static void GenerateReader(ProtoMessage m, CodeWriter cw)
{
#region Helper Deserialize Methods
string refstr = (m.OptionType == "struct") ? "ref " : "";
if (m.OptionType != "interface")
{
cw.Summary("Helper: create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " Deserialize(Stream stream)");
cw.WriteLine(m.CsType + " instance = new " + m.CsType + "();");
cw.WriteLine("Deserialize(stream, " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
cw.Summary("Helper: create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " DeserializeLengthDelimited(Stream stream)");
cw.WriteLine(m.CsType + " instance = new " + m.CsType + "();");
cw.WriteLine("DeserializeLengthDelimited(stream, " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
cw.Summary("Helper: create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " DeserializeLength(Stream stream, int length)");
cw.WriteLine(m.CsType + " instance = new " + m.CsType + "();");
cw.WriteLine("DeserializeLength(stream, length, " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
cw.Summary("Helper: put the buffer into a MemoryStream and create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " Deserialize(byte[] buffer)");
cw.WriteLine(m.CsType + " instance = new " + m.CsType + "();");
cw.WriteLine("using (var ms = new MemoryStream(buffer))");
cw.WriteIndent("Deserialize(ms, " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
}
cw.Summary("Helper: put the buffer into a MemoryStream before deserializing");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " Deserialize(byte[] buffer, " + refstr + m.FullCsType + " instance)");
cw.WriteLine("using (var ms = new MemoryStream(buffer))");
cw.WriteIndent("Deserialize(ms, " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
#endregion
string[] methods = new string[]
{
"Deserialize", //Default old one
"DeserializeLengthDelimited", //Start by reading length prefix and stay within that limit
"DeserializeLength", //Read at most length bytes given by argument
};
//Main Deserialize
foreach (string method in methods)
{
if (method == "Deserialize")
{
cw.Summary("Takes the remaining content of the stream and deserialze it into the instance.");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " " + method + "(Stream stream, " + refstr + m.FullCsType + " instance)");
}
else if (method == "DeserializeLengthDelimited")
{
cw.Summary("Read the VarInt length prefix and the given number of bytes from the stream and deserialze it into the instance.");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " " + method + "(Stream stream, " + refstr + m.FullCsType + " instance)");
}
else if (method == "DeserializeLength")
{
cw.Summary("Read the given number of bytes from the stream and deserialze it into the instance.");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " " + method + "(Stream stream, int length, " + refstr + m.FullCsType + " instance)");
}
else
{
throw new NotImplementedException();
}
if (m.IsUsingBinaryWriter)
{
cw.WriteLine("BinaryReader br = new BinaryReader(stream);");
}
//Prepare List<> and default values
foreach (Field f in m.Fields.Values)
{
if (f.Rule == FieldRule.Repeated)
{
if (f.OptionReadOnly == false)
{
//Initialize lists of the custom DateTime or TimeSpan type.
