private void WriteFieldHandler( Compiler.CompilerContext ctx, Type expected, Compiler.Local loc, Compiler.CodeLabel handler, Compiler.CodeLabel @continue, IProtoSerializer serializer) { ctx.MarkLabel(handler); Type serType = serializer.ExpectedType; if (serType == forType) { EmitCreateIfNull(ctx, loc); serializer.EmitRead(ctx, loc); } else { //RuntimeTypeModel rtm = (RuntimeTypeModel)ctx.Model; if (((IProtoTypeSerializer)serializer).CanCreateInstance()) { Compiler.CodeLabel allDone = ctx.DefineLabel(); ctx.LoadValue(loc); ctx.BranchIfFalse(allDone, false); // null is always ok ctx.LoadValue(loc); ctx.TryCast(serType); ctx.BranchIfTrue(allDone, false); // not null, but of the correct type // otherwise, need to convert it ctx.LoadReaderWriter(); ctx.LoadValue(loc); ((IProtoTypeSerializer)serializer).EmitCreateInstance(ctx); ctx.EmitCall(ctx.MapType(typeof(ProtoReader)).GetMethod("Merge")); ctx.Cast(expected); ctx.StoreValue(loc); // Merge always returns a value // nothing needs doing ctx.MarkLabel(allDone); } ctx.LoadValue(loc); ctx.Cast(serType); serializer.EmitRead(ctx, null); } if (serializer.ReturnsValue) { // update the variable ctx.StoreValue(loc); } ctx.Branch(@continue, false); // "continue" }
} // updates field directly #if FEAT_COMPILER void IProtoSerializer.EmitWrite(Compiler.CompilerContext ctx, Compiler.Local valueFrom) { Type expected = ExpectedType; using (Compiler.Local loc = ctx.GetLocalWithValue(expected, valueFrom)) { // pre-callbacks EmitCallbackIfNeeded(ctx, loc, TypeModel.CallbackType.BeforeSerialize); Compiler.CodeLabel startFields = ctx.DefineLabel(); // inheritance if (CanHaveInheritance) { for (int i = 0; i < serializers.Length; i++) { IProtoSerializer ser = serializers[i]; Type serType = ser.ExpectedType; if (serType != forType) { Compiler.CodeLabel ifMatch = ctx.DefineLabel(), nextTest = ctx.DefineLabel(); ctx.LoadValue(loc); ctx.TryCast(serType); ctx.CopyValue(); ctx.BranchIfTrue(ifMatch, true); ctx.DiscardValue(); ctx.Branch(nextTest, true); ctx.MarkLabel(ifMatch); ser.EmitWrite(ctx, null); ctx.Branch(startFields, false); ctx.MarkLabel(nextTest); } } if (constructType != null && constructType != forType) { using (Compiler.Local actualType = new Compiler.Local(ctx, ctx.MapType(typeof(System.Type)))) { // would have jumped to "fields" if an expected sub-type, so two options: // a: *exactly* that type, b: an *unexpected* type ctx.LoadValue(loc); ctx.EmitCall(ctx.MapType(typeof(object)).GetMethod("GetType")); ctx.CopyValue(); ctx.StoreValue(actualType); ctx.LoadValue(forType); ctx.BranchIfEqual(startFields, true); ctx.LoadValue(actualType); ctx.LoadValue(constructType); ctx.BranchIfEqual(startFields, true); } } else { // would have jumped to "fields" if an expected sub-type, so two options: // a: *exactly* that type, b: an *unexpected* type ctx.LoadValue(loc); ctx.EmitCall(ctx.MapType(typeof(object)).GetMethod("GetType")); ctx.LoadValue(forType); ctx.BranchIfEqual(startFields, true); } // unexpected, then... note that this *might* be a proxy, which // is handled by ThrowUnexpectedSubtype ctx.LoadValue(forType); ctx.LoadValue(loc); ctx.EmitCall(ctx.MapType(typeof(object)).GetMethod("GetType")); ctx.EmitCall(ctx.MapType(typeof(TypeModel)).GetMethod("ThrowUnexpectedSubtype", BindingFlags.Public | BindingFlags.NonPublic | BindingFlags.Static)); } // fields ctx.MarkLabel(startFields); for (int i = 0; i < serializers.Length; i++) { IProtoSerializer ser = serializers[i]; if (ser.ExpectedType == forType) { ser.EmitWrite(ctx, loc); } } // extension data if (isExtensible) { ctx.LoadValue(loc); ctx.LoadReaderWriter(); ctx.EmitCall(ctx.MapType(typeof(ProtoWriter)).GetMethod("AppendExtensionData")); } // post-callbacks EmitCallbackIfNeeded(ctx, loc, TypeModel.CallbackType.AfterSerialize); } }
