Files
UVtools/UVtools.Core/FileFormats/CXDLPv1File.cs
T
Tiago Conceição 774fe9d5d0 v2.20.5
- (Add) Setting - Max degree of parallelism: Sets the maximum number of concurrent tasks/threads/operations enabled to run by parallel method calls.
   If your computer lags and freeze during operations you can reduce this number to reduce the workload and keep some cores available to other tasks as well.
   <= 0: Will utilize however many threads the underlying scheduler provides, mostly this is the processor count.
   1: Single thread. (#279)
2021-08-31 17:06:46 +01:00

752 lines
28 KiB
C#

/*
* GNU AFFERO GENERAL PUBLIC LICENSE
* Version 3, 19 November 2007
* Copyright (C) 2007 Free Software Foundation, Inc. <https://fsf.org/>
* Everyone is permitted to copy and distribute verbatim copies
* of this license document, but changing it is not allowed.
*/
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Drawing;
using System.Globalization;
using System.IO;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using BinarySerialization;
using Emgu.CV;
using Emgu.CV.Structure;
using UVtools.Core.Extensions;
using UVtools.Core.Operations;
namespace UVtools.Core.FileFormats
{
public class CXDLPv1File : FileFormat
{
#region Constants
private const byte HEADER_SIZE = 9; // CXSW3DV2
private const string HEADER_VALUE = "CXSW3DV2";
#endregion
#region Sub Classes
#region Header
public sealed class Header
{
/// <summary>
/// Gets the size of the header
/// </summary>
[FieldOrder(0)]
[FieldEndianness(Endianness.Big)]
public uint HeaderSize { get; set; } = HEADER_SIZE;
/// <summary>
/// Gets the header name
/// </summary>
[FieldOrder(1)]
[FieldLength(HEADER_SIZE)]
[SerializeAs(SerializedType.TerminatedString)]
public string HeaderValue { get; set; } = HEADER_VALUE;
/// <summary>
/// Gets the number of records in the layer table
/// </summary>
[FieldOrder(2)]
[FieldEndianness(Endianness.Big)]
public ushort LayerCount { get; set; }
/// <summary>
/// Gets the printer resolution along X axis, in pixels. This information is critical to correctly decoding layer images.
/// </summary>
[FieldOrder(3)]
[FieldEndianness(Endianness.Big)]
public ushort ResolutionX { get; set; }
/// <summary>
/// Gets the printer resolution along Y axis, in pixels. This information is critical to correctly decoding layer images.
/// </summary>
[FieldOrder(4)]
[FieldEndianness(Endianness.Big)]
public ushort ResolutionY { get; set; }
public void Validate()
{
if (HeaderSize != HEADER_SIZE || HeaderValue != HEADER_VALUE)
{
throw new FileLoadException("Not a valid CXDLP file!");
}
}
public override string ToString()
{
return $"{nameof(HeaderSize)}: {HeaderSize}, {nameof(HeaderValue)}: {HeaderValue}, {nameof(LayerCount)}: {LayerCount}, {nameof(ResolutionX)}: {ResolutionX}, {nameof(ResolutionY)}: {ResolutionY}";
}
}
#endregion
#region SlicerInfo
// Address: 363407
public sealed class SlicerInfo
{
[FieldOrder(0)]
[FieldEndianness(Endianness.Big)]
public uint DisplayWidthDataSize { get; set; } = 20;
[FieldOrder(1)]
[FieldLength(nameof(DisplayWidthDataSize))]
public byte[] DisplayWidthBytes { get; set; }
[FieldOrder(2)]
[FieldEndianness(Endianness.Big)]
public uint DisplayHeightDataSize { get; set; } = 20;
[FieldOrder(3)]
[FieldLength(nameof(DisplayHeightDataSize))]
public byte[] DisplayHeightBytes { get; set; }
[FieldOrder(4)]
[FieldEndianness(Endianness.Big)]
public uint LayerHeightDataSize { get; set; } = 16;
[FieldOrder(5)]