string csType = f.ProtoType.FullCsType;
if (f.OptionCodeType != null)
{
csType = f.OptionCodeType;
}
cw.WriteLine("if (instance." + f.CsName + " == null)");
cw.WriteIndent("instance." + f.CsName + " = new List<" + csType + ">();");
}
}
else if (f.OptionDefault != null)
{
cw.WriteLine("instance." + f.CsName + " = " + f.FormatForTypeAssignment() + ";");
}
else if (f.Rule == FieldRule.Optional)
{
if (f.ProtoType is ProtoEnum)
{
ProtoEnum pe = f.ProtoType as ProtoEnum;
//the default value is the first value listed in the enum's type definition
foreach (var kvp in pe.Enums)
{
cw.WriteLine("instance." + f.CsName + " = " + pe.FullCsType + "." + kvp.Name + ";");
break;
}
}
}
}
if (method == "DeserializeLengthDelimited")
{
//Important to read stream position after we have read the length field
cw.WriteLine("long limit = global::SilentOrbit.ProtocolBuffers.ProtocolParser.ReadUInt32(stream);");
cw.WriteLine("limit += stream.Position;");
}
if (method == "DeserializeLength")
{
//Important to read stream position after we have read the length field
cw.WriteLine("long limit = stream.Position + length;");
}
cw.WhileBracket("true");
if (method == "DeserializeLengthDelimited" || method == "DeserializeLength")
{
cw.IfBracket("stream.Position >= limit");
cw.WriteLine("if (stream.Position == limit)");
cw.WriteIndent("break;");
cw.WriteLine("else");
cw.WriteIndent("throw new global::SilentOrbit.ProtocolBuffers.ProtocolBufferException(\"Read past max limit\");");
cw.EndBracket();
}
cw.WriteLine("int keyByte = stream.ReadByte();");
cw.WriteLine("if (keyByte == -1)");
if (method == "Deserialize")
{
cw.WriteIndent("break;");
}
else
{
cw.WriteIndent("throw new System.IO.EndOfStreamException();");
}
//Determine if we need the lowID optimization
bool hasLowID = false;
foreach (Field f in m.Fields.Values)
{
if (f.ID < 16)
{
hasLowID = true;
break;
}
}
if (hasLowID)
{
cw.Comment("Optimized reading of known fields with field ID < 16");
cw.Switch("keyByte");
foreach (Field f in m.Fields.Values)
{
if (f.ID >= 16)
{
continue;
}
cw.Dedent();
cw.Comment("Field " + f.ID + " " + f.WireType);
cw.Indent();
cw.Case(((f.ID << 3) | (int)f.WireType));
if (FieldSerializer.FieldReader(f, cw))
{
cw.WriteLine("continue;");
}
}
cw.SwitchEnd();
cw.WriteLine();
}
cw.WriteLine("var key = global::SilentOrbit.ProtocolBuffers.ProtocolParser.ReadKey((byte)keyByte, stream);");
cw.WriteLine();
cw.Comment("Reading field ID > 16 and unknown field ID/wire type combinations");
cw.Switch("key.Field");
cw.Case(0);
cw.WriteLine("throw new global::SilentOrbit.ProtocolBuffers.ProtocolBufferException(\"Invalid field id: 0, something went wrong in the stream\");");
foreach (Field f in m.Fields.Values)
{
if (f.ID < 16)
{
continue;
}
cw.Case(f.ID);
//Makes sure we got the right wire type
cw.WriteLine("if(key.WireType != global::SilentOrbit.ProtocolBuffers.Wire." + f.WireType + ")");
cw.WriteIndent("break;"); //This can be changed to throw an exception for unknown formats.
if (FieldSerializer.FieldReader(f, cw))
{
cw.WriteLine("continue;");
}
}
cw.CaseDefault();
if (m.OptionPreserveUnknown)
{
cw.WriteLine("if (instance.PreservedFields == null)");
cw.WriteIndent("instance.PreservedFields = new List<global::SilentOrbit.ProtocolBuffers.KeyValue>();");
cw.WriteLine("instance.PreservedFields.Add(new global::SilentOrbit.ProtocolBuffers.KeyValue(key, global::SilentOrbit.ProtocolBuffers.ProtocolParser.ReadValueBytes(stream, key)));");
}
else
{
cw.WriteLine("global::SilentOrbit.ProtocolBuffers.ProtocolParser.SkipKey(stream, key);");
}
cw.WriteLine("break;");
cw.SwitchEnd();
cw.EndBracket();
cw.WriteLine();
if (m.OptionTriggers)
{
cw.WriteLine("instance.AfterDeserialize();");
}
cw.WriteLine("return instance;");
cw.EndBracket();
