public void DualMaterialNoRetraction(int material)
{
GCodeExport.CheckForZeroPositions = false;
string shortCubeName = "CubePoint2High";
string shortCube = TestUtilities.GetStlPath(shortCubeName);
string outputGCodeFileName = TestUtilities.GetTempGCodePath($"CubeNoRetractions{material}");
var config = new ConfigSettings();
config.ExtruderCount = 2;
config.FirstLayerThickness = .2;
config.LayerThickness = .2;
var processor = new FffProcessor(config);
processor.SetTargetFile(outputGCodeFileName);
for (int i = 0; i < material; i++)
{
string skipExtruder = TestUtilities.GetStlPath("TooSmallToPrint");
processor.LoadStlFile(skipExtruder);
}
processor.LoadStlFile(shortCube);
// slice and save it
processor.DoProcessing();
processor.Dispose();
string[] gCodeContent = TestUtilities.LoadGCodeFile(outputGCodeFileName);
// test layer count
int layerCount = TestUtilities.LayerCount(gCodeContent);
Assert.AreEqual(1, layerCount);
int retractions = TestUtilities.CountRetractions(gCodeContent);
Assert.AreEqual(1, retractions, $"Material {material} should have no retractions");
}
public static int ProcessArgs(string[] args)
{
if (args.Length == 0)
{
print_usage();
return(0);
}
ConfigSettings config = new ConfigSettings();
FffProcessor processor = new FffProcessor(config);
LogOutput.Log("\nMatterSlice version {0}\n\n".FormatWith(ConfigConstants.VERSION));
if (ProcessArgs(args, config, processor) == 0)
{
return(0);
}
if (!Canceled)
{
using (new QuickTimer2("DoProcessing"))
{
processor.DoProcessing();
}
}
if (!Canceled)
{
processor.Dispose();
}
if (Canceled)
{
processor.Cancel();
}
Canceled = true;
return(0);
}
public void SupportConnectedOptimaly()
{
string thinWallsSTL = TestUtilities.GetStlPath("two disks");
string thinWallsGCode = TestUtilities.GetTempGCodePath("two disks.gcode");
{
// load a model that is correctly manifold
var config = new ConfigSettings();
config.GenerateSupport = true;
var processor = new FffProcessor(config);
processor.SetTargetFile(thinWallsGCode);
processor.LoadStlFile(thinWallsSTL);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] loadedGCode = TestUtilities.LoadGCodeFile(thinWallsGCode);
int layerCount = TestUtilities.LayerCount(loadedGCode);
for (int i = 0; i < layerCount; i++)
{
var movements = loadedGCode.GetGCodeForLayer(i).Movements().ToList();
int longMoveCount = 0;
for (var j = 1; j < movements.Count - 2; j++)
{
var start = movements[j - 1];
var end = movements[j];
if (end.extrusion - start.extrusion == 0 &&
(end.position - start.position).Length > 5)
{
longMoveCount++;
}
}
Assert.LessOrEqual(longMoveCount, 6);
}
}
}
public void SupportTowerHasCorrectRetractions()
{
string infillSTLA = TestUtilities.GetStlPath("dice_body");
string infillSTLB = TestUtilities.GetStlPath("dice_numbers");
string infillGCode = TestUtilities.GetTempGCodePath("dice_dual.gcode");
{
// load a model that is correctly manifold
var config = new ConfigSettings();
string settingsPath = TestContext.CurrentContext.ResolveProjectPath(4, "Tests", "TestData", "thin_ring_config.ini");
config.ReadSettings(settingsPath);
var processor = new FffProcessor(config);
processor.SetTargetFile(infillGCode);
processor.LoadStlFile(infillSTLA);
processor.LoadStlFile(infillSTLB);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] loadedGCode = TestUtilities.LoadGCodeFile(infillGCode);
Assert.IsTrue(loadedGCode.Contains("T1 ; switch extruder"));
