Ejemplo n.º 1
0
    public IEnumerator addBlockID(string _block)
    {
        WWWForm form = new WWWForm();

        form.AddField("requestType", "getBlock");
        form.AddField("block", _block);
        form.AddField("includeTransactions", "true");
        form.AddField("includeExecutedPhased", "true");

        UnityWebRequest www = UnityWebRequest.Post("http://localhost:27876/nxt", form);

        yield return(www.SendWebRequest());

        if (www.isNetworkError || www.isHttpError)
        {
            Debug.Log(www.error);
        }
        else
        {
            //Debug.Log(www.downloadHandler.text);
            info = JsonUtility.FromJson <dataBlock>(www.downloadHandler.text);
            //tools.getClassValues(returnData);



            GameObject _display = Instantiate(ardorBlock, new Vector3(Center.transform.localPosition.x, Center.transform.localPosition.y, Center.transform.localPosition.z), Quaternion.identity);
            _display.transform.parent = Center.transform;
            _display.SendMessage("handle", info);
            blockList.Add(_display);
            refreshList();
        }
        yield return(null);
    }
Ejemplo n.º 2
0
    public IEnumerator refreshBlock(requestBlock data)
    {
        if (data == null)
        {
            data = new requestBlock();
        }
        WWWForm form = new WWWForm();

        form.AddField("requestType", "getBlock");
        string request = "http://localhost:27876/nxt";

        request += "requestType ";

        if (data.block != null)
        {
            form.AddField("block", data.block);
        }
        if (data.height != null)
        {
            form.AddField("height", data.height);
        }
        if (data.timestamp != null)
        {
            form.AddField("timestamp", data.timestamp);
        }
//if (data.includeTransactions != false)
        // {
        form.AddField("includeTransactions", "true");
        //}
        //  if (data.includeExecutedPhased != false)
        // {
        form.AddField("includeExecutedPhased", "true");
        // }
        if (data.requireBlock != null)
        {
            form.AddField("requireBlock", data.requireBlock);
        }
        if (data.requireLastBlock != null)
        {
            form.AddField("requireLastBlock", data.requireLastBlock);
        }

        UnityWebRequest www = UnityWebRequest.Post("http://localhost:27876/nxt", form);

        yield return(www.SendWebRequest());

        if (www.isNetworkError || www.isHttpError)
        {
            Debug.Log(www.error);
        }
        else
        {
            //Debug.Log(www.downloadHandler.text);
            _data = JsonUtility.FromJson <dataBlock>(www.downloadHandler.text);
            //tools.getClassValues(returnData);
            StartCoroutine(createTransactions(_data));
        }
    }
Ejemplo n.º 3
0
        /// <summary>
        /// Load the file.
        /// </summary>
        /// <param name="b"></param>
        public void load(byte[] b)
        {
            //Stream.
            MemoryStream     src = new MemoryStream(b);
            BinaryDataReader br  = new BinaryDataReader(src);

            br.ByteOrder = ByteOrder.LittleEndian;

            //Stuff.
            magic      = br.ReadChars(4);
            identifier = br.ReadUInt32();
            fileSize   = br.ReadUInt32();
            headerSize = br.ReadUInt16();
            nBlocks    = br.ReadUInt16();

            data       = new dataBlock();
            data.magic = br.ReadChars(4);
            data.size  = br.ReadUInt32();
            data.info  = new infoStuff();

            data.info.waveType       = br.ReadByte();
            data.info.loopFlag       = br.ReadByte();
            data.info.nSampleRate    = br.ReadUInt16();
            data.info.nTime          = br.ReadUInt16();
            data.info.nloopOffset    = br.ReadUInt16();
            data.info.nNonLoopLength = br.ReadUInt32();

            switch (data.info.waveType)
            {
            case 0:
                data.pcm8 = br.ReadBytes((int)data.size - 0x14);
                break;

            case 1:
                data.pcm16 = br.ReadInt16s(((int)data.size - 0x14) / 2);
                break;

            case 2:
                data.imaAdpcm = br.ReadBytes((int)data.size - 0x14);
                break;
            }
        }
Ejemplo n.º 4
0
    public IEnumerator createTransactions(dataBlock info)
    {
        yield return(new WaitForEndOfFrame());