cw.WriteLine();
}
return;
}
static void GenerateReader(ProtoMessage m, CodeWriter cw)
{
#region Helper Deserialize Methods
string refstr = (m.OptionType == "struct") ? "ref " : "";
if (m.OptionType != "interface")
{
cw.Summary("Helper: create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " Deserialize(Stream stream)");
cw.WriteLine(m.CsType + " instance = new " + m.CsType + "();");
cw.WriteLine("Deserialize(stream, " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
cw.Summary("Helper: create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " DeserializeLengthDelimited(Stream stream)");
cw.WriteLine(m.CsType + " instance = new " + m.CsType + "();");
cw.WriteLine("DeserializeLengthDelimited(stream, " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
cw.Summary("Helper: create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " DeserializeLength(Stream stream, int length)");
cw.WriteLine(m.CsType + " instance = new " + m.CsType + "();");
cw.WriteLine("DeserializeLength(stream, length, " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
cw.Summary("Helper: put the buffer into a MemoryStream and create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " Deserialize(byte[] buffer)");
cw.WriteLine(m.CsType + " instance = new " + m.CsType + "();");
cw.WriteLine("using (var ms = new MemoryStream(buffer))");
cw.WriteIndent("Deserialize(ms, " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
}
cw.Summary("Helper: put the buffer into a MemoryStream before deserializing");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " Deserialize(byte[] buffer, " + refstr + m.FullCsType + " instance)");
cw.WriteLine("using (var ms = new MemoryStream(buffer))");
cw.WriteIndent("Deserialize(ms, " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
#endregion
string[] methods = new string[]
{
"Deserialize", //Default old one
"DeserializeLengthDelimited", //Start by reading length prefix and stay within that limit
"DeserializeLength", //Read at most length bytes given by argument
};
//Main Deserialize
foreach (string method in methods)
{
if (method == "Deserialize")
{
cw.Summary("Takes the remaining content of the stream and deserialze it into the instance.");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " " + method + "(Stream stream, " + refstr + m.FullCsType + " instance)");
}
else if (method == "DeserializeLengthDelimited")
{
cw.Summary("Read the VarInt length prefix and the given number of bytes from the stream and deserialze it into the instance.");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " " + method + "(Stream stream, " + refstr + m.FullCsType + " instance)");
}
else if (method == "DeserializeLength")
{
cw.Summary("Read the given number of bytes from the stream and deserialze it into the instance.");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " " + method + "(Stream stream, int length, " + refstr + m.FullCsType + " instance)");
}
else
throw new NotImplementedException();
if (m.IsUsingBinaryWriter)
cw.WriteLine("BinaryReader br = new BinaryReader(stream);");
//Prepare List<> and default values
foreach (Field f in m.Fields.Values)
{
if (f.Rule == FieldRule.Repeated)
{
cw.WriteLine("if (instance." + f.CsName + " == null)");
cw.WriteIndent("instance." + f.CsName + " = new List<" + f.ProtoType.FullCsType + ">();");
}
else if (f.OptionDefault != null)
{
if (f.ProtoType is ProtoEnum)
cw.WriteLine("instance." + f.CsName + " = " + f.ProtoType.FullCsType + "." + f.OptionDefault + ";");
else
cw.WriteLine("instance." + f.CsName + " = " + f.OptionDefault + ";");
}
else if (f.Rule == FieldRule.Optional)
{
if (f.ProtoType is ProtoEnum)
{
ProtoEnum pe = f.ProtoType as ProtoEnum;
//the default value is the first value listed in the enum's type definition
