcher<NullabilityEdge>()})) |
| }); |
| } |
| |
| Future<void> test_nullAssertion_promotes() async { |
| await analyze(''' |
| _f(bool/*?*/ x) => x && x; |
| '''); |
| // Only the first `x` is null-checked because thereafter, the type of `x` is |
| // promoted to `bool`. |
| visitSubexpression(findNode.binary('&&'), 'bool', |
| changes: {findNode.simple('x &&'): isNullCheck}); |
| } |
| |
| Future<void> test_nullLiteral() async { |
| await analyze(''' |
| f() => null; |
| '''); |
| visitSubexpression(findNode.nullLiteral('null'), 'Null'); |
| } |
| |
| Future<void> test_nullLiteral_hinted() async { |
| await analyze(''' |
| int/*!*/ f() => null/*!*/; |
| '''); |
| var literal = findNode.nullLiteral('null'); |
| // Normally we would leave the null literal alone and add an informative |
| // comment saying there's no valid migration for it. But since the user |
| // specifically hinted that `!` should be added, we respect that. |
| visitSubexpression(literal, 'Never', changes: { |
| literal: isNodeChangeForExpression.havingNullCheckWithInfo(isInfo( |
| NullabilityFixDescription.checkExpressionDueToHint, |
| {FixReasonTarget.root: TypeMatcher<FixReason_NullCheckHint>()})) |
| }); |
| } |
| |
| Future<void> test_nullLiteral_noValidMigration() async { |
| await analyze(''' |
| int/*!*/ f() => null; |
| '''); |
| var literal = findNode.nullLiteral('null'); |
| // Note: in spite of the fact that we leave the literal as `null`, we |
| // analyze it as though it has type `Never`, because it's in a context where |
| // `null` doesn't work. |
| visitSubexpression(literal, 'Never', changes: { |
| literal: isNodeChangeForExpression.havingNoValidMigrationWithInfo(isInfo( |
| NullabilityFixDescription.noValidMigrationForNull, |
| {FixReasonTarget.root: TypeMatcher<NullabilityEdge>()})) |
| }); |
| } |
| |
| Future<void> test_parenthesizedExpression() async { |
| await analyze(''' |
| f() => (1); |
| '''); |
| visitSubexpression(findNode.integerLiteral('1'), 'int'); |
| } |
| |
| Future<void> test_parenthesizedExpression_flow() async { |
| await analyze(''' |
| _f(bool/*?*/ x) => ((x) != (null)) && x; |
| '''); |
| visitSubexpression(findNode.binary('&&'), 'bool'); |
| } |
| |
| Future<void> test_post_decrement_int_behavior() async { |
| await analyze(''' |
| _f(int x) => x--; |
| '''); |
| // It's not a problem that int.operator- returns `num` (which is not |
| // assignable to `int`) because the value implicitly passed to operator- has |
| // type `int`, so the static type of the result is `int`. |
| visitSubexpression(findNode.postfix('--'), 'int'); |
| } |
| |
| Future<void> test_post_increment_int_behavior() async { |
| await analyze(''' |
| _f(int x) => x++; |
| '''); |
| // It's not a problem that int.operator+ returns `num` (which is not |
| // assignable to `int`) because the value implicitly passed to operator- has |
| // type `int`, so the static type of the result is `int`. |
| visitSubexpression(findNode.postfix('++'), 'int'); |
| } |
| |
| Future<void> test_post_increment_null_shorted_ok() async { |
| await analyze(''' |
| class C { |
| int/*!*/ x; |
| } |
| _f(C/*?*/ c) { |
| c?.x++; |
| } |
| '''); |
| // Even though c?.x is nullable, it should not be a problem to use it as the |
| // target of a post-increment, because null shorting will ensure that the |
| // increment only happens if c is non-null. |
| var increment = findNode.postfix('++'); |
| visitSubexpression(increment, 'int?'); |
| } |
| |
| Future<void> test_post_increment_nullable_result_bad() async { |
| await analyze(''' |
| abstract class C { |
| C/*?*/ operator+(int i); |
| } |
| f(C c) { |
| c++; |
| } |
| '''); |
| var increment = findNode.postfix('++'); |
| visitSubexpression(increment, 'C', changes: {increment: isBadCombinedType}); |
| } |
| |
| Future<void> test_post_increment_nullable_result_ok() async { |
| await analyze(''' |
| abstract class C { |
| C/*?*/ operator+(int i); |
| } |
| abstract class D { |
| void set x(C/*?*/ value); |
| C/*!*/ get x; |
| f() { |
| x++; |
| } |
| } |
| '''); |
| var increment = findNode.postfix('++'); |
| visitSubexpression(increment, 'C'); |
| } |
| |
| Future<void> test_post_increment_nullable_source() async { |
| await analyze(''' |
| _f(int/*?*/ x) { |
| x++; |
| } |
| '''); |
| var increment = findNode.postfix('++'); |
| visitSubexpression(increment, 'int?', |
| changes: {increment: isNullableSource}); |
| } |
| |
| Future<void> test_post_increment_potentially_nullable_source() async { |
| await analyze(''' |
| class C<T extends num/*?*/> { |
| _f(T/*!*/ x) { |
| x++; |