Assert.IsTrue(loadedGCode.Contains("T0 ; switch extruder"));
var layers = loadedGCode.GetAllExtrusionPolygons();
for (int i = 0; i < layers.Count; i++)
{
var polys = layers[i];
foreach (var poly in polys)
{
for (int j = 0; j < poly.Count - 1; j++)
{
int a = 0;
}
}
}
}
}
static void Main(string[] args)
{
Console.WriteLine("Hello World!");
ConfigSettings config = new ConfigSettings();
FffProcessor processor = new FffProcessor(config);
MemoryStream result = new MemoryStream();
processor.SetTargetStream(result);
var path = Path.GetDirectoryName(Assembly.GetExecutingAssembly().CodeBase).Replace("file:\\", "");
path = $"{path}\\SampleSTLs\\AvoidCrossing9Holes.stl";
var stream = new FileStream(path, FileMode.Open);
using (new QuickTimer2("LoadStlFile"))
{
processor.LoadStlStream(stream);
}
using (new QuickTimer2("DoProcessing"))
{
processor.DoProcessing();
}
var data = processor.Finalize();
//GenericGCodeParser parser = new GenericGCodeParser();
//result.Position = 0;
//TextReader tr = new StreamReader(result);
//var gcode = parser.Parse(tr);
}
public void CorrectIslandCount()
{
string engineStlFile = TestUtilities.GetStlPath("Engine-Benchmark");
string engineGCodeFile = TestUtilities.GetTempGCodePath("Engine-Benchmark.gcode");
var config = new ConfigSettings();
config.FirstLayerThickness = .2;
config.LayerThickness = .2;
config.NumberOfSkirtLoops = 0;
config.InfillPercent = 0;
config.NumberOfTopLayers = 0;
config.NumberOfBottomLayers = 0;
config.NumberOfPerimeters = 1;
config.MergeOverlappingLines = false;
var processor = new FffProcessor(config);
processor.SetTargetFile(engineGCodeFile);
processor.LoadStlFile(engineStlFile);
// slice and save it
processor.DoProcessing();
processor.Dispose();
var loadedGCode = TestUtilities.LoadGCodeFile(engineGCodeFile);
var layers = TestUtilities.LayerCount(loadedGCode);
Assert.AreEqual(195, layers);
var layerPolygons = TestUtilities.GetAllLayersExtrusionPolygons(loadedGCode);
Assert.AreEqual(17, layerPolygons[32].Count);
for (int i = 33; i < 44; i++)
{
Assert.AreEqual(13, layerPolygons[i].Where(p => p.Count > 2).Count());
}
}
private static void CheckSpiralCylinder(string stlFile, string gcodeFile, int expectedLayers, bool enableThinWalls = false)
{
string cylinderStlFile = TestUtilities.GetStlPath(stlFile);
string cylinderGCodeFileName = TestUtilities.GetTempGCodePath(gcodeFile);
ConfigSettings config = new ConfigSettings();
config.FirstLayerThickness = .2;
config.LayerThickness = .2;
if (enableThinWalls)
{
config.ExpandThinWalls = true;
config.FillThinGaps = true;
}
config.NumberOfBottomLayers = 0;
config.ContinuousSpiralOuterPerimeter = true;
FffProcessor processor = new FffProcessor(config);
processor.SetTargetFile(cylinderGCodeFileName);
processor.LoadStlFile(cylinderStlFile);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] cylinderGCodeContent = TestUtilities.LoadGCodeFile(cylinderGCodeFileName);
// test .1 layer height
int layerCount = TestUtilities.CountLayers(cylinderGCodeContent);
Assert.IsTrue(layerCount == expectedLayers);
for (int i = 2; i < layerCount - 3; i++)
{
string[] layerInfo = TestUtilities.GetGCodeForLayer(cylinderGCodeContent, i);
// check that all layers move up continuously
MovementInfo lastMovement = new MovementInfo();
foreach (MovementInfo movement in TestUtilities.Movements(layerInfo))
{
Assert.IsTrue(movement.position.z > lastMovement.position.z);
lastMovement = movement;
}