foreach (var kvp in pe.Enums)
{
cw.WriteLine("instance." + f.CsName + " = " + pe.FullCsType + "." + kvp.Name + ";");
break;
}
}
}
}
if (method == "DeserializeLengthDelimited")
{
//Important to read stream position after we have read the length field
cw.WriteLine("long limit = global::SilentOrbit.ProtocolBuffers.ProtocolParser.ReadUInt32(stream);");
cw.WriteLine("limit += stream.Position;");
}
if (method == "DeserializeLength")
{
//Important to read stream position after we have read the length field
cw.WriteLine("long limit = stream.Position + length;");
}
cw.WhileBracket("true");
if (method == "DeserializeLengthDelimited" || method == "DeserializeLength")
{
cw.IfBracket("stream.Position >= limit");
cw.WriteLine("if (stream.Position == limit)");
cw.WriteIndent("break;");
cw.WriteLine("else");
cw.WriteIndent("throw new InvalidOperationException(\"Read past max limit\");");
cw.EndBracket();
}
cw.WriteLine("int keyByte = stream.ReadByte();");
cw.WriteLine("if (keyByte == -1)");
if (method == "Deserialize")
cw.WriteIndent("break;");
else
cw.WriteIndent("throw new System.IO.EndOfStreamException();");
//Determine if we need the lowID optimization
bool hasLowID = false;
foreach (Field f in m.Fields.Values)
{
if (f.ID < 16)
{
hasLowID = true;
break;
}
}
if (hasLowID)
{
cw.Comment("Optimized reading of known fields with field ID < 16");
cw.Switch("keyByte");
foreach (Field f in m.Fields.Values)
{
if (f.ID >= 16)
continue;
cw.Dedent();
cw.Comment("Field " + f.ID + " " + f.WireType);
cw.Indent();
cw.Case(((f.ID << 3) | (int)f.WireType));
if (FieldSerializer.FieldReader(f, cw))
cw.WriteLine("continue;");
}
cw.SwitchEnd();
cw.WriteLine();
}
cw.WriteLine("var key = global::SilentOrbit.ProtocolBuffers.ProtocolParser.ReadKey((byte)keyByte, stream);");
cw.WriteLine();
cw.Comment("Reading field ID > 16 and unknown field ID/wire type combinations");
cw.Switch("key.Field");
cw.Case(0);
cw.WriteLine("throw new InvalidDataException(\"Invalid field id: 0, something went wrong in the stream\");");
foreach (Field f in m.Fields.Values)
{
if (f.ID < 16)
continue;
cw.Case(f.ID);
//Makes sure we got the right wire type
cw.WriteLine("if(key.WireType != global::SilentOrbit.ProtocolBuffers.Wire." + f.WireType + ")");
cw.WriteIndent("break;"); //This can be changed to throw an exception for unknown formats.
if (FieldSerializer.FieldReader(f, cw))
cw.WriteLine("continue;");
}
cw.CaseDefault();
if (m.OptionPreserveUnknown)
{
cw.WriteLine("if (instance.PreservedFields == null)");
cw.WriteIndent("instance.PreservedFields = new List<global::SilentOrbit.ProtocolBuffers.KeyValue>();");
cw.WriteLine("instance.PreservedFields.Add(new global::SilentOrbit.ProtocolBuffers.KeyValue(key, global::SilentOrbit.ProtocolBuffers.ProtocolParser.ReadValueBytes(stream, key)));");
}
else
{
cw.WriteLine("global::SilentOrbit.ProtocolBuffers.ProtocolParser.SkipKey(stream, key);");
}
cw.WriteLine("break;");
cw.SwitchEnd();
cw.EndBracket();
cw.WriteLine();
if (m.OptionTriggers)
cw.WriteLine("instance.AfterDeserialize();");
cw.WriteLine("return instance;");
cw.EndBracket();
cw.WriteLine();
}
return;
}
static void GenerateReader(ProtoMessage m, CodeWriter cw, Options options)
{
cw.WriteLine("#region [Methods] Reader");
#region [Method] ReadFromStream
if (m.OptionExternal == false)
{
cw.Bracket("public void ReadFromStream(Stream stream, int size)");
{
cw.WriteLine("DeserializeLength(stream, size, this);");
}
cw.EndBracketSpace();
}
#endregion
#region Helper Deserialize Methods
string refstr = (m.OptionType == "struct") ? "ref " : "";
if (m.OptionType != "interface")
{
var newInstance = m.OptionType == "struct" ? $"new {m.CsType}();" : $"Pool.Get<{m.CsType}>();";
