Files
UVtools/UVtools.Core/Operations/OperationLayerImport.cs
T
Tiago Conceição 57b8a9dc84 v3.2.0
- **Core:**
   - (Add) Machine presets and able to load machine collection from PrusaSlicer
   - (Improvement) Core: Reference EmguCV runtimes into core instead of the UI project
- **File formats:**
   - **CXDLP:**
      - (Add) Detection support for Halot One Pro
      - (Add) Detection support for Halot One Plus
      - (Add) Detection support for Halot Sky Plus
      - (Add) Detection support for Halot Lite
      - (Improvement) Better handling and detection of printer model when converting
      - (Improvement) Discovered more fields meanings on format
      - (Fix) Exposure time in format is `round(time * 10, 1)`
      - (Fix) Speeds in format are in mm/s, was using mm/min before
   - (Add) JXS format for Uniformation GKone [Zip+GCode]
   - (Improvement) Saving and converting files now handle the file backup on Core instead on the UI, which prevents scripts and other projects lose the original file in case of error while saving
   - (Fix) After load files they was flagged as requiring a full encode, preventing fast save a fresh file
- **UVtoolsCmd:**
   - Bring back the commandline project
   - Consult README to see the available commands and syntax
   - Old terminal commands on UVtools still works for now, but consider switch to UVtoolsCmd or redirect the command using `UVtools --cmd "commands"`
- **Tools:**
   - **Change print resolution:**
      - (Add) Allow to change the display size to match the new printer
      - (Add) Machine presets to help set both resolution and display size to a correct printer and auto set fix pixel ratio
      - (Improvement) Real pixel pitch fixer due new display size information, this allow full transfers between different printers "without" invalidating the model size
      - (Improvement) Better arrangement of  the layout
   - (Add) Infill: Option "Reinforce infill if possible", it was always on before, now default is off and configurable
   - (Improvement) Always allow to export settings from tools
- **GCode:**
   - (Improvement) After print the last layer, do one lift with the same layer settings before attempt a fast move to top
   - (Improvement) Use the highest defined speed to send the build plate to top after finish print
   - (Improvement) Append a wait sync command in the end of gcode if needed
   - (Fix) When lift without a retract it still output the motor sync delay for the retract time and the wait time after retract
- **PrusaSlicer:**
   - (Add) Printer: Creality Halot One Pro CL-70
   - (Add) Printer: Creality Halot One Plus CL-79
   - (Add) Printer: Creality Halot Sky Plus CL-92
   - (Add) Printer: Creality Halot Lite CL-89L
   - (Add) Printer: Creality Halot Lite CL-89L
   - (Add) Printer: Creality CT133 Pro
   - (Add) Printer: Creality CT-005 Pro
   - (Add) Printer: Uniformation GKone
   - (Add) Printer: FlashForge Foto 8.9S
   - (Add) Printer: Elegoo Mars 2
   - (Improvement) Rename all Creality printers
   - (Fix) Creality model in print notes
2022-03-26 03:38:39 +00:00

524 lines
21 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 Emgu.CV;
using Emgu.CV.CvEnum;
using System;
using System.Collections.Generic;
using System.Collections.ObjectModel;
using System.ComponentModel;
using System.Drawing;
using System.IO;
using System.Text;
using System.Threading.Tasks;
using System.Xml.Serialization;
using UVtools.Core.Extensions;
using UVtools.Core.FileFormats;
using UVtools.Core.Layers;
using UVtools.Core.Objects;
