本文整理汇总了C#中SyntaxGenerator.ClassDeclaration方法的典型用法代码示例。如果您正苦于以下问题:C# SyntaxGenerator.ClassDeclaration方法的具体用法?C# SyntaxGenerator.ClassDeclaration怎么用?C# SyntaxGenerator.ClassDeclaration使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类SyntaxGenerator的用法示例。
在下文中一共展示了SyntaxGenerator.ClassDeclaration方法的3个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C#代码示例。
示例1: GenerateClientClass
public Task<ClassDeclarationSyntax> GenerateClientClass(SemanticModel semanticModel, SyntaxGenerator gen, INamedTypeSymbol proxyInterface, string name, Accessibility accessibility, bool includeCancellableAsyncMethods, bool suppressWarningComments, MemberAccessibility constructorAccessibility, bool withInternalProxy)
{
if (name == null)
{
if (proxyInterface.Name.StartsWith("I"))
name = proxyInterface.Name.Substring(1);
if (name.EndsWith("Proxy"))
name = name.Substring(0, name.Length - "Proxy".Length);
if (!name.EndsWith("Client"))
name = name + "Client";
}
SyntaxNode targetClass = gen.ClassDeclaration(name,
baseType: gen.TypeExpression(semanticModel.Compilation.RequireType<MarshalByRefObject>()),
accessibility: accessibility,
modifiers: DeclarationModifiers.Sealed);
targetClass = gen.AddWarningCommentIf(!suppressWarningComments, targetClass);
targetClass = gen.AddInterfaceType(targetClass, gen.TypeExpression(semanticModel.Compilation.GetSpecialType(SpecialType.System_IDisposable)));
targetClass = gen.AddInterfaceType(targetClass, gen.TypeExpression(proxyInterface));
IEnumerable<IMethodSymbol> methods = GetOperationContractMethods(semanticModel.Compilation, proxyInterface).ToArray();
GenerationNameTable nameTable = new GenerationNameTable(methods.Select(m => m.Name).Concat(new[] { name }));
#region Private Fields
// ==> private IProxy m_cachedProxy;
SyntaxNode cachedProxyField =
gen.FieldDeclaration(nameTable[MemberNames.CachedProxyField], gen.TypeExpression(proxyInterface), Accessibility.Private, DeclarationModifiers.None)
.PrependLeadingTrivia(gen.CreateRegionTrivia("Private Fields"));
targetClass = gen.AddMembers(targetClass, cachedProxyField);
// ==> private readonly Func<IProxy> m_proxyFactory;
SyntaxNode proxyFactoryTypeExpression = gen.TypeExpression(semanticModel.Compilation.RequireTypeByMetadataName("System.Func`1").Construct(proxyInterface));
targetClass = gen.AddMembers(targetClass, gen.FieldDeclaration(nameTable[MemberNames.ProxyFactoryField], proxyFactoryTypeExpression, Accessibility.Private, DeclarationModifiers.ReadOnly)
.AddTrailingTrivia(gen.CreateEndRegionTrivia()).AddNewLineTrivia());
#endregion
#region Constructors
// Constructor
SyntaxNode constructor = gen.ConstructorDeclaration(
parameters: new[] { gen.ParameterDeclaration("proxyFactory", proxyFactoryTypeExpression) },
accessibility: withInternalProxy ? Accessibility.Private : ToAccessibility(constructorAccessibility)
);
constructor = gen.AddWarningCommentIf(!suppressWarningComments, constructor);
constructor = constructor.PrependLeadingTrivia(gen.CreateRegionTrivia("Constructors"));
constructor = gen.WithStatements(constructor,
new[]
{
// ==> if (proxyFactory == null)
// ==> throw new System.ArgumentNullException("proxyFactory");
gen.ThrowIfNullStatement("proxyFactory"),
// ==> m_proxyFactory = proxyFactory
gen.AssignmentStatement(
gen.MemberAccessExpression(
gen.ThisExpression(),
gen.IdentifierName(nameTable[MemberNames.ProxyFactoryField])),
gen.IdentifierName("proxyFactory")
)
}
).AddNewLineTrivia();
if (!withInternalProxy)
constructor = constructor.AddTrailingTrivia(gen.CreateEndRegionTrivia()).AddNewLineTrivia();
targetClass = gen.AddMembers(targetClass, constructor);
ClassDeclarationSyntax proxyClass = null;
if (withInternalProxy)
{
IEnumerable<IMethodSymbol> ctors;
proxyClass = GenerateProxyClass(semanticModel, gen, proxyInterface, nameTable[MemberNames.ProxyClass], Accessibility.Private, suppressWarningComments, MemberAccessibility.Public, out ctors)
.PrependLeadingTrivia(gen.CreateRegionTrivia("Proxy Class").Insert(0, gen.NewLine()))
.AddTrailingTrivia(gen.CreateEndRegionTrivia());
// Generate one constructor for each of the proxy's constructors.