        _data             = info;
        transactions      = info.transactions;
        labelBlockID.text = info.block;

        int i = 0;

        foreach (dataTransactions trans in info.transactions)
        {
            print(trans.block);
            GameObject _display = Instantiate(display, new Vector3(transactionHolder.transform.position.x, transactionHolder.transform.localPosition.y + i + 1, transactionHolder.transform.position.z), Quaternion.identity);
            _display.transform.parent = transactionHolder.transform;
            _display.SendMessage("fillData", trans);
            i++;
        }
        yield return(null);
    }
Ejemplo n.º 5
0
        public string[] ConvertS19Data(int iLengthDataBlock)
        {
            List <string> sTarget           = new List <string>();
            int           icount            = recordCount();
            s19rec        rec               = default(s19rec);
            int           recDecimalAddress = 0;
            int           recDataLength     = 0;

            List <dataBlock> listDataBlock        = new List <dataBlock>();
            List <dataBlock> listAlignedDataBlock = new List <dataBlock>();
            List <byte>      currentBlockData     = new List <byte>();
            int currentBlockAddress = 0;
            //Dim prevBlockData As New List(Of Byte)
            //Dim prevBlockAddress As Integer = 0
            int         nextStartAddress = 0;
            List <byte> bytesTemp        = new List <byte>();

            for (var i = 0; i <= icount - 1; i++)
            {
                rec = getS19Rec(System.Convert.ToInt32(i));

                switch (rec.type)
                {
                case '0':
                    myAddS19Record(sTarget, rec.type, convBytesToHexa(rec.address.ToArray()), convBytesToHexa(rec.data.ToArray()));
                    break;

                case '1':
                    break;

                case '2':
                    break;

                case '3':

                    //dirección y longitud del bloque de datos
                    recDecimalAddress = RoutinesLibrary.Data.DataType.IntegerUtils.BytesToInt(rec.address.ToArray(), true);     //is BigEndian
                    recDataLength     = rec.data.Count;

                    //address gap
                    if (recDecimalAddress > nextStartAddress)
                    {
                        //new block. recording cumulative data
                        if (currentBlockData.Count > 0)
                        {
                            dataBlock block = new dataBlock(currentBlockAddress, currentBlockData.ToArray());
                            listDataBlock.Add(block);
                        }

                        //accumulates new data
                        currentBlockData.Clear();
                        currentBlockData.AddRange(rec.data.ToArray());
                        currentBlockAddress = recDecimalAddress;

                        //no gap
                    }
                    else
                    {
                        //add to current block
                        currentBlockData.AddRange(rec.data.ToArray());
                    }

                    //calculate next address, to control gaps
                    nextStartAddress = recDecimalAddress + recDataLength;
                    break;

                case '5':
                    break;

                case '7':
                case '8':
                case '9':
                    break;
                }
            }

            //add remaining data in last block
            if (currentBlockData.Count > 0)
            {
                dataBlock block = new dataBlock(currentBlockAddress, currentBlockData.ToArray());
                listDataBlock.Add(block);
            }


            //'Align all directions to 128 (iLengthDataBlock)
            //For i = 0 To listDataBlock.Count - 1
            //    If listDataBlock.Item(i).m_Address Mod iLengthDataBlock <> 0 Then

            //        'Calculamos el gap inicial
            //        Dim nInitialGap As Integer = listDataBlock.Item(i).m_Address - ((listDataBlock.Item(i).m_Address \ 128) * 128)

            //        'Rellenamos los datos iniciales con FF
            //        Dim alignData(listDataBlock.Item(i).m_Data.Length + nInitialGap - 1) As Byte
            //        setArrayTo(alignData, &HFF)
            //        Array.Copy(listDataBlock.Item(i).m_Data, 0, alignData, nInitialGap, listDataBlock.Item(i).m_Data.Length)

            //        'Actualizamos el array de datos
            //        listDataBlock.Item(i).m_Data = alignData

            //        'Actualizamos el address
            //        listDataBlock.Item(i).m_Address -= nInitialGap
            //    End If
            //Next

            //Align all directions to 128

            int lastAlignedDataBlock = -1;

            for (var i = 0; i <= listDataBlock.Count - 1; i++)
            {
                lastAlignedDataBlock = listAlignedDataBlock.Count - 1;

                if (listDataBlock[System.Convert.ToInt32(i)].m_Address % iLengthDataBlock != 0)
                {
                    //If listDataBlock.Item(i).m_Address > 486635784 Then
                    //    MsgBox("> 486635784")
                    //End If

                    int    nInitialGap               = 0;
                    int    nEndGap                   = 0;
                    byte[] alignData                 = null;
                    int    nCopyDataLength           = 0;
                    int    nTargetBufferToCopyLength = 0;