| } |
| } |
| '''); |
| var increment = findNode.postfix('++'); |
| visitSubexpression(increment, 'T', changes: {increment: isNullableSource}); |
| } |
| |
| Future<void> test_post_increment_promoted_ok() async { |
| await analyze(''' |
| abstract class C { |
| C/*?*/ operator+(int i); |
| } |
| f(C/*?*/ x) { |
| if (x != null) { |
| x++; |
| } |
| } |
| '''); |
| // The increment is ok, because: |
| // - prior to the increment, x's value is promoted to non-nullable |
| // - the nullable return value of operator+ is ok to assign to x, because it |
| // un-does the promotion. |
| visitSubexpression(findNode.postfix('++'), 'C'); |
| } |
| |
| Future<void> test_postfixExpression_combined_nullable_noProblem() async { |
| await analyze(''' |
| abstract class _C { |
| _D/*?*/ operator+(int/*!*/ value); |
| } |
| abstract class _D extends _C {} |
| abstract class _E { |
| _C/*!*/ get x; |
| void set x(_C/*?*/ value); |
| f() => x++; |
| } |
| '''); |
| visitSubexpression(findNode.postfix('++'), '_C'); |
| } |
| |
| Future<void> |
| test_postfixExpression_combined_nullable_noProblem_dynamic() async { |
| await analyze(''' |
| abstract class _E { |
| dynamic get x; |
| void set x(Object/*!*/ value); |
| f() => x++; |
| } |
| '''); |
| visitSubexpression(findNode.postfix('++'), 'dynamic'); |
| } |
| |
| @FailingTest(reason: 'TODO(paulberry)') |
| Future<void> test_postfixExpression_combined_nullable_problem() async { |
| await analyze(''' |
| abstract class _C { |
| _D/*?*/ operator+(int/*!*/ value); |
| } |
| abstract class _D extends _C {} |
| abstract class _E { |
| _C/*!*/ get x; |
| void set x(_C/*!*/ value); |
| f() => x++; |
| } |
| '''); |
| var postfix = findNode.postfix('++'); |
| visitSubexpression(postfix, '_C', problems: { |
| postfix: {const CompoundAssignmentCombinedNullable()} |
| }); |
| } |
| |
| Future<void> test_postfixExpression_decrement_undoes_promotion() async { |
| await analyze(''' |
| abstract class _C { |
| _C/*?*/ operator-(int value); |
| } |
| _f(_C/*?*/ c) { // method |
| if (c != null) { |
| c--; |
| _g(c); |
| } |
| } |
| _g(_C/*!*/ c) {} |
| '''); |
| visitStatement(findNode.block('{ // method'), |
| changes: {findNode.simple('c);'): isNullCheck}); |
| } |
| |
| Future<void> test_postfixExpression_dynamic() async { |
| await analyze(''' |
| _f(dynamic x) => x++; |
| '''); |
| visitSubexpression(findNode.postfix('++'), 'dynamic'); |
| } |
| |
| Future<void> test_postfixExpression_increment_undoes_promotion() async { |
| await analyze(''' |
| abstract class _C { |
| _C/*?*/ operator+(int value); |
| } |
| _f(_C/*?*/ c) { // method |
| if (c != null) { |
| c++; |
| _g(c); |
| } |
| } |
| _g(_C/*!*/ c) {} |
| '''); |
| visitStatement(findNode.block('{ // method'), |
| changes: {findNode.simple('c);'): isNullCheck}); |
| } |
| |
| @FailingTest(reason: 'TODO(paulberry)') |
| Future<void> test_postfixExpression_lhs_nullable_problem() async { |
| await analyze(''' |
| abstract class _C { |
| _D/*!*/ operator+(int/*!*/ value); |
| } |
| abstract class _D extends _C {} |
| abstract class _E { |
| _C/*?*/ get x; |
| void set x(_C/*?*/ value); |
| f() => x++; |
| } |
| '''); |
| var postfix = findNode.postfix('++'); |
| visitSubexpression(postfix, '_C?', problems: { |
| postfix: {const CompoundAssignmentReadNullable()} |
| }); |
| } |
| |
| Future<void> test_postfixExpression_rhs_nonNullable() async { |
| await analyze(''' |
| abstract class _C { |
| _D/*!*/ operator+(int/*!*/ value); |
| } |
| abstract class _D extends _C {} |
| _f(_C/*!*/ x) => x++; |
| '''); |
| visitSubexpression(findNode.postfix('++'), '_C'); |
| } |
| |
| Future<void> test_pre_decrement_int_behavior() async { |
| await analyze(''' |
| _f(int x) => --x; |
| '''); |
| // It's not a problem that int.operator- returns `num` (which is not |
| // assignable to `int`) because the value implicitly passed to operator- has |
| // type `int`, so the static type of the result is `int`. |
| visitSubexpression(findNode.prefix('--'), 'int'); |
| } |
| |
| Future<void> test_pre_increment_int_behavior() async { |
| await analyze(''' |
| _f(int x) => ++x; |
| '''); |
| // It's not a problem that int.operator+ returns `num` (which is not |
| // assignable to `int`) because the value implicitly passed to operator- has |
| // type `int`, so the static type of the result is `int`. |
| visitSubexpression(findNode.prefix('++'), 'int'); |
| } |
| |
| Future<void> test_pre_increment_null_shorted_ok() async { |
| await analyze(''' |
| class C { |
| int/*!*/ x; |
| } |
| _f(C/*?*/ c) { |
| ++c?.x; |
| } |
| '''); |