namespace UVtools.Core.Operations;
[Serializable]
public sealed class OperationLayerImport : Operation
{
#region Enums
public enum ImportTypes : byte
{
[Description("Insert: Inserts the new imported layers")]
Insert,
[Description("Replace: Replaces layers with the imported layers")]
Replace,
[Description("Stack: Stacks and combine imported layers in the current layers")]
Stack,
[Description("MergeSum: Merges current layers with the imported content by summing value of layer pixels")]
MergeSum,
[Description("MergeMax: Merges current layers with the imported content by using the maximum value of layer pixels")]
MergeMax,
[Description("Subtract: Subtracts current layers with the imported content")]
Subtract,
[Description("AbsDiff: Absolute difference between current layers and the imported content")]
AbsDiff,
[Description("BitwiseAnd: Perform a 'bitwise AND' operation over layers and the imported pixels")]
BitwiseAnd,
[Description("BitwiseOr: Perform a 'bitwise OR' operation over layers and the imported pixels")]
BitwiseOr,
[Description("BitwiseXOr: Perform a 'bitwise XOR' operation over layers and the imported pixels")]
BitwiseXOr,
}
#endregion
#region Members
private ImportTypes _importType = ImportTypes.Stack;
private uint _startLayerIndex;
private bool _extendBeyondLayerCount = true;
private bool _discardUnmodifiedLayers;
private ushort _stackMargin = 50;
private RangeObservableCollection<ValueDescription> _files = new();
#endregion
#region Overrides
public override LayerRangeSelection StartLayerRangeSelection => LayerRangeSelection.None;
public override bool CanROI => false;
public override string IconClass => "mdi-database-import";
public override string Title => "Import layers";
public override string Description =>
"Import layers from local files into the model at a selected layer height.\n" +
"NOTE: Imported images must be greyscale and have the same resolution as the model.";
public override string ConfirmationText => $"{_importType} import {Count} file{(Count>=1?"s":"")}?";
public override string ProgressTitle =>
$"{_importType} importing {Count} file{(Count>=1 ? "s" : "")}";
public override string ProgressAction => "Imported layers";
public override bool CanCancel => true;
public override uint LayerIndexEnd => _startLayerIndex + Count - 1;
public override bool CanHaveProfiles => false;
public override string? ValidateInternally()
{
/*var result = new ConcurrentBag<StringTag>();
Parallel.ForEach(Files, CoreSettings.ParallelOptions, file =>
{
using (Mat mat = CvInvoke.Imread(file.TagString, ImreadModes.AnyColor))
{
if (mat.Size != FileResolution)
{
result.Add(file);
}
}
});
if (result.IsEmpty) return null;
var message = new StringBuilder();
message.AppendLine($"The following {result.Count} files mismatched the target resolution of {FileResolution.Width}x{FileResolution.Height}:");
message.AppendLine();
uint count = 0;
foreach (var file in result)
{
count++;
if (count == 20)
{
message.AppendLine("... Too many to show ...");
break;
}
message.AppendLine(file.Content);
}
return new StringTag(message.ToString(), result);*/
StringBuilder sb = new();
if (_files.Count == 0)
{
sb.AppendLine("No files to import.");
}
return sb.ToString();
}
#endregion
#region Properties
public ImportTypes ImportType
{
get => _importType;
set
{
if(!RaiseAndSetIfChanged(ref _importType, value)) return;
RaisePropertyChanged(nameof(IsImportStackType));
RaisePropertyChanged(nameof(IsExtendBeyondLayerCountVisible));
}
}
public static Array ImportTypesItems => Enum.GetValues(typeof(ImportTypes));
