Ejemplo n.º 1
0
        public void Emit()
        {
            var descriptor = GetTypeIIDDescriptor(Type.Generator, originalType);
            var iidName    = "IID_" + Regex.Replace(originalType.FullName.Substring(Type.Namespace.Length + 1), @"[\.`<>,]", "_").TrimEnd('_');
            var guid       = Utility.GuidUtility.Create(Namespace, descriptor);
            var guidStr    = Regex.Replace(guid.ToString("X"), @"[\{\}]", "");

            var dependsOnAssemblies = new List <string>(ForeignAssemblyDependencies.GroupBy(t => t.Module.Assembly.Name.Name).Select(g => g.Key));
            var features            = new FeatureConditions(dependsOnAssemblies);


            Module.Append($@"
{ features.GetAttribute() }RT_PINTERFACE!{{ for { Name } => [{ guidStr }] as { iidName } }}");
        }
Ejemplo n.º 2
0
        public FeatureConditions GetFeatureCondition()
        {
            var dependsOnAssemblies = new List <string>(ForeignAssemblyDependencies.GroupBy(t => t.Module.Assembly.Name.Name).Select(g => g.Key));

            return(new FeatureConditions(dependsOnAssemblies));
        }
Ejemplo n.º 3
0
        public override void Emit()
        {
            var  classType   = DefinitionName;
            bool needClassID = false;

            if (Type.Interfaces.Count > 0)
            {
                var dependsOnAssemblies = new List <string>(ForeignAssemblyDependencies.GroupBy(t => t.Module.Assembly.Name.Name).Select(g => g.Key));
                var features            = new FeatureConditions(dependsOnAssemblies);

                Module.Append($@"
{ features.GetAttribute() }RT_CLASS!{{class { DefinitionName }: { aliasedType }}}");
                if (!features.IsEmpty)
                {
                    // if the aliased type is from a different assembly that is not included, just use IInspectable instead
                    // otherwise types depending on this class would transitively depend on the aliased type
                    Module.Append($@"
{ features.GetInvertedAttribute() }RT_CLASS!{{class { DefinitionName }: IInspectable}}");
                }

                foreach (var factory in factories.OrderBy(f => f))
                {
                    needClassID = true;
                    Module.Append($@"
impl RtActivatable<{ factory }> for { classType } {{}}");
                }
            }
            else
            {
                Assert(!factories.Any());
                Module.Append($@"
RT_CLASS!{{static class { DefinitionName }}}");
            }

            foreach (var staticType in statics.OrderBy(t => t.FullName))
            {
                var staticName = Generator.GetTypeDefinition(staticType).DefinitionName;
                needClassID = true;
                Module.Append($@"
impl RtActivatable<{ staticName }> for { classType } {{}}");
            }

            if (IsDefaultActivatable())
            {
                needClassID = true;
                Module.Append($@"
impl RtActivatable<IActivationFactory> for { classType } {{}}");
            }

            if (methodWrappers.Any())
            {
                Module.Append($@"
impl { DefinitionName } {{
    { String.Join("\r\n    ", methodWrappers.Select(m => m.Emit())) }
}}");
            }

            if (needClassID)
            {
                Module.Append($@"
DEFINE_CLSID!({ classType }(&[{ NameHelpers.StringToUTF16WithZero(Type.FullName) }]) [CLSID_{ classType }]);");
            }
        }