| // Even though c?.x is nullable, it should not be a problem to use it as the |
| // target of a pre-increment, because null shorting will ensure that the |
| // increment only happens if c is non-null. |
| var increment = findNode.prefix('++'); |
| visitSubexpression(increment, 'int?'); |
| } |
| |
| Future<void> test_pre_increment_nullable_result_bad() async { |
| await analyze(''' |
| abstract class C { |
| C/*?*/ operator+(int i); |
| } |
| f(C c) { |
| ++c; |
| } |
| '''); |
| var increment = findNode.prefix('++'); |
| visitSubexpression(increment, 'C?', |
| changes: {increment: isBadCombinedType}); |
| } |
| |
| Future<void> test_pre_increment_nullable_result_ok() async { |
| await analyze(''' |
| abstract class C { |
| C/*?*/ operator+(int i); |
| } |
| abstract class D { |
| void set x(C/*?*/ value); |
| C/*!*/ get x; |
| f() { |
| ++x; |
| } |
| } |
| '''); |
| var increment = findNode.prefix('++'); |
| visitSubexpression(increment, 'C?'); |
| } |
| |
| Future<void> test_pre_increment_nullable_source() async { |
| await analyze(''' |
| _f(int/*?*/ x) { |
| ++x; |
| } |
| '''); |
| var increment = findNode.prefix('++'); |
| visitSubexpression(increment, 'int', |
| changes: {increment: isNullableSource}); |
| } |
| |
| Future<void> test_pre_increment_potentially_nullable_source() async { |
| await analyze(''' |
| class C<T extends num/*?*/> { |
| _f(T/*!*/ x) { |
| ++x; |
| } |
| } |
| '''); |
| var increment = findNode.prefix('++'); |
| visitSubexpression(increment, 'num', |
| changes: {increment: isNullableSource}); |
| } |
| |
| Future<void> test_pre_increment_promoted_ok() async { |
| await analyze(''' |
| abstract class C { |
| C/*?*/ operator+(int i); |
| } |
| f(C/*?*/ x) { |
| if (x != null) { |
| ++x; |
| } |
| } |
| '''); |
| // The increment is ok, because: |
| // - prior to the increment, x's value is promoted to non-nullable |
| // - the nullable return value of operator+ is ok to assign to x, because it |
| // un-does the promotion. |
| visitSubexpression(findNode.prefix('++'), 'C?'); |
| } |
| |
| Future<void> test_prefixedIdentifier_dynamic() async { |
| await analyze(''' |
| Object/*!*/ _f(dynamic d) => d.x; |
| '''); |
| visitSubexpression(findNode.prefixed('d.x'), 'dynamic'); |
| } |
| |
| Future<void> test_prefixedIdentifier_field_nonNullable() async { |
| await analyze(''' |
| class _C { |
| int/*!*/ x = 0; |
| } |
| _f(_C c) => c.x; |
| '''); |
| visitSubexpression(findNode.prefixed('c.x'), 'int'); |
| } |
| |
| Future<void> test_prefixedIdentifier_field_nullable() async { |
| await analyze(''' |
| class _C { |
| int/*?*/ x = 0; |
| } |
| _f(_C c) => c.x; |
| '''); |
| visitSubexpression(findNode.prefixed('c.x'), 'int?'); |
| } |
| |
| Future<void> test_prefixedIdentifier_getter_check_lhs() async { |
| await analyze(''' |
| abstract class _C { |
| int get x; |
| } |
| _f(_C/*?*/ c) => c.x; |
| '''); |
| visitSubexpression(findNode.prefixed('c.x'), 'int', |
| changes: {findNode.simple('c.x'): isNullCheck}); |
| } |
| |
| Future<void> test_prefixedIdentifier_getter_nonNullable() async { |
| await analyze(''' |
| abstract class _C { |
| int/*!*/ get x; |
| } |
| _f(_C c) => c.x; |
| '''); |
| visitSubexpression(findNode.prefixed('c.x'), 'int'); |
| } |
| |
| Future<void> test_prefixedIdentifier_getter_nullable() async { |
| await analyze(''' |
| abstract class _C { |
| int/*?*/ get x; |
| } |
| _f(_C c) => c.x; |
| '''); |
| visitSubexpression(findNode.prefixed('c.x'), 'int?'); |
| } |
| |
| Future<void> test_prefixedIdentifier_object_getter() async { |
| await analyze(''' |
| class _C {} |
| _f(_C/*?*/ c) => c.hashCode; |
| '''); |
| visitSubexpression(findNode.prefixed('c.hashCode'), 'int'); |
| } |
| |
| Future<void> test_prefixedIdentifier_object_tearoff() async { |
| await analyze(''' |
| class _C {} |
| _f(_C/*?*/ c) => c.toString; |
| '''); |
| visitSubexpression(findNode.prefixed('c.toString'), 'String Function()'); |
| } |
| |
| Future<void> test_prefixedIdentifier_substituted() async { |
| await analyze(''' |
| abstract class _C<T> { |
| List<T> get x; |
| } |
| _f(_C<int> c) => c.x; |
| '''); |
| visitSubexpression(findNode.prefixed('c.x'), 'List<int>'); |
| } |
| |
| Future<void> test_prefixExpression_bang_flow() async { |
| await analyze(''' |
| _f(int/*?*/ x) { |
| if (!(x == null)) { |
| x + 1; |
| } |
| } |
| '''); |
| // No null check should be needed on `x + 1` because `!(x == null)` promotes |
| // x's type to `int`. |
| visitStatement(findNode.statement('if')); |
| } |
| |
| Future<void> test_prefixExpression_bang_nonNullable() async { |
