internal static void EmitReadList(ProtoBuf.Compiler.CompilerContext ctx, Compiler.Local list, IProtoSerializer tail, MethodInfo add, WireType packedWireType, bool castListForAdd) { using (Compiler.Local fieldNumber = new Compiler.Local(ctx, typeof(int))) { Compiler.CodeLabel readPacked = packedWireType == WireType.None ? new Compiler.CodeLabel() : ctx.DefineLabel(); if (packedWireType != WireType.None) { ctx.LoadReader(false); ctx.LoadValue(typeof(ProtoReader).GetProperty("WireType")); ctx.LoadValue((int)WireType.String); ctx.BranchIfEqual(readPacked, false); } ctx.LoadReader(false); ctx.LoadValue(typeof(ProtoReader).GetProperty("FieldNumber")); ctx.StoreValue(fieldNumber); Compiler.CodeLabel @continue = ctx.DefineLabel(); ctx.MarkLabel(@continue); EmitReadAndAddItem(ctx, list, tail, add, castListForAdd); ctx.LoadReader(true); ctx.LoadValue(fieldNumber); ctx.EmitCall(typeof(ProtoReader).GetMethod("TryReadFieldHeader", new[] { ProtoReader.State.ByRefStateType, typeof(int) })); ctx.BranchIfTrue(@continue, false); if (packedWireType != WireType.None) { Compiler.CodeLabel allDone = ctx.DefineLabel(); ctx.Branch(allDone, false); ctx.MarkLabel(readPacked); ctx.LoadReader(true); ctx.EmitCall(typeof(ProtoReader).GetMethod("StartSubItem", ProtoReader.State.ReaderStateTypeArray)); Compiler.CodeLabel testForData = ctx.DefineLabel(), noMoreData = ctx.DefineLabel(); ctx.MarkLabel(testForData); ctx.LoadValue((int)packedWireType); ctx.LoadReader(false); ctx.EmitCall(typeof(ProtoReader).GetMethod("HasSubValue")); ctx.BranchIfFalse(noMoreData, false); EmitReadAndAddItem(ctx, list, tail, add, castListForAdd); ctx.Branch(testForData, false); ctx.MarkLabel(noMoreData); ctx.LoadReader(true); ctx.EmitCall(typeof(ProtoReader).GetMethod("EndSubItem", new[] { typeof(SubItemToken), typeof(ProtoReader), ProtoReader.State.ByRefStateType })); ctx.MarkLabel(allDone); } } }
protected override void EmitRead(ProtoBuf.Compiler.CompilerContext ctx, ProtoBuf.Compiler.Local valueFrom) { /* This looks more complex than it is. Look at the non-compiled Read to * see what it is trying to do, but note that it needs to cope with a * few more scenarios. Note that it picks the **most specific** Add, * unlike the runtime version that uses IList when possible. The core * is just a "do {list.Add(readValue())} while {thereIsMore}" * * The complexity is due to: * - value types vs reference types (boxing etc) * - initialization if we need to pass in a value to the tail * - handling whether or not the tail *returns* the value vs updates the input */ using (Compiler.Local list = ctx.GetLocalWithValue(ExpectedType, valueFrom)) { if (concreteType != null) { ctx.LoadValue(list); Compiler.CodeLabel notNull = ctx.DefineLabel(); ctx.BranchIfTrue(notNull, true); ctx.EmitCtor(concreteType); ctx.StoreValue(list); ctx.MarkLabel(notNull); } EmitReadList(ctx, list, Tail, add, packedWireType); ctx.LoadValue(list); } }
protected override void EmitRead(ProtoBuf.Compiler.CompilerContext ctx, ProtoBuf.Compiler.Local valueFrom) { Type listType; #if NO_GENERICS listType = typeof(BasicList); #else listType = typeof(System.Collections.Generic.List <>).MakeGenericType(itemType); #endif using (Compiler.Local oldArr = ctx.GetLocalWithValue(ExpectedType, valueFrom)) using (Compiler.Local newArr = new Compiler.Local(ctx, ExpectedType)) using (Compiler.Local list = new Compiler.Local(ctx, listType)) { ctx.EmitCtor(listType); ctx.StoreValue(list); ListDecorator.EmitReadList(ctx, list, Tail, listType.GetMethod("Add"), packedWireType); // leave this "using" here, as it can share the "FieldNumber" local with EmitReadList using (Compiler.Local oldLen = new ProtoBuf.Compiler.Local(ctx, typeof(int))) { ctx.LoadLength(oldArr, true); ctx.CopyValue(); ctx.StoreValue(oldLen); ctx.LoadAddress(list, listType); ctx.LoadValue(listType.GetProperty("Count")); ctx.Add(); ctx.CreateArray(itemType, null); // length is on the stack