foreach (var ctorEntry in ctors.AsSmartEnumerable())
{
var ctor = ctorEntry.Value;
var targetCtor = gen.ConstructorDeclaration(ctor);
var lambda = gen.ValueReturningLambdaExpression(
gen.ObjectCreationExpression(gen.IdentifierName(gen.GetName(proxyClass)), ctor.Parameters.Select(p => gen.IdentifierName(p.Name)))
);
targetCtor = gen.WithThisConstructorInitializer(targetCtor, new[] { lambda });
//.........这里部分代码省略.........
示例2: GetClassDeclarationSyntax
private static SyntaxNode GetClassDeclarationSyntax(
SyntaxGenerator syntaxGenerator,
SemanticModel semanticModel,
string name,
INamedTypeSymbol interfaceSymbol)
{
var interfaceType = syntaxGenerator.TypeExpression(interfaceSymbol);
var mockBaseType = semanticModel
.Compilation
.GetTypeByMetadataName("PCLMock.MockBase`1");
if (mockBaseType == null)
{
throw new InvalidOperationException("Failed to find type in PCLMock assembly. Are you sure this project has a reference to PCLMock?");
}
var baseType = syntaxGenerator.TypeExpression(
mockBaseType
.Construct(interfaceSymbol));
var classDeclaration = syntaxGenerator.ClassDeclaration(
name,
accessibility: Accessibility.Public,
modifiers: DeclarationModifiers.Partial,
typeParameters: interfaceSymbol.TypeParameters.Select(x => x.Name),
baseType: baseType,
interfaceTypes: new[] { interfaceType });
// TODO: tidy this up once this issue is rectified: https://github.com/dotnet/roslyn/issues/1658
foreach (var typeParameter in interfaceSymbol.TypeParameters)
{
if (typeParameter.HasConstructorConstraint ||
typeParameter.HasReferenceTypeConstraint ||
typeParameter.HasValueTypeConstraint ||
typeParameter.ConstraintTypes.Length > 0)
{
var kinds = (typeParameter.HasConstructorConstraint ? SpecialTypeConstraintKind.Constructor : SpecialTypeConstraintKind.None) |
(typeParameter.HasReferenceTypeConstraint ? SpecialTypeConstraintKind.ReferenceType : SpecialTypeConstraintKind.None) |
(typeParameter.HasValueTypeConstraint ? SpecialTypeConstraintKind.ValueType : SpecialTypeConstraintKind.None);
classDeclaration = syntaxGenerator.WithTypeConstraint(
classDeclaration,
typeParameter.Name,
kinds: kinds,
types: typeParameter.ConstraintTypes.Select(t => syntaxGenerator.TypeExpression(t)));
}
}
return classDeclaration;
}示例3: GenerateProxyClass
public ClassDeclarationSyntax GenerateProxyClass(SemanticModel semanticModel, SyntaxGenerator generator, INamedTypeSymbol sourceProxyInterface, string name, Accessibility accessibility, bool suppressWarningComments, MemberAccessibility constructorAccessibility, out IEnumerable<IMethodSymbol> sourceConstructors)
{
if (name == null)
{
if (sourceProxyInterface.Name.StartsWith("I"))
name = sourceProxyInterface.Name.Substring(1) + "Proxy";
else
name = sourceProxyInterface.Name + "Proxy";
}
var compilation = semanticModel.Compilation;
// Resolve the callback contract if any
ITypeSymbol serviceContractAttributeType = compilation.RequireTypeByMetadataName("System.ServiceModel.ServiceContractAttribute");
AttributeData serviceContractAttribute = sourceProxyInterface.GetAttributes().FirstOrDefault(attr => attr.AttributeClass.Equals(serviceContractAttributeType));