cw.Summary("Helper: create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " Deserialize(Stream stream)");
{
cw.WriteLine(m.CsType + " instance = " + newInstance);
cw.WriteLine("Deserialize(stream, " + refstr + "instance);");
cw.WriteLine("return instance;");
}
cw.EndBracketSpace();
cw.Summary("Helper: create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " DeserializeLengthDelimited(Stream stream)");
{
cw.WriteLine(m.CsType + " instance = " + newInstance);
cw.WriteLine("DeserializeLengthDelimited(stream, " + refstr + "instance);");
cw.WriteLine("return instance;");
}
cw.EndBracketSpace();
cw.Summary("Helper: create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " DeserializeLength(Stream stream, int length)");
{
cw.WriteLine(m.CsType + " instance = " + newInstance);
cw.WriteLine("DeserializeLength(stream, length, " + refstr + "instance);");
cw.WriteLine("return instance;");
}
cw.EndBracketSpace();
cw.Summary("Helper: put the buffer into a MemoryStream and create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " Deserialize(byte[] buffer)");
{
cw.WriteLine(m.CsType + " instance = " + newInstance);
cw.WriteLine("var ms = Pool.Get<MemoryStream>();");
cw.WriteLine("ms.Write(buffer, 0 ,buffer.Length);");
cw.WriteLine("ms.Position = 0;");
cw.WriteLine("Deserialize(ms, " + refstr + "instance);");
cw.WriteLine("Pool.FreeMemoryStream(ref ms);");
cw.WriteLine("return instance;");
}
cw.EndBracketSpace();
}
cw.Summary("Helper: put the buffer into a MemoryStream before deserializing");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " Deserialize(byte[] buffer, " + refstr + m.FullCsType + " instance)");
cw.WriteLine("var ms = Pool.Get<MemoryStream>();");
cw.WriteLine("ms.Write(buffer, 0 ,buffer.Length);");
cw.WriteLine("ms.Position = 0;");
cw.WriteLine("Deserialize(ms, " + refstr + "instance);");
cw.WriteLine("Pool.FreeMemoryStream(ref ms);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
#endregion
string[] methods = new string[]
{
"Deserialize", //Default old one
"DeserializeLengthDelimited", //Start by reading length prefix and stay within that limit
"DeserializeLength", //Read at most length bytes given by argument
};
//Main Deserialize
foreach (string method in methods)
{
if (method == "Deserialize")
{
cw.Summary("Takes the remaining content of the stream and deserialze it into the instance.");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " " + method + "(Stream stream, " + refstr + m.FullCsType + " instance)");
}
else if (method == "DeserializeLengthDelimited")
{
cw.Summary("Read the VarInt length prefix and the given number of bytes from the stream and deserialze it into the instance.");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " " + method + "(Stream stream, " + refstr + m.FullCsType + " instance)");
}
else if (method == "DeserializeLength")
{
cw.Summary("Read the given number of bytes from the stream and deserialze it into the instance.");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " " + method + "(Stream stream, int length, " + refstr + m.FullCsType + " instance)");
}
else
{
throw new NotImplementedException();
}
GenerateDefaults(m, cw, options);
if (method == "DeserializeLengthDelimited")
{
//Important to read stream position after we have read the length field
cw.WriteLine("long limit = global::SilentOrbit.ProtocolBuffers.ProtocolParser.ReadUInt32(stream);");
cw.WriteLine("limit += stream.Position;");
}
if (method == "DeserializeLength")
{
//Important to read stream position after we have read the length field
cw.WriteLine("long limit = stream.Position + length;");
}
cw.WhileBracket("true");
if (method == "DeserializeLengthDelimited" || method == "DeserializeLength")
{
cw.IfBracket("stream.Position >= limit");