bool first = true;
lastMovement = new MovementInfo();
// check that all moves are on the outside of the cylinder (not crossing to a new point)
foreach (MovementInfo movement in TestUtilities.Movements(layerInfo))
{
if (!first)
{
Assert.IsTrue((movement.position - lastMovement.position).Length < 2);
Vector3 xyOnly = new Vector3(movement.position.x, movement.position.y, 0);
Assert.AreEqual(9.8, xyOnly.Length, .3);
}
lastMovement = movement;
first = false;
}
}
}
private static void CheckSpiralCone(string stlFile, string gcodeFile, bool enableThinWalls = false)
{
string cylinderStlFile = TestUtilities.GetStlPath(stlFile);
string cylinderGCodeFileName = TestUtilities.GetTempGCodePath(gcodeFile);
var config = new ConfigSettings
{
FirstLayerThickness = .2,
LayerThickness = .2,
NumberOfBottomLayers = 0,
ContinuousSpiralOuterPerimeter = true
};
if (enableThinWalls)
{
config.ExpandThinWalls = true;
config.FillThinGaps = true;
}
var processor = new FffProcessor(config);
processor.SetTargetFile(cylinderGCodeFileName);
processor.LoadStlFile(cylinderStlFile);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] cylinderGCodeContent = TestUtilities.LoadGCodeFile(cylinderGCodeFileName);
// test .1 layer height
int layerCount = TestUtilities.CountLayers(cylinderGCodeContent);
Assert.AreEqual(50, layerCount, "SpiralCone should have 50 layers");
for (int i = 2; i < layerCount - 3; i++)
{
string[] layerInfo = TestUtilities.GetGCodeForLayer(cylinderGCodeContent, i);
// check that all layers move up continuously
MovementInfo lastMovement = new MovementInfo();
foreach (MovementInfo movement in TestUtilities.Movements(layerInfo))
{
#if __ANDROID__
Assert.IsTrue(movement.position.z > lastMovement.position.z);
#else
Assert.Greater(movement.position.z, lastMovement.position.z, "Z position should increment per layer");
#endif
lastMovement = movement;
}
double radiusForLayer = 5.0 + (20.0 - 5.0) / layerCount * i;
bool first = true;
lastMovement = new MovementInfo();
// check that all moves are on the outside of the cylinder (not crossing to a new point)
foreach (MovementInfo movement in TestUtilities.Movements(layerInfo))
{
if (!first)
{
Assert.IsTrue((movement.position - lastMovement.position).Length < 2);
Vector3 xyOnly = new Vector3(movement.position.x, movement.position.y, 0);
Assert.AreEqual(radiusForLayer, xyOnly.Length, .3);
}
lastMovement = movement;
first = false;
}
}
}
public void DualMaterialPrintMovesCorrectly(bool createWipeTower)
{
string leftPart = "Box Left";
string rightPart = "Box Right";
string leftStlFile = TestUtilities.GetStlPath(leftPart);
string rightStlFile = TestUtilities.GetStlPath(rightPart);
string outputGCodeFileName = TestUtilities.GetTempGCodePath("DualPartMoves");
ConfigSettings config = new ConfigSettings();
config.ExtruderCount = 2;
config.FirstLayerThickness = .2;
config.LayerThickness = .2;
config.NumberOfBottomLayers = 0;
if (createWipeTower)
{
config.WipeTowerSize = 10;
}
else
{
config.WipeTowerSize = 0;
}
var processor = new FffProcessor(config);
processor.SetTargetFile(outputGCodeFileName);
processor.LoadStlFile(leftStlFile);
processor.LoadStlFile(rightStlFile);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] gCodeContent = TestUtilities.LoadGCodeFile(outputGCodeFileName);
// test .1 layer height
int layerCount = TestUtilities.CountLayers(gCodeContent);
Assert.IsTrue(layerCount == 50);
bool hadMoveLessThan85 = false;