public bool IsImportStackType => _importType == ImportTypes.Stack;
public uint StartLayerIndex
{
get => _startLayerIndex;
set => RaiseAndSetIfChanged(ref _startLayerIndex, value);
}
public bool ExtendBeyondLayerCount
{
get => _extendBeyondLayerCount;
set => RaiseAndSetIfChanged(ref _extendBeyondLayerCount, value);
}
public bool IsExtendBeyondLayerCountVisible => _importType is ImportTypes.Replace or ImportTypes.Stack or ImportTypes.MergeSum or ImportTypes.MergeMax;
public bool DiscardUnmodifiedLayers
{
get => _discardUnmodifiedLayers;
set => RaiseAndSetIfChanged(ref _discardUnmodifiedLayers, value);
}
public ushort StackMargin
{
get => _stackMargin;
set => RaiseAndSetIfChanged(ref _stackMargin, value);
}
[XmlIgnore]
public RangeObservableCollection<ValueDescription> Files
{
get => _files;
set => RaiseAndSetIfChanged(ref _files, value);
}
public uint Count => (uint)_files.Count;
#endregion
#region Constructor
public OperationLayerImport() { }
public OperationLayerImport(FileFormat slicerFile) : base(slicerFile) { }
#endregion
#region Methods
public void AddFile(string file)
{
_files.Add(new ValueDescription(file, Path.GetFileNameWithoutExtension(file)));
}
public void Sort()
{
_files.Sort((file1, file2) => string.Compare(Path.GetFileNameWithoutExtension(file1.ValueAsString), Path.GetFileNameWithoutExtension(file2.ValueAsString), StringComparison.Ordinal));
}
/*public uint CalculateTotalLayers(uint totalLayers)
{
if (DiscardRemainingLayers)
{
return (uint) (1 + InsertAfterLayerIndex + Files.Count - (ReplaceStartLayer ? 1 : 0));
}
if (ReplaceSubsequentLayers)
{
uint result = (uint) (1 + InsertAfterLayerIndex + Files.Count - (ReplaceStartLayer ? 1 : 0));
return result <= totalLayers ? totalLayers : result;
}
return (uint)(totalLayers + Files.Count - (ReplaceStartLayer ? 1 : 0));
}*/
public override string ToString()
{
var result = $"[Files: {Count}]" + LayerRangeString;
if (!string.IsNullOrEmpty(ProfileName)) result = $"{ProfileName}: {result}";
return result;
}
protected override bool ExecuteInternally(OperationProgress progress)
{
progress.ItemCount = 0;
var result = SlicerFile.SuppressRebuildPropertiesWork(() => {
List<FileFormat> fileFormats = new();
List<KeyValuePair<uint, string>> keyImage = new();
int lastProcessedLayerIndex = -1;
// Order raw images
for (int i = 0; i < Count; i++)
{
if (!_files[i].ValueAsString.EndsWith(".png", StringComparison.OrdinalIgnoreCase) &&
!_files[i].ValueAsString.EndsWith(".bmp", StringComparison.OrdinalIgnoreCase) &&
!_files[i].ValueAsString.EndsWith(".jpeg", StringComparison.OrdinalIgnoreCase) &&
!_files[i].ValueAsString.EndsWith(".jpg", StringComparison.OrdinalIgnoreCase) &&
!_files[i].ValueAsString.EndsWith(".gif", StringComparison.OrdinalIgnoreCase)) continue;
keyImage.Add(new KeyValuePair<uint, string>((uint)keyImage.Count, _files[i].ValueAsString));
}
// Create virtual file format with images
if (keyImage.Count > 0)
{
progress.Reset("Packing images", (uint)keyImage.Count);
SL1File format = new();
format.Init((uint)keyImage.Count);
Parallel.ForEach(keyImage, CoreSettings.GetParallelOptions(progress), pair =>
{
using var mat = CvInvoke.Imread(pair.Value, ImreadModes.Grayscale);
if (pair.Key == 0) format.Resolution = mat.Size;
format[pair.Key] = new Layer(pair.Key, mat, format);
progress.LockAndIncrement();
});
fileFormats.Add(format);
}
// Order remaining possible file formats
for (int i = 0; i < Count; i++)
{
if (_files[i].ValueAsString.EndsWith(".png", StringComparison.OrdinalIgnoreCase) ||