                    // ver si la dirección está dentro del bloque alineado anterior (múltiplo de 128)
                    bool bAlignBlock = true;
                    if (i > 0 & lastAlignedDataBlock >= 0)
                    {
                        int iPreviousBlockAddress       = System.Convert.ToInt32(listAlignedDataBlock[lastAlignedDataBlock].m_Address);
                        int iPreviousBlockDataLength    = System.Convert.ToInt32(listAlignedDataBlock[lastAlignedDataBlock].m_Data.Length);
                        int iPreviousBlockAlignedBlocks = iPreviousBlockDataLength / iLengthDataBlock;
                        if (iPreviousBlockDataLength / iLengthDataBlock != (double)iPreviousBlockDataLength / iLengthDataBlock)
                        {
                            iPreviousBlockAlignedBlocks++;
                        }
                        if (listDataBlock[System.Convert.ToInt32(i)].m_Address < iPreviousBlockAddress + (iPreviousBlockAlignedBlocks * iLengthDataBlock))
                        {
                            // copiar parte de los datos al bloque anterior
                            // primero el gap entre el fin de datos y la nueva dirección
                            nEndGap = System.Convert.ToInt32(listDataBlock[System.Convert.ToInt32(i)].m_Address - (iPreviousBlockAddress + iPreviousBlockDataLength));
                            // espacio que tengo para copiar = el total alineado menos los datos existentes y el gap añadido
                            nTargetBufferToCopyLength = (iPreviousBlockAlignedBlocks * iLengthDataBlock) - (iPreviousBlockDataLength + nEndGap);
                            // datos a copiar: mínimo entre espacio destino y datos origen
                            nCopyDataLength = Math.Min(nTargetBufferToCopyLength, System.Convert.ToInt32(listDataBlock[System.Convert.ToInt32(i)].m_Data.Length));
                            //Rellenamos los datos iniciales con FF
                            alignData = new byte[nEndGap + nCopyDataLength - 1 + 1];
                            setArrayTo(ref alignData, (byte)(0xFF));
                            Array.Copy((System.Array)(listDataBlock[System.Convert.ToInt32(i)].m_Data), 0, alignData, nEndGap, nCopyDataLength);
                            // copiar a bloque anterior
                            bytesTemp.Clear();
                            bytesTemp.AddRange(listAlignedDataBlock[lastAlignedDataBlock].m_Data);
                            bytesTemp.AddRange(alignData);
                            listAlignedDataBlock[lastAlignedDataBlock].m_Data = bytesTemp.ToArray();
                            // quitar estos datos del bloque actual y modificar address
                            bytesTemp.Clear();
                            bytesTemp.AddRange(listDataBlock[System.Convert.ToInt32(i)].m_Data);
                            bytesTemp.RemoveRange(0, nCopyDataLength);
                            if (bytesTemp.Count > 0)
                            {
                                listDataBlock[System.Convert.ToInt32(i)].m_Data = bytesTemp.ToArray();
                                // modificar address
                                listDataBlock[System.Convert.ToInt32(i)].m_Address = listDataBlock[System.Convert.ToInt32(i)].m_Address + nCopyDataLength;
                            }
                            else
                            {
                                bAlignBlock = false;
                            }
                        }
                    }

                    if (bAlignBlock)
                    {
                        //Calculamos el gap inicial
                        nInitialGap = System.Convert.ToInt32(listDataBlock[System.Convert.ToInt32(i)].m_Address - ((listDataBlock[System.Convert.ToInt32(i)].m_Address / iLengthDataBlock) * iLengthDataBlock));

                        //Rellenamos los datos iniciales con FF
                        alignData = new byte[listDataBlock[System.Convert.ToInt32(i)].m_Data.Length + nInitialGap - 1 + 1];
                        setArrayTo(ref alignData, (byte)(0xFF));
                        Array.Copy((System.Array)(listDataBlock[System.Convert.ToInt32(i)].m_Data), 0, alignData, nInitialGap, System.Convert.ToInt32(listDataBlock[System.Convert.ToInt32(i)].m_Data.Length));

                        //Actualizamos el array de datos
                        listDataBlock[System.Convert.ToInt32(i)].m_Data = alignData;

                        //Actualizamos el address
                        listDataBlock[System.Convert.ToInt32(i)].m_Address -= nInitialGap;

                        // add aligned block
                        listAlignedDataBlock.Add(listDataBlock[System.Convert.ToInt32(i)]);
                    }
                }
                else
                {
                    // add block, already aligned
                    listAlignedDataBlock.Add(listDataBlock[System.Convert.ToInt32(i)]);
                }
            }

            // build SREC in iDataBlock format
            byte[] newData = null;
            newData = new byte[iLengthDataBlock - 1 + 1];

            int iCopyLength          = 0;
            int iDataLengthRemainder = 0;
            int iAddress             = 0;

            int  nextStartByte = 0;
            int  iBlockNumber  = 0;
            bool bEnd          = false;