[FieldLength(nameof(LayerHeightDataSize))]
public byte[] LayerHeightBytes { get; set; }
[FieldOrder(6)]
[FieldEndianness(Endianness.Big)]
public ushort WaitTimeBeforeCure { get; set; }
[FieldOrder(7)]
[FieldEndianness(Endianness.Big)]
public ushort ExposureTime { get; set; }
[FieldOrder(8)]
[FieldEndianness(Endianness.Big)]
public ushort BottomExposureTime { get; set; }
[FieldOrder(9)]
[FieldEndianness(Endianness.Big)]
public ushort BottomLayersCount { get; set; }
[FieldOrder(10)]
[FieldEndianness(Endianness.Big)]
public ushort BottomLiftHeight { get; set; }
[FieldOrder(11)]
[FieldEndianness(Endianness.Big)]
public ushort BottomLiftSpeed { get; set; }
[FieldOrder(12)]
[FieldEndianness(Endianness.Big)]
public ushort LiftHeight { get; set; }
[FieldOrder(13)]
[FieldEndianness(Endianness.Big)]
public ushort LiftSpeed { get; set; }
[FieldOrder(14)]
[FieldEndianness(Endianness.Big)]
public ushort RetractSpeed { get; set; }
[FieldOrder(15)]
[FieldEndianness(Endianness.Big)]
public ushort BottomLightPWM { get; set; } = 255;
[FieldOrder(16)]
[FieldEndianness(Endianness.Big)]
public ushort LightPWM { get; set; } = 255;
public override string ToString()
{
return $"{nameof(DisplayWidthDataSize)}: {DisplayWidthDataSize}, {nameof(DisplayWidthBytes)}: {DisplayWidthBytes}, {nameof(DisplayHeightDataSize)}: {DisplayHeightDataSize}, {nameof(DisplayHeightBytes)}: {DisplayHeightBytes}, {nameof(LayerHeightDataSize)}: {LayerHeightDataSize}, {nameof(LayerHeightBytes)}: {LayerHeightBytes}, {nameof(ExposureTime)}: {ExposureTime}, {nameof(WaitTimeBeforeCure)}: {WaitTimeBeforeCure}, {nameof(BottomExposureTime)}: {BottomExposureTime}, {nameof(BottomLayersCount)}: {BottomLayersCount}, {nameof(BottomLiftHeight)}: {BottomLiftHeight}, {nameof(BottomLiftSpeed)}: {BottomLiftSpeed}, {nameof(LiftHeight)}: {LiftHeight}, {nameof(LiftSpeed)}: {LiftSpeed}, {nameof(RetractSpeed)}: {RetractSpeed}, {nameof(BottomLightPWM)}: {BottomLightPWM}, {nameof(LightPWM)}: {LightPWM}";
}
}
#endregion
#region Layer Def
public sealed class PreLayer
{
[FieldOrder(0)]
[FieldEndianness(Endianness.Big)]
public uint Unknown { get; set; }
public PreLayer()
{
}
public PreLayer(uint unknown)
{
Unknown = unknown;
}
}
public sealed class LayerDef
{
[FieldOrder(0)] [FieldEndianness(Endianness.Big)] public uint Unknown { get; set; }
[FieldOrder(1)] [FieldEndianness(Endianness.Big)] public uint LineCount { get; set; }
[FieldOrder(2)] [FieldCount(nameof(LineCount))] public LayerLine[] Lines { get; set; }
[FieldOrder(3)] public PageBreak PageBreak { get; set; } = new();
public static byte[] GetHeaderBytes(uint unknown, uint lineCount)
{
var bytes = new byte[8];
BitExtensions.ToBytesBigEndian(unknown, bytes);
BitExtensions.ToBytesBigEndian(lineCount, bytes, 4);
return bytes;
}
public LayerDef() { }
public LayerDef(uint unknown, uint lineCount, LayerLine[] lines)
{
Unknown = unknown;
LineCount = lineCount;
Lines = lines;
}
}
public sealed class LayerLine
{
public const byte CoordinateCount = 5;
[FieldOrder(0)] [FieldCount(CoordinateCount)] public byte[] Coordinates { get; set; } = new byte[CoordinateCount];
//[FieldOrder(0)] [FieldEndianness(Endianness.Big)] [FieldBitLength(13)] public ushort StartY { get; set; }
//[FieldOrder(1)] [FieldEndianness(Endianness.Big)] [FieldBitLength(13)] public ushort EndY { get; set; }
//[FieldOrder(2)] [FieldEndianness(Endianness.Big)] [FieldBitLength(14)] public ushort StartX { get; set; }
[FieldOrder(1)] public byte Gray { get; set; }