if (serviceContractAttribute == null)
throw new CodeGeneratorException(sourceProxyInterface, $"The interface {sourceProxyInterface.Name} is not decorated with ServiceContractAttribute.");
ITypeSymbol callbackContractType;
var callbackContractArg = serviceContractAttribute.NamedArguments.FirstOrDefault(arg => arg.Key.Equals("CallbackContract"));
if (callbackContractArg.Key != null)
callbackContractType = callbackContractArg.Value.Value as ITypeSymbol;
else
callbackContractType = null;
// Resolve the base type (ClientBase or DuplexClientBase depending on whether a CallbackContract exists or not)
INamedTypeSymbol baseType;
if (callbackContractType != null)
{
baseType = compilation.RequireTypeByMetadataName("System.ServiceModel.DuplexClientBase`1").Construct(sourceProxyInterface);
}
else
{
baseType = compilation.RequireTypeByMetadataName("System.ServiceModel.ClientBase`1").Construct(sourceProxyInterface);
}
// Create class declaration
SyntaxNode targetClass = generator.ClassDeclaration(name, accessibility: accessibility, baseType: generator.TypeExpression(baseType), interfaceTypes: new[] { generator.TypeExpression(sourceProxyInterface) });
targetClass = generator.AddWarningCommentIf(!suppressWarningComments, targetClass);
// Copy constructors from base class.
sourceConstructors = baseType.Constructors.Where(ctor => ctor.DeclaredAccessibility != Accessibility.Private).ToImmutableArray();
foreach (var baseCtor in sourceConstructors)
{
var targetCtor = generator.ConstructorDeclaration(baseCtor, baseCtor.Parameters.Select(p => generator.Argument(generator.IdentifierName(p.Name))));
targetCtor = generator.AddWarningCommentIf(!suppressWarningComments, targetCtor);
targetCtor = generator.WithAccessibility(targetCtor, ToAccessibility(constructorAccessibility));
targetClass = generator.AddMembers(targetClass, targetCtor.AddNewLineTrivia());
}
foreach (IMethodSymbol sourceMethod in GetOperationContractMethods(semanticModel.Compilation, sourceProxyInterface))
{
SyntaxNode targetMethod = generator.MethodDeclaration(sourceMethod);
targetMethod = generator.AddWarningCommentIf(!suppressWarningComments, targetMethod);
targetMethod = generator.WithModifiers(targetMethod, DeclarationModifiers.None);
bool isVoid = sourceMethod.ReturnType.SpecialType == SpecialType.System_Void;
targetMethod = targetMethod.AddNewLineTrivia().AddNewLineTrivia();
var expression = generator.InvocationExpression(
generator.MemberAccessExpression(
generator.MemberAccessExpression(
generator.BaseExpression(),
"Channel"
),
sourceMethod.Name
),
sourceMethod.Parameters.Select(p => generator.IdentifierName(p.Name)).ToArray()
);
SyntaxNode statement;
if (!isVoid)
statement = generator.ReturnStatement(expression);
else
statement = generator.ExpressionStatement(expression);
targetMethod = generator.WithStatements(targetMethod,
new[]
{
statement
}
);
targetClass = generator.AddMembers(targetClass, targetMethod.AddNewLineTrivia());
}
return (ClassDeclarationSyntax)targetClass;
}