ctx.StoreValue(newArr); ctx.LoadValue(oldLen); Compiler.CodeLabel nothingToCopy = ctx.DefineLabel(); ctx.BranchIfFalse(nothingToCopy, true); ctx.LoadValue(oldArr); ctx.LoadValue(newArr); ctx.LoadValue(oldLen); Type[] argTypes = new Type[] { typeof(Array), typeof(int) }; ctx.EmitCall(ExpectedType.GetMethod("CopyTo", argTypes)); ctx.MarkLabel(nothingToCopy); ctx.LoadValue(list); ctx.LoadValue(newArr); ctx.LoadValue(oldLen); argTypes[0] = ExpectedType; // // prefer: CopyTo(T[], int) MethodInfo copyTo = listType.GetMethod("CopyTo", argTypes); if (copyTo == null) { // fallback: CopyTo(Array, int) argTypes[1] = typeof(Array); copyTo = listType.GetMethod("CopyTo", argTypes); } ctx.EmitCall(copyTo); } ctx.LoadValue(newArr); } }
protected override void EmitWrite(ProtoBuf.Compiler.CompilerContext ctx, ProtoBuf.Compiler.Local valueFrom) { // int i and T[] arr using (Compiler.Local arr = ctx.GetLocalWithValue(arrayType, valueFrom)) using (Compiler.Local i = new ProtoBuf.Compiler.Local(ctx, typeof(int))) { if (packedFieldNumber > 0) { Compiler.CodeLabel allDone = ctx.DefineLabel(); ctx.LoadLength(arr, false); ctx.BranchIfFalse(allDone, false); ctx.LoadValue(packedFieldNumber); ctx.LoadValue((int)WireType.String); ctx.LoadReaderWriter(); ctx.EmitCall(typeof(ProtoWriter).GetMethod("WriteFieldHeader")); ctx.LoadValue(arr); ctx.LoadReaderWriter(); ctx.EmitCall(typeof(ProtoWriter).GetMethod("StartSubItem")); using (Compiler.Local token = new Compiler.Local(ctx, typeof(SubItemToken))) { ctx.StoreValue(token); ctx.LoadValue(packedFieldNumber); ctx.LoadReaderWriter(); ctx.EmitCall(typeof(ProtoWriter).GetMethod("SetPackedField")); EmitWriteArrayLoop(ctx, i, arr); ctx.LoadValue(token); ctx.LoadReaderWriter(); ctx.EmitCall(typeof(ProtoWriter).GetMethod("EndSubItem")); } ctx.MarkLabel(allDone); } else { EmitWriteArrayLoop(ctx, i, arr); } } }
protected override void EmitWrite(ProtoBuf.Compiler.CompilerContext ctx, ProtoBuf.Compiler.Local valueFrom) { using (Compiler.Local list = ctx.GetLocalWithValue(ExpectedType, valueFrom)) { MethodInfo moveNext, current, getEnumerator = GetEnumeratorInfo(ctx.Model, out moveNext, out current); Helpers.DebugAssert(moveNext != null); Helpers.DebugAssert(current != null); Helpers.DebugAssert(getEnumerator != null); Type enumeratorType = getEnumerator.ReturnType; bool writePacked = WritePacked; using (Compiler.Local iter = new Compiler.Local(ctx, enumeratorType)) using (Compiler.Local token = writePacked ? new Compiler.Local(ctx, ctx.MapType(typeof(SubItemToken))) : null) { if (writePacked) { ctx.LoadValue(fieldNumber); ctx.LoadValue((int)WireType.String); ctx.LoadReaderWriter(); ctx.EmitCall(ctx.MapType(typeof(ProtoWriter)).GetMethod("WriteFieldHeader")); ctx.LoadValue(list); ctx.LoadReaderWriter(); ctx.EmitCall(ctx.MapType(typeof(ProtoWriter)).GetMethod("StartSubItem")); ctx.StoreValue(token); ctx.LoadValue(fieldNumber); ctx.LoadReaderWriter(); ctx.EmitCall(ctx.MapType(typeof(ProtoWriter)).GetMethod("SetPackedField")); } ctx.LoadAddress(list, ExpectedType); ctx.EmitCall(getEnumerator); ctx.StoreValue(iter); using (ctx.Using(iter)) { Compiler.CodeLabel body = ctx.DefineLabel(), next = ctx.DefineLabel(); ctx.Branch(next, false); ctx.MarkLabel(body); ctx.LoadAddress(iter, enumeratorType); ctx.EmitCall(current); Type itemType = Tail.ExpectedType; if (itemType != ctx.MapType(typeof(object)) && current.ReturnType == ctx.MapType(typeof(object))) { ctx.CastFromObject(itemType); } Tail.EmitWrite(ctx, null); ctx.MarkLabel(@next); ctx.LoadAddress(iter, enumeratorType); ctx.EmitCall(moveNext); ctx.BranchIfTrue(body, false); } if (writePacked) { ctx.LoadValue(token); ctx.LoadReaderWriter(); ctx.EmitCall(ctx.MapType(typeof(ProtoWriter)).GetMethod("EndSubItem")); } } } }
