unsafe public static void SaveTestLabFrame(Frame frame, FileWriter writer)
{
TestLabFrameHeader frameHeader = (TestLabFrameHeader)frame.Header.Convert(StorageFormat.TestLab);
ChannelCollection channels = frame.Channels;
writer.Position = 0;
writer.WriteUInt64(0x42414C54534554UL);
WriteASCIIString(writer, frameHeader.Title, 61, true);
WriteASCIIString(writer, frameHeader.Character, 121, true);
WriteASCIIString(writer, frameHeader.Region, 121, true);
WriteASCIIString(writer, frameHeader.Time.ToString("dd.MM.yyyy"), 11, true);
WriteASCIIString(writer, frameHeader.Time.ToString("HH:mm:ss"), 9, true);
writer.WriteUInt16((ushort)channels.Count);
for (int i = 0; i != 17; ++i)
{
writer.WriteUInt8(0);
}
foreach (Channel channel in channels)
{
TestLabChannelHeader channelHeader = (TestLabChannelHeader)channel.Header.Convert(StorageFormat.TestLab);
WriteASCIIString(writer, channelHeader.Name, 13, true);
WriteASCIIString(writer, channelHeader.Description, 121, true);
WriteASCIIString(writer, channelHeader.Unit, 13, true);
writer.WriteFloat32((float)channelHeader.Offset);
writer.WriteFloat32((float)channelHeader.Scale);
writer.WriteFloat32((float)channelHeader.Cutoff);
writer.WriteUInt16((ushort)channelHeader.Sampling);
writer.WriteUInt8((byte)channelHeader.Type);
writer.WriteUInt8((byte)channelHeader.DataFormat);
writer.WriteUInt32((uint)channel.Length);
for (int i = 0; i != 25; ++i)
{
writer.WriteUInt8(0);
}
}
foreach (Channel channel in channels)
{
TestLabChannelHeader header = (TestLabChannelHeader)channel.Header.Convert(StorageFormat.TestLab);
int length = channel.Length;
double offset = header.Offset;
double factor = 0;
if (header.Scale != 0)
{
factor = 1 / header.Scale;
}
double *source = (double *)channel.Vector.Pointer;
byte[] buffer = new byte[length * TestLabChannelHeader.GetItemSize(header.DataFormat)];
switch (header.DataFormat)
{
case TestLabDataFormat.UInt8:
fixed(void *pointer = buffer)
{
byte *destination = (byte *)pointer;
for (int i = 0; i != length; ++i)
{
destination[i] = (byte)(offset + factor * source[i]);
}
}
break;
case TestLabDataFormat.UInt16:
fixed(void *pointer = buffer)
{
ushort *destination = (ushort *)pointer;
for (int i = 0; i != length; ++i)
{
destination[i] = (ushort)(offset + factor * source[i]);
}
}
break;
case TestLabDataFormat.UInt32:
fixed(void *pointer = buffer)
{
uint *destination = (uint *)pointer;
for (int i = 0; i != length; ++i)
{
destination[i] = (uint)(offset + factor * source[i]);
}
}
break;
case TestLabDataFormat.Int8:
fixed(void *pointer = buffer)
{
sbyte *destination = (sbyte *)pointer;
for (int i = 0; i != length; ++i)
{
destination[i] = (sbyte)(offset + factor * source[i]);
}
}
break;
case TestLabDataFormat.Int16:
fixed(void *pointer = buffer)
{
short *destination = (short *)pointer;
for (int i = 0; i != length; ++i)
{
destination[i] = (short)(offset + factor * source[i]);
}
}
break;
case TestLabDataFormat.Int32:
fixed(void *pointer = buffer)
{
int *destination = (int *)pointer;
for (int i = 0; i != length; ++i)
{
destination[i] = (int)(offset + factor * source[i]);
}
}
break;
case TestLabDataFormat.Float32:
fixed(void *pointer = buffer)
{
float *destination = (float *)pointer;
for (int i = 0; i != length; ++i)
{
destination[i] = (float)(offset + factor * source[i]);
}
}
break;
case TestLabDataFormat.Float64:
fixed(void *pointer = buffer)
{
double *destination = (double *)pointer;
for (int i = 0; i != length; ++i)
{
destination[i] = offset + factor * source[i];