MovementInfo lastMovement = new MovementInfo();
for (int i = 0; i < layerCount - 3; i++)
{
string[] layerInfo = TestUtilities.GetGCodeForLayer(gCodeContent, i);
// check that all layers move up continuously
foreach (MovementInfo movement in TestUtilities.Movements(layerInfo, lastMovement, onlyG1s: true))
{
if (i > 2)
{
if (createWipeTower)
{
Assert.IsTrue(movement.position.x > 75 && movement.position.y > 10, "Moves don't go to 0");
if (movement.position.x < 85)
{
hadMoveLessThan85 = true;
}
}
else
{
Assert.IsTrue(movement.position.x > 85 && movement.position.y > 10, "Moves don't go to 0");
}
}
lastMovement = movement;
}
}
if (createWipeTower)
{
Assert.IsTrue(hadMoveLessThan85, "found a wipe tower");
}
}
public void DoHas2WallRingsAllTheWayUp(string fileName, int expectedLayerCount, bool checkRadius = false)
{
string stlFile = TestUtilities.GetStlPath(fileName);
string gCodeFile = TestUtilities.GetTempGCodePath(fileName + ".gcode");
ConfigSettings config = new ConfigSettings();
config.InfillPercent = 0;
config.NumberOfPerimeters = 1;
config.FirstLayerExtrusionWidth = .2;
config.LayerThickness = .2;
config.NumberOfBottomLayers = 0;
config.NumberOfTopLayers = 0;
FffProcessor processor = new FffProcessor(config);
processor.SetTargetFile(gCodeFile);
processor.LoadStlFile(stlFile);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] gcodeLines = TestUtilities.LoadGCodeFile(gCodeFile);
int layerCount = TestUtilities.CountLayers(gcodeLines);
Assert.IsTrue(layerCount == expectedLayerCount);
MovementInfo movement = new MovementInfo();
for (int i = 0; i < layerCount - 5; i++)
{
string[] layerInfo = TestUtilities.GetGCodeForLayer(gcodeLines, i);
if (i > 0)
{
Polygons layerPolygons = TestUtilities.GetExtrusionPolygons(layerInfo, ref movement);
Assert.IsTrue(layerPolygons.Count == 2);
if (checkRadius)
{
Assert.IsTrue(layerPolygons[0].Count > 10);
Assert.IsTrue(layerPolygons[1].Count > 10);
if (false)
{
foreach (var polygon in layerPolygons)
{
double radiusForPolygon = polygon[0].LengthMm();
foreach (var point in polygon)
{
Assert.AreEqual(radiusForPolygon, point.LengthMm(), 15);
}
}
}
}
}
else
{
TestUtilities.GetExtrusionPolygons(layerInfo, ref movement);
}
}
}
public void CanSetExtruderForSupportMaterial()
{
string baseFileName = "Support Material 2 Bars";
string stlToLoad = TestUtilities.GetStlPath(baseFileName + ".stl");
string supportToLoad = TestUtilities.GetStlPath("2BarsSupport.stl");
// check that default is support printed with extruder 0
{
string gcodeToCreate = TestUtilities.GetTempGCodePath(baseFileName + "_0_.gcode");
ConfigSettings config = new ConfigSettings();
FffProcessor processor = new FffProcessor(config);
processor.SetTargetFile(gcodeToCreate);
processor.LoadStlFile(stlToLoad);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] gcodeContents = TestUtilities.LoadGCodeFile(gcodeToCreate);
Assert.IsFalse(TestUtilities.UsesExtruder(gcodeContents, 1));
Assert.IsFalse(TestUtilities.UsesExtruder(gcodeContents, 2));
}
// check that support is printed with extruder 0
{
string gcodeToCreate = TestUtilities.GetTempGCodePath(baseFileName + "_1b_.gcode");
ConfigSettings config = new ConfigSettings();
config.ExtruderCount = 1;
config.SupportExtruder = 1; // from a 0 based index
// this is a hack, but it is the signaling mechanism for support
config.BooleanOperations = "S";
FffProcessor processor = new FffProcessor(config);