protected override void EmitRead(ProtoBuf.Compiler.CompilerContext ctx, ProtoBuf.Compiler.Local valueFrom) { /* This looks more complex than it is. Look at the non-compiled Read to * see what it is trying to do, but note that it needs to cope with a * few more scenarios. Note that it picks the **most specific** Add, * unlike the runtime version that uses IList when possible. The core * is just a "do {list.Add(readValue())} while {thereIsMore}" * * The complexity is due to: * - value types vs reference types (boxing etc) * - initialization if we need to pass in a value to the tail * - handling whether or not the tail *returns* the value vs updates the input */ bool returnList = ReturnList; using (Compiler.Local list = AppendToCollection ? ctx.GetLocalWithValue(ExpectedType, valueFrom) : new Compiler.Local(ctx, declaredType)) using (Compiler.Local origlist = (returnList && AppendToCollection) ? new Compiler.Local(ctx, ExpectedType) : null) { if (!AppendToCollection) { // always new ctx.LoadNullRef(); ctx.StoreValue(list); } else if (returnList) { // need a copy ctx.LoadValue(list); ctx.StoreValue(origlist); } if (concreteType != null) { ctx.LoadValue(list); Compiler.CodeLabel notNull = ctx.DefineLabel(); ctx.BranchIfTrue(notNull, true); ctx.EmitCtor(concreteType); ctx.StoreValue(list); ctx.MarkLabel(notNull); } bool castListForAdd = !add.DeclaringType.IsAssignableFrom(declaredType); EmitReadList(ctx, list, Tail, add, packedWireType, castListForAdd); if (returnList) { if (AppendToCollection) { // remember ^^^^ we had a spare copy of the list on the stack; now we'll compare ctx.LoadValue(origlist); ctx.LoadValue(list); // [orig] [new-value] Compiler.CodeLabel sameList = ctx.DefineLabel(), allDone = ctx.DefineLabel(); ctx.BranchIfEqual(sameList, true); ctx.LoadValue(list); ctx.Branch(allDone, true); ctx.MarkLabel(sameList); ctx.LoadNullRef(); ctx.MarkLabel(allDone); } else { ctx.LoadValue(list); } } } }
protected override void EmitRead(ProtoBuf.Compiler.CompilerContext ctx, ProtoBuf.Compiler.Local valueFrom) { Type listType; listType = ctx.MapType(typeof(System.Collections.Generic.List <>)).MakeGenericType(itemType); Type expected = ExpectedType; using (Compiler.Local oldArr = AppendToCollection ? ctx.GetLocalWithValue(expected, valueFrom) : null) using (Compiler.Local newArr = new Compiler.Local(ctx, expected)) using (Compiler.Local list = new Compiler.Local(ctx, listType)) { ctx.EmitCtor(listType); ctx.StoreValue(list); ListDecorator.EmitReadList(ctx, list, Tail, listType.GetMethod("Add"), packedWireType, false); // leave this "using" here, as it can share the "FieldNumber" local with EmitReadList using (Compiler.Local oldLen = AppendToCollection ? new ProtoBuf.Compiler.Local(ctx, ctx.MapType(typeof(int))) : null) { Type[] copyToArrayInt32Args = new Type[] { ctx.MapType(typeof(Array)), ctx.MapType(typeof(int)) }; if (AppendToCollection) { ctx.LoadLength(oldArr, true); ctx.CopyValue(); ctx.StoreValue(oldLen); ctx.LoadAddress(list, listType); ctx.LoadValue(listType.GetProperty("Count")); ctx.Add(); ctx.CreateArray(itemType, null); // length is on the stack ctx.StoreValue(newArr); ctx.LoadValue(oldLen); Compiler.CodeLabel nothingToCopy = ctx.DefineLabel(); ctx.BranchIfFalse(nothingToCopy, true); ctx.LoadValue(oldArr); ctx.LoadValue(newArr); ctx.LoadValue(0); // index in target ctx.EmitCall(expected.GetMethod("CopyTo", copyToArrayInt32Args)); ctx.MarkLabel(nothingToCopy); ctx.LoadValue(list); ctx.LoadValue(newArr); ctx.LoadValue(oldLen); } else { ctx.LoadAddress(list, listType); ctx.LoadValue(listType.GetProperty("Count")); ctx.CreateArray(itemType, null); ctx.StoreValue(newArr); ctx.LoadAddress(list, listType); ctx.LoadValue(newArr); ctx.LoadValue(0); } copyToArrayInt32Args[0] = expected; // // prefer: CopyTo(T[], int) MethodInfo copyTo = listType.GetMethod("CopyTo", copyToArrayInt32Args); if (copyTo == null) { // fallback: CopyTo(Array, int) copyToArrayInt32Args[1] = ctx.MapType(typeof(Array)); copyTo = listType.GetMethod("CopyTo", copyToArrayInt32Args); } ctx.EmitCall(copyTo); } ctx.LoadValue(newArr); } }