[Ignore] public ushort StartY => (ushort)((((Coordinates[0] << 8) + Coordinates[1]) >> 3) & 0x1FFF); // 13 bits
[Ignore] public ushort EndY => (ushort)((((Coordinates[1] << 16) + (Coordinates[2] << 8) + Coordinates[3]) >> 6) & 0x1FFF); // 13 bits
[Ignore] public ushort StartX => (ushort)(((Coordinates[3] << 8) + Coordinates[4]) & 0x3FFF); // 14 bits
[Ignore] public ushort Length => (ushort)(EndY - StartY);
public static byte[] GetBytes(ushort startY, ushort endY, ushort startX, byte gray)
{
var bytes = new byte[CoordinateCount + 1];
bytes[0] = (byte)((startY >> 5) & 0xFF);
bytes[1] = (byte)(((startY << 3) + (endY >> 10)) & 0xFF);
bytes[2] = (byte)((endY >> 2) & 0xFF);
bytes[3] = (byte)(((endY << 6) + (startX >> 8)) & 0xFF);
bytes[4] = (byte)startX;
bytes[5] = gray;
return bytes;
}
public LayerLine() { }
public LayerLine(ushort startY, ushort endY, ushort startX, byte gray)
{
Coordinates[0] = (byte)((startY >> 5) & 0xFF);
Coordinates[1] = (byte)(((startY << 3) + (endY >> 10)) & 0xFF);
Coordinates[2] = (byte)((endY >> 2) & 0xFF);
Coordinates[3] = (byte)(((endY << 6) + (startX >> 8)) & 0xFF);
Coordinates[4] = (byte)startX;
/*StartY = startY;
EndY = endY;
StartX = startX;*/
Gray = gray;
}
public override string ToString()
{
return $"{nameof(Gray)}: {Gray}, {nameof(StartY)}: {StartY}, {nameof(EndY)}: {EndY}, {nameof(StartX)}: {StartX}, {nameof(Length)}: {Length}";
}
}
public sealed class PageBreak
{
public static byte[] Bytes => new byte[] { 0x0D, 0x0A };
[FieldOrder(0)] public byte Line { get; set; } = 0x0D;
[FieldOrder(1)] public byte Break { get; set; } = 0x0A;
}
#endregion
#region Footer
public sealed class Footer
{
/// <summary>
/// Gets the size of the header
/// </summary>
[FieldOrder(0)]
[FieldEndianness(Endianness.Big)]
public uint FooterSize { get; set; } = HEADER_SIZE;
/// <summary>
/// Gets the header name
/// </summary>
[FieldOrder(1)]
[FieldLength(HEADER_SIZE)]
[SerializeAs(SerializedType.TerminatedString)]
public string FooterValue { get; set; } = HEADER_VALUE;
[FieldOrder(2)]
[FieldEndianness(Endianness.Big)]
public uint Unknown { get; set; } = 7;
public void Validate()
{
if (FooterSize != HEADER_SIZE || FooterValue != HEADER_VALUE)
{
throw new FileLoadException("Not a valid CXDLP file!");
}
}
}
#endregion
#endregion
#region Properties
public Header HeaderSettings { get; protected internal set; } = new();
public SlicerInfo SlicerInfoSettings { get; protected internal set; } = new();
public Footer FooterSettings { get; protected internal set; } = new();
public override FileFormatType FileType => FileFormatType.Binary;
public override FileExtension[] FileExtensions { get; } = {
new(typeof(CXDLPv1File), "v1.cxdlp", "Creality CXDLP v1"),
};
public override PrintParameterModifier[] PrintParameterModifiers { get; } =
{
PrintParameterModifier.BottomLayerCount,
PrintParameterModifier.WaitTimeBeforeCure,
PrintParameterModifier.BottomExposureTime,
PrintParameterModifier.ExposureTime,
PrintParameterModifier.BottomLiftHeight,
PrintParameterModifier.BottomLiftSpeed,
PrintParameterModifier.LiftHeight,
PrintParameterModifier.LiftSpeed,
PrintParameterModifier.RetractSpeed,
PrintParameterModifier.BottomLightPWM,
PrintParameterModifier.LightPWM,
};
public override Size[] ThumbnailsOriginalSize { get; } =
{
new(116, 116),
new(290, 290),
new(290, 290)
};
public override uint ResolutionX
{
get => HeaderSettings.ResolutionX;
set
{
HeaderSettings.ResolutionX = (ushort)value;