}
}
break;
}
writer.Write(buffer, 0, buffer.Length);
writer.WriteUInt16(65535);
}
}
public static void SaveCatmanFrame(Frame frame, FileWriter writer)
{
Action <string> writeString = (string text) =>
{
writer.WriteInt16((short)text.Length);
if (text.Length > 0)
{
WriteASCIIString(writer, text, text.Length, false);
}
};
try
{
writer.Position = 0;
CatmanFrameHeader frameHeader = (CatmanFrameHeader)frame.Header.Convert(StorageFormat.Catman);
int numberOfChannels = frame.Channels.Count;
int[] offsetChannelLength = new int[numberOfChannels];
List <CatmanChannelHeader> channelHeaders = new List <CatmanChannelHeader>();
int dataOffset = 2 + 4 + 2 + frameHeader.Comment.Length;
for (int i = 0; i != 32; ++i)
{
dataOffset += 2 + frameHeader.Reserve[i].Length;
}
dataOffset += 2 + 4 + numberOfChannels * 4 + 4;
for (int i = 0; i != numberOfChannels; ++i)
{
Channel channel = frame.Channels[i];
CatmanChannelHeader channelHeader = (CatmanChannelHeader)channel.Header.Convert(StorageFormat.Catman);
channelHeaders.Add(channelHeader);
offsetChannelLength[i] = dataOffset + 2;
dataOffset += 2 + 4 + (2 + channelHeader.Name.Length)
+ (2 + channelHeader.Unit.Length) + (2 + channelHeader.Comment.Length);
dataOffset += 2 + 2 + 8 + 4 + 8 + 8 + 2 + 2 + 2 + 2 + 4 + 4 + 4 + 4 * 4 + 32
+ 8 + 8 + 2 * 4 + 2 * 4 + 2 * 3 + 2 + 4 + 4 + 4 * 2 + 2 + 9 + channelHeader.NumberOfPointsScaleTable * 8
+ 2 + (2 + channelHeader.Formula.Length) + 4 + 2 + 50 + 16;
}
writer.WriteUInt16(0x1394); // 2
writer.WriteInt32(dataOffset); // 4
writeString(frameHeader.Comment);
for (int i = 0; i != 32; ++i)
{
writeString(frameHeader.Reserve[i]);
}
writer.WriteInt16((short)numberOfChannels); // 2
writer.WriteInt32(frameHeader.MaximumChannelLength); // 4
for (int i = 0; i != numberOfChannels; ++i)
{
writer.WriteInt32(offsetChannelLength[i]); // 4
}
writer.WriteInt32(0); // 4
if (numberOfChannels > 0)
{
for (int i = 0; i != numberOfChannels; ++i)
{
if (offsetChannelLength[i] != writer.Position + 2)
{
throw new Exception();
}
Channel channel = frame.Channels[i];
CatmanChannelHeader channelHeader = channelHeaders[i];
int channelLength = channel.Length;
writer.WriteInt16((short)channelHeader.LocationInDatabase); // 2
writer.WriteInt32(channelLength); // 4
writeString(channelHeader.Name);
writeString(channelHeader.Unit);
writeString(channelHeader.Comment);
writer.WriteInt16((short)channelHeader.DataFormat); // 2
writer.WriteInt16((short)channelHeader.DataWidth); // 2
writer.WriteFloat64(channelHeader.Time.ToOADate()); // 8
writer.WriteInt32(148); // 4
writer.WriteFloat64(channelHeader.StartTime.ToOADate()); // 8
writer.WriteFloat64(channelHeader.SamplingTimeStep); // 8
writer.WriteInt16((short)channelHeader.CodeOfSensorType); // 2
writer.WriteInt16((short)channelHeader.CodeOfSupplyVoltage); // 2
writer.WriteInt16((short)channelHeader.CodeOfFilterCharacteristics); // 2
writer.WriteInt16((short)channelHeader.CodeOfFilterFrequency); // 2
writer.WriteFloat32((float)channelHeader.TareValue); // 4
writer.WriteFloat32((float)channelHeader.ZeroValue); // 4
writer.WriteFloat32((float)channelHeader.CodeOfMeasuringRange); // 4
writer.WriteFloat32((float)channelHeader.InputCharacteristics[0]); // 4
writer.WriteFloat32((float)channelHeader.InputCharacteristics[1]); // 4
writer.WriteFloat32((float)channelHeader.InputCharacteristics[2]); // 4
writer.WriteFloat32((float)channelHeader.InputCharacteristics[3]); // 4
