.NET Decompiler with support for PDB generation, ReadyToRun, Metadata (&more) - cross-platform!
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 

273 lines
10 KiB

// Copyright (c) 2026 Siegfried Pammer
//
// Permission is hereby granted, free of charge, to any person obtaining a copy of this
// software and associated documentation files (the "Software"), to deal in the Software
// without restriction, including without limitation the rights to use, copy, modify, merge,
// publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons
// to whom the Software is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all copies or
// substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
// INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
// PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE
// FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
// DEALINGS IN THE SOFTWARE.
using System;
using System.Collections.Generic;
using System.Linq;
using System.Reflection.Metadata;
using ICSharpCode.Decompiler.CSharp;
using ICSharpCode.Decompiler.CSharp.OutputVisitor;
using ICSharpCode.Decompiler.CSharp.Syntax;
using ICSharpCode.Decompiler.Disassembler;
using ICSharpCode.Decompiler.Metadata;
using ICSharpCode.Decompiler.TypeSystem;
using NUnit.Framework;
namespace ICSharpCode.Decompiler.Tests.Output
{
// Sample hierarchy decompiled by the tests below. The members exercise the
// "override links to the overridden member" feature for methods and properties,
// including a second override level to pin down "nearest base member" semantics.
internal abstract class OverrideLinkBase
{
public abstract void Method();
public virtual int Property { get; set; }
}
internal class OverrideLinkDerived : OverrideLinkBase
{
public override void Method() { }
public override int Property { get; set; }
}
internal class OverrideLinkSecondLevel : OverrideLinkDerived
{
public override void Method() { }
}
// Exercises local-reference output for local functions: the definition and every use site
// (specialized generic invocations and method-group references) must be written with equal
// reference objects, otherwise click-highlighting in the UI cannot match them (issue #2078).
internal class GenericLocalFunctionHost
{
public int Use()
{
Func<int, int> f = Identity<int>;
return Identity(42) + Identity("a").Length + f(0);
static T2 Identity<T2>(T2 value) => value;
}
// Inside a generic method, Roslyn prepends the enclosing method's type parameters to the
// compiler-generated method backing the local function, so every use site references a
// specialized method even when the local function's own type argument is a type parameter.
public T UseInGenericMethod<T>(T t)
{
return Echo(Echo(t));
static T2 Echo<T2>(T2 value) => value;
}
}
[TestFixture]
public class TextTokenWriterTests
{
sealed class ReferenceRecordingOutput : ITextOutput
{
public readonly List<(string Text, IMember Member)> MemberReferences = new();
public readonly List<(string Text, object Reference, bool IsDefinition)> LocalReferences = new();
public readonly List<bool> FoldStartDefaultCollapsed = new();
public int FoldEndCount;
public string IndentationString { get; set; } = "\t";
public void Indent() { }
public void Unindent() { }
public void Write(char ch) { }
public void Write(string text) { }
public void WriteLine() { }
public void WriteReference(OpCodeInfo opCode, bool omitSuffix = false) { }
public void WriteReference(MetadataFile metadata, Handle handle, string text, string protocol = "decompile", bool isDefinition = false) { }
public void WriteReference(IType type, string text, bool isDefinition = false) { }
public void WriteReference(IMember member, string text, bool isDefinition = false)
{
if (!isDefinition)
MemberReferences.Add((text, member));
}
public void WriteLocalReference(string text, object reference, bool isDefinition = false)
{
LocalReferences.Add((text, reference, isDefinition));
}
public void MarkFoldStart(string collapsedText = "...", bool defaultCollapsed = false, bool isDefinition = false)
{
FoldStartDefaultCollapsed.Add(defaultCollapsed);
}
public void MarkFoldEnd()
{
FoldEndCount++;
}
}
// The module must stay alive until the caller is done with the recorded reference
// objects: they are type-system entities that lazily read from the PE image, e.g.
// when NUnit formats an assertion message.
