Detect MethodImplOptions.Async (0x2000) in ILReader and unpack Task/Task<T>
return types so the IL Leave value and function.AsyncReturnType match the
source signature. Add CSharp15_0 (Preview also bumped to 1500) and a
RuntimeAsync setting (default on, gated to >=CSharp15_0), expose it in the
Languages dropdown, mask the synthetic MethodImplAsync bit out of the
decompiled [MethodImpl], and add a .runtimeasync test suffix.
* ExtensionDeclaration.SymbolKind (CA1065) — was throwing
NotImplementedException; return SymbolKind.TypeDefinition to match
TypeDeclaration / DelegateDeclaration, since `extension` declarations
are type-level.
* CustomAttribute.DecodeValue (CA2002) — replace `lock(this)` on the
sealed-but-internal class with a private syncRoot field.
* PlainTextOutput (CA1001) — implement IDisposable; track an
ownsWriter flag so we only dispose the underlying TextWriter when
the parameterless constructor created its own StringWriter.
* DotNetCorePathFinder (CA1060) — move the libc realpath / free
PInvokes into a private nested NativeMethods class.
* ILSpy.ReadyToRun (CA1016) — add [assembly: AssemblyVersion("1.0.0.0")]
in Properties/AssemblyInfo.cs to match the BamlDecompiler plugin.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Four cases where the analyzer rule conflicts with intentional design:
* EmptyList<T>.IDisposable.Dispose (CA1063) — explicit IDisposable on
IEnumerator<T>; making it public would conflict with the rest of the
IList<T> / IEnumerator<T> surface.
* MetadataFile.SectionHeaders (CA1065) — throw documents that this
MetadataFileKind has no PE sections; PE-like derived kinds override.
* LongSet.GetHashCode + LongSet itself (CA1065 + CA2231) — explicit
guards against using LongSet in hash containers / via equality
operators; SetEquals is the supported comparison and
IEquatable<LongSet>.Equals is itself [Obsolete].
* AnnotationList.Clone (CA2002) — AnnotationList is a private nested
type; the surrounding Annotatable class deliberately locks on the
AnnotationList instance to serialize annotation reads/writes, and
external code cannot obtain a reference to it.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
This improves how function pointers are decompiled.
* ExpressionBuilder::VisitLdFtn now properly constructs the calling conventions.
* FunctionPointerType::FromSignature now checks whether a modopt type affects the calling convention.
Various improvements regarding primary constructor decompilation, including:
- introduce `HasPrimaryConstructor` property in the AST, as there is a difference between no primary constructor and a parameterless primary constructor
- improved support for inherited records and forwarded ctor calls
- exclude non-public fields and properties in IsPrintedMember
- introduce an option to always make the decompiler emit primary constructors, when possible
This way we avoid having to extract later, as we will never inline if the `isinst` argument if this could result in it being unrepresentable in C#.
This commit also refactors inlining restrictions to avoid requiring special cases in ILInlining itself.
But when making this change, I discovered that this broke our pattern-matching tests, and that the weird IL with double `isinst` is indeed generated by the C# compiler for `if (genericParam is StringComparison.Ordinal)` style code. So instead we also allow `isinst` with a `box(expr-without-side-effects)` argument to be represented with the `expr is T ? (T)expr : null` emulation.