processor.SetTargetFile(gcodeToCreate);
processor.LoadStlFile(stlToLoad);
processor.LoadStlFile(supportToLoad);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] gcodeContents = TestUtilities.LoadGCodeFile(gcodeToCreate);
Assert.IsFalse(TestUtilities.UsesExtruder(gcodeContents, 1));
Assert.IsFalse(TestUtilities.UsesExtruder(gcodeContents, 2));
}
// check that support is printed with extruder 1
{
string gcodeToCreate = TestUtilities.GetTempGCodePath(baseFileName + "_1b_.gcode");
ConfigSettings config = new ConfigSettings();
config.SupportExtruder = 1;
config.ExtruderCount = 2;
// this is a hack, but it is the signaling mechanism for support
config.BooleanOperations = "S";
FffProcessor processor = new FffProcessor(config);
processor.SetTargetFile(gcodeToCreate);
processor.LoadStlFile(stlToLoad);
// we have to have a mesh for every extruder
processor.LoadStlFile(stlToLoad);
processor.LoadStlFile(supportToLoad);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] gcodeContents = TestUtilities.LoadGCodeFile(gcodeToCreate);
Assert.IsTrue(TestUtilities.UsesExtruder(gcodeContents, 1));
Assert.IsFalse(TestUtilities.UsesExtruder(gcodeContents, 2));
}
// check that support interface is printed with extruder 0
{
string gcodeToCreate = TestUtilities.GetTempGCodePath(baseFileName + "_1i_.gcode");
ConfigSettings config = new ConfigSettings();
config.ExtruderCount = 1;
config.SupportInterfaceExtruder = 1;
// this is a hack, but it is the signaling mechanism for support
config.BooleanOperations = "S";
FffProcessor processor = new FffProcessor(config);
processor.SetTargetFile(gcodeToCreate);
processor.LoadStlFile(stlToLoad);
processor.LoadStlFile(supportToLoad);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] gcodeContents = TestUtilities.LoadGCodeFile(gcodeToCreate);
Assert.IsFalse(TestUtilities.UsesExtruder(gcodeContents, 1));
Assert.IsFalse(TestUtilities.UsesExtruder(gcodeContents, 2));
}
// check that support interface is printed with extruder 1
{
string gcodeToCreate = TestUtilities.GetTempGCodePath(baseFileName + "_1i_.gcode");
ConfigSettings config = new ConfigSettings();
config.ExtruderCount = 2;
config.SupportInterfaceExtruder = 1;
// this is a hack, but it is the signaling mechanism for support
config.BooleanOperations = "S";
FffProcessor processor = new FffProcessor(config);
processor.SetTargetFile(gcodeToCreate);
processor.LoadStlFile(stlToLoad);
// we have to have a mesh for every extruder
processor.LoadStlFile(stlToLoad);
processor.LoadStlFile(supportToLoad);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] gcodeContents = TestUtilities.LoadGCodeFile(gcodeToCreate);
Assert.IsTrue(TestUtilities.UsesExtruder(gcodeContents, 0));
Assert.IsTrue(TestUtilities.UsesExtruder(gcodeContents, 1));
Assert.IsFalse(TestUtilities.UsesExtruder(gcodeContents, 2));
}
// check that support and interface can be set separately
{
string gcodeToCreate = TestUtilities.GetTempGCodePath(baseFileName + "_1b2i_.gcode");
ConfigSettings config = new ConfigSettings();
config.ExtruderCount = 1;
config.SupportExtruder = 1;
config.SupportInterfaceExtruder = 2;
// this is a hack, but it is the signaling mechanism for support
config.BooleanOperations = "S";
FffProcessor processor = new FffProcessor(config);
processor.SetTargetFile(gcodeToCreate);
processor.LoadStlFile(stlToLoad);
processor.LoadStlFile(supportToLoad);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] gcodeContents = TestUtilities.LoadGCodeFile(gcodeToCreate);