static PEFile OpenTestAssembly()
{
return new PEFile(typeof(TextTokenWriterTests).Assembly.Location);
}
static ReferenceRecordingOutput DecompileAndCollectReferences(PEFile module, Type type)
{
var resolver = new UniversalAssemblyResolver(module.FileName, false, module.Metadata.DetectTargetFrameworkId());
var settings = new DecompilerSettings();
var decompiler = new CSharpDecompiler(module, resolver, settings);
var syntaxTree = decompiler.DecompileType(new FullTypeName(type.FullName));
var output = new ReferenceRecordingOutput();
var tokenWriter = new TextTokenWriter(output, settings);
syntaxTree.AcceptVisitor(new CSharpOutputVisitor(tokenWriter, settings.CSharpFormattingOptions));
return output;
}
static string FormatMember(IMember member) => $"{member.DeclaringType?.Name}.{member.Name}";
[Test]
public void OverrideKeywordReferencesTheOverriddenBaseMember()
{
using var module = OpenTestAssembly();
var references = DecompileAndCollectReferences(module, typeof(OverrideLinkDerived)).MemberReferences;
var overrideTargets = references.Where(r => r.Text == "override").Select(r => FormatMember(r.Member));
Assert.That(overrideTargets, Is.EquivalentTo(new[] {
"OverrideLinkBase.Method",
"OverrideLinkBase.Property",
}));
}
[Test]
public void OverrideKeywordReferencesTheNearestOverriddenMember()
{
using var module = OpenTestAssembly();
var references = DecompileAndCollectReferences(module, typeof(OverrideLinkSecondLevel)).MemberReferences;
var overrideTargets = references.Where(r => r.Text == "override").Select(r => FormatMember(r.Member));
Assert.That(overrideTargets, Is.EquivalentTo(new[] {
"OverrideLinkDerived.Method",
}));
}
[Test]
public void VirtualAndAbstractModifiersAreNotReferences()
{
using var module = OpenTestAssembly();
var references = DecompileAndCollectReferences(module, typeof(OverrideLinkBase)).MemberReferences;
Assert.That(references.Where(r => r.Text is "virtual" or "abstract" or "override"), Is.Empty);
}
static ReferenceRecordingOutput WriteLeadingTrivia(DecompilerSettings settings, params Comment[] comments)
{
var output = new ReferenceRecordingOutput();
var writer = new TextTokenWriter(output, settings);
var node = new SyntaxTree();
foreach (var comment in comments)
node.AddLeadingTrivia(comment);
foreach (var comment in comments)
{
writer.StartNode(comment);
writer.WriteComment(comment.CommentType, comment.Content);
writer.EndNode(comment);
}
return output;
}
[TestCase(false, true)]
[TestCase(true, false)]
public void XmlDocumentationFoldDefaultFollowsSetting(bool expandXmlDocumentationComments, bool expectedDefaultCollapsed)
{
var settings = new DecompilerSettings {
ExpandXmlDocumentationComments = expandXmlDocumentationComments
};
var output = WriteLeadingTrivia(settings,
new Comment(" <summary>", CommentType.Documentation),
new Comment(" </summary>", CommentType.Documentation));
Assert.That(output.FoldStartDefaultCollapsed, Is.EqualTo(new[] { expectedDefaultCollapsed }));
Assert.That(output.FoldEndCount, Is.EqualTo(1));
}
[Test]
public void SingleDocumentationLineFollowedByRegularCommentOpensNoFold()
{
var output = WriteLeadingTrivia(new DecompilerSettings(),
new Comment(" <summary>single</summary>", CommentType.Documentation),
new Comment(" regular"));
Assert.That(output.FoldStartDefaultCollapsed, Is.Empty);
Assert.That(output.FoldEndCount, Is.Zero);
}
[Test]
public void DocumentationFoldClosesBeforeFollowingRegularComment()
{
var output = WriteLeadingTrivia(new DecompilerSettings(),
new Comment(" <summary>", CommentType.Documentation),
new Comment(" </summary>", CommentType.Documentation),
new Comment(" regular"));
Assert.That(output.FoldStartDefaultCollapsed, Has.Count.EqualTo(1));
Assert.That(output.FoldEndCount, Is.EqualTo(1));
}
[Test]
public void GenericLocalFunctionDefinitionAndUsesShareEqualReferenceObjects()
{
using var module = OpenTestAssembly();
var output = DecompileAndCollectReferences(module, typeof(GenericLocalFunctionHost));
Assert.Multiple(() => {
// Two invocations (with different inferred type arguments) and one method-group reference.
AssertLocalFunctionReferenceGroup(output, "Identity", expectedUses: 3);
// Two nested invocations whose type argument is the enclosing method's type parameter.
AssertLocalFunctionReferenceGroup(output, "Echo", expectedUses: 2);
});
}
// Runs inside Assert.Multiple: after a recorded assertion failure, bail out of the checks
// that would dereference the missing data instead of throwing.
static void AssertLocalFunctionReferenceGroup(ReferenceRecordingOutput output, string name, int expectedUses)
{
var references = output.LocalReferences.Where(r => r.Text == name).ToList();
var definitions = references.Where(r => r.IsDefinition).ToList();
Assert.That(definitions, Has.Count.EqualTo(1), $"{name}: definition count");
if (definitions.Count != 1)
return;
object definition = definitions[0].Reference;
Assert.That(definition, Is.InstanceOf<IMethod>(), $"{name}: definition reference type");
if (definition is not IMethod method)
return;
Assert.That(method.IsLocalFunction, Is.True, $"{name}: IsLocalFunction");
var uses = references.Where(r => !r.IsDefinition).ToList();
Assert.That(uses, Has.Count.EqualTo(expectedUses), $"{name}: use count");
foreach (var use in uses)
{
Assert.That(use.Reference, Is.EqualTo(definition), $"{name}: use equals definition");
Assert.That(definition, Is.EqualTo(use.Reference), $"{name}: definition equals use");
Assert.That(use.Reference.GetHashCode(), Is.EqualTo(definition.GetHashCode()), $"{name}: hash codes");
}
}
}
}