| await analyze(''' |
| _f(bool/*!*/ x) => !x; |
| '''); |
| visitSubexpression(findNode.prefix('!x'), 'bool'); |
| } |
| |
| Future<void> test_prefixExpression_bang_nullable() async { |
| await analyze(''' |
| _f(bool/*?*/ x) => !x; |
| '''); |
| visitSubexpression(findNode.prefix('!x'), 'bool', |
| changes: {findNode.simple('x;'): isNullCheck}); |
| } |
| |
| Future<void> test_prefixExpression_combined_nullable_noProblem() async { |
| await analyze(''' |
| abstract class _C { |
| _D/*?*/ operator+(int/*!*/ value); |
| } |
| abstract class _D extends _C {} |
| abstract class _E { |
| _C/*!*/ get x; |
| void set x(_C/*?*/ value); |
| f() => ++x; |
| } |
| '''); |
| visitSubexpression(findNode.prefix('++'), '_D?'); |
| } |
| |
| Future<void> |
| test_prefixExpression_combined_nullable_noProblem_dynamic() async { |
| await analyze(''' |
| abstract class _E { |
| dynamic get x; |
| void set x(Object/*!*/ value); |
| f() => ++x; |
| } |
| '''); |
| var prefix = findNode.prefix('++'); |
| visitSubexpression(prefix, 'dynamic'); |
| } |
| |
| @FailingTest(reason: 'TODO(paulberry)') |
| Future<void> test_prefixExpression_combined_nullable_problem() async { |
| await analyze(''' |
| abstract class _C { |
| _D/*?*/ operator+(int/*!*/ value); |
| } |
| abstract class _D extends _C {} |
| abstract class _E { |
| _C/*!*/ get x; |
| void set x(_C/*!*/ value); |
| f() => ++x; |
| } |
| '''); |
| var prefix = findNode.prefix('++'); |
| visitSubexpression(prefix, '_D', problems: { |
| prefix: {const CompoundAssignmentCombinedNullable()} |
| }); |
| } |
| |
| Future<void> test_prefixExpression_decrement_undoes_promotion() async { |
| await analyze(''' |
| abstract class _C { |
| _C/*?*/ operator-(int value); |
| } |
| _f(_C/*?*/ c) { // method |
| if (c != null) { |
| --c; |
| _g(c); |
| } |
| } |
| _g(_C/*!*/ c) {} |
| '''); |
| visitStatement(findNode.block('{ // method'), |
| changes: {findNode.simple('c);'): isNullCheck}); |
| } |
| |
| Future<void> test_prefixExpression_increment_undoes_promotion() async { |
| await analyze(''' |
| abstract class _C { |
| _C/*?*/ operator+(int value); |
| } |
| _f(_C/*?*/ c) { // method |
| if (c != null) { |
| ++c; |
| _g(c); |
| } |
| } |
| _g(_C/*!*/ c) {} |
| '''); |
| visitStatement(findNode.block('{ // method'), |
| changes: {findNode.simple('c);'): isNullCheck}); |
| } |
| |
| Future<void> test_prefixExpression_intRules() async { |
| await analyze(''' |
| _f(int x) => ++x; |
| '''); |
| visitSubexpression(findNode.prefix('++'), 'int'); |
| } |
| |
| @FailingTest(reason: 'TODO(paulberry)') |
| Future<void> test_prefixExpression_lhs_nullable_problem() async { |
| await analyze(''' |
| abstract class _C { |
| _D/*!*/ operator+(int/*!*/ value); |
| } |
| abstract class _D extends _C {} |
| abstract class _E { |
| _C/*?*/ get x; |
| void set x(_C/*?*/ value); |
| f() => ++x; |
| } |
| '''); |
| var prefix = findNode.prefix('++'); |
| visitSubexpression(prefix, '_D', problems: { |
| prefix: {const CompoundAssignmentReadNullable()} |
| }); |
| } |
| |
| Future<void> test_prefixExpression_minus_dynamic() async { |
| await analyze(''' |
| _f(dynamic x) => -x; |
| '''); |
| visitSubexpression(findNode.prefix('-x'), 'dynamic'); |
| } |
| |
| Future<void> test_prefixExpression_minus_nonNullable() async { |
| await analyze(''' |
| _f(int/*!*/ x) => -x; |
| '''); |
| visitSubexpression(findNode.prefix('-x'), 'int'); |
| } |
| |
| Future<void> test_prefixExpression_minus_nullable() async { |
| await analyze(''' |
| _f(int/*?*/ x) => -x; |
| '''); |
| visitSubexpression(findNode.prefix('-x'), 'int', |
| changes: {findNode.simple('x;'): isNullCheck}); |
| } |
| |
| Future<void> test_prefixExpression_minus_substitution() async { |
| await analyze(''' |
| abstract class _C<T> { |
| List<T> operator-(); |
| } |
| _f(_C<int> x) => -x; |
| '''); |
| visitSubexpression(findNode.prefix('-x'), 'List<int>'); |
| } |
| |
| Future<void> test_prefixExpression_rhs_nonNullable() async { |
| await analyze(''' |
| abstract class _C { |
| _D/*!*/ operator+(int/*!*/ value); |
| } |
| abstract class _D extends _C {} |
| _f(_C/*!*/ x) => ++x; |
| '''); |
| visitSubexpression(findNode.prefix('++'), '_D'); |
| } |
| |
| Future<void> test_prefixExpression_tilde_dynamic() async { |
| await analyze(''' |
| _f(dynamic x) => ~x; |
| '''); |
| visitSubexpression(findNode.prefix('~x'), 'dynamic'); |
| } |
| |
| Future<void> test_prefixExpression_tilde_nonNullable() async { |
| await analyze(''' |
| _f(int/*!*/ x) => ~x; |
| '''); |
| visitSubexpression(findNode.prefix('~x'), 'int'); |
| } |
| |