Assert.IsFalse(TestUtilities.UsesExtruder(gcodeContents, 1));
Assert.IsFalse(TestUtilities.UsesExtruder(gcodeContents, 2));
}
// check that support and interface can be set separately
{
string gcodeToCreate = TestUtilities.GetTempGCodePath(baseFileName + "_1b2i_.gcode");
ConfigSettings config = new ConfigSettings();
config.ExtruderCount = 2;
config.SupportExtruder = 1;
config.SupportInterfaceExtruder = 2;
// this is a hack, but it is the signaling mechanism for support
config.BooleanOperations = "S";
FffProcessor processor = new FffProcessor(config);
processor.SetTargetFile(gcodeToCreate);
processor.LoadStlFile(stlToLoad);
// we have to have a mesh for every extruder
processor.LoadStlFile(stlToLoad);
processor.LoadStlFile(supportToLoad);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] gcodeContents = TestUtilities.LoadGCodeFile(gcodeToCreate);
Assert.IsTrue(TestUtilities.UsesExtruder(gcodeContents, 1));
Assert.IsFalse(TestUtilities.UsesExtruder(gcodeContents, 2));
}
// check that support and interface can be set separately
{
string gcodeToCreate = TestUtilities.GetTempGCodePath(baseFileName + "_1b2i_.gcode");
ConfigSettings config = new ConfigSettings();
config.ExtruderCount = 3;
config.SupportExtruder = 1;
config.SupportInterfaceExtruder = 2;
// this is a hack, but it is the signaling mechanism for support
config.BooleanOperations = "S";
FffProcessor processor = new FffProcessor(config);
processor.SetTargetFile(gcodeToCreate);
processor.LoadStlFile(stlToLoad);
// we have to have a mesh for every extruder
processor.LoadStlFile(stlToLoad);
processor.LoadStlFile(stlToLoad);
processor.LoadStlFile(supportToLoad);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] gcodeContents = TestUtilities.LoadGCodeFile(gcodeToCreate);
Assert.IsTrue(TestUtilities.UsesExtruder(gcodeContents, 1));
Assert.IsTrue(TestUtilities.UsesExtruder(gcodeContents, 2));
}
}
public void AllMovesRequiringRetractionDoRetraction(string baseFileName, string settingsIniFile = "")
{
string stlToLoad = TestUtilities.GetStlPath(baseFileName + ".stl");
// check that default is support printed with extruder 0
string gcodeToCreate = TestUtilities.GetTempGCodePath(baseFileName + "_retract_.gcode");
ConfigSettings config = new ConfigSettings();
if (settingsIniFile == "")
{
config.MinimumTravelToCauseRetraction = 2;
config.MinimumExtrusionBeforeRetraction = 0;
config.MergeOverlappingLines = false;
config.FirstLayerExtrusionWidth = .5;
}
else
{
config.ReadSettings(settingsIniFile);
}
// this is what we detect
config.RetractionZHop = 5;
FffProcessor processor = new FffProcessor(config);
processor.SetTargetFile(gcodeToCreate);
processor.LoadStlFile(stlToLoad);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] gcodeContents = TestUtilities.LoadGCodeFile(gcodeToCreate);
int layerCount = TestUtilities.CountLayers(gcodeContents);
bool firstPosition = true;
MovementInfo lastMovement = new MovementInfo();
MovementInfo lastExtrusion = new MovementInfo();
bool lastMoveIsExtrusion = true;
for (int layerIndex = 0; layerIndex < layerCount; layerIndex++)
{
string[] layerGCode = TestUtilities.GetGCodeForLayer(gcodeContents, layerIndex);
int movementIndex = 0;
foreach (MovementInfo movement in TestUtilities.Movements(layerGCode, lastMovement))
{
if (!firstPosition)
{
bool isTravel = lastMovement.extrusion == movement.extrusion;
