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RR0206UseEnumeratorExplicitlyTests.cs
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RR0206UseEnumeratorExplicitlyTests.cs
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// Copyright (c) Josef Pihrt and Contributors. Licensed under the Apache License, Version 2.0. See License.txt in the project root for license information.
using System.Threading.Tasks;
using Roslynator.Testing.CSharp;
using Xunit;
namespace Roslynator.CSharp.Refactorings.Tests;
public class RR0206UseEnumeratorExplicitlyTests : AbstractCSharpRefactoringVerifier
{
public override string RefactoringId { get; } = RefactoringIdentifiers.UseEnumeratorExplicitly;
[Fact, Trait(Traits.Refactoring, RefactoringIdentifiers.UseEnumeratorExplicitly)]
public async Task TestCodeRefactoring_WithUsing()
{
await VerifyRefactoringAsync(
@"
using System.Linq;
class C
{
void M()
{
[||]foreach (int item in Enumerable.Range(0, 1))
{
int x = item;
}
}
int M(int value)
{
return value;
}
}
",
@"
using System.Linq;
class C
{
void M()
{
using (var en = Enumerable.Range(0, 1).GetEnumerator())
{
while (en.MoveNext())
{
int x = en.Current;
}
}
}
int M(int value)
{
return value;
}
}
", equivalenceKey: EquivalenceKey.Create(RefactoringId));
}
[Fact, Trait(Traits.Refactoring, RefactoringIdentifiers.UseEnumeratorExplicitly)]
public async Task TestCodeRefactoring_WithUsing_EmbeddedStatement()
{
await VerifyRefactoringAsync(
@"
using System.Linq;
class C
{
void M()
{
for[||]each (int item in Enumerable.Range(0, 1))
M(item);
}
int M(int value)
{
return value;
}
}
",
@"
using System.Linq;
class C
{
void M()
{
using (var en = Enumerable.Range(0, 1).GetEnumerator())
{
while (en.MoveNext())
M(en.Current);
}
}
int M(int value)
{
return value;
}
}
", equivalenceKey: EquivalenceKey.Create(RefactoringId));
}
[Fact, Trait(Traits.Refactoring, RefactoringIdentifiers.UseEnumeratorExplicitly)]
public async Task TestCodeRefactoring_WithoutUsing()
{
await VerifyRefactoringAsync(
@"
using Microsoft.CodeAnalysis;
class C
{
void M()
{
SyntaxList<SyntaxNode> nodes;
[||]foreach (SyntaxNode node in nodes)
{
SyntaxNode x = node;
}
}
}
",
@"
using Microsoft.CodeAnalysis;
class C
{
void M()
{
SyntaxList<SyntaxNode> nodes;
var en = nodes.GetEnumerator();
while (en.MoveNext())
{
SyntaxNode x = en.Current;
}
}
}
", equivalenceKey: EquivalenceKey.Create(RefactoringId));
}
[Fact, Trait(Traits.Refactoring, RefactoringIdentifiers.UseEnumeratorExplicitly)]
public async Task TestCodeRefactoring_WithoutUsing_EmbeddedStatement()
{
await VerifyRefactoringAsync(
@"
using Microsoft.CodeAnalysis;
class C
{
void M()
{
bool f = false;
SyntaxList<SyntaxNode> nodes;
if (f)
[||]foreach (SyntaxNode node in nodes)
{
SyntaxNode x = node;
}
}
}
",
@"
using Microsoft.CodeAnalysis;
class C
{
void M()
{
bool f = false;
SyntaxList<SyntaxNode> nodes;
if (f)
{
var en = nodes.GetEnumerator();
while (en.MoveNext())
{
SyntaxNode x = en.Current;
}
}
}
}
", equivalenceKey: EquivalenceKey.Create(RefactoringId));
}
[Fact, Trait(Traits.Refactoring, RefactoringIdentifiers.UseEnumeratorExplicitly)]
public async Task TestNoCodeRefactoring_InvalidSpan()
{
await VerifyNoRefactoringAsync(
@"
using System.Linq;
class C
{
void M()
{
[|foreach|] (int item in Enumerable.Range(0, 1))
{
int x = item;
}
[|foreach (int item in Enumerable.Range(0, 1))
{
int x = item;
}|]
[|f|]oreach (int item in Enumerable.Range(0, 1))
{
int x = item;
}
foreach (int item in Enumerable.Range(0, 1))
{
[||]int x = item;
}
}
}
", RefactoringId);
}
}