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SourceNamespaceSymbol.AliasesAndUsings.cs
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SourceNamespaceSymbol.AliasesAndUsings.cs
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// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
using System;
using System.Collections.Generic;
using System.Collections.Immutable;
using System.Diagnostics;
using System.Linq;
using System.Threading;
using Microsoft.CodeAnalysis.Collections;
using Microsoft.CodeAnalysis.CSharp.Syntax;
using Microsoft.CodeAnalysis.PooledObjects;
using Microsoft.CodeAnalysis.Text;
using Roslyn.Utilities;
namespace Microsoft.CodeAnalysis.CSharp.Symbols
{
partial class SourceNamespaceSymbol
{
public Imports GetImports(CSharpSyntaxNode declarationSyntax, ConsList<TypeSymbol>? basesBeingResolved)
{
switch (declarationSyntax)
{
case CompilationUnitSyntax compilationUnit:
if (!compilationUnit.Externs.Any() && !compilationUnit.Usings.Any())
{
var result = GetGlobalUsingImports(basesBeingResolved);
#if DEBUG
var calculated = GetAliasesAndUsingsForAsserts(declarationSyntax).GetImports(this, declarationSyntax, basesBeingResolved);
if (result == Imports.Empty || calculated == Imports.Empty)
{
Debug.Assert((object)result == calculated);
}
else
{
Debug.Assert(result.ExternAliases.SequenceEqual(calculated.ExternAliases));
Debug.Assert(result.UsingAliases.SetEquals(calculated.UsingAliases));
Debug.Assert(result.Usings.SequenceEqual(calculated.Usings));
}
#endif
return result;
}
break;
case BaseNamespaceDeclarationSyntax namespaceDecl:
if (!namespaceDecl.Externs.Any() && !namespaceDecl.Usings.Any())
{
#if DEBUG
Debug.Assert(GetAliasesAndUsingsForAsserts(declarationSyntax).GetImports(this, declarationSyntax, basesBeingResolved) == Imports.Empty);
#endif
return Imports.Empty;
}
break;
default:
throw ExceptionUtilities.UnexpectedValue(declarationSyntax);
}
return GetAliasesAndUsings(declarationSyntax).GetImports(this, declarationSyntax, basesBeingResolved);
}
private AliasesAndUsings GetAliasesAndUsings(CSharpSyntaxNode declarationSyntax)
{
return GetAliasesAndUsings(GetMatchingNamespaceDeclaration(declarationSyntax));
}
private SingleNamespaceDeclaration GetMatchingNamespaceDeclaration(CSharpSyntaxNode declarationSyntax)
{
foreach (var declaration in _mergedDeclaration.Declarations)
{
var declarationSyntaxRef = declaration.SyntaxReference;
if (declarationSyntaxRef.SyntaxTree != declarationSyntax.SyntaxTree)
{
continue;
}
if (declarationSyntaxRef.GetSyntax() == declarationSyntax)
{
return declaration;
}
}
throw ExceptionUtilities.Unreachable();
}
private static AliasesAndUsings GetOrCreateAliasAndUsings(
ref ImmutableDictionary<SingleNamespaceDeclaration, AliasesAndUsings> dictionary,
SingleNamespaceDeclaration declaration)
{
return ImmutableInterlocked.GetOrAdd(
ref dictionary,
declaration,
static _ => new AliasesAndUsings());
}
private AliasesAndUsings GetAliasesAndUsings(SingleNamespaceDeclaration declaration)
=> GetOrCreateAliasAndUsings(ref _aliasesAndUsings_doNotAccessDirectly, declaration);
#if DEBUG
private AliasesAndUsings GetAliasesAndUsingsForAsserts(CSharpSyntaxNode declarationSyntax)
{
var singleDeclaration = GetMatchingNamespaceDeclaration(declarationSyntax);
return singleDeclaration.HasExternAliases || singleDeclaration.HasGlobalUsings || singleDeclaration.HasUsings
? GetAliasesAndUsings(singleDeclaration)
: GetOrCreateAliasAndUsings(ref _aliasesAndUsingsForAsserts_doNotAccessDirectly, singleDeclaration);
}
#endif
public ImmutableArray<AliasAndExternAliasDirective> GetExternAliases(CSharpSyntaxNode declarationSyntax)
{
switch (declarationSyntax)
{
case CompilationUnitSyntax compilationUnit:
if (!compilationUnit.Externs.Any())
{
#if DEBUG
Debug.Assert(GetAliasesAndUsingsForAsserts(declarationSyntax).GetExternAliases(this, declarationSyntax).IsEmpty);
#endif
return ImmutableArray<AliasAndExternAliasDirective>.Empty;
}
break;
case BaseNamespaceDeclarationSyntax namespaceDecl:
if (!namespaceDecl.Externs.Any())
{
#if DEBUG
Debug.Assert(GetAliasesAndUsingsForAsserts(declarationSyntax).GetExternAliases(this, declarationSyntax).IsEmpty);
