ReadInt32() public méthode

Reads a 32-bit signed integer from the stream, using the bit converter for this reader. 4 bytes are read.
public ReadInt32 ( ) : int
Résultat int
 protected override void Parse(EndianBinaryReader r)
 {
     X = r.ReadInt32();
     Z = r.ReadInt32();
     //int ArraySize = ReadVarInt(r);
     throw new NotImplementedException();
 }
 protected override void Parse(EndianBinaryReader r)
 {
     EID = ReadVarInt(r);
     Type = r.ReadSByte();
     Position = new CoordDouble();
     Position.X = ((double)r.ReadInt32()) / 32;
     Position.Y = ((double)r.ReadInt32()) / 32;
     Position.Z = ((double)r.ReadInt32()) / 32;
 }
            public UItem(EndianBinaryReader r)
            {
                X = r.ReadInt32();
                Z = r.ReadInt32();
                OccupiedBitmap = r.ReadInt16();
                AdditionalBitmap = r.ReadInt16();
#if DEBUG
                if (AdditionalBitmap != 0)
                    Log.WriteServer("AdditionalData: " + AdditionalBitmap.ToString("X"));
#endif
            }
Exemple #4
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 protected override void Parse(EndianBinaryReader r)
 {
     EffectID = (SoundEffects)r.ReadInt32();
     Position = CoordInt.Read(r);
     SoundData = r.ReadInt32();
     SoundByte = r.ReadByte();
     //Debug.WriteLine(DebugPacket.Read(r));
     #if DEBUGPACKET
     if (EffectID.ToString() == ((int)EffectID).ToString())
         throw new NotImplementedException(EffectID.ToString());
     #endif
 }
Exemple #5
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 protected override void Parse(EndianBinaryReader r)
 {
     Event = (Action)r.ReadByte();
     if (Event == Action.End)
     {
         Duration = ReadVarInt(r);
         EntityID = r.ReadInt32();
     }
     if (Event == Action.Dead)
     {
         PlayerID = ReadVarInt(r);
         EntityID = r.ReadInt32();
         Message = ReadString8(r);
     }
 }
Exemple #6
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 protected override void Parse(EndianBinaryReader r)
 {
     ParticleID = r.ReadInt32();
     LongDistance = r.ReadBoolean();
     Position = new CoordDouble();
     Position.X = r.ReadSingle();
     Position.Y = r.ReadSingle();
     Position.Z = r.ReadSingle();
     Size = new CoordDouble();
     Size.X = r.ReadSingle();
     Size.Y = r.ReadSingle();
     Size.Z = r.ReadSingle();
     Speed = r.ReadSingle();
     Count = r.ReadInt32();
     Debug.WriteLine(this);
 }
Exemple #7
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 protected override void Parse(EndianBinaryReader r)
 {
     EID = r.ReadInt32();
     Status = (EntityStatuses)r.ReadByte();
     #if DEBUGPACKET
     if (Status.ToString() == ((int)Status).ToString())
         throw new NotImplementedException(Status.ToString());
     #endif
 }
 protected override void Parse(EndianBinaryReader r)
 {
     int columnCount = r.ReadInt16();
     int compressedLength = r.ReadInt32();
     Unknown = r.ReadBoolean();
     CompressedChunkColumns = r.ReadBytesOrThrow(compressedLength);
     ColumnMeta = new UItem[columnCount];
     for (int n = 0; n < columnCount; n++)
     {
         ColumnMeta [n] = new UItem(r);
     }
 }
 private void ReadLength()
 {
     lenBuffer = new byte[4];
     using (MiscUtil.IO.EndianBinaryReader reader = new MiscUtil.IO.EndianBinaryReader(EndianBitConverter.Big, new MemoryStream(incomingBuffer), Encoding.UTF8))
     {
         int len = reader.ReadInt32();
         if (len < 0 || len >= ClientConnection.packetLen)
         {
             throw new IOException("Packet len " + len + " is out of range!");
         }
         incomingBuffer = new byte[len];
     }
 }
Exemple #10
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 protected override void Parse(EndianBinaryReader r)
 {
     Dimension = (Dimensions)r.ReadInt32();
     Difficulty = r.ReadByte();
     Mode = (GameMode)r.ReadByte();
     #if DEBUGPACKET
     if (Dimension.ToString() == ((int)Dimension).ToString())
         throw new NotImplementedException(Dimension.ToString());
     if (Mode.ToString() == ((int)Mode).ToString())
         throw new NotImplementedException(Mode.ToString());
     #endif
     LevelType = ReadString8(r);
 }
Exemple #11
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 protected override void Parse(EndianBinaryReader r)
 {
     EntityID = r.ReadInt32();
     GameMode = (GameMode)r.ReadByte();
     Dimension = (Dimensions)r.ReadSByte();
     Difficulty = r.ReadByte();
     MaxPlayers = r.ReadByte();
     LevelType = ReadString8(r);
     ReducedDebug = r.ReadBoolean();
     #if DEBUGPACKET
     if (Dimension.ToString() == ((int)Dimension).ToString())
         throw new NotImplementedException(Dimension.ToString());
     if (GameMode.ToString() == ((int)GameMode).ToString())
         throw new NotImplementedException(GameMode.ToString());
     #endif
 }
Exemple #12
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 protected override void Parse(EndianBinaryReader r)
 {
     WindowID = r.ReadByte();
     InventoryType = ReadString8(r);
     WindowTitle = ReadString8(r);
     NumberOfSlots = r.ReadByte();
     if (InventoryType == "EntityHorse")
         Unknown = r.ReadInt32();
     #if DEBUGPACKET
     Console.WriteLine("Horse Window Unknown: " + Unknown);
     if (InventoryTypes.Contains(InventoryType) == false)
     {
         Console.WriteLine("Unknown InventoryType: " + InventoryType);
         throw new NotImplementedException(InventoryType);
     }
     #endif
 }
Exemple #13
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 protected override void Parse(EndianBinaryReader r)
 {
     Position = new CoordDouble();
     Position.X = r.ReadSingle();
     Position.Y = r.ReadSingle();
     Position.Z = r.ReadSingle();
     Radius = r.ReadSingle();
     int count = r.ReadInt32();
     Records = new Record[count];
     for (int n = 0; n < count; n++)
     {
         Records [n] = new Record();
         Records [n].X = r.ReadSByte();
         Records [n].Y = r.ReadSByte();
         Records [n].Z = r.ReadSByte();
     }
     PlayerMotion = new float[3];
     PlayerMotion [0] = r.ReadSingle();
     PlayerMotion [1] = r.ReadSingle();
     PlayerMotion [2] = r.ReadSingle();
 }
Exemple #14
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        protected override void Parse(EndianBinaryReader r)
        {
            EID = ReadVarInt(r);
            Type = (Vehicles)r.ReadByte();
            #if DEBUGPACKET
            if (Type.ToString() == ((int)Type).ToString())
                throw new NotImplementedException(Type.ToString());
            #endif
            if (Type == Vehicles.Unknown)
                Console.WriteLine();
            Position = ReadAbsInt(r);