            //recorrer todos los bloques de datos
            //For i = 0 To listDataBlock.Count - 1
            for (var i = 0; i <= listAlignedDataBlock.Count - 1; i++)
            {
                //dirección y datos del bloque de datos
                //currentBlockAddress = listDataBlock.Item(i).m_Address
                currentBlockAddress = System.Convert.ToInt32(listAlignedDataBlock[System.Convert.ToInt32(i)].m_Address);
                currentBlockData.Clear();
                //currentBlockData.AddRange(listDataBlock.Item(i).m_Data)
                currentBlockData.AddRange(listAlignedDataBlock[System.Convert.ToInt32(i)].m_Data);

                //If currentBlockAddress > 486635784 Then
                //    MsgBox("> 486635784")
                //End If

                nextStartByte = 0;
                iBlockNumber  = 0;
                bEnd          = false;

                //loop por el bloque para dividir en direcciones de 128
                do
                {
                    //determinar cuanto queda por copiar
                    iDataLengthRemainder = currentBlockData.Count - nextStartByte;

                    if (iDataLengthRemainder > 0)
                    {
                        //copiamos un bloque entero de datos o el resto
                        if (iDataLengthRemainder > iLengthDataBlock)
                        {
                            iCopyLength = iLengthDataBlock;
                        }
                        else
                        {
                            iCopyLength = iDataLengthRemainder;
                        }

                        //número de bloque a copiar
                        iBlockNumber++;

                        //el buffer de 128 a HFF
                        setArrayTo(ref newData, (byte)(0xFF));

                        //copy data
                        Array.Copy(currentBlockData.ToArray(), nextStartByte, newData, 0, iCopyLength);

                        //la nueva dirección es la dirección base del bloque más la cantidad de bloques copiados
                        iAddress = currentBlockAddress + (iLengthDataBlock * (iBlockNumber - 1));

                        //grabar el bloque
                        myAddS19Record(sTarget, '3', convBytesToHexa(intToBytesAddress(iAddress, true)), convBytesToHexa(newData));

                        //actualizar la siguiente dirección
                        nextStartByte += iCopyLength;
                    }
                    else
                    {
                        bEnd = true;
                    }
                } while (!bEnd);
            }

            return(sTarget.ToArray());
        }
Ejemplo n.º 6
0
 public void handle(dataBlock info)
 {
     StartCoroutine(createTransactions(info));
     print("sent");
 }
Ejemplo n.º 7
0
        /// <summary>
        /// Load the file.
        /// </summary>
        /// <param name="b"></param>
        public void load(byte[] b)
        {
            //Reader.
            MemoryStream     src = new MemoryStream(b);
            BinaryDataReader br  = new BinaryDataReader(src);

            br.ByteOrder = ByteOrder.LittleEndian;

            //Read stuff.
            magic      = br.ReadChars(4);
            identifier = br.ReadUInt32();
            fileSize   = br.ReadUInt32();
            headerSize = br.ReadUInt16();
            nBlocks    = br.ReadUInt16();
            head       = new headBlock();
            data       = new dataBlock();

            //Head block.
            head.magic            = br.ReadChars(4);
            head.size             = br.ReadUInt32();
            head.waveType         = br.ReadByte();
            head.loop             = br.ReadByte();
            head.numChannel       = br.ReadByte();
            head.unknown          = br.ReadByte();
            head.nSampleRate      = br.ReadUInt16();
            head.nTime            = br.ReadUInt16();
            head.nLoopOffset      = br.ReadUInt32();
            head.nSample          = br.ReadUInt32();
            head.nDataOffset      = br.ReadUInt32();
            head.nBlock           = br.ReadUInt32();
            head.nBlockLen        = br.ReadUInt32();
            head.nBlockSample     = br.ReadUInt32();
            head.nLastBlockLen    = br.ReadUInt32();
            head.nLastBlockSample = br.ReadUInt32();
            head.reserved         = br.ReadBytes(32);

            //Data block.
            data.magic = br.ReadChars(4);
            data.size  = br.ReadUInt32();

            switch (head.waveType)
            {
            case 0:
                data.pcm8 = new byte[head.numChannel][];
                if (head.nBlock != 1)
                {
                    throw new Exception("BAD PCM8 BLOCK!");
                }
                for (int i = 0; i < head.numChannel; i++)
                {
                    data.pcm8[i] = br.ReadBytes((int)head.nLastBlockLen);
                }
                break;

            case 1:
                data.pcm16 = new short[head.numChannel][];
                if (head.nBlock != 1)
                {
                    throw new Exception("BAD PCM16 BLOCK!");
                }
                for (int i = 0; i < head.numChannel; i++)
                {
                    data.pcm16[i] = br.ReadInt16s((int)head.nLastBlockLen / 2);
                }
                break;