RaisePropertyChanged();
}
}
public override uint ResolutionY
{
get => HeaderSettings.ResolutionY;
set
{
HeaderSettings.ResolutionY = (ushort)value;
RaisePropertyChanged();
}
}
public override float DisplayWidth
{
get => float.Parse(Encoding.ASCII.GetString(SlicerInfoSettings.DisplayWidthBytes.Where(b => b != 0).ToArray()));
set
{
string str = Math.Round(value, 2).ToString(CultureInfo.InvariantCulture);
SlicerInfoSettings.DisplayWidthDataSize = (uint)(str.Length * 2);
var data = new byte[SlicerInfoSettings.DisplayWidthDataSize];
for (var i = 0; i < str.Length; i++)
{
data[i * 2 + 1] = System.Convert.ToByte(str[i]);
}
SlicerInfoSettings.DisplayWidthBytes = data;
RaisePropertyChanged();
}
}
public override float DisplayHeight
{
get => float.Parse(Encoding.ASCII.GetString(SlicerInfoSettings.DisplayHeightBytes.Where(b => b != 0).ToArray()));
set
{
string str = Math.Round(value, 2).ToString(CultureInfo.InvariantCulture);
SlicerInfoSettings.DisplayHeightDataSize = (uint)(str.Length * 2);
var data = new byte[SlicerInfoSettings.DisplayHeightDataSize];
for (var i = 0; i < str.Length; i++)
{
data[i * 2 + 1] = System.Convert.ToByte(str[i]);
}
SlicerInfoSettings.DisplayHeightBytes = data;
RaisePropertyChanged();
}
}
public override float LayerHeight
{
get => float.Parse(Encoding.ASCII.GetString(SlicerInfoSettings.LayerHeightBytes.Where(b => b != 0).ToArray()));
set
{
string str = Layer.RoundHeight(value).ToString(CultureInfo.InvariantCulture);
SlicerInfoSettings.LayerHeightDataSize = (uint)(str.Length * 2);
var data = new byte[SlicerInfoSettings.LayerHeightDataSize];
for (var i = 0; i < str.Length; i++)
{
data[i * 2 + 1] = System.Convert.ToByte(str[i]);
}
SlicerInfoSettings.LayerHeightBytes = data;
RaisePropertyChanged();
}
}
public override uint LayerCount
{
get => base.LayerCount;
set => base.LayerCount = HeaderSettings.LayerCount = (ushort)base.LayerCount;
}
public override ushort BottomLayerCount
{
get => SlicerInfoSettings.BottomLayersCount;
set => base.BottomLayerCount = SlicerInfoSettings.BottomLayersCount = value;
}
public override float BottomWaitTimeBeforeCure => WaitTimeBeforeCure;
public override float WaitTimeBeforeCure
{
get => SlicerInfoSettings.WaitTimeBeforeCure;
set => base.WaitTimeBeforeCure = SlicerInfoSettings.WaitTimeBeforeCure = (ushort)value;
}
public override float BottomExposureTime
{
get => SlicerInfoSettings.BottomExposureTime;
set => base.BottomExposureTime = SlicerInfoSettings.BottomExposureTime = (ushort)value;
}
public override float ExposureTime
{
get => SlicerInfoSettings.ExposureTime;
set => base.ExposureTime = SlicerInfoSettings.ExposureTime = (ushort)value;
}
public override float BottomLiftHeight
{
get => SlicerInfoSettings.BottomLiftHeight;
set => base.BottomLiftHeight = SlicerInfoSettings.BottomLiftHeight = (ushort)value;
}
public override float LiftHeight
{
get => SlicerInfoSettings.LiftHeight;
set => base.LiftHeight = SlicerInfoSettings.LiftHeight = (ushort)value;
}
public override float BottomLiftSpeed
{
get => SlicerInfoSettings.BottomLiftSpeed;
set => base.BottomLiftSpeed = SlicerInfoSettings.BottomLiftSpeed = (ushort)value;
}
public override float LiftSpeed
{
get => SlicerInfoSettings.LiftSpeed;
set => base.LiftSpeed = SlicerInfoSettings.LiftSpeed = (ushort)value;
}
public override float BottomRetractSpeed => RetractSpeed;
public override float RetractSpeed
{
get => SlicerInfoSettings.RetractSpeed;