WriteASCIIString(writer, channelHeader.AmplifierSerialNumber, 32, false); // 32
WriteASCIIString(writer, channelHeader.PhysicalUnit, 8, false); // 8
WriteASCIIString(writer, channelHeader.NativeUnit, 8, false); // 8
writer.WriteInt16((short)channelHeader.HardwareSlotNumber); // 2
writer.WriteInt16((short)channelHeader.HardwareSubSlotNumber); // 2
writer.WriteInt16((short)channelHeader.CodeOfAmplifierType); // 2
writer.WriteInt16((short)channelHeader.CodeOfAPConnectorType); // 2
writer.WriteFloat32((float)channelHeader.GageFactor); // 4
writer.WriteFloat32((float)channelHeader.BridgeFactor); // 4
writer.WriteInt16((short)channelHeader.CodeOfMeasurementSignal); // 2
writer.WriteInt16((short)channelHeader.CodeOfAmplifierInput); // 2
writer.WriteInt16((short)channelHeader.CodeOfHighpassFilter); // 2
writer.WriteUInt8((byte)channelHeader.OnlineImportInfo); // 1
writer.WriteUInt8((byte)channelHeader.CodeOfScaleType); // 1
writer.WriteFloat32((float)channelHeader.SoftwareZeroValue); // 4
writer.WriteUInt8((byte)channelHeader.WriteProtected); // 1
writer.WriteUInt8(0); // 1
writer.WriteUInt8(0); // 1
writer.WriteUInt8(0); // 1
writer.WriteFloat32((float)channelHeader.NominalRange); // 4
writer.WriteFloat32((float)channelHeader.CableLengthCompensation); // 4
writer.WriteUInt8((byte)channelHeader.ExportFormat); // 1
writer.WriteInt8((sbyte)channelHeader.ChannelType); // 1
writer.WriteUInt8((byte)channelHeader.EDaqConnectorOnLayer); // 1
writer.WriteUInt8((byte)channelHeader.EDaqLayer); // 1
writer.WriteUInt8((byte)channelHeader.ContentType); // 1
writer.WriteUInt8(0); // 1
writer.WriteUInt8(0); // 1
writer.WriteUInt8(0); // 1
writer.WriteUInt8((byte)channelHeader.LinearisationMode); // 1
writer.WriteUInt8((byte)channelHeader.UserScaleType); // 1
writer.WriteUInt8((byte)channelHeader.NumberOfPointsScaleTable); // 1
if (channelHeader.NumberOfPointsScaleTable != 0)
{
for (int j = 0; j != channelHeader.NumberOfPointsScaleTable; ++j)
{
writer.WriteFloat64(channelHeader.PointsScaleTable[j]); // 8
}
}
writer.WriteInt16((short)channelHeader.ThermoType); // 2
writeString(channelHeader.Formula);
writer.WriteInt32(68); // 4
writer.WriteInt16((short)(channelHeader.SensorInfo.InUse? 1: 0)); // 2
WriteASCIIString(writer, channelHeader.SensorInfo.Description, 50, false); // 50
WriteASCIIString(writer, channelHeader.SensorInfo.Tid, 16, false); // 16
}
// dataOffset = stream.Position
for (int i = 0; i != numberOfChannels; ++i)
{
Channel channel = frame.Channels[i];
CatmanChannelHeader channelHeader = channelHeaders[i];
switch (channelHeader.ExportFormat)
{
case 0:
for (int j = 0; j != channel.Length; ++j)
{
writer.WriteFloat64(channel[j]);
}
break;
case 1:
for (int j = 0; j != channel.Length; ++j)
{
writer.WriteFloat32((float)channel[j]);
}
break;
case 2:
writer.WriteFloat64(channelHeader.MinValueFactor);
writer.WriteFloat64(channelHeader.MinValueFactor);
for (int j = 0; j != channel.Length; ++j)
{
writer.WriteInt16((short)(32767 * (channel[j] - channelHeader.MinValueFactor) / (channelHeader.MinValueFactor - channelHeader.MinValueFactor)));
}
break;
default:
throw new InvalidDataException("Произошла попытка сохранить файл некорректного формата.");
}
}
writer.WriteInt16((short)4001);
for (int i = 0; i != numberOfChannels; ++i)
{
CatmanChannelHeader channelHeader = channelHeaders[i];
writeString(channelHeader.FormatString);
}
}
}
catch (Exception ex)
{
throw new InvalidOperationException("Произошла ошибка при записи файла.", ex);
}
}