| Future<void> test_prefixExpression_tilde_nullable() async { |
| await analyze(''' |
| _f(int/*?*/ x) => ~x; |
| '''); |
| visitSubexpression(findNode.prefix('~x'), 'int', |
| changes: {findNode.simple('x;'): isNullCheck}); |
| } |
| |
| Future<void> test_prefixExpression_tilde_substitution() async { |
| await analyze(''' |
| abstract class _C<T> { |
| List<T> operator~(); |
| } |
| _f(_C<int> x) => ~x; |
| '''); |
| visitSubexpression(findNode.prefix('~x'), 'List<int>'); |
| } |
| |
| Future<void> test_propertyAccess_dynamic() async { |
| await analyze(''' |
| Object/*!*/ _f(dynamic d) => (d).x; |
| '''); |
| visitSubexpression(findNode.propertyAccess('(d).x'), 'dynamic'); |
| } |
| |
| Future<void> test_propertyAccess_field_nonNullable() async { |
| await analyze(''' |
| class _C { |
| int/*!*/ x = 0; |
| } |
| _f(_C c) => (c).x; |
| '''); |
| visitSubexpression(findNode.propertyAccess('(c).x'), 'int'); |
| } |
| |
| Future<void> test_propertyAccess_field_nullable() async { |
| await analyze(''' |
| class _C { |
| int/*?*/ x = 0; |
| } |
| _f(_C c) => (c).x; |
| '''); |
| visitSubexpression(findNode.propertyAccess('(c).x'), 'int?'); |
| } |
| |
| Future<void> test_propertyAccess_getter_check_lhs() async { |
| await analyze(''' |
| abstract class _C { |
| int get x; |
| } |
| _f(_C/*?*/ c) => (c).x; |
| '''); |
| visitSubexpression(findNode.propertyAccess('(c).x'), 'int', |
| changes: {findNode.parenthesized('(c).x'): isNullCheck}); |
| } |
| |
| Future<void> test_propertyAccess_getter_nonNullable() async { |
| await analyze(''' |
| abstract class _C { |
| int/*!*/ get x; |
| } |
| _f(_C c) => (c).x; |
| '''); |
| visitSubexpression(findNode.propertyAccess('(c).x'), 'int'); |
| } |
| |
| Future<void> test_propertyAccess_getter_nullable() async { |
| await analyze(''' |
| abstract class _C { |
| int/*?*/ get x; |
| } |
| _f(_C c) => (c).x; |
| '''); |
| visitSubexpression(findNode.propertyAccess('(c).x'), 'int?'); |
| } |
| |
| Future<void> test_propertyAccess_nullAware_dynamic() async { |
| await analyze(''' |
| Object/*!*/ _f(dynamic d) => d?.x; |
| '''); |
| visitSubexpression(findNode.propertyAccess('d?.x'), 'dynamic'); |
| } |
| |
| Future<void> test_propertyAccess_nullAware_field_nonNullable() async { |
| await analyze(''' |
| class _C { |
| int/*!*/ x = 0; |
| } |
| _f(_C/*?*/ c) => c?.x; |
| '''); |
| visitSubexpression(findNode.propertyAccess('c?.x'), 'int?'); |
| } |
| |
| Future<void> test_propertyAccess_nullAware_field_nullable() async { |
| await analyze(''' |
| class _C { |
| int/*?*/ x = 0; |
| } |
| _f(_C/*?*/ c) => c?.x; |
| '''); |
| visitSubexpression(findNode.propertyAccess('c?.x'), 'int?'); |
| } |
| |
| Future<void> test_propertyAccess_nullAware_getter_nonNullable() async { |
| await analyze(''' |
| abstract class _C { |
| int/*!*/ get x; |
| } |
| _f(_C/*?*/ c) => c?.x; |
| '''); |
| visitSubexpression(findNode.propertyAccess('c?.x'), 'int?'); |
| } |
| |
| Future<void> test_propertyAccess_nullAware_getter_nullable() async { |
| await analyze(''' |
| abstract class _C { |
| int/*?*/ get x; |
| } |
| _f(_C/*?*/ c) => c?.x; |
| '''); |
| visitSubexpression(findNode.propertyAccess('c?.x'), 'int?'); |
| } |
| |
| Future<void> test_propertyAccess_nullAware_object_getter() async { |
| await analyze(''' |
| class _C {} |
| _f(_C/*?*/ c) => c?.hashCode; |
| '''); |
| visitSubexpression(findNode.propertyAccess('c?.hashCode'), 'int?'); |
| } |
| |
| Future<void> test_propertyAccess_nullAware_object_tearoff() async { |
| await analyze(''' |
| class _C {} |
| _f(_C/*?*/ c) => c?.toString; |
| '''); |
| visitSubexpression( |
| findNode.propertyAccess('c?.toString'), 'String Function()?'); |
| } |
| |
| Future<void> test_propertyAccess_nullAware_potentiallyNullable() async { |
| // In the code example below, the `?.` is not changed to `.` because `T` |
| // might be instantiated to `int?`, in which case the null check is still |
| // needed. |
| await analyze(''' |
| class C<T extends int/*?*/> { |
| f(T t) => t?.isEven; |
| } |
| '''); |
| visitSubexpression(findNode.propertyAccess('?.'), 'bool?'); |
| } |
| |
| Future<void> test_propertyAccess_nullAware_removeNullAwareness() async { |
| await analyze('_f(int/*!*/ i) => i?.isEven;'); |
| var propertyAccess = findNode.propertyAccess('?.'); |
| visitSubexpression(propertyAccess, 'bool', |
| changes: {propertyAccess: isRemoveNullAwareness}); |
| } |
| |
| Future<void> |
| test_propertyAccess_nullAware_removeNullAwareness_nullCheck() async { |
| await analyze(''' |
| class C { |
| int/*?*/ i; |
| } |
| int/*!*/ f(C/*!*/ c) => c?.i; |