set => base.RetractSpeed = SlicerInfoSettings.RetractSpeed = (ushort)value;
}
public override byte BottomLightPWM
{
get => (byte)SlicerInfoSettings.BottomLightPWM;
set => base.BottomLightPWM = (byte)(SlicerInfoSettings.BottomLightPWM = value);
}
public override byte LightPWM
{
get => (byte)SlicerInfoSettings.LightPWM;
set => base.LightPWM = (byte)(SlicerInfoSettings.LightPWM = value);
}
public override object[] Configs => new object[] { HeaderSettings, SlicerInfoSettings, FooterSettings };
#endregion
#region Constructors
#endregion
#region Methods
protected override void EncodeInternally(string fileFullPath, OperationProgress progress)
{
using var outputFile = new FileStream(fileFullPath, FileMode.Create, FileAccess.Write);
if (ResolutionX == 2560 && ResolutionY == 1620)
{
MachineName = "CL-60";
}
else if (ResolutionX == 3840 && ResolutionY == 2400)
{
MachineName = "CL-89";
}
var pageBreak = PageBreak.Bytes;
Helpers.SerializeWriteFileStream(outputFile, HeaderSettings);
var previews = new byte[ThumbnailsOriginalSize.Length][];
// Previews
Parallel.For(0, previews.Length, CoreSettings.ParallelOptions, previewIndex =>
{
if (progress.Token.IsCancellationRequested) return;
var encodeLength = ThumbnailsOriginalSize[previewIndex].Area() * 2;
if (Thumbnails[previewIndex] is null)
{
previews[previewIndex] = new byte[encodeLength];
return;
}
previews[previewIndex] = EncodeImage(DATATYPE_RGB565_BE, Thumbnails[previewIndex]);
if (encodeLength != previews[previewIndex].Length)
{
throw new FileLoadException($"Preview encode incomplete encode, expected: {previews[previewIndex].Length}, encoded: {encodeLength}");
}
});
for (int i = 0; i < ThumbnailsOriginalSize.Length; i++)
{
Helpers.SerializeWriteFileStream(outputFile, previews[i]);
outputFile.WriteBytes(pageBreak);
previews[i] = null;
}
Helpers.SerializeWriteFileStream(outputFile, SlicerInfoSettings);
progress.Reset(OperationProgress.StatusEncodeLayers, LayerCount);
for (int layerIndex = 0; layerIndex < LayerCount; layerIndex++)
{
outputFile.WriteBytes(BitExtensions.ToBytesBigEndian(this[layerIndex].NonZeroPixelCount));
}
outputFile.WriteBytes(pageBreak);
var layerBytes = new List<byte>[LayerCount];
foreach (var batch in BatchLayersIndexes())
{
progress.Token.ThrowIfCancellationRequested();
Parallel.ForEach(batch, CoreSettings.ParallelOptions, layerIndex =>
{
if (progress.Token.IsCancellationRequested) return;
var layer = this[layerIndex];
using (var mat = layer.LayerMat)
{
var span = mat.GetDataByteSpan();
layerBytes[layerIndex] = new();
uint lineCount = 0;
for (int x = layer.BoundingRectangle.X; x < layer.BoundingRectangle.Right; x++)
{
int y = layer.BoundingRectangle.Y;
int startY = -1;
byte lastColor = 0;
for (; y < layer.BoundingRectangle.Bottom; y++)
{
int pos = mat.GetPixelPos(x, y);
byte color = span[pos];
if (lastColor == color && color != 0) continue;
if (startY >= 0)
{
layerBytes[layerIndex].AddRange(LayerLine.GetBytes((ushort)startY, (ushort)(y - 1),
(ushort)x, lastColor));
lineCount++;
}
startY = color == 0 ? -1 : y;
lastColor = color;
}
if (startY >= 0)
{
layerBytes[layerIndex].AddRange(LayerLine.GetBytes((ushort)startY, (ushort)(y - 1),
(ushort)x, lastColor));
lineCount++;
}
}
layerBytes[layerIndex].InsertRange(0, LayerDef.GetHeaderBytes(layer.NonZeroPixelCount, lineCount));
layerBytes[layerIndex].AddRange(pageBreak);
}
progress.LockAndIncrement();
});
progress.Token.ThrowIfCancellationRequested();
foreach (var layerIndex in batch)
{