            Yaw = r.ReadSByte();
            Pitch = r.ReadSByte();

            SourceEntity = r.ReadInt32();
            if (SourceEntity <= 0)
                return;
            short vx = r.ReadInt16();
            short vy = r.ReadInt16();
            short vz = r.ReadInt16();			
            Velocity = new CoordInt(vx, vy, vz);
        }
 protected override void Parse(EndianBinaryReader r)
 {
     EID = ReadVarInt(r);
     int count = r.ReadInt32();
     //Console.Write("DEBx2C: " + EID + " ");
     for(int n = 0; n < count; n++)
     {
         var p = new Property();
         p.Key = ReadString8(r);
         p.Val = r.ReadDouble();
         int sub = ReadVarInt(r);
         p.List = new List<PropData>();
         for (int s = 0; s < sub; s++)
         {
             var sd = new PropData();
             sd.UUIDpart1 = r.ReadInt64();
             sd.UUIDpart2 = r.ReadInt64();
             sd.Amount = r.ReadDouble();
             sd.Operation = r.ReadByte();
             p.List.Add(sd);
         }
         Properties.Add(p);
     }
     //Debug.WriteLine(this);
 }
        private void Work(object arg)
        {
            CalculationOptions opt = arg as CalculationOptions;
            NetworkStream ns = null;
            Success = false;
            try
            {
                ns = TcpHelper.OpenStream(Host, 1);

                byte[] magic = new byte[4];
                ns.Read(magic, 0, 4);
                uint v = BitConverter.ToUInt32(magic, 0);

                bool be = (v == 0xAFDE0000); // Renderer sends 00 00 DE AF, if its reversed all is in big endian