| '''); |
| var propertyAccess = findNode.propertyAccess('?.'); |
| visitSubexpression(propertyAccess, 'int', changes: { |
| propertyAccess: TypeMatcher<NodeChangeForPropertyAccess>() |
| .having((c) => c.addsNullCheck, 'addsNullCheck', true) |
| .having((c) => c.removeNullAwareness, 'removeNullAwareness', true) |
| }); |
| } |
| |
| Future<void> test_propertyAccess_nullAware_substituted() async { |
| await analyze(''' |
| abstract class _C<T> { |
| List<T> get x; |
| } |
| _f(_C<int>/*?*/ c) => c?.x; |
| '''); |
| visitSubexpression(findNode.propertyAccess('c?.x'), 'List<int>?'); |
| } |
| |
| Future<void> test_propertyAccess_object_getter() async { |
| await analyze(''' |
| class _C {} |
| _f(_C/*?*/ c) => (c).hashCode; |
| '''); |
| visitSubexpression(findNode.propertyAccess('(c).hashCode'), 'int'); |
| } |
| |
| Future<void> test_propertyAccess_object_tearoff() async { |
| await analyze(''' |
| class _C {} |
| _f(_C/*?*/ c) => (c).toString; |
| '''); |
| visitSubexpression( |
| findNode.propertyAccess('(c).toString'), 'String Function()'); |
| } |
| |
| Future<void> test_propertyAccess_substituted() async { |
| await analyze(''' |
| abstract class _C<T> { |
| List<T> get x; |
| } |
| _f(_C<int> c) => (c).x; |
| '''); |
| visitSubexpression(findNode.propertyAccess('(c).x'), 'List<int>'); |
| } |
| |
| Future<void> test_removeLanguageVersionComment() async { |
| await analyze(''' |
| // @dart = 2.6 |
| void main() {} |
| '''); |
| visitAll(changes: {findNode.unit: isRemoveLanguageVersion}); |
| } |
| |
| Future<void> test_removeLanguageVersionComment_withCopyright() async { |
| await analyze(''' |
| // Some copyright notice here... |
| // @dart = 2.6 |
| void main() {} |
| '''); |
| visitAll(changes: {findNode.unit: isRemoveLanguageVersion}); |
| } |
| |
| Future<void> test_set_ifElement_alive() async { |
| await analyze(''' |
| _f(int x, bool b, int/*?*/ y) => {if (b) h(y) else g(y)}; |
| int/*!*/ g(int/*!*/ y) => y; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Set<num>', changes: { |
| findNode.simple('y) else'): isNullCheck, |
| findNode.simple('y)}'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_set_ifElement_alive_with_null_check() async { |
| await analyze(''' |
| _f(int x, bool/*?*/ b, int/*?*/ y) => {if (b == null) h(y) else g(y)}; |
| int/*!*/ g(int/*!*/ y) => y; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Set<num>', changes: { |
| findNode.simple('y) else'): isNullCheck, |
| findNode.simple('y)}'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_set_ifElement_dead_else() async { |
| await analyze(''' |
| _f(int x, int/*?*/ y) => {if (x != null) g(y) else h(y)}; |
| int/*!*/ g(int/*!*/ y) => y; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Set<int>', changes: { |
| findNode.ifElement('null'): isConditionalWithKnownValue(true), |
| findNode.simple('y) else'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_set_ifElement_dead_else_no_else() async { |
| await analyze(''' |
| _f(int x, int/*?*/ y) => {if (x != null) g(y)}; |
| int/*!*/ g(int/*!*/ y) => y; |
| '''); |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Set<int>', changes: { |
| findNode.ifElement('null'): isConditionalWithKnownValue(true), |
| findNode.simple('y)}'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_set_ifElement_dead_then() async { |
| await analyze(''' |
| _f(int x, int/*?*/ y) => {if (x == null) h(y) else g(y)}; |
| int/*!*/ g(int/*!*/ y) => y; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Set<int>', changes: { |
| findNode.ifElement('null'): isConditionalWithKnownValue(false), |
| findNode.simple('y)}'): isNullCheck |
| }); |
| } |
| |
| Future<void> test_set_ifElement_dead_then_no_else() async { |
| // TODO(paulberry): rather than infer the type to be Map<dynamic, dynamic>, |
| // FixBuilder should add an explicit type argument to ensure that it is |
| // still Set<int>. |
| await analyze(''' |
| _f(int x, int/*?*/ y) => {if (x == null) h(y)}; |
| double/*!*/ h(int/*!*/ y) => y.toDouble(); |
| '''); |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Map<dynamic, dynamic>', |
| changes: { |
| findNode.ifElement('null'): isConditionalWithKnownValue(false) |
| }); |
| } |
| |
| Future<void> test_set_make_explicit_type_nullable() async { |
| await analyze('_f() => <int>{null};'); |
| // The `null` should be analyzed with a context type of `int?`, so it should |
| // not be null-checked. |
| visitSubexpression(findNode.setOrMapLiteral('{'), 'Set<int?>', |
| changes: {findNode.typeAnnotation('int'): isMakeNullable}); |
| } |
| |