#endif
return ImmutableArray<AliasAndExternAliasDirective>.Empty;
}
break;
default:
throw ExceptionUtilities.UnexpectedValue(declarationSyntax);
}
return GetAliasesAndUsings(declarationSyntax).GetExternAliases(this, declarationSyntax);
}
public ImmutableArray<AliasAndUsingDirective> GetUsingAliases(CSharpSyntaxNode declarationSyntax, ConsList<TypeSymbol>? basesBeingResolved)
{
switch (declarationSyntax)
{
case CompilationUnitSyntax compilationUnit:
if (!compilationUnit.Usings.Any())
{
#if DEBUG
Debug.Assert(GetAliasesAndUsingsForAsserts(declarationSyntax).GetUsingAliases(this, declarationSyntax, basesBeingResolved).IsEmpty);
#endif
return ImmutableArray<AliasAndUsingDirective>.Empty;
}
break;
case BaseNamespaceDeclarationSyntax namespaceDecl:
if (!namespaceDecl.Usings.Any())
{
#if DEBUG
Debug.Assert(GetAliasesAndUsingsForAsserts(declarationSyntax).GetUsingAliases(this, declarationSyntax, basesBeingResolved).IsEmpty);
#endif
return ImmutableArray<AliasAndUsingDirective>.Empty;
}
break;
default:
throw ExceptionUtilities.UnexpectedValue(declarationSyntax);
}
return GetAliasesAndUsings(declarationSyntax).GetUsingAliases(this, declarationSyntax, basesBeingResolved);
}
public ImmutableDictionary<string, AliasAndUsingDirective> GetUsingAliasesMap(CSharpSyntaxNode declarationSyntax, ConsList<TypeSymbol>? basesBeingResolved)
{
switch (declarationSyntax)
{
case CompilationUnitSyntax compilationUnit:
if (!compilationUnit.Usings.Any())
{
var result = GetGlobalUsingAliasesMap(basesBeingResolved);
#if DEBUG
Debug.Assert(result.SetEquals(GetAliasesAndUsingsForAsserts(declarationSyntax).GetUsingAliasesMap(this, declarationSyntax, basesBeingResolved)));
#endif
return result;
}
break;
case BaseNamespaceDeclarationSyntax namespaceDecl:
if (!namespaceDecl.Usings.Any())
{
#if DEBUG
Debug.Assert(GetAliasesAndUsingsForAsserts(declarationSyntax).GetUsingAliasesMap(this, declarationSyntax, basesBeingResolved).IsEmpty);
#endif
return ImmutableDictionary<string, AliasAndUsingDirective>.Empty;
}
break;
default:
throw ExceptionUtilities.UnexpectedValue(declarationSyntax);
}
return GetAliasesAndUsings(declarationSyntax).GetUsingAliasesMap(this, declarationSyntax, basesBeingResolved);
}
public ImmutableArray<NamespaceOrTypeAndUsingDirective> GetUsingNamespacesOrTypes(CSharpSyntaxNode declarationSyntax, ConsList<TypeSymbol>? basesBeingResolved)
{
switch (declarationSyntax)
{
case CompilationUnitSyntax compilationUnit:
if (!compilationUnit.Usings.Any())
{
var result = GetGlobalUsingNamespacesOrTypes(basesBeingResolved);
#if DEBUG
Debug.Assert(result.SequenceEqual(GetAliasesAndUsingsForAsserts(declarationSyntax).GetUsingNamespacesOrTypes(this, declarationSyntax, basesBeingResolved)));
#endif
return result;
}
break;
case BaseNamespaceDeclarationSyntax namespaceDecl:
if (!namespaceDecl.Usings.Any())
{
#if DEBUG
Debug.Assert(GetAliasesAndUsingsForAsserts(declarationSyntax).GetUsingNamespacesOrTypes(this, declarationSyntax, basesBeingResolved).IsEmpty);
#endif
return ImmutableArray<NamespaceOrTypeAndUsingDirective>.Empty;
}
break;
default:
throw ExceptionUtilities.UnexpectedValue(declarationSyntax);
}
return GetAliasesAndUsings(declarationSyntax).GetUsingNamespacesOrTypes(this, declarationSyntax, basesBeingResolved);
}
private Imports GetGlobalUsingImports(ConsList<TypeSymbol>? basesBeingResolved)
{
return GetMergedGlobalAliasesAndUsings(basesBeingResolved).Imports;
}
private ImmutableDictionary<string, AliasAndUsingDirective> GetGlobalUsingAliasesMap(ConsList<TypeSymbol>? basesBeingResolved)
{
return GetMergedGlobalAliasesAndUsings(basesBeingResolved).UsingAliasesMap!;
}
private ImmutableArray<NamespaceOrTypeAndUsingDirective> GetGlobalUsingNamespacesOrTypes(ConsList<TypeSymbol>? basesBeingResolved)
{
return GetMergedGlobalAliasesAndUsings(basesBeingResolved).UsingNamespacesOrTypes;
}
private MergedGlobalAliasesAndUsings GetMergedGlobalAliasesAndUsings(ConsList<TypeSymbol>? basesBeingResolved, CancellationToken cancellationToken = default)
{
if (_lazyMergedGlobalAliasesAndUsings is null)
{
if (!this.IsGlobalNamespace)