                EndianBitConverter ec;
                if (be) ec = new BigEndianBitConverter();
                else ec = new LittleEndianBitConverter();

                using (EndianBinaryWriter bw = new EndianBinaryWriter(ec, ns))
                using (EndianBinaryReader br = new EndianBinaryReader(ec, ns))
                {
                    bw.Write((uint)0x0000FEED);

                    // Write rational coordinates
                    foreach (BigRational r in new[] { opt.MinRe, opt.MaxRe, opt.MinIm, opt.MaxIm })
                    {
                        int sign = r.Numerator.Sign;
                        byte[] num = BigInteger.Abs(r.Numerator).ToByteArray();
                        bw.Write(sign);
                        bw.Write(num.Length);
                        bw.Write(num);

                        num = BigInteger.Abs(r.Denominator).ToByteArray();
                        bw.Write(num.Length);
                        bw.Write(num);
                    }
                    bw.Write(opt.IterationCount);
                    bw.Write(opt.Width);
                    bw.Write(opt.Height);
                    bw.Write(opt.XOff);
                    bw.Write(opt.XSkip);
                    bw.Write(opt.XMax);
                    bw.Write(opt.YOff);
                    bw.Write(opt.YSkip);
                    bw.Write(opt.YMax);
                    bw.Write(opt.OrbitStart);
                    bw.Write(opt.OrbitLength);
                    bw.Write(opt.BulbChecking ? 1U : 0U);

                    int ok = br.ReadInt32();
                    if (ok != 200)
                        throw new InvalidOperationException();  // TODO Proper exception

                    // Sent parameters, now read all orbits
                    OrbitMap map = new OrbitMap();

                    int orbitsComing = 0;
                    while ((orbitsComing = br.ReadInt32()) >= 0)
                    {
                        for (int i = 0; i < orbitsComing; i++)
                        {
                            int o_x = br.ReadInt32();
                            int o_y = br.ReadInt32();

                            BigRational re, im;
                            re = ReadRational(br);
                            im = ReadRational(br);
                            BigComplex o_c = new BigComplex(re, im);

                            uint o_iter = br.ReadUInt32(); // Number of iterations before escape
                            uint o_orbs = br.ReadUInt32(); // Offset of the orbit
                            uint o_orbl = br.ReadUInt32(); // Length of the orbit

                            Orbit orbit = new Orbit(o_x, o_y, o_c, o_iter, o_orbs, o_orbl);

                            for (uint j = 0; j < o_orbl; j++)
                            {
                                re = ReadRational(br);
                                im = ReadRational(br);
                                orbit.Add(re, im);
                            }

                            map.AddOrbit(orbit);
                        }
                    }

                    Result = map; // Set the result so it can be combined with work from the other threads
                }

                ns.Close();
                Success = true;
            }
            catch (Exception) // TODO error handling ? Just log the message and be done
            {
                Success = false;
            }
            finally
            {
                if (ns != null)
                    ns.Close();

                (WaitHandle as ManualResetEvent).Set(); // Public signal that I'm done
            }
        }
Exemple #17
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 protected override void Parse(EndianBinaryReader r)
 {
     EID = r.ReadInt32();
     VehicleID = r.ReadInt32();
     Leash = r.ReadBoolean();
 }
Exemple #18
0
        public void Parse(EndianBinaryReader reader, uint size)
        {
            var maxReadPos = reader.BaseStream.Position + size;
            while(reader.BaseStream.Position < maxReadPos)
            {
                if (objectStack.Count != 0)
                {
                    var count = reader.ReadUInt16();
                    var propString = "";
                    for (var i = 0; i < count; i++)
                    {
                        propString += (char) reader.ReadByte();
                    }
                    objectStack.Peek().CurrentProperty = propString;
                }

                var type = (Globals.Amf0Types)reader.ReadByte();

                switch (type)
                {
                    case Globals.Amf0Types.Number:
                        {
                            var value = reader.ReadDouble();
                            if(objectStack.Count != 0)
                            {
                                objectStack.Peek().Numbers.Add(objectStack.Peek().CurrentProperty, value);
                            }
                            else
                            {
                                amfData.Numbers.Add(value);
                            }
                        }
                        break;
                    case Globals.Amf0Types.Boolean:
                        {
                            var value = reader.ReadBoolean();
                            if (objectStack.Count != 0)
                            {
                                objectStack.Peek().Booleans.Add(objectStack.Peek().CurrentProperty, value);
                            }
                            else
                            {
                                amfData.Booleans.Add(value);
                            }
                        }
                        break;
                    case Globals.Amf0Types.String:
                        {
                            var count = reader.ReadUInt16();
                            var pushString = "";
                            for (var i = 0; i < count; i++)
                            {
                                pushString += (char) reader.ReadByte();
                            }