_files[i].ValueAsString.EndsWith(".bmp", StringComparison.OrdinalIgnoreCase) ||
_files[i].ValueAsString.EndsWith(".jpeg", StringComparison.OrdinalIgnoreCase) ||
_files[i].ValueAsString.EndsWith(".jpg", StringComparison.OrdinalIgnoreCase) ||
_files[i].ValueAsString.EndsWith(".gif", StringComparison.OrdinalIgnoreCase)) continue;
var fileFormat = FileFormat.FindByExtensionOrFilePath(_files[i].ValueAsString, true);
if (fileFormat is null) continue;
fileFormat.FileFullPath = _files[i].ValueAsString;
fileFormats.Add(fileFormat);
}
progress.ThrowIfCancellationRequested();
if (fileFormats.Count == 0) return false;
if (_importType == ImportTypes.Stack)
{
new OperationMove(SlicerFile, Anchor.TopLeft).Execute(progress);
}
foreach (var fileFormat in fileFormats)
{
if (!string.IsNullOrEmpty(fileFormat.FileFullPath))
{
fileFormat.Decode(fileFormat.FileFullPath, progress);
}
var boundingRectangle = SlicerFile.GetBoundingRectangle(progress);
var fileFormatBoundingRectangle = fileFormat.GetBoundingRectangle(progress);
var roiRectangle = Rectangle.Empty;
// Check if is possible to process this file
switch (_importType)
{
case ImportTypes.Insert:
if (SlicerFile.Resolution != fileFormat.Resolution &&
(SlicerFile.Resolution.Width < fileFormatBoundingRectangle.Width ||
SlicerFile.Resolution.Height < fileFormatBoundingRectangle.Height)) continue;
SlicerFile.ReallocateInsert(_startLayerIndex, fileFormat.LayerCount);
break;
case ImportTypes.Replace:
case ImportTypes.Stack:
if (SlicerFile.Resolution != fileFormat.Resolution &&
(SlicerFile.Resolution.Width < fileFormatBoundingRectangle.Width ||
SlicerFile.Resolution.Height < fileFormatBoundingRectangle.Height)) continue;
//if(fileFormatBoundingRectangle.Width >= SlicerFile.ResolutionX || fileFormatBoundingRectangle.Height >= SlicerFile.ResolutionY)
// continue;
if (_importType == ImportTypes.Stack)
{
int x = 0;
int y = 0;
if (boundingRectangle.Right + _stackMargin + fileFormatBoundingRectangle.Width <
SlicerFile.ResolutionX)
{
x = boundingRectangle.Right + _stackMargin;
}
else
{
y = boundingRectangle.Bottom + _stackMargin;
}
if (x + fileFormatBoundingRectangle.Width >= SlicerFile.ResolutionX)
continue;
if (y + fileFormatBoundingRectangle.Height >= SlicerFile.ResolutionY)
continue;
roiRectangle = new Rectangle(x, y, fileFormatBoundingRectangle.Width,
fileFormatBoundingRectangle.Height);
}
if (_extendBeyondLayerCount)
{
int layerCountDifference = (int)(_startLayerIndex + fileFormat.LayerCount - SlicerFile.LayerCount);
if (layerCountDifference > 0)
{
SlicerFile.ReallocateEnd((uint)layerCountDifference, _importType == ImportTypes.Stack);
}
}
break;
case ImportTypes.MergeSum:
case ImportTypes.MergeMax:
if (SlicerFile.Resolution != fileFormat.Resolution) continue;
if (_extendBeyondLayerCount)
{
int layerCountDifference = (int)(_startLayerIndex + fileFormat.LayerCount - SlicerFile.LayerCount);
if (layerCountDifference > 0)
{
SlicerFile.ReallocateEnd((uint)layerCountDifference, true);
}
}
break;
case ImportTypes.Subtract:
case ImportTypes.AbsDiff:
case ImportTypes.BitwiseAnd:
case ImportTypes.BitwiseOr:
case ImportTypes.BitwiseXOr:
if (SlicerFile.Resolution != fileFormat.Resolution) continue;
break;
}
progress.Reset(ProgressAction, fileFormat.LayerCount);
Parallel.For(0, fileFormat.LayerCount, CoreSettings.GetParallelOptions(progress), i =>
{
uint layerIndex = (uint)(_startLayerIndex + i);
switch (_importType)
{
case ImportTypes.Insert:
{
if (layerIndex >= SlicerFile.LayerCount) return;
if (SlicerFile.Resolution == fileFormat.Resolution)
{
