/// <param name="sourceType">Type that already has custom modifiers.</param>
/// <param name="destinationType">Same as <paramref name="sourceType"/>, but without custom modifiers. May differ in object/dynamic.</param>
/// <param name="containingAssembly">The assembly containing the signature referring to the destination type.</param>
/// <returns><paramref name="destinationType"/> with custom modifiers copied from <paramref name="sourceType"/>.</returns>
internal static TypeSymbol CopyTypeCustomModifiers(TypeSymbol sourceType, TypeSymbol destinationType, AssemblySymbol containingAssembly)
{
Debug.Assert(sourceType.Equals(destinationType, TypeCompareKind.AllIgnoreOptions));
// NOTE: overrides can differ by object/dynamic. If they do, we'll need to tweak newType before
// we can use it in place of this.Type. We do so by computing the dynamic transform flags that
// code gen uses and then passing them to the dynamic type decoder that metadata reading uses.
// NOTE: ref is irrelevant here since we are just encoding/decoding the type out of the signature context
ImmutableArray <bool> flags = CSharpCompilation.DynamicTransformsEncoder.EncodeWithoutCustomModifierFlags(destinationType, RefKind.None);
TypeSymbol typeWithDynamic = DynamicTypeDecoder.TransformTypeWithoutCustomModifierFlags(sourceType, containingAssembly, RefKind.None, flags);
TypeSymbol resultType;
if (destinationType.ContainsTuple() && !sourceType.Equals(destinationType, TypeCompareKind.IgnoreCustomModifiersAndArraySizesAndLowerBounds | TypeCompareKind.IgnoreDynamic))
{
// We also preserve tuple names, if present and different
ImmutableArray <string> names = CSharpCompilation.TupleNamesEncoder.Encode(destinationType);
resultType = TupleTypeDecoder.DecodeTupleTypesIfApplicable(typeWithDynamic, names);
}
else
{
resultType = typeWithDynamic;
}
Debug.Assert(resultType.Equals(sourceType, TypeCompareKind.IgnoreDynamicAndTupleNames)); // Same custom modifiers as source type.
Debug.Assert(resultType.Equals(destinationType, TypeCompareKind.IgnoreCustomModifiersAndArraySizesAndLowerBounds)); // Same object/dynamic and tuple names as destination type.
return(resultType);
}
internal static LocalSymbol Create(
TypeNameDecoder <PEModuleSymbol, TypeSymbol> typeNameDecoder,
MethodSymbol containingMethod,
AssemblySymbol sourceAssembly,
Alias alias)
{
var typeName = alias.Type;
Debug.Assert(typeName.Length > 0);
var type = typeNameDecoder.GetTypeSymbolForSerializedType(typeName);
Debug.Assert((object)type != null);
ReadOnlyCollection <byte> dynamicFlags;
ReadOnlyCollection <string> tupleElementNames;
CustomTypeInfo.Decode(alias.CustomTypeInfoId, alias.CustomTypeInfo, out dynamicFlags, out tupleElementNames);
if (dynamicFlags != null)
{
type = DecodeDynamicTypes(type, sourceAssembly, dynamicFlags);
}
if (tupleElementNames != null)
{
type = TupleTypeDecoder.DecodeTupleTypesIfApplicable(type, sourceAssembly, tupleElementNames.AsImmutable());
}
var name = alias.FullName;
var displayName = alias.Name;
switch (alias.Kind)
{
case DkmClrAliasKind.Exception:
return(new ExceptionLocalSymbol(containingMethod, name, displayName, type, ExpressionCompilerConstants.GetExceptionMethodName));
case DkmClrAliasKind.StowedException:
return(new ExceptionLocalSymbol(containingMethod, name, displayName, type, ExpressionCompilerConstants.GetStowedExceptionMethodName));
case DkmClrAliasKind.ReturnValue:
{
int index;
PseudoVariableUtilities.TryParseReturnValueIndex(name, out index);
Debug.Assert(index >= 0);
return(new ReturnValueLocalSymbol(containingMethod, name, displayName, type, index));
}
case DkmClrAliasKind.ObjectId:
return(new ObjectIdLocalSymbol(containingMethod, type, name, displayName, isWritable: false));
case DkmClrAliasKind.Variable:
return(new ObjectIdLocalSymbol(containingMethod, type, name, displayName, isWritable: true));
default:
throw ExceptionUtilities.UnexpectedValue(alias.Kind);
}
}
private TypeSymbol IncludeDynamicAndTupleElementNamesIfAny(
TypeSymbol type,
RefKind refKind,
ImmutableArray <bool> dynamicFlagsOpt,
ImmutableArray <string?> tupleElementNamesOpt)
{
if (!dynamicFlagsOpt.IsDefault)
{
type = DynamicTypeDecoder.TransformTypeWithoutCustomModifierFlags(type, _sourceAssembly, refKind, dynamicFlagsOpt, checkLength: false);
}
return(TupleTypeDecoder.DecodeTupleTypesIfApplicable(type, tupleElementNamesOpt));
}
/// <param name="sourceType">Type that already has custom modifiers.</param>
/// <param name="destinationType">Same as <paramref name="sourceType"/>, but without custom modifiers. May differ in object/dynamic.</param>
/// <param name="containingAssembly">The assembly containing the signature referring to the destination type.</param>
/// <param name="nonNullTypesContext">The NonNullTypes context at the destination.</param>
/// <returns><paramref name="destinationType"/> with custom modifiers copied from <paramref name="sourceType"/>.</returns>
internal static TypeSymbol CopyTypeCustomModifiers(TypeSymbol sourceType, TypeSymbol destinationType, AssemblySymbol containingAssembly, INonNullTypesContext nonNullTypesContext)
{
Debug.Assert(sourceType.Equals(destinationType, TypeCompareKind.AllIgnoreOptions));
Debug.Assert(nonNullTypesContext != null);
const RefKind refKind = RefKind.None;
// NOTE: overrides can differ by object/dynamic. If they do, we'll need to tweak newType before
// we can use it in place of this.Type. We do so by computing the dynamic transform flags that
// code gen uses and then passing them to the dynamic type decoder that metadata reading uses.
// NOTE: ref is irrelevant here since we are just encoding/decoding the type out of the signature context
ImmutableArray <bool> flags = CSharpCompilation.DynamicTransformsEncoder.EncodeWithoutCustomModifierFlags(destinationType, refKind);
TypeSymbol typeWithDynamic = DynamicTypeDecoder.TransformTypeWithoutCustomModifierFlags(sourceType, containingAssembly, refKind, flags);
TypeSymbol resultType;
if (destinationType.ContainsTuple() && !sourceType.Equals(destinationType, TypeCompareKind.IgnoreCustomModifiersAndArraySizesAndLowerBounds | TypeCompareKind.IgnoreDynamic))
{
// We also preserve tuple names, if present and different
ImmutableArray <string> names = CSharpCompilation.TupleNamesEncoder.Encode(destinationType);
resultType = TupleTypeDecoder.DecodeTupleTypesIfApplicable(typeWithDynamic, names);
}
else
{
resultType = typeWithDynamic;
}
// Preserve nullable modifiers as well.
// https://github.com/dotnet/roslyn/issues/30077: Is it reasonable to copy annotations from the source?
// If the destination had some of those annotations but not all, then clearly the destination
// was incorrect. Or if the destination is C#7, then the destination will advertise annotations
// that the author did not write and did not validate.
var flagsBuilder = ArrayBuilder <bool> .GetInstance();
destinationType.AddNullableTransforms(flagsBuilder);
int position = 0;
int length = flagsBuilder.Count;
bool transformResult = resultType.ApplyNullableTransforms(flagsBuilder.ToImmutableAndFree(), nonNullTypesContext, ref position, out resultType);
Debug.Assert(transformResult && position == length);
Debug.Assert(resultType.Equals(sourceType, TypeCompareKind.IgnoreDynamicAndTupleNames)); // Same custom modifiers as source type.