cw.WriteLine("if (stream.Position == limit)");
cw.WriteIndent("break;");
cw.WriteLine("else");
cw.WriteIndent("throw new global::SilentOrbit.ProtocolBuffers.ProtocolBufferException(\"Read past max limit\");");
cw.EndBracket();
}
cw.WriteLine("int keyByte = stream.ReadByte();");
cw.WriteLine("if (keyByte == -1)");
if (method == "Deserialize")
{
cw.WriteIndent("break;");
}
else
{
cw.WriteIndent("throw new System.IO.EndOfStreamException();");
}
//Determine if we need the lowID optimization
bool hasLowID = false;
foreach (Field f in m.Fields.Values)
{
if (f.ID < 16)
{
hasLowID = true;
break;
}
}
if (hasLowID)
{
cw.Comment("Optimized reading of known fields with field ID < 16");
cw.Switch("keyByte");
foreach (Field f in m.Fields.Values)
{
if (f.ID >= 16)
{
continue;
}
cw.Dedent();
cw.Comment("Field " + f.ID + " " + f.WireType);
cw.Indent();
cw.Case(((f.ID << 3) | (int)f.WireType));
if (FieldSerializer.FieldReader(f, cw))
{
cw.WriteLine("continue;");
}
}
cw.SwitchEnd();
cw.WriteLine();
}
cw.WriteLine("var key = global::SilentOrbit.ProtocolBuffers.ProtocolParser.ReadKey((byte)keyByte, stream);");
cw.WriteLine();
cw.Comment("Reading field ID > 16 and unknown field ID/wire type combinations");
cw.Switch("key.Field");
cw.Case(0);
cw.WriteLine("throw new global::SilentOrbit.ProtocolBuffers.ProtocolBufferException(\"Invalid field id: 0, something went wrong in the stream\");");
foreach (Field f in m.Fields.Values)
{
if (f.ID < 16)
{
continue;
}
cw.Case(f.ID);
//Makes sure we got the right wire type
cw.WriteLine("if(key.WireType != global::SilentOrbit.ProtocolBuffers.Wire." + f.WireType + ")");
cw.WriteIndent("break;"); //This can be changed to throw an exception for unknown formats.
if (FieldSerializer.FieldReader(f, cw))
{
cw.WriteLine("continue;");
}
}
cw.CaseDefault();
if (m.OptionPreserveUnknown)
{
cw.WriteLine("if (instance.PreservedFields == null)");
cw.WriteIndent("instance.PreservedFields = new List<global::SilentOrbit.ProtocolBuffers.KeyValue>();");
cw.WriteLine("instance.PreservedFields.Add(new global::SilentOrbit.ProtocolBuffers.KeyValue(key, global::SilentOrbit.ProtocolBuffers.ProtocolParser.ReadValueBytes(stream, key)));");
}
else
{
cw.WriteLine("global::SilentOrbit.ProtocolBuffers.ProtocolParser.SkipKey(stream, key);");
}
cw.WriteLine("break;");
cw.SwitchEnd();
cw.EndBracket();
cw.WriteLine();
if (m.OptionTriggers)
{
cw.WriteLine("instance.AfterDeserialize();");
}
cw.WriteLine("return instance;");
cw.EndBracket();
cw.WriteLine();
}
cw.WriteLine("#endregion");
return;
}
void GenerateReader(ProtoMessage m)
{
string mTableParamDefs, mTableParams;
FindMessageTableParams(m, out mTableParamDefs, out mTableParams);
#region Helper Deserialize Methods
string refstr = (m.OptionType == "struct") ? "ref " : "";
if (m.OptionType != "interface")
{
if (!m.OptionNoInstancing)
{
cw.Summary("Helper: create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " Deserialize(Stream stream" + mTableParamDefs + ")");
cw.WriteLine(m.CsType + " instance = new " + m.CsType + "();");
cw.WriteLine("Deserialize(stream" + mTableParams + ", " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
cw.Summary("Helper: create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " DeserializeLengthDelimited(Stream stream" + mTableParamDefs + ")");
cw.WriteLine(m.CsType + " instance = new " + m.CsType + "();");
cw.WriteLine("DeserializeLengthDelimited(stream" + mTableParams + ", " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
cw.Summary("Helper: create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " DeserializeLength(Stream stream" + mTableParamDefs + ", int length)");
cw.WriteLine(m.CsType + " instance = new " + m.CsType + "();");