SlicerFile[layerIndex] = fileFormat[i];
break;
}
using var layer = fileFormat[i].LayerMat;
using var layerRoi = layer.NewMatFromCenterRoi(SlicerFile.Resolution, fileFormatBoundingRectangle);
SlicerFile[layerIndex] = new Layer(layerIndex, layerRoi, SlicerFile);
break;
}
case ImportTypes.Replace:
{
if (layerIndex >= SlicerFile.LayerCount) return;
if (SlicerFile.Resolution == fileFormat.Resolution)
{
SlicerFile[layerIndex] = fileFormat[i];
break;
}
using var layer = fileFormat[i].LayerMat;
using var layerRoi = layer.NewMatFromCenterRoi(SlicerFile.Resolution, fileFormatBoundingRectangle);
SlicerFile[layerIndex] = new Layer(layerIndex, layerRoi, SlicerFile);
break;
}
case ImportTypes.Stack:
{
if (layerIndex >= SlicerFile.LayerCount) return;
using var mat = SlicerFile[layerIndex].LayerMat;
using var importMat = fileFormat[i].LayerMat;
var matRoi = new Mat(mat, roiRectangle);
var importMatRoi = new Mat(importMat, fileFormatBoundingRectangle);
importMatRoi.CopyTo(matRoi);
SlicerFile[layerIndex].LayerMat = mat;
break;
}
case ImportTypes.MergeSum:
{
if (layerIndex >= SlicerFile.LayerCount) return;
using var originalMat = SlicerFile[layerIndex].LayerMat;
using var newMat = fileFormat[i].LayerMat;
CvInvoke.Add(originalMat, newMat, newMat);
SlicerFile[layerIndex].LayerMat = newMat;
break;
}
case ImportTypes.MergeMax:
{
if (layerIndex >= SlicerFile.LayerCount) return;
using var originalMat = SlicerFile[layerIndex].LayerMat;
using var newMat = fileFormat[i].LayerMat;
CvInvoke.Max(originalMat, newMat, newMat);
SlicerFile[layerIndex].LayerMat = newMat;
break;
}
case ImportTypes.Subtract:
{
if (layerIndex >= SlicerFile.LayerCount) return;
using var originalMat = SlicerFile[layerIndex].LayerMat;
using var newMat = fileFormat[i].LayerMat;
CvInvoke.Subtract(originalMat, newMat, newMat);
SlicerFile[layerIndex].LayerMat = newMat;
break;
}
case ImportTypes.AbsDiff:
{
if (layerIndex >= SlicerFile.LayerCount) return;
using var originalMat = SlicerFile[layerIndex].LayerMat;
using var newMat = fileFormat[i].LayerMat;
CvInvoke.AbsDiff(originalMat, newMat, newMat);
SlicerFile[layerIndex].LayerMat = newMat;
break;
}
case ImportTypes.BitwiseAnd:
{
if (layerIndex >= SlicerFile.LayerCount) return;
using var originalMat = SlicerFile[layerIndex].LayerMat;
using var newMat = fileFormat[i].LayerMat;
CvInvoke.BitwiseAnd(originalMat, newMat, newMat);
SlicerFile[layerIndex].LayerMat = newMat;
break;
}
case ImportTypes.BitwiseOr:
{
if (layerIndex >= SlicerFile.LayerCount) return;
using var originalMat = SlicerFile[layerIndex].LayerMat;
using var newMat = fileFormat[i].LayerMat;
CvInvoke.BitwiseOr(originalMat, newMat, newMat);
SlicerFile[layerIndex].LayerMat = newMat;
break;
}
case ImportTypes.BitwiseXOr:
{
if (layerIndex >= SlicerFile.LayerCount) return;
using var originalMat = SlicerFile[layerIndex].LayerMat;
using var newMat = fileFormat[i].LayerMat;
CvInvoke.BitwiseXor(originalMat, newMat, newMat);
SlicerFile[layerIndex].LayerMat = newMat;
break;
}
default:
throw new ArgumentOutOfRangeException();
}
lock (progress.Mutex)
{
lastProcessedLayerIndex = Math.Max(lastProcessedLayerIndex, (int)layerIndex);
progress++;
}
});
fileFormat.Dispose();
}
if (_importType == ImportTypes.Stack)
{
new OperationMove(SlicerFile).Execute(progress);
}
if (lastProcessedLayerIndex <= -1) return false;
if (lastProcessedLayerIndex + 1 < SlicerFile.LayerCount && _discardUnmodifiedLayers)
{
SlicerFile.Reallocate((uint)lastProcessedLayerIndex + 1);
}
return true;
}, true);
return !progress.Token.IsCancellationRequested && result;
}
#endregion
}