                            if (objectStack.Count != 0)
                            {
                                objectStack.Peek().Strings.Add(objectStack.Peek().CurrentProperty, pushString);
                            }
                            else
                            {
                                amfData.Strings.Add(pushString);
                            }
                        }
                        break;
                    case Globals.Amf0Types.Null:

                        if (objectStack.Count != 0)
                        {
                            objectStack.Peek().Nulls++;
                        }
                        else
                        {
                            amfData.Nulls++;
                        }
                        break;
                    case Globals.Amf0Types.Object:
                    case Globals.Amf0Types.Array:
                        {
                            if(type == Globals.Amf0Types.Array)
                            {
                                var arrayLength = reader.ReadInt32();
                            }
                            var objectAdd = new AmfObject();
                            objectStack.Push(objectAdd);
                        }
                        break;
                    case Globals.Amf0Types.ObjectEnd:
                        {
                            if(objectStack.Count == 1)
                            {
                                amfData.Objects.Add(objectStack.Pop());
                            }
                            else if(objectStack.Count > 1)
                            {
                                var mostRecentObject = objectStack.Pop();
                                objectStack.Peek().Objects.Add(objectStack.Peek().CurrentProperty, mostRecentObject);
                            }
                        }
                        break;
                    default:
                        throw new ArgumentOutOfRangeException();
                }
                /*
                switch (type)
                {
                    case Amf0Types.Array:
                    case Amf0Types.Object:
                        {
                            if(type == Amf0Types.Array)
                            {
                                var arrayLength = reader.ReadInt32();
                                Console.WriteLine("Array:" + arrayLength);
                            }
                            bool hasProperty = false;
                            string property = "";
                            var objectAdd = new AmfObject();
                            while (reader.BaseStream.Position < maxReadPos)
                            {
                                if(!hasProperty)
                                {
                                    property = "";
                                    var propertyStringLength = reader.ReadUInt16();
                                    for (var i = 0; i < propertyStringLength; i++)
                                    {
                                        property += (char)reader.ReadByte();
                                    }
                                    hasProperty = true;
                                }

                                if (hasProperty == true)
                                {
                                    if(property.Length == 0)
                                    {
                                        amfData.Objects.Add(objectAdd);

                                        break;
                                    }
                                    var objtype = (Amf0Types)reader.ReadByte();
                                    parseType(objtype, reader, ref objectAdd.Nulls, objectNumbers: objectAdd.Numbers,
                                              objectBooleans: objectAdd.Booleans, objectStrings: objectAdd.Strings,
                                              property: property);
                                    hasProperty = false;
                                }
                            }
                        }
                        break;
                    default:
                        parseType(type, reader, ref amfData.Nulls, amfData.Numbers, amfData.Booleans, amfData.Strings);
                        break;
                }*/
            }
        }
        internal BigRational ReadRational(EndianBinaryReader reader)
        {
            int sign = reader.ReadInt32();
            long len = reader.ReadInt64();
            byte[] num = new byte[len + 1]; // Extra byte for sign forcing positive value
            long l = ReadLongBuffer(num, len, reader);

            if (l != len)
                throw new InvalidOperationException(); // Non recoverable..

            len = reader.ReadInt64();
            byte[] den = new byte[len + 1]; // Extra byte on the end for positive sign
            l = ReadLongBuffer(den, len, reader);

            if (l != len)
                throw new InvalidOperationException(); // TODO Create a new ProtocolException() for when server sends unexpected data

            return new BigRational(new BigInteger(num) * sign, new BigInteger(den));
        }
 protected override void ParseChunkData(System.IO.MemoryStream memory)
 {
     base.ParseChunkData(memory);
     var reader = new EndianBinaryReader(EndianBitConverter.Big, memory);
     WindowSize = reader.ReadInt32();
 }