def makeLines():
global aEdge1, aEdge2, aEdge3
# Make type 'Geom_TrimmedCurve' from type 'gp_Pnt'
aArcOfCircle = GC_MakeArcOfCircle(aPnt2, aPnt3, aPnt4)
aSegment1 = GC_MakeSegment(aPnt1, aPnt2)
aSegment2 = GC_MakeSegment(aPnt4, aPnt5)
# Make type 'TopoDS_Edge' from type 'Geom_TrimmedCurve'
aEdge1 = BRepBuilderAPI_MakeEdge(aSegment1.Value())
aEdge2 = BRepBuilderAPI_MakeEdge(aArcOfCircle.Value())
aEdge3 = BRepBuilderAPI_MakeEdge(aSegment2.Value())
return (aEdge1.Edge(), aEdge2.Edge(), aEdge3.Edge())
def makeLines(event=None):
global aEdge1, aEdge2, aEdge3
aArcOfCircle = GC_MakeArcOfCircle(aPnt2, aPnt3, aPnt4)
aSegment1 = GC_MakeSegment(aPnt1, aPnt2)
aSegment2 = GC_MakeSegment(aPnt4, aPnt5)
# Display lines
aEdge1 = BRepBuilderAPI_MakeEdge(aSegment1.Value())
aEdge2 = BRepBuilderAPI_MakeEdge(aArcOfCircle.Value())
aEdge3 = BRepBuilderAPI_MakeEdge(aSegment2.Value())
display.DisplayColoredShape(aEdge1.Edge(), 'RED')
display.DisplayColoredShape(aEdge2.Edge(), 'RED')
display.DisplayColoredShape(aEdge3.Edge(), 'RED')
display.Repaint()
win.statusBar().showMessage('Make lines complete')
def main():
vertices = [gp_Pnt(p[0], p[1], p[2]) for p in mesh['vertices']]
oFaces = []
builder = BRep_Builder()
shell = TopoDS_Shell()
builder.MakeShell(shell)
for face in mesh['faces']:
edges = []
face.reverse()
for i in range(len(face)):
cur = face[i]
nxt = face[(i + 1) % len(face)]
segment = GC_MakeSegment(vertices[cur], vertices[nxt])
edges.append(BRepBuilderAPI_MakeEdge(segment.Value()))
wire = BRepBuilderAPI_MakeWire()
for edge in edges:
wire.Add(edge.Edge())
oFace = BRepBuilderAPI_MakeFace(wire.Wire())
builder.Add(shell, oFace.Shape())
write_stl_file(shell, "./cube_binding.stl")
def startBottle(startOnly=True): # minus the neck fillet, shelling & threads
partName = "Bottle-start"
# The points we'll use to create the profile of the bottle's body
aPnt1 = gp_Pnt(-width / 2.0, 0, 0)
aPnt2 = gp_Pnt(-width / 2.0, -thickness / 4.0, 0)
aPnt3 = gp_Pnt(0, -thickness / 2.0, 0)
aPnt4 = gp_Pnt(width / 2.0, -thickness / 4.0, 0)
aPnt5 = gp_Pnt(width / 2.0, 0, 0)
aArcOfCircle = GC_MakeArcOfCircle(aPnt2, aPnt3, aPnt4)
aSegment1 = GC_MakeSegment(aPnt1, aPnt2)
aSegment2 = GC_MakeSegment(aPnt4, aPnt5)
# Could also construct the line edges directly using the points
# instead of the resulting line.
aEdge1 = BRepBuilderAPI_MakeEdge(aSegment1.Value())
aEdge2 = BRepBuilderAPI_MakeEdge(aArcOfCircle.Value())
aEdge3 = BRepBuilderAPI_MakeEdge(aSegment2.Value())
# Create a wire out of the edges
aWire = BRepBuilderAPI_MakeWire(aEdge1.Edge(), aEdge2.Edge(),
aEdge3.Edge())
# Quick way to specify the X axis
xAxis = gp_OX()
# Set up the mirror
aTrsf = gp_Trsf()
aTrsf.SetMirror(xAxis)
# Apply the mirror transformation
aBRespTrsf = BRepBuilderAPI_Transform(aWire.Wire(), aTrsf)
# Get the mirrored shape back out of the transformation
# and convert back to a wire
aMirroredShape = aBRespTrsf.Shape()
# A wire instead of a generic shape now
aMirroredWire = topods.Wire(aMirroredShape)
# Combine the two constituent wires
mkWire = BRepBuilderAPI_MakeWire()
mkWire.Add(aWire.Wire())
mkWire.Add(aMirroredWire)
myWireProfile = mkWire.Wire()
# The face that we'll sweep to make the prism
myFaceProfile = BRepBuilderAPI_MakeFace(myWireProfile)
# We want to sweep the face along the Z axis to the height
aPrismVec = gp_Vec(0, 0, height)
myBody = BRepPrimAPI_MakePrism(myFaceProfile.Face(), aPrismVec)
# Add fillets to all edges through the explorer
mkFillet = BRepFilletAPI_MakeFillet(myBody.Shape())
anEdgeExplorer = TopExp_Explorer(myBody.Shape(), TopAbs_EDGE)
while anEdgeExplorer.More():
anEdge = topods.Edge(anEdgeExplorer.Current())
mkFillet.Add(thickness / 12.0, anEdge)
anEdgeExplorer.Next()
myBody = mkFillet.Shape()
# Create the neck of the bottle
neckLocation = gp_Pnt(0, 0, height)
neckAxis = gp_DZ()
neckAx2 = gp_Ax2(