cw.WriteLine("DeserializeLength(stream" + mTableParams + ", length, " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
cw.Summary("Helper: put the buffer into a MemoryStream and create a new instance to deserializing into");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " Deserialize(byte[] buffer" + mTableParamDefs + ")");
cw.WriteLine(m.CsType + " instance = new " + m.CsType + "();");
cw.WriteLine("using (var ms = new MemoryStream(buffer))");
cw.WriteIndent("Deserialize(ms" + mTableParams + ", " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
cw.Summary("Helper: create a new instance when deserializing a JObject");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " Deserialize(global::Newtonsoft.Json.Linq.JObject obj" + mTableParamDefs + ")");
cw.WriteLine(m.CsType + " instance = new " + m.CsType + "();");
cw.WriteLine("Deserialize(obj" + mTableParams + ", " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
cw.Summary("Helper: create a new instance and deserialize JSON from a string");
cw.Bracket(m.OptionAccess + " static " + m.CsType + " Deserialize(string json" + mTableParamDefs + ")");
cw.WriteLine(m.CsType + " instance = new " + m.CsType + "();");
cw.WriteLine("Deserialize(global::Newtonsoft.Json.Linq.JObject.Parse(json)" + mTableParams + ", " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
}
if (!m.OptionNoPartials)
{
cw.Summary("Load this value from a proto buffer");
cw.Bracket(m.OptionAccess + " void FromProto(Stream stream" + mTableParamDefs + ")");
cw.WriteLine("Deserialize(stream" + mTableParams + ", this );");
cw.EndBracketSpace();
cw.Summary("Load this value from a json object");
cw.Bracket(m.OptionAccess + " void FromJson(global::Newtonsoft.Json.Linq.JObject obj" + mTableParamDefs + ")");
cw.WriteLine("Deserialize(obj" + mTableParams + ", this );");
cw.EndBracketSpace();
}
}
cw.Summary("Helper: put the buffer into a MemoryStream before deserializing");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " Deserialize(byte[] buffer" + mTableParamDefs + ", " + refstr + m.FullCsType + " instance)");
cw.WriteLine("using (var ms = new MemoryStream(buffer))");
cw.WriteIndent("Deserialize(ms" + mTableParams + ", " + refstr + "instance);");
cw.WriteLine("return instance;");
cw.EndBracketSpace();
#endregion
string[] methods = new string[]
{
"Deserialize", //Default old one
"DeserializeLengthDelimited", //Start by reading length prefix and stay within that limit
"DeserializeLength", //Read at most length bytes given by argument
};
//Main Deserialize
foreach (string method in methods)
{
if (method == "Deserialize")
{
cw.Summary("Takes the remaining content of the stream and deserialze it into the instance.");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " " + method + "(Stream stream" + mTableParamDefs + ", " + refstr + m.FullCsType + " instance)");
}
else if (method == "DeserializeLengthDelimited")
{
cw.Summary("Read the VarInt length prefix and the given number of bytes from the stream and deserialze it into the instance.");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " " + method + "(Stream stream" + mTableParamDefs + ", " + refstr + m.FullCsType + " instance)");
}
else if (method == "DeserializeLength")
{
cw.Summary("Read the given number of bytes from the stream and deserialze it into the instance.");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " " + method + "(Stream stream" + mTableParamDefs + ", int length, " + refstr + m.FullCsType + " instance)");
}
else
{
throw new NotImplementedException();
}
if (m.IsUsingBinaryWriter)
{
cw.WriteLine("BinaryReader br = new BinaryReader(stream);");
}
GenerateDefaults(m);
if (method == "DeserializeLengthDelimited")
{
//Important to read stream position after we have read the length field