{
_lazyMergedGlobalAliasesAndUsings = MergedGlobalAliasesAndUsings.Empty;
}
else
{
ImmutableDictionary<string, AliasAndUsingDirective>? mergedAliases = null;
var mergedNamespacesOrTypes = ArrayBuilder<NamespaceOrTypeAndUsingDirective>.GetInstance();
var uniqueUsings = SpecializedSymbolCollections.GetPooledSymbolHashSetInstance<NamespaceOrTypeSymbol>();
var diagnostics = DiagnosticBag.GetInstance();
try
{
bool haveExternAliases = false;
foreach (var singleDeclaration in _mergedDeclaration.Declarations)
{
if (singleDeclaration.HasExternAliases)
{
haveExternAliases = true;
}
if (singleDeclaration.HasGlobalUsings)
{
var aliases = GetAliasesAndUsings(singleDeclaration).GetGlobalUsingAliasesMap(this, singleDeclaration.SyntaxReference, basesBeingResolved);
cancellationToken.ThrowIfCancellationRequested();
if (!aliases.IsEmpty)
{
if (mergedAliases is null)
{
mergedAliases = aliases;
}
else
{
var builder = mergedAliases.ToBuilder();
bool added = false;
foreach (var pair in aliases)
{
if (builder.ContainsKey(pair.Key))
{
// The using alias '{0}' appeared previously in this namespace
diagnostics.Add(ErrorCode.ERR_DuplicateAlias, pair.Value.Alias.GetFirstLocation(), pair.Key);
}
else
{
builder.Add(pair);
added = true;
}
}
if (added)
{
mergedAliases = builder.ToImmutable();
}
cancellationToken.ThrowIfCancellationRequested();
}
}
var namespacesOrTypes = GetAliasesAndUsings(singleDeclaration).GetGlobalUsingNamespacesOrTypes(this, singleDeclaration.SyntaxReference, basesBeingResolved);
if (!namespacesOrTypes.IsEmpty)
{
if (mergedNamespacesOrTypes.Count == 0)
{
mergedNamespacesOrTypes.AddRange(namespacesOrTypes);
uniqueUsings.AddAll(namespacesOrTypes.Select(n => n.NamespaceOrType));
}
else
{
foreach (var namespaceOrType in namespacesOrTypes)
{
if (!uniqueUsings.Add(namespaceOrType.NamespaceOrType))
{
diagnostics.Add(ErrorCode.HDN_DuplicateWithGlobalUsing, namespaceOrType.UsingDirective!.NamespaceOrType.Location, namespaceOrType.NamespaceOrType);
}
else
{
mergedNamespacesOrTypes.Add(namespaceOrType);
}
}
}
}
cancellationToken.ThrowIfCancellationRequested();
}
}
// Report a conflict between global using aliases and extern aliases from other compilation units
if (haveExternAliases && mergedAliases is object)
{
foreach (var singleDeclaration in _mergedDeclaration.Declarations)
{
if (singleDeclaration.HasExternAliases)
{
var externAliases = GetAliasesAndUsings(singleDeclaration).GetExternAliases(this, singleDeclaration.SyntaxReference);
var globalAliasesMap = ImmutableDictionary<string, AliasAndUsingDirective>.Empty;
if (singleDeclaration.HasGlobalUsings)
{
globalAliasesMap = GetAliasesAndUsings(singleDeclaration).GetGlobalUsingAliasesMap(this, singleDeclaration.SyntaxReference, basesBeingResolved);
}
foreach (var externAlias in externAliases)
{
if (!externAlias.SkipInLookup &&
!globalAliasesMap.ContainsKey(externAlias.Alias.Name) && // If we have a global alias with the same name declared in the same compilation unit, we already reported the conflict on the global alias.
mergedAliases.ContainsKey(externAlias.Alias.Name))
{
// The using alias '{0}' appeared previously in this namespace
diagnostics.Add(ErrorCode.ERR_DuplicateAlias, externAlias.Alias.GetFirstLocation(), externAlias.Alias.Name);
}
}
}
}
}
Interlocked.CompareExchange(ref _lazyMergedGlobalAliasesAndUsings,
new MergedGlobalAliasesAndUsings()
{
UsingAliasesMap = mergedAliases ?? ImmutableDictionary<string, AliasAndUsingDirective>.Empty,
UsingNamespacesOrTypes = mergedNamespacesOrTypes.ToImmutableAndFree(),
Diagnostics = diagnostics.ToReadOnlyAndFree()
},
null);
mergedNamespacesOrTypes = null;
diagnostics = null;
}
finally
{
uniqueUsings.Free();
mergedNamespacesOrTypes?.Free();
diagnostics?.Free();
}
}
}
return _lazyMergedGlobalAliasesAndUsings;
}
private sealed class AliasesAndUsings
{
private ExternAliasesAndDiagnostics? _lazyExternAliases;
private UsingsAndDiagnostics? _lazyGlobalUsings;
private UsingsAndDiagnostics? _lazyUsings;
private Imports? _lazyImports;
/// <summary>
/// Completion state that tracks whether validation was done/not done/currently in process.