| Future<void> test_simpleIdentifier_className() async { |
| await analyze(''' |
| _f() => int; |
| '''); |
| visitSubexpression(findNode.simple('int'), 'Type'); |
| } |
| |
| Future<void> test_simpleIdentifier_field() async { |
| await analyze(''' |
| class _C { |
| int i = 1; |
| f() => i; |
| } |
| '''); |
| visitSubexpression(findNode.simple('i;'), 'int'); |
| } |
| |
| Future<void> test_simpleIdentifier_field_generic() async { |
| await analyze(''' |
| class _C<T> { |
| List<T> x = null; |
| f() => x; |
| } |
| '''); |
| visitSubexpression(findNode.simple('x;'), 'List<T>?'); |
| } |
| |
| Future<void> test_simpleIdentifier_field_nullable() async { |
| await analyze(''' |
| class _C { |
| int/*?*/ i = 1; |
| f() => i; |
| } |
| '''); |
| visitSubexpression(findNode.simple('i;'), 'int?'); |
| } |
| |
| Future<void> test_simpleIdentifier_getter() async { |
| await analyze(''' |
| class _C { |
| int get i => 1; |
| f() => i; |
| } |
| '''); |
| visitSubexpression(findNode.simple('i;'), 'int'); |
| } |
| |
| Future<void> test_simpleIdentifier_getter_nullable() async { |
| await analyze(''' |
| class _C { |
| int/*?*/ get i => 1; |
| f() => i; |
| } |
| '''); |
| visitSubexpression(findNode.simple('i;'), 'int?'); |
| } |
| |
| Future<void> test_simpleIdentifier_localVariable_nonNullable() async { |
| await analyze(''' |
| _f(int x) { |
| return x; |
| } |
| '''); |
| visitSubexpression(findNode.simple('x;'), 'int'); |
| } |
| |
| Future<void> test_simpleIdentifier_localVariable_nullable() async { |
| await analyze(''' |
| _f(int/*?*/ x) { |
| return x; |
| } |
| '''); |
| visitSubexpression(findNode.simple('x;'), 'int?'); |
| } |
| |
| Future<void> test_simpleIdentifier_null_check_hint() async { |
| await analyze('int/*?*/ _f(int/*?*/ x) => x/*!*/;'); |
| var xRef = findNode.simple('x/*!*/'); |
| visitSubexpression(xRef, 'int', changes: { |
| xRef: isNodeChangeForExpression.havingNullCheckWithInfo(isInfo( |
| NullabilityFixDescription.checkExpressionDueToHint, |
| {FixReasonTarget.root: TypeMatcher<FixReason_NullCheckHint>()})) |
| }); |
| } |
| |
| Future<void> test_stringLiteral() async { |
| await analyze(''' |
| f() => 'foo'; |
| '''); |
| visitSubexpression(findNode.stringLiteral("'foo'"), 'String'); |
| } |
| |
| Future<void> test_suspicious_cast() async { |
| await analyze(''' |
| int f(Object o) { |
| if (o is! String) return 0; |
| return o; |
| } |
| '''); |
| var xRef = findNode.simple('o;'); |
| visitSubexpression(xRef, 'int', changes: { |
| xRef: isNodeChangeForExpression.havingIndroduceAsWithInfo( |
| 'int', |
| isInfo(NullabilityFixDescription.otherCastExpression, |
| {FixReasonTarget.root: isEdge})) |
| }); |
| } |
| |
| Future<void> test_symbolLiteral() async { |
| await analyze(''' |
| f() => #foo; |
| '''); |
| visitSubexpression(findNode.symbolLiteral('#foo'), 'Symbol'); |
| } |
| |
| Future<void> test_throw_flow() async { |
| await analyze(''' |
| _f(int/*?*/ i) { |
| if (i == null) throw 'foo'; |
| i + 1; |
| } |
| '''); |
| visitStatement(findNode.block('{')); |
| } |
| |
| Future<void> test_throw_nullable() async { |
| await analyze(''' |
| _f(int/*?*/ i) => throw i; |
| '''); |
| visitSubexpression(findNode.throw_('throw'), 'Never', |
| changes: {findNode.simple('i;'): isNullCheck}); |
| } |
| |
| Future<void> test_throw_simple() async { |
| await analyze(''' |
| _f() => throw 'foo'; |
| '''); |
| visitSubexpression(findNode.throw_('throw'), 'Never'); |
| } |
| |
| Future<void> test_typeName_dynamic() async { |
| await analyze(''' |
| void _f() { |
| dynamic d = null; |
| } |
| '''); |
| visitTypeAnnotation(findNode.typeAnnotation('dynamic'), 'dynamic'); |
| } |
| |
| Future<void> test_typeName_futureOr_dynamic_nullable() async { |
| await analyze(''' |
| import 'dart:async'; |
| void _f() { |
| FutureOr<dynamic> x = null; |
| } |
| '''); |
| // The type of `x` should be `FutureOr<dynamic>?`, but this is equivalent to |
| // `FutureOr<dynamic>`, so we don't add a `?`. Note: expected type is |
| // still `FutureOr<dynamic>?`; we don't go to extra effort to remove the |
| // redundant `?` from the internal type representation, just from the source |
| // code we generate. |
| visitTypeAnnotation( |
| findNode.typeAnnotation('FutureOr<dynamic> x'), 'FutureOr<dynamic>?', |
| changes: {}); |
| } |
| |
| Future<void> test_typeName_futureOr_inner() async { |
| await analyze(''' |
| import 'dart:async'; |
| void _f(FutureOr<int/*?*/> x) { |
| FutureOr<int> y = x; |
| } |
| '''); |
| visitTypeAnnotation( |
| findNode.typeAnnotation('FutureOr<int> y'), 'FutureOr<int?>', |