// Note: We would want to check nullability, but that would pull on NonNullTypes too early (ie. cause cycles).
Debug.Assert(resultType.Equals(destinationType,
TypeCompareKind.IgnoreCustomModifiersAndArraySizesAndLowerBounds)); // Same object/dynamic and tuple names as destination type.
return(resultType);
}
internal static TypeSymbol CopyTypeCustomModifiers(TypeSymbol sourceType, TypeSymbol destinationType, AssemblySymbol containingAssembly)
{
Debug.Assert(sourceType.Equals(destinationType, TypeCompareKind.AllIgnoreOptions));
const RefKind refKind = RefKind.None;
// NOTE: overrides can differ by object/dynamic, tuple element names, etc.
// If they do, we'll need to tweak destinationType before we can use it in place of sourceType.
// NOTE: refKind is irrelevant here since we are just encoding/decoding the type.
ImmutableArray <bool> flags = CSharpCompilation.DynamicTransformsEncoder.EncodeWithoutCustomModifierFlags(destinationType, refKind);
TypeSymbol resultType = DynamicTypeDecoder.TransformTypeWithoutCustomModifierFlags(sourceType, containingAssembly, refKind, flags);
if (!containingAssembly.RuntimeSupportsNumericIntPtr)
{
var builder = ArrayBuilder <bool> .GetInstance();
CSharpCompilation.NativeIntegerTransformsEncoder.Encode(builder, destinationType);
resultType = NativeIntegerTypeDecoder.TransformType(resultType, builder.ToImmutableAndFree());
}
if (destinationType.ContainsTuple() && !sourceType.Equals(destinationType, TypeCompareKind.IgnoreCustomModifiersAndArraySizesAndLowerBounds | TypeCompareKind.IgnoreNullableModifiersForReferenceTypes | TypeCompareKind.IgnoreDynamic))
{
// We also preserve tuple names, if present and different
ImmutableArray <string> names = CSharpCompilation.TupleNamesEncoder.Encode(destinationType);
resultType = TupleTypeDecoder.DecodeTupleTypesIfApplicable(resultType, names);
}
// Preserve nullable modifiers as well.
// https://github.com/dotnet/roslyn/issues/30077: Is it reasonable to copy annotations from the source?
// If the destination had some of those annotations but not all, then clearly the destination
// was incorrect. Or if the destination is C#7, then the destination will advertise annotations
// that the author did not write and did not validate.
var flagsBuilder = ArrayBuilder <byte> .GetInstance();
destinationType.AddNullableTransforms(flagsBuilder);
int position = 0;
int length = flagsBuilder.Count;
bool transformResult = resultType.ApplyNullableTransforms(defaultTransformFlag: 0, flagsBuilder.ToImmutableAndFree(), ref position, out resultType);
Debug.Assert(transformResult && position == length);
Debug.Assert(resultType.Equals(sourceType, TypeCompareKind.IgnoreDynamicAndTupleNames | TypeCompareKind.IgnoreNullableModifiersForReferenceTypes | TypeCompareKind.IgnoreNativeIntegers)); // Same custom modifiers as source type.
// Same object/dynamic, nullability, native integers, and tuple names as destination type.
Debug.Assert(resultType.Equals(destinationType, TypeCompareKind.IgnoreCustomModifiersAndArraySizesAndLowerBounds));
return(resultType);
}
private TypeSymbol IncludeTupleElementNames(TypeSymbol type, ImmutableArray <string> tupleElementNames)
{
return(TupleTypeDecoder.DecodeTupleTypesIfApplicable(type, _sourceAssembly, tupleElementNames));
}
