public void CreatePrintBed(Vector3 displayVolume, Vector2 bedCenter, BedShape bedShape)
{
if (MeshViewerWidget.BedCenter == bedCenter &&
MeshViewerWidget.bedShape == bedShape &&
MeshViewerWidget.displayVolume == displayVolume)
{
return;
}
MeshViewerWidget.BedCenter = bedCenter;
MeshViewerWidget.bedShape = bedShape;
MeshViewerWidget.displayVolume = displayVolume;
Vector3 displayVolumeToBuild = Vector3.ComponentMax(displayVolume, new Vector3(1, 1, 1));
double sizeForMarking = Math.Max(displayVolumeToBuild.x, displayVolumeToBuild.y);
double divisor = 10;
int skip = 1;
if (sizeForMarking > 1000)
{
divisor = 100;
skip = 10;
}
else if (sizeForMarking > 300)
{
divisor = 50;
skip = 5;
}
switch (bedShape)
{
case BedShape.Rectangular:
if (displayVolumeToBuild.z > 0)
{
buildVolume = PlatonicSolids.CreateCube(displayVolumeToBuild);
foreach (Vertex vertex in buildVolume.Vertices)
{
vertex.Position = vertex.Position + new Vector3(0, 0, displayVolumeToBuild.z / 2);
}
}
CreateRectangularBedGridImage(displayVolumeToBuild, bedCenter, divisor, skip);
printerBed = PlatonicSolids.CreateCube(displayVolumeToBuild.x, displayVolumeToBuild.y, 4);
{
Face face = printerBed.Faces[0];
CommonShapes.PlaceTextureOnFace(face, BedImage);
}
break;
case BedShape.Circular:
{
if (displayVolumeToBuild.z > 0)
{
buildVolume = VertexSourceToMesh.Extrude(new Ellipse(new Vector2(), displayVolumeToBuild.x / 2, displayVolumeToBuild.y / 2), displayVolumeToBuild.z);
foreach (Vertex vertex in buildVolume.Vertices)
{
vertex.Position = vertex.Position + new Vector3(0, 0, .2);
}
}
CreateCircularBedGridImage((int)(displayVolumeToBuild.x / divisor), (int)(displayVolumeToBuild.y / divisor), skip);
printerBed = VertexSourceToMesh.Extrude(new Ellipse(new Vector2(), displayVolumeToBuild.x / 2, displayVolumeToBuild.y / 2), 2);
{
foreach (Face face in printerBed.Faces)
{
if (face.normal.z > 0)
{
FaceTextureData faceData = FaceTextureData.Get(face);
faceData.Textures.Add(BedImage);
foreach (FaceEdge faceEdge in face.FaceEdges())
{
FaceEdgeTextureUvData edgeUV = FaceEdgeTextureUvData.Get(faceEdge);
edgeUV.TextureUV.Add(new Vector2((displayVolumeToBuild.x / 2 + faceEdge.firstVertex.Position.x) / displayVolumeToBuild.x,
(displayVolumeToBuild.y / 2 + faceEdge.firstVertex.Position.y) / displayVolumeToBuild.y));
}
}
}
}
}
break;
default:
throw new NotImplementedException();
}
foreach (Vertex vertex in printerBed.Vertices)
{
vertex.Position = vertex.Position - new Vector3(-bedCenter, 2.2);
}
if (buildVolume != null)
{
foreach (Vertex vertex in buildVolume.Vertices)
{
vertex.Position = vertex.Position - new Vector3(-bedCenter, 2.2);
}
}
Invalidate();
}
public void CreatePrintBed(Vector3 displayVolume, Vector2 bedCenter, BedShape bedShape)
{
if (this.bedCenter == bedCenter &&
this.bedShape == bedShape &&
this.displayVolume == displayVolume)
{
return;
}
this.bedCenter = bedCenter;
this.bedShape = bedShape;
displayVolume = Vector3.ComponentMax(displayVolume, new Vector3(1, 1, 1));
this.displayVolume = displayVolume;
switch (bedShape)
{
case BedShape.Rectangular:
if (displayVolume.z > 0)
{
buildVolume = PlatonicSolids.CreateCube(displayVolume);
foreach (Vertex vertex in buildVolume.Vertices)
{
vertex.Position = vertex.Position + new Vector3(0, 0, displayVolume.z / 2);
}
}
CreateRectangularBedGridImage((int)(displayVolume.x / 10), (int)(displayVolume.y / 10));
printerBed = PlatonicSolids.CreateCube(displayVolume.x, displayVolume.y, 4);
{
Face face = printerBed.Faces[0];
{
FaceTextureData faceData = FaceTextureData.Get(face);
faceData.Textures.Add(BedImage);
foreach (FaceEdge faceEdge in face.FaceEdges())
{
FaceEdgeTextureUvData edgeUV = FaceEdgeTextureUvData.Get(faceEdge);
edgeUV.TextureUV.Add(new Vector2((displayVolume.x / 2 + faceEdge.firstVertex.Position.x) / displayVolume.x,
(displayVolume.y / 2 + faceEdge.firstVertex.Position.y) / displayVolume.y));
}
}
}
foreach (Vertex vertex in printerBed.Vertices)
{
vertex.Position = vertex.Position - new Vector3(0, 0, 2.2);
}
break;
case BedShape.Circular:
{
if (displayVolume.z > 0)
{
buildVolume = VertexSourceToMesh.Extrude(new Ellipse(new Vector2(), displayVolume.x / 2, displayVolume.y / 2), displayVolume.z);
foreach (Vertex vertex in buildVolume.Vertices)
{
vertex.Position = vertex.Position + new Vector3(0, 0, .2);
}
}
CreateCircularBedGridImage((int)(displayVolume.x / 10), (int)(displayVolume.y / 10));
printerBed = VertexSourceToMesh.Extrude(new Ellipse(new Vector2(), displayVolume.x / 2, displayVolume.y / 2), 2);
{
foreach (Face face in printerBed.Faces)
{
if (face.normal.z > 0)
{
FaceTextureData faceData = FaceTextureData.Get(face);
faceData.Textures.Add(BedImage);
foreach (FaceEdge faceEdge in face.FaceEdges())
{
FaceEdgeTextureUvData edgeUV = FaceEdgeTextureUvData.Get(faceEdge);
edgeUV.TextureUV.Add(new Vector2((displayVolume.x / 2 + faceEdge.firstVertex.Position.x) / displayVolume.x,
(displayVolume.y / 2 + faceEdge.firstVertex.Position.y) / displayVolume.y));
}
}
}
}
foreach (Vertex vertex in printerBed.Vertices)
{
vertex.Position = vertex.Position - new Vector3(0, 0, 2.2);
}
}
break;
default:
throw new NotImplementedException();
}
Invalidate();
}