            //The big one!
            case 2:
                data.imaAdpcm = new dataBlock.imaAdpcmBlock[head.numChannel][];
                for (int i = 0; i < head.numChannel; i++)
                {
                    data.imaAdpcm[i] = new dataBlock.imaAdpcmBlock[head.nBlock];
                }
                for (int i = 0; i < head.nBlock - 1; i++)
                {
                    for (int j = 0; j < head.numChannel; j++)
                    {
                        data.imaAdpcm[j][i] = new dataBlock.imaAdpcmBlock();
                        //data.imaAdpcm[j][i].identifier = br.ReadUInt32();
                        data.imaAdpcm[j][i].data = br.ReadBytes((int)head.nBlockLen);
                    }
                }
                for (int j = 0; j < head.numChannel; j++)
                {
                    data.imaAdpcm[j][head.nBlock - 1] = new dataBlock.imaAdpcmBlock();
                    //data.imaAdpcm[j][head.nBlock - 1].identifier = br.ReadUInt32();
                    data.imaAdpcm[j][head.nBlock - 1].data = br.ReadBytes((int)head.nLastBlockLen);
                }
                break;
            }
        }
        public static dataBlockData ReadDataBlock(BufferedStreamReader streamReader, int offset, dataBlock offsetBlock)
        {
            dataBlockData data = new dataBlockData();

            data.rawBlock = offsetBlock;
            data.unkInt0  = offsetBlock.unkInt0;
            streamReader.Seek(offsetBlock.internalName0Offset + offset, System.IO.SeekOrigin.Begin);
            data.internalName0 = AquaObjectMethods.ReadCString(streamReader);
            streamReader.Seek(offsetBlock.chatCommandOffset + offset, System.IO.SeekOrigin.Begin);
            data.chatCommand = AquaObjectMethods.ReadCString(streamReader);
            streamReader.Seek(offsetBlock.internalName1Offset + offset, System.IO.SeekOrigin.Begin);
            data.internalName1 = AquaObjectMethods.ReadCString(streamReader);

            streamReader.Seek(offsetBlock.lobbyActionIdOffset + offset, System.IO.SeekOrigin.Begin);
            data.lobbyActionId = AquaObjectMethods.ReadCString(streamReader);
            streamReader.Seek(offsetBlock.commonReferenceOffset0 + offset, System.IO.SeekOrigin.Begin);
            data.commonReference0 = AquaObjectMethods.ReadCString(streamReader);
            streamReader.Seek(offsetBlock.commonReferenceOffset1 + offset, System.IO.SeekOrigin.Begin);
            data.commonReference1 = AquaObjectMethods.ReadCString(streamReader);
            streamReader.Seek(offsetBlock.unkIntOffset0 + offset, System.IO.SeekOrigin.Begin);
            data.unkOffsetInt0 = streamReader.Read <int>();

            streamReader.Seek(offsetBlock.unkIntOffset1 + offset, System.IO.SeekOrigin.Begin);
            data.unkOffsetInt1 = streamReader.Read <int>();
            streamReader.Seek(offsetBlock.unkIntOffset2 + offset, System.IO.SeekOrigin.Begin);
            data.unkOffsetInt2 = streamReader.Read <int>();
            streamReader.Seek(offsetBlock.iceNameOffset + offset, System.IO.SeekOrigin.Begin);
            data.iceName = AquaObjectMethods.ReadCString(streamReader);
            streamReader.Seek(offsetBlock.humanAqmOffset + offset, System.IO.SeekOrigin.Begin);
            data.humanAqm = AquaObjectMethods.ReadCString(streamReader);

            streamReader.Seek(offsetBlock.castAqmOffset1 + offset, System.IO.SeekOrigin.Begin);
            data.castAqm1 = AquaObjectMethods.ReadCString(streamReader);
            streamReader.Seek(offsetBlock.castAqmOffset2 + offset, System.IO.SeekOrigin.Begin);
            data.castAqm2 = AquaObjectMethods.ReadCString(streamReader);
            streamReader.Seek(offsetBlock.kmnAqmOffset + offset, System.IO.SeekOrigin.Begin);
            data.kmnAqm = AquaObjectMethods.ReadCString(streamReader);
            streamReader.Seek(offsetBlock.vfxOffset + offset, System.IO.SeekOrigin.Begin);
            data.vfxIce = AquaObjectMethods.ReadCString(streamReader);

            return(data);
        }