private void WriteFieldHandler( Compiler.CompilerContext ctx, Type expected, Compiler.Local loc, Compiler.CodeLabel handler, Compiler.CodeLabel @continue, IProtoSerializer serializer) { ctx.MarkLabel(handler); Type serType = serializer.ExpectedType; if (serType == ExpectedType) { EmitCreateIfNull(ctx, loc); serializer.EmitRead(ctx, loc); } else { //RuntimeTypeModel rtm = (RuntimeTypeModel)ctx.Model; if (((IProtoTypeSerializer)serializer).CanCreateInstance()) { Compiler.CodeLabel allDone = ctx.DefineLabel(); ctx.LoadValue(loc); ctx.BranchIfFalse(allDone, false); // null is always ok ctx.LoadValue(loc); ctx.TryCast(serType); ctx.BranchIfTrue(allDone, false); // not null, but of the correct type // otherwise, need to convert it ctx.LoadReader(false); ctx.LoadValue(loc); ((IProtoTypeSerializer)serializer).EmitCreateInstance(ctx); ctx.EmitCall(typeof(ProtoReader).GetMethod("Merge", new[] { typeof(ProtoReader), typeof(object), typeof(object) })); ctx.Cast(expected); ctx.StoreValue(loc); // Merge always returns a value // nothing needs doing ctx.MarkLabel(allDone); } if (Helpers.IsValueType(serType)) { Compiler.CodeLabel initValue = ctx.DefineLabel(); Compiler.CodeLabel hasValue = ctx.DefineLabel(); using (Compiler.Local emptyValue = new Compiler.Local(ctx, serType)) { ctx.LoadValue(loc); ctx.BranchIfFalse(initValue, false); ctx.LoadValue(loc); ctx.CastFromObject(serType); ctx.Branch(hasValue, false); ctx.MarkLabel(initValue); ctx.InitLocal(serType, emptyValue); ctx.LoadValue(emptyValue); ctx.MarkLabel(hasValue); } } else { ctx.LoadValue(loc); ctx.Cast(serType); } serializer.EmitRead(ctx, null); } if (serializer.ReturnsValue) { // update the variable if (Helpers.IsValueType(serType)) { // but box it first in case of value type ctx.CastToObject(serType); } ctx.StoreValue(loc); } ctx.Branch(@continue, false); // "continue" }
void IProtoTypeSerializer.EmitCallback(Compiler.CompilerContext ctx, Compiler.Local valueFrom, TypeModel.CallbackType callbackType) { bool actuallyHasInheritance = false; if (CanHaveInheritance) { for (int i = 0; i < serializers.Length; i++) { IProtoSerializer ser = serializers[i]; if (ser.ExpectedType != forType && ((IProtoTypeSerializer)ser).HasCallbacks(callbackType)) { actuallyHasInheritance = true; } } } Helpers.DebugAssert(((IProtoTypeSerializer)this).HasCallbacks(callbackType), "Shouldn't be calling this if there is nothing to do"); MethodInfo method = callbacks?[callbackType]; if (method == null && !actuallyHasInheritance) { return; } if (!method.IsStatic) { ctx.LoadAddress(valueFrom, ExpectedType); } EmitInvokeCallback(ctx, method, actuallyHasInheritance, null, forType); if (actuallyHasInheritance) { // Make sure that the object is on the top of the stack. // If the callback is non-static, it's already here from the EmitInvokeCallback call. if (method.IsStatic) { ctx.LoadAddress(valueFrom, ExpectedType); } Compiler.CodeLabel @break = ctx.DefineLabel(); for (int i = 0; i < serializers.Length; i++) { IProtoSerializer ser = serializers[i]; IProtoTypeSerializer typeser; Type serType = ser.ExpectedType; if (serType != forType && (typeser = (IProtoTypeSerializer)ser).HasCallbacks(callbackType)) { Compiler.CodeLabel ifMatch = ctx.DefineLabel(), nextTest = ctx.DefineLabel(); ctx.CopyValue(); ctx.TryCast(serType); ctx.CopyValue(); ctx.BranchIfTrue(ifMatch, true); ctx.DiscardValue(); ctx.Branch(nextTest, false); ctx.MarkLabel(ifMatch); typeser.EmitCallback(ctx, null, callbackType); ctx.Branch(@break, false); ctx.MarkLabel(nextTest); } } ctx.MarkLabel(@break); ctx.DiscardValue(); } }