| changes: {findNode.typeAnnotation('int> y'): isMakeNullable}); |
| } |
| |
| Future<void> test_typeName_futureOr_null_nullable() async { |
| await analyze(''' |
| import 'dart:async'; |
| void _f() { |
| FutureOr<Null> x = null; |
| } |
| '''); |
| // The type of `x` should be `FutureOr<Null>?`, but this is equivalent to |
| // `FutureOr<Null>`, so we don't add a `?`. Note: expected type is |
| // still `FutureOr<Null>?`; we don't go to extra effort to remove the |
| // redundant `?` from the internal type representation, just from the source |
| // code we generate. |
| visitTypeAnnotation( |
| findNode.typeAnnotation('FutureOr<Null> x'), 'FutureOr<Null>?', |
| changes: {}); |
| } |
| |
| Future<void> test_typeName_futureOr_outer() async { |
| await analyze(''' |
| import 'dart:async'; |
| void _f(FutureOr<int>/*?*/ x) { |
| FutureOr<int> y = x; |
| } |
| '''); |
| var typeAnnotation = findNode.typeAnnotation('FutureOr<int> y'); |
| visitTypeAnnotation(typeAnnotation, 'FutureOr<int>?', |
| changes: {typeAnnotation: isMakeNullable}); |
| } |
| |
| Future<void> test_typeName_futureOr_redundant() async { |
| await analyze(''' |
| import 'dart:async'; |
| void _f(bool b, FutureOr<int>/*?*/ x, FutureOr<int/*?*/> y) { |
| FutureOr<int> z = b ? x : y; |
| } |
| '''); |
| // The type of `z` should be `FutureOr<int?>?`, but this is equivalent to |
| // `FutureOr<int?>`, so we only add the first `?`. Note: expected type is |
| // still `FutureOr<int?>?`; we don't go to extra effort to remove the |
| // redundant `?` from the internal type representation, just from the source |
| // code we generate. |
| visitTypeAnnotation( |
| findNode.typeAnnotation('FutureOr<int> z'), 'FutureOr<int?>?', |
| changes: {findNode.typeAnnotation('int> z'): isMakeNullable}); |
| } |
| |
| Future<void> test_typeName_futureOr_void_nullable() async { |
| await analyze(''' |
| import 'dart:async'; |
| void _f() { |
| FutureOr<void> x = null; |
| } |
| '''); |
| // The type of `x` should be `FutureOr<void>?`, but this is equivalent to |
| // `FutureOr<void>`, so we don't add a `?`. Note: expected type is |
| // still `FutureOr<void>?`; we don't go to extra effort to remove the |
| // redundant `?` from the internal type representation, just from the source |
| // code we generate. |
| visitTypeAnnotation( |
| findNode.typeAnnotation('FutureOr<void> x'), 'FutureOr<void>?', |
| changes: {}); |
| } |
| |
| Future<void> test_typeName_generic_nonNullable() async { |
| await analyze(''' |
| void _f() { |
| List<int> i = [0]; |
| } |
| '''); |
| visitTypeAnnotation(findNode.typeAnnotation('List<int>'), 'List<int>'); |
| } |
| |
| Future<void> test_typeName_generic_nullable() async { |
| await analyze(''' |
| void _f() { |
| List<int> i = null; |
| } |
| '''); |
| var listIntAnnotation = findNode.typeAnnotation('List<int>'); |
| visitTypeAnnotation(listIntAnnotation, 'List<int>?', |
| changes: {listIntAnnotation: isMakeNullable}); |
| } |
| |
| Future<void> test_typeName_generic_nullable_arg() async { |
| await analyze(''' |
| void _f() { |
| List<int> i = [null]; |
| } |
| '''); |
| visitTypeAnnotation(findNode.typeAnnotation('List<int>'), 'List<int?>', |
| changes: {findNode.typeAnnotation('int'): isMakeNullable}); |
| } |
| |
| Future<void> test_typeName_generic_nullable_arg_and_outer() async { |
| await analyze(''' |
| void _f(bool b) { |
| List<int> i = b ? [null] : null; |
| } |
| '''); |
| var listInt = findNode.typeAnnotation('List<int>'); |
| visitTypeAnnotation(listInt, 'List<int?>?', changes: { |
| findNode.typeAnnotation('int'): isMakeNullable, |
| listInt: isMakeNullable |
| }); |
| } |
| |
| Future<void> test_typeName_simple_nonNullable() async { |
| await analyze(''' |
| void _f() { |
| int i = 0; |
| } |
| '''); |
| var typeAnnotation = findNode.typeAnnotation('int'); |
| visitTypeAnnotation(typeAnnotation, 'int', |
| informative: {typeAnnotation: isExplainNonNullable}); |
| } |
| |
| Future<void> test_typeName_simple_nonNullable_by_context() async { |
| await analyze(''' |
| class C extends Object {} |
| '''); |
| visitTypeAnnotation(findNode.typeAnnotation('Object'), 'Object', |
| informative: isEmpty); |
| } |
| |
| Future<void> test_typeName_simple_nullable() async { |
| await analyze(''' |
| void _f() { |
| int i = null; |
| } |
| '''); |
| var intAnnotation = findNode.typeAnnotation('int'); |
| visitTypeAnnotation((intAnnotation), 'int?', |
| changes: {intAnnotation: isMakeNullable}); |
| } |
| |
| Future<void> test_typeName_void() async { |
| await analyze(''' |
| void _f() { |
| return; |
|