if (isTravel)
{
Vector3 lastPosition = lastMovement.position;
lastPosition.z = 0;
Vector3 currenPosition = movement.position;
currenPosition.z = 0;
double xyLength = (lastPosition - currenPosition).Length;
if (xyLength > config.MinimumTravelToCauseRetraction &&
lastMoveIsExtrusion)
{
Assert.GreaterOrEqual(movement.position.z, lastExtrusion.position.z);
}
lastMoveIsExtrusion = false;
}
else
{
lastMoveIsExtrusion = true;
lastExtrusion = movement;
}
lastMoveIsExtrusion = !isTravel;
}
lastMovement = movement;
firstPosition = false;
movementIndex++;
}
}
// make sure we don't switch extruders
Assert.IsFalse(TestUtilities.UsesExtruder(gcodeContents, 1));
Assert.IsFalse(TestUtilities.UsesExtruder(gcodeContents, 2));
}
public void ExpandThinWallsFindsWalls()
{
string thinWallsSTL = TestUtilities.GetStlPath("ThinWalls");
// without expand thin walls
{
string thinWallsGCode = TestUtilities.GetTempGCodePath("ThinWalls1.gcode");
var config = new ConfigSettings
{
FirstLayerThickness = .2,
LayerThickness = .2,
NumberOfSkirtLoops = 0,
InfillPercent = 0,
NumberOfTopLayers = 0,
NumberOfBottomLayers = 0,
NumberOfPerimeters = 1,
ExpandThinWalls = false,
MergeOverlappingLines = false
};
var processor = new FffProcessor(config);
processor.SetTargetFile(thinWallsGCode);
processor.LoadStlFile(thinWallsSTL);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] loadedGCode = TestUtilities.LoadGCodeFile(thinWallsGCode);
int layerCount = TestUtilities.LayerCount(loadedGCode);
Assert.AreEqual(50, layerCount);
var layerPolygons = loadedGCode.GetAllExtrusionPolygons();
Assert.AreEqual(6, layerPolygons[10].Where(i => i.Count > 2).Count());
}
// with expand thin walls
{
string thinWallsGCode = TestUtilities.GetTempGCodePath("ThinWalls2.gcode");
var config = new ConfigSettings();
config.FirstLayerThickness = .2;
config.LayerThickness = .2;
config.NumberOfSkirtLoops = 0;
config.InfillPercent = 0;
config.NumberOfTopLayers = 0;
config.NumberOfBottomLayers = 0;
config.NumberOfPerimeters = 1;
config.ExpandThinWalls = true;
config.MergeOverlappingLines = false;
var processor = new FffProcessor(config);
processor.SetTargetFile(thinWallsGCode);
processor.LoadStlFile(thinWallsSTL);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] loadedGCode = TestUtilities.LoadGCodeFile(thinWallsGCode);
int layerCount = TestUtilities.LayerCount(loadedGCode);
Assert.AreEqual(50, layerCount);
var layerPolygons = loadedGCode.GetAllExtrusionPolygons();
Assert.AreEqual(10, layerPolygons[10].Count);
}
// with expand thin walls and with merge overlapping lines
{
string thinWallsGCode = TestUtilities.GetTempGCodePath("ThinWalls3.gcode");
var config = new ConfigSettings();
config.FirstLayerThickness = .2;
config.LayerThickness = .2;
config.NumberOfSkirtLoops = 0;
config.InfillPercent = 0;
config.NumberOfTopLayers = 0;
config.NumberOfBottomLayers = 0;
config.NumberOfPerimeters = 1;
config.ExpandThinWalls = true;
config.MergeOverlappingLines = true;
var processor = new FffProcessor(config);
processor.SetTargetFile(thinWallsGCode);
processor.LoadStlFile(thinWallsSTL);
// slice and save it
processor.DoProcessing();
processor.Finalize();
string[] loadedGCode = TestUtilities.LoadGCodeFile(thinWallsGCode);
int layerCount = TestUtilities.LayerCount(loadedGCode);
Assert.AreEqual(50, layerCount);
var layerPolygons = loadedGCode.GetAllExtrusionPolygons();
Assert.AreEqual(10, layerPolygons[10].Count);
}
}