outputFile.WriteBytes(layerBytes[layerIndex].ToArray());
layerBytes[layerIndex] = null;
}
}
Helpers.SerializeWriteFileStream(outputFile, FooterSettings);
Debug.WriteLine("Encode Results:");
Debug.WriteLine(HeaderSettings);
Debug.WriteLine(SlicerInfoSettings);
Debug.WriteLine("-End-");
}
protected override void DecodeInternally(string fileFullPath, OperationProgress progress)
{
using var inputFile = new FileStream(fileFullPath, FileMode.Open, FileAccess.Read);
HeaderSettings = Helpers.Deserialize<Header>(inputFile);
HeaderSettings.Validate();
Debug.WriteLine(HeaderSettings);
byte[][] previews = new byte[ThumbnailsOriginalSize.Length][];
for (int i = 0; i < ThumbnailsOriginalSize.Length; i++)
{
previews[i] = new byte[ThumbnailsOriginalSize[i].Area() * 2];
inputFile.ReadBytes(previews[i]);
inputFile.Seek(2, SeekOrigin.Current);
}
Parallel.For(0, previews.Length, CoreSettings.ParallelOptions, previewIndex =>
{
Thumbnails[previewIndex] = DecodeImage(DATATYPE_RGB565_BE, previews[previewIndex], ThumbnailsOriginalSize[previewIndex]);
previews[previewIndex] = null;
});
SlicerInfoSettings = Helpers.Deserialize<SlicerInfo>(inputFile);
Debug.WriteLine(SlicerInfoSettings);
LayerManager.Init(HeaderSettings.LayerCount);
inputFile.Seek(LayerCount * 4 + 2, SeekOrigin.Current); // Skip pre layers
progress.Reset(OperationProgress.StatusDecodeLayers, LayerCount);
var range = Enumerable.Range(0, (int)LayerCount);
var linesBytes = new byte[LayerCount][];
foreach (var batch in BatchLayersIndexes())
{
progress.Token.ThrowIfCancellationRequested();
foreach (var layerIndex in batch)
{
inputFile.Seek(4, SeekOrigin.Current);
var lineCount = BitExtensions.ToUIntBigEndian(inputFile.ReadBytes(4));
linesBytes[layerIndex] = new byte[lineCount * 6];
inputFile.ReadBytes(linesBytes[layerIndex]);
inputFile.Seek(2, SeekOrigin.Current);
progress.Token.ThrowIfCancellationRequested();
}
Parallel.ForEach(batch, CoreSettings.ParallelOptions, layerIndex =>
{
if (progress.Token.IsCancellationRequested) return;
using (var mat = EmguExtensions.InitMat(Resolution))
{
for (int i = 0; i < linesBytes[layerIndex].Length; i++)
{
LayerLine line = new()
{
Coordinates =
{
[0] = linesBytes[layerIndex][i++],
[1] = linesBytes[layerIndex][i++],
[2] = linesBytes[layerIndex][i++],
[3] = linesBytes[layerIndex][i++],
[4] = linesBytes[layerIndex][i++]
},
Gray = linesBytes[layerIndex][i]
};
CvInvoke.Line(mat, new Point(line.StartX, line.StartY), new Point(line.StartX, line.EndY),
new MCvScalar(line.Gray));
}
linesBytes[layerIndex] = null;
this[layerIndex] = new Layer((uint)layerIndex, mat, this);
}
progress.LockAndIncrement();
});
}
progress.Token.ThrowIfCancellationRequested();
FooterSettings = Helpers.Deserialize<Footer>(inputFile);
FooterSettings.Validate();
}
public override void SaveAs(string filePath = null, OperationProgress progress = null)
{
if (RequireFullEncode)
{
if (!string.IsNullOrEmpty(filePath))
{
FileFullPath = filePath;
}
Encode(FileFullPath, progress);
return;
}
if (!string.IsNullOrEmpty(filePath))
{
File.Copy(FileFullPath, filePath, true);
FileFullPath = filePath;
}
var offset = Helpers.Serializer.SizeOf(HeaderSettings);
foreach (var size in ThumbnailsOriginalSize)
{
offset += size.Area() * 2 + 2; // + page break
}
using var outputFile = new FileStream(FileFullPath, FileMode.Open, FileAccess.Write);
outputFile.Seek(offset, SeekOrigin.Begin);
Helpers.SerializeWriteFileStream(outputFile, SlicerInfoSettings);
}
#endregion
}
}