/// </summary>
private SymbolCompletionState _state;
internal ImmutableArray<AliasAndExternAliasDirective> GetExternAliases(SourceNamespaceSymbol declaringSymbol, CSharpSyntaxNode declarationSyntax)
{
return GetExternAliasesAndDiagnostics(declaringSymbol, declarationSyntax).ExternAliases;
}
internal ImmutableArray<AliasAndExternAliasDirective> GetExternAliases(SourceNamespaceSymbol declaringSymbol, SyntaxReference declarationSyntax)
{
return (_lazyExternAliases ?? GetExternAliasesAndDiagnostics(declaringSymbol, (CSharpSyntaxNode)declarationSyntax.GetSyntax())).ExternAliases;
}
private ExternAliasesAndDiagnostics GetExternAliasesAndDiagnostics(SourceNamespaceSymbol declaringSymbol, CSharpSyntaxNode declarationSyntax)
{
if (_lazyExternAliases is null)
{
SyntaxList<ExternAliasDirectiveSyntax> externAliasDirectives;
switch (declarationSyntax)
{
case CompilationUnitSyntax compilationUnit:
externAliasDirectives = compilationUnit.Externs;
break;
case BaseNamespaceDeclarationSyntax namespaceDecl:
externAliasDirectives = namespaceDecl.Externs;
break;
default:
throw ExceptionUtilities.UnexpectedValue(declarationSyntax);
}
if (!externAliasDirectives.Any())
{
#if DEBUG
var diagnostics = DiagnosticBag.GetInstance();
var result = buildExternAliases(externAliasDirectives, declaringSymbol, diagnostics);
Debug.Assert(result.IsEmpty);
Debug.Assert(diagnostics.IsEmptyWithoutResolution);
diagnostics.Free();
#endif
_lazyExternAliases = ExternAliasesAndDiagnostics.Empty;
}
else
{
var diagnostics = DiagnosticBag.GetInstance();
Interlocked.CompareExchange(
ref _lazyExternAliases,
new ExternAliasesAndDiagnostics() { ExternAliases = buildExternAliases(externAliasDirectives, declaringSymbol, diagnostics), Diagnostics = diagnostics.ToReadOnlyAndFree() },
null);
}
}
return _lazyExternAliases;
static ImmutableArray<AliasAndExternAliasDirective> buildExternAliases(
SyntaxList<ExternAliasDirectiveSyntax> syntaxList,
SourceNamespaceSymbol declaringSymbol,
DiagnosticBag diagnostics)
{
CSharpCompilation compilation = declaringSymbol.DeclaringCompilation;
var builder = ArrayBuilder<AliasAndExternAliasDirective>.GetInstance();
foreach (ExternAliasDirectiveSyntax aliasSyntax in syntaxList)
{
compilation.RecordImport(aliasSyntax);
bool skipInLookup = false;
// Extern aliases not allowed in interactive submissions:
if (compilation.IsSubmission)
{
diagnostics.Add(ErrorCode.ERR_ExternAliasNotAllowed, aliasSyntax.Location);
skipInLookup = true;
}
else
{
// some n^2 action, but n should be very small.
foreach (var existingAlias in builder)
{
if (existingAlias.Alias.Name == aliasSyntax.Identifier.ValueText)
{
diagnostics.Add(ErrorCode.ERR_DuplicateAlias, existingAlias.Alias.GetFirstLocation(), existingAlias.Alias.Name);
break;
}
}
if (aliasSyntax.Identifier.ContextualKind() == SyntaxKind.GlobalKeyword)
{
diagnostics.Add(ErrorCode.ERR_GlobalExternAlias, aliasSyntax.Identifier.GetLocation());
}
}
builder.Add(new AliasAndExternAliasDirective(new AliasSymbolFromSyntax(declaringSymbol, aliasSyntax), aliasSyntax, skipInLookup));
}
return builder.ToImmutableAndFree();
}
}
internal ImmutableArray<AliasAndUsingDirective> GetUsingAliases(SourceNamespaceSymbol declaringSymbol, CSharpSyntaxNode declarationSyntax, ConsList<TypeSymbol>? basesBeingResolved)
{
return GetUsingsAndDiagnostics(declaringSymbol, declarationSyntax, basesBeingResolved).UsingAliases;
}
internal ImmutableArray<AliasAndUsingDirective> GetGlobalUsingAliases(SourceNamespaceSymbol declaringSymbol, CSharpSyntaxNode declarationSyntax, ConsList<TypeSymbol>? basesBeingResolved)
{
return GetGlobalUsingsAndDiagnostics(declaringSymbol, declarationSyntax, basesBeingResolved).UsingAliases;
}
internal ImmutableDictionary<string, AliasAndUsingDirective> GetUsingAliasesMap(SourceNamespaceSymbol declaringSymbol, CSharpSyntaxNode declarationSyntax, ConsList<TypeSymbol>? basesBeingResolved)
{
return GetUsingsAndDiagnostics(declaringSymbol, declarationSyntax, basesBeingResolved).UsingAliasesMap ?? ImmutableDictionary<string, AliasAndUsingDirective>.Empty;
}
internal ImmutableDictionary<string, AliasAndUsingDirective> GetGlobalUsingAliasesMap(SourceNamespaceSymbol declaringSymbol, SyntaxReference declarationSyntax, ConsList<TypeSymbol>? basesBeingResolved)
{
return (_lazyGlobalUsings ?? GetGlobalUsingsAndDiagnostics(declaringSymbol, (CSharpSyntaxNode)declarationSyntax.GetSyntax(), basesBeingResolved)).UsingAliasesMap ?? ImmutableDictionary<string, AliasAndUsingDirective>.Empty;
}
internal ImmutableArray<NamespaceOrTypeAndUsingDirective> GetUsingNamespacesOrTypes(SourceNamespaceSymbol declaringSymbol, CSharpSyntaxNode declarationSyntax, ConsList<TypeSymbol>? basesBeingResolved)
{
return GetUsingsAndDiagnostics(declaringSymbol, declarationSyntax, basesBeingResolved).UsingNamespacesOrTypes;
}