cw.WriteLine("long limit = global::SilentOrbit.ProtocolBuffers.ProtocolParser.ReadUInt32(stream);");
cw.WriteLine("limit += stream.Position;");
}
if (method == "DeserializeLength")
{
//Important to read stream position after we have read the length field
cw.WriteLine("long limit = stream.Position + length;");
}
cw.WhileBracket("true");
if (method == "DeserializeLengthDelimited" || method == "DeserializeLength")
{
cw.IfBracket("stream.Position >= limit");
cw.WriteLine("if (stream.Position == limit)");
cw.WriteIndent("break;");
cw.WriteLine("else");
cw.WriteIndent("throw new global::SilentOrbit.ProtocolBuffers.ProtocolBufferException(\"Read past max limit\");");
cw.EndBracket();
}
cw.WriteLine("int keyByte = stream.ReadByte();");
cw.WriteLine("if (keyByte == -1)");
if (method == "Deserialize")
{
cw.WriteIndent("break;");
}
else
{
cw.WriteIndent("throw new System.IO.EndOfStreamException();");
}
//Determine if we need the lowID optimization
bool hasLowID = false;
foreach (Field f in m.Fields.Values)
{
if (f.ID < 16)
{
hasLowID = true;
break;
}
}
if (hasLowID)
{
cw.Comment("Optimized reading of known fields with field ID < 16");
cw.Switch("keyByte");
foreach (Field f in m.Fields.Values)
{
if (f.ID >= 16)
{
continue;
}
cw.Dedent();
cw.Comment("Field " + f.ID + " " + f.WireType);
cw.Indent();
cw.Case(((f.ID << 3) | (int)f.WireType));
if (fieldSerializer.FieldReader(f, m.RequiredMessageTables))
{
cw.WriteLine("continue;");
}
}
cw.SwitchEnd();
cw.WriteLine();
}
cw.WriteLine("var key = global::SilentOrbit.ProtocolBuffers.ProtocolParser.ReadKey((byte)keyByte, stream);");
cw.WriteLine();
cw.Comment("Reading field ID > 16 and unknown field ID/wire type combinations");
cw.Switch("key.Field");
cw.Case(0);
cw.WriteLine("throw new global::SilentOrbit.ProtocolBuffers.ProtocolBufferException(\"Invalid field id: 0, something went wrong in the stream\");");
foreach (Field f in m.Fields.Values)
{
if (f.ID < 16)
{
continue;
}
cw.Case(f.ID);
//Makes sure we got the right wire type
cw.WriteLine("if(key.WireType != global::SilentOrbit.ProtocolBuffers.Wire." + f.WireType + ")");
cw.WriteIndent("break;"); //This can be changed to throw an exception for unknown formats.
if (fieldSerializer.FieldReader(f, m.RequiredMessageTables))
{
cw.WriteLine("continue;");
}
}
cw.CaseDefault();
if (m.OptionPreserveUnknown)
{
cw.WriteLine("if (instance.PreservedFields == null)");
cw.WriteIndent("instance.PreservedFields = new List<global::SilentOrbit.ProtocolBuffers.KeyValue>();");
cw.WriteLine("instance.PreservedFields.Add(new global::SilentOrbit.ProtocolBuffers.KeyValue(key, global::SilentOrbit.ProtocolBuffers.ProtocolParser.ReadValueBytes(stream, key)));");
}
else
{
cw.WriteLine("global::SilentOrbit.ProtocolBuffers.ProtocolParser.SkipKey(stream, key);");
}
cw.WriteLine("break;");
cw.SwitchEnd();
cw.EndBracket();
cw.WriteLine();
if (m.OptionTriggers)
{
cw.WriteLine("instance.AfterDeserialize();");
}
cw.WriteLine("return instance;");
cw.EndBracket();
cw.WriteLine();
}
//JSON deserialize
cw.Summary("Deserializes an instance from a JSON object.");
cw.Bracket(m.OptionAccess + " static " + m.FullCsType + " Deserialize(global::Newtonsoft.Json.Linq.JObject obj" + mTableParamDefs + ", " + refstr + m.FullCsType + " instance)");
GenerateDefaults(m);
cw.WriteLine();
cw.Bracket("foreach (var property in obj.Properties())");
cw.Switch("property.Name");
foreach (var f in m.Fields.Values)
{
cw.Case("\"" + f.CsName + "\"");
fieldSerializer.JsonFieldReader(f, m.RequiredMessageTables, "property.Value");
cw.WriteLine("break;");
}
cw.SwitchEnd();
cw.EndBracket();
cw.WriteLine();
if (m.OptionTriggers)
{
cw.WriteLine("instance.AfterDeserialize();");
}
cw.WriteLine("return instance;");
cw.EndBracket();
cw.WriteLine();
return;
}