private UsingsAndDiagnostics GetUsingsAndDiagnostics(SourceNamespaceSymbol declaringSymbol, CSharpSyntaxNode declarationSyntax, ConsList<TypeSymbol>? basesBeingResolved)
{
return GetUsingsAndDiagnostics(ref _lazyUsings, declaringSymbol, declarationSyntax, basesBeingResolved, onlyGlobal: false);
}
internal ImmutableArray<NamespaceOrTypeAndUsingDirective> GetGlobalUsingNamespacesOrTypes(SourceNamespaceSymbol declaringSymbol, SyntaxReference declarationSyntax, ConsList<TypeSymbol>? basesBeingResolved)
{
return (_lazyGlobalUsings ?? GetGlobalUsingsAndDiagnostics(declaringSymbol, (CSharpSyntaxNode)declarationSyntax.GetSyntax(), basesBeingResolved)).UsingNamespacesOrTypes;
}
private UsingsAndDiagnostics GetGlobalUsingsAndDiagnostics(SourceNamespaceSymbol declaringSymbol, CSharpSyntaxNode declarationSyntax, ConsList<TypeSymbol>? basesBeingResolved)
{
return GetUsingsAndDiagnostics(ref _lazyGlobalUsings, declaringSymbol, declarationSyntax, basesBeingResolved, onlyGlobal: true);
}
private UsingsAndDiagnostics GetUsingsAndDiagnostics(ref UsingsAndDiagnostics? usings, SourceNamespaceSymbol declaringSymbol, CSharpSyntaxNode declarationSyntax, ConsList<TypeSymbol>? basesBeingResolved, bool onlyGlobal)
{
if (usings is null)
{
SyntaxList<UsingDirectiveSyntax> usingDirectives;
bool? applyIsGlobalFilter;
switch (declarationSyntax)
{
case CompilationUnitSyntax compilationUnit:
applyIsGlobalFilter = onlyGlobal;
usingDirectives = compilationUnit.Usings;
break;
case BaseNamespaceDeclarationSyntax namespaceDecl:
Debug.Assert(!onlyGlobal);
applyIsGlobalFilter = null; // Global Using directives are not allowed in namespaces, treat them as regular, an error is reported elsewhere.
usingDirectives = namespaceDecl.Usings;
break;
default:
throw ExceptionUtilities.UnexpectedValue(declarationSyntax);
}
UsingsAndDiagnostics result;
if (!usingDirectives.Any())
{
if (applyIsGlobalFilter != false)
{
#if DEBUG
var calculated = buildUsings(usingDirectives, declaringSymbol, declarationSyntax, applyIsGlobalFilter, basesBeingResolved);
Debug.Assert(calculated.UsingAliases.IsEmpty);
Debug.Assert(calculated.UsingAliasesMap?.IsEmpty ?? true);
Debug.Assert(calculated.UsingNamespacesOrTypes.IsEmpty);
Debug.Assert(calculated.Diagnostics?.IsEmptyWithoutResolution ?? true);
#endif
result = UsingsAndDiagnostics.Empty;
}
else
{
result = new UsingsAndDiagnostics()
{
UsingAliases = GetGlobalUsingAliases(declaringSymbol, declarationSyntax, basesBeingResolved),
UsingAliasesMap = declaringSymbol.GetGlobalUsingAliasesMap(basesBeingResolved),
UsingNamespacesOrTypes = declaringSymbol.GetGlobalUsingNamespacesOrTypes(basesBeingResolved),
Diagnostics = null
};
#if DEBUG
var calculated = buildUsings(usingDirectives, declaringSymbol, declarationSyntax, applyIsGlobalFilter, basesBeingResolved);
Debug.Assert(calculated.UsingAliases.SequenceEqual(result.UsingAliases));
Debug.Assert((calculated.UsingAliasesMap ?? ImmutableDictionary<string, AliasAndUsingDirective>.Empty).SetEquals(result.UsingAliasesMap ?? ImmutableDictionary<string, AliasAndUsingDirective>.Empty));
Debug.Assert(calculated.UsingNamespacesOrTypes.SequenceEqual(result.UsingNamespacesOrTypes));
Debug.Assert(calculated.Diagnostics?.IsEmptyWithoutResolution ?? true);
#endif
}
}
else
{
result = buildUsings(usingDirectives, declaringSymbol, declarationSyntax, applyIsGlobalFilter, basesBeingResolved);
}
Interlocked.CompareExchange(ref usings, result, null);
}
return usings;
UsingsAndDiagnostics buildUsings(
SyntaxList<UsingDirectiveSyntax> usingDirectives,
SourceNamespaceSymbol declaringSymbol,
CSharpSyntaxNode declarationSyntax,
bool? applyIsGlobalFilter,
ConsList<TypeSymbol>? basesBeingResolved)
{
// define all of the extern aliases first. They may be used by the target of a using
var externAliases = GetExternAliases(declaringSymbol, declarationSyntax);
var globalUsingAliasesMap = ImmutableDictionary<string, AliasAndUsingDirective>.Empty;
var globalUsingNamespacesOrTypes = ImmutableArray<NamespaceOrTypeAndUsingDirective>.Empty;
var globalUsingAliases = ImmutableArray<AliasAndUsingDirective>.Empty;
if (applyIsGlobalFilter == false)
{
// Define all of the global usings. They may cause conflicts, etc.
globalUsingAliasesMap = declaringSymbol.GetGlobalUsingAliasesMap(basesBeingResolved);
globalUsingNamespacesOrTypes = declaringSymbol.GetGlobalUsingNamespacesOrTypes(basesBeingResolved);
globalUsingAliases = GetGlobalUsingAliases(declaringSymbol, declarationSyntax, basesBeingResolved);
}
var diagnostics = new DiagnosticBag();
var compilation = declaringSymbol.DeclaringCompilation;
ArrayBuilder<NamespaceOrTypeAndUsingDirective>? usings = null;
ImmutableDictionary<string, AliasAndUsingDirective>.Builder? usingAliasesMap = null;
ArrayBuilder<AliasAndUsingDirective>? usingAliases = null;
// A binder that contains the extern aliases but not the usings. The resolution of the target of a using directive or alias
// should not make use of other peer usings.
Binder? declarationBinder = null;
PooledHashSet<NamespaceOrTypeSymbol>? uniqueUsings = null;
PooledHashSet<NamespaceOrTypeSymbol>? uniqueGlobalUsings = null;
foreach (var usingDirective in usingDirectives)
{
if (applyIsGlobalFilter.HasValue && usingDirective.GlobalKeyword.IsKind(SyntaxKind.GlobalKeyword) != applyIsGlobalFilter.GetValueOrDefault())
{
continue;
}
compilation.RecordImport(usingDirective);
if (usingDirective.Alias != null)
{
SyntaxToken identifier = usingDirective.Alias.Name.Identifier;
Location location = usingDirective.Alias.Name.Location;
if (identifier.ContextualKind() == SyntaxKind.GlobalKeyword)
{
diagnostics.Add(ErrorCode.WRN_GlobalAliasDefn, location);
}
if (usingDirective.StaticKeyword != default(SyntaxToken))
{
diagnostics.Add(ErrorCode.ERR_NoAliasHere, location);
}
SourceMemberContainerTypeSymbol.ReportReservedTypeName(identifier.Text, compilation, diagnostics, location);
string identifierValueText = identifier.ValueText;
bool skipInLookup = false;
if (usingAliasesMap?.ContainsKey(identifierValueText) ?? globalUsingAliasesMap.ContainsKey(identifierValueText))
{
skipInLookup = true;
// Suppress diagnostics if we're already broken.
if (!usingDirective.NamespaceOrType.IsMissing)
{
// The using alias '{0}' appeared previously in this namespace
diagnostics.Add(ErrorCode.ERR_DuplicateAlias, location, identifierValueText);
}
}
else
{
// an O(m*n) algorithm here but n (number of extern aliases) will likely be very small.
foreach (var externAlias in externAliases)
{
if (externAlias.Alias.Name == identifierValueText)
{
// The using alias '{0}' appeared previously in this namespace
diagnostics.Add(ErrorCode.ERR_DuplicateAlias, usingDirective.Location, identifierValueText);
break;
}
}
}
// construct the alias sym with the binder for which we are building imports. That
// way the alias target can make use of extern alias definitions.
var aliasAndDirective = new AliasAndUsingDirective(new AliasSymbolFromSyntax(declaringSymbol, usingDirective), usingDirective);
if (usingAliases is null)
{
usingAliases = ArrayBuilder<AliasAndUsingDirective>.GetInstance();
usingAliases.AddRange(globalUsingAliases);
}
usingAliases.Add(aliasAndDirective);
if (!skipInLookup)
{
if (usingAliasesMap == null)
{
usingAliasesMap = globalUsingAliasesMap.ToBuilder();
}
usingAliasesMap.Add(identifierValueText, aliasAndDirective);
}
}
else
{
if (usingDirective.NamespaceOrType.IsMissing)
{
//don't try to lookup namespaces inserted by parser error recovery
continue;
}
var flags = BinderFlags.SuppressConstraintChecks;
if (usingDirective.UnsafeKeyword != default)
{
var unsafeKeywordLocation = usingDirective.UnsafeKeyword.GetLocation();
if (usingDirective.StaticKeyword == default)
{
diagnostics.Add(ErrorCode.ERR_BadUnsafeInUsingDirective, unsafeKeywordLocation);
}
else
{
MessageID.IDS_FeatureUsingTypeAlias.CheckFeatureAvailability(diagnostics, usingDirective, unsafeKeywordLocation);
declaringSymbol.CheckUnsafeModifier(DeclarationModifiers.Unsafe, unsafeKeywordLocation, diagnostics);
}
flags |= BinderFlags.UnsafeRegion;
}
else
{
// Prior to C#12, allow the using static type to be an unsafe region. This allows us to
// maintain compat with prior versions of the compiler that allowed `using static
// List<int*[]>;` to be written. In 12.0 and onwards though, we require the code to
// explicitly contain the `unsafe` keyword.
if (!compilation.IsFeatureEnabled(MessageID.IDS_FeatureUsingTypeAlias))
flags |= BinderFlags.UnsafeRegion;
}
var directiveDiagnostics = BindingDiagnosticBag.GetInstance();
Debug.Assert(directiveDiagnostics.DiagnosticBag is object);
Debug.Assert(directiveDiagnostics.DependenciesBag is object);
declarationBinder ??= compilation.GetBinderFactory(declarationSyntax.SyntaxTree).GetBinder(usingDirective.NamespaceOrType).WithAdditionalFlags(flags);
var imported = declarationBinder.BindNamespaceOrTypeSymbol(usingDirective.NamespaceOrType, directiveDiagnostics, basesBeingResolved).NamespaceOrTypeSymbol;
bool addDirectiveDiagnostics = true;
if (imported.Kind == SymbolKind.Namespace)
{
Debug.Assert(directiveDiagnostics.DependenciesBag.IsEmpty());
if (usingDirective.StaticKeyword != default(SyntaxToken))
{
diagnostics.Add(ErrorCode.ERR_BadUsingType, usingDirective.NamespaceOrType.Location, imported);
}
else if (!getOrCreateUniqueUsings(ref uniqueUsings, globalUsingNamespacesOrTypes).Add(imported))
{
diagnostics.Add(!globalUsingNamespacesOrTypes.IsEmpty && getOrCreateUniqueGlobalUsingsNotInTree(ref uniqueGlobalUsings, globalUsingNamespacesOrTypes, declarationSyntax.SyntaxTree).Contains(imported) ?
ErrorCode.HDN_DuplicateWithGlobalUsing :
ErrorCode.WRN_DuplicateUsing,
usingDirective.NamespaceOrType.Location, imported);
}
else
{
getOrCreateUsingsBuilder(ref usings, globalUsingNamespacesOrTypes).Add(new NamespaceOrTypeAndUsingDirective(imported, usingDirective, dependencies: default));
}
}
else if (imported.Kind == SymbolKind.NamedType)
{
if (usingDirective.StaticKeyword == default(SyntaxToken))
{
diagnostics.Add(ErrorCode.ERR_BadUsingNamespace, usingDirective.NamespaceOrType.Location, imported);
}
else
{
var importedType = (NamedTypeSymbol)imported;
if (usingDirective.GlobalKeyword != default(SyntaxToken) && importedType.HasFileLocalTypes())
{
diagnostics.Add(ErrorCode.ERR_GlobalUsingStaticFileType, usingDirective.NamespaceOrType.Location, imported);
}
if (!getOrCreateUniqueUsings(ref uniqueUsings, globalUsingNamespacesOrTypes).Add(importedType))
{
diagnostics.Add(!globalUsingNamespacesOrTypes.IsEmpty && getOrCreateUniqueGlobalUsingsNotInTree(ref uniqueGlobalUsings, globalUsingNamespacesOrTypes, declarationSyntax.SyntaxTree).Contains(imported) ?
ErrorCode.HDN_DuplicateWithGlobalUsing :
ErrorCode.WRN_DuplicateUsing,
usingDirective.NamespaceOrType.Location, importedType);
}
else
{
declarationBinder.ReportDiagnosticsIfObsolete(diagnostics, importedType, usingDirective.NamespaceOrType, hasBaseReceiver: false);
getOrCreateUsingsBuilder(ref usings, globalUsingNamespacesOrTypes).Add(new NamespaceOrTypeAndUsingDirective(importedType, usingDirective, directiveDiagnostics.DependenciesBag.ToImmutableArray()));
}
}
}
else if (imported.Kind is SymbolKind.ArrayType or SymbolKind.PointerType or SymbolKind.FunctionPointerType or SymbolKind.DynamicType)
{
diagnostics.Add(ErrorCode.ERR_BadUsingStaticType, usingDirective.NamespaceOrType.Location, imported.GetKindText());
// Don't bother adding sub diagnostics (like that an unsafe type was referenced). The
// primary thing we want to report is simply that the using-static points to something
// entirely invalid.
addDirectiveDiagnostics = false;
}
else if (imported.Kind != SymbolKind.ErrorType)
{
// Do not report additional error if the symbol itself is erroneous.
// error: '<symbol>' is a '<symbol kind>' but is used as 'type or namespace'
diagnostics.Add(ErrorCode.ERR_BadSKknown, usingDirective.NamespaceOrType.Location,
usingDirective.NamespaceOrType,
imported.GetKindText(),
MessageID.IDS_SK_TYPE_OR_NAMESPACE.Localize());
}
if (addDirectiveDiagnostics)
{
diagnostics.AddRange(directiveDiagnostics.DiagnosticBag);
}
directiveDiagnostics.Free();
}
}
uniqueUsings?.Free();
uniqueGlobalUsings?.Free();
if (diagnostics.IsEmptyWithoutResolution)
{
diagnostics = null;
}
return new UsingsAndDiagnostics()
{
UsingAliases = usingAliases?.ToImmutableAndFree() ?? globalUsingAliases,
UsingAliasesMap = usingAliasesMap?.ToImmutable() ?? globalUsingAliasesMap,
UsingNamespacesOrTypes = usings?.ToImmutableAndFree() ?? globalUsingNamespacesOrTypes,
Diagnostics = diagnostics
};
static PooledHashSet<NamespaceOrTypeSymbol> getOrCreateUniqueUsings(ref PooledHashSet<NamespaceOrTypeSymbol>? uniqueUsings, ImmutableArray<NamespaceOrTypeAndUsingDirective> globalUsingNamespacesOrTypes)
{
if (uniqueUsings is null)
{
uniqueUsings = SpecializedSymbolCollections.GetPooledSymbolHashSetInstance<NamespaceOrTypeSymbol>();
uniqueUsings.AddAll(globalUsingNamespacesOrTypes.Select(n => n.NamespaceOrType));
}
return uniqueUsings;
}
static PooledHashSet<NamespaceOrTypeSymbol> getOrCreateUniqueGlobalUsingsNotInTree(ref PooledHashSet<NamespaceOrTypeSymbol>? uniqueUsings, ImmutableArray<NamespaceOrTypeAndUsingDirective> globalUsingNamespacesOrTypes, SyntaxTree tree)
{
if (uniqueUsings is null)
{
uniqueUsings = SpecializedSymbolCollections.GetPooledSymbolHashSetInstance<NamespaceOrTypeSymbol>();
uniqueUsings.AddAll(globalUsingNamespacesOrTypes.Where(n => n.UsingDirectiveReference?.SyntaxTree != tree).Select(n => n.NamespaceOrType));
}
return uniqueUsings;
}
static ArrayBuilder<NamespaceOrTypeAndUsingDirective> getOrCreateUsingsBuilder(ref ArrayBuilder<NamespaceOrTypeAndUsingDirective>? usings, ImmutableArray<NamespaceOrTypeAndUsingDirective> globalUsingNamespacesOrTypes)
{
if (usings is null)
{
usings = ArrayBuilder<NamespaceOrTypeAndUsingDirective>.GetInstance();
usings.AddRange(globalUsingNamespacesOrTypes);
}
return usings;
}
}
}
internal Imports GetImports(SourceNamespaceSymbol declaringSymbol, CSharpSyntaxNode declarationSyntax, ConsList<TypeSymbol>? basesBeingResolved)
{
if (_lazyImports is null)
{
Interlocked.CompareExchange(ref _lazyImports,
Imports.Create(GetUsingAliasesMap(declaringSymbol, declarationSyntax, basesBeingResolved),
GetUsingNamespacesOrTypes(declaringSymbol, declarationSyntax, basesBeingResolved),
GetExternAliases(declaringSymbol, declarationSyntax)),
null);
}
return _lazyImports;
}
internal void Complete(SourceNamespaceSymbol declaringSymbol, SyntaxReference declarationSyntax, CancellationToken cancellationToken)
{
var externAliasesAndDiagnostics = _lazyExternAliases ?? GetExternAliasesAndDiagnostics(declaringSymbol, (CSharpSyntaxNode)declarationSyntax.GetSyntax(cancellationToken));
cancellationToken.ThrowIfCancellationRequested();
var globalUsingsAndDiagnostics = _lazyGlobalUsings ??
(declaringSymbol.IsGlobalNamespace ?
GetGlobalUsingsAndDiagnostics(declaringSymbol, (CSharpSyntaxNode)declarationSyntax.GetSyntax(cancellationToken), basesBeingResolved: null) :
UsingsAndDiagnostics.Empty);
cancellationToken.ThrowIfCancellationRequested();
var usingsAndDiagnostics = _lazyUsings ?? GetUsingsAndDiagnostics(declaringSymbol, (CSharpSyntaxNode)declarationSyntax.GetSyntax(cancellationToken), basesBeingResolved: null);
cancellationToken.ThrowIfCancellationRequested();
while (true)
{
cancellationToken.ThrowIfCancellationRequested();
var incompletePart = _state.NextIncompletePart;
switch (incompletePart)
{
case CompletionPart.StartValidatingImports:
{
if (_state.NotePartComplete(CompletionPart.StartValidatingImports))
{
Validate(declaringSymbol, declarationSyntax, externAliasesAndDiagnostics, usingsAndDiagnostics, globalUsingsAndDiagnostics.Diagnostics);
_state.NotePartComplete(CompletionPart.FinishValidatingImports);
}
}
break;
case CompletionPart.FinishValidatingImports:
// some other thread has started validating imports (otherwise we would be in the case above) so
// we just wait for it to both finish and report the diagnostics.
Debug.Assert(_state.HasComplete(CompletionPart.StartValidatingImports));
_state.SpinWaitComplete(CompletionPart.FinishValidatingImports, cancellationToken);
break;
case CompletionPart.None:
return;
default:
// any other values are completion parts intended for other kinds of symbols
_state.NotePartComplete(CompletionPart.All & ~CompletionPart.ImportsAll);
break;
}
_state.SpinWaitComplete(incompletePart, cancellationToken);
}
}
private static void Validate(SourceNamespaceSymbol declaringSymbol, SyntaxReference declarationSyntax, ExternAliasesAndDiagnostics externAliasesAndDiagnostics, UsingsAndDiagnostics usingsAndDiagnostics, DiagnosticBag? globalUsingDiagnostics)
{
var compilation = declaringSymbol.DeclaringCompilation;
DiagnosticBag semanticDiagnostics = compilation.DeclarationDiagnostics;
// Check constraints within named aliases.
var diagnostics = BindingDiagnosticBag.GetInstance();
Debug.Assert(diagnostics.DiagnosticBag is object);
Debug.Assert(diagnostics.DependenciesBag is object);
if (usingsAndDiagnostics.UsingAliasesMap is object)
{
// Force resolution of named aliases.
foreach (var (_, alias) in usingsAndDiagnostics.UsingAliasesMap)
{
if (alias.UsingDirectiveReference!.SyntaxTree != declarationSyntax.SyntaxTree)
{
// Must be a global alias from a different compilation unit
Debug.Assert(declaringSymbol.IsGlobalNamespace);
continue;
}
NamespaceOrTypeSymbol target = alias.Alias.GetAliasTarget(basesBeingResolved: null);
diagnostics.Clear();
if (alias.Alias is AliasSymbolFromSyntax aliasFromSyntax)
{
diagnostics.AddRange(aliasFromSyntax.AliasTargetDiagnostics);
}
alias.Alias.CheckConstraints(diagnostics);
semanticDiagnostics.AddRange(diagnostics.DiagnosticBag);
recordImportDependencies(alias.UsingDirective!, target);
}
}
var corLibrary = compilation.SourceAssembly.CorLibrary;
var conversions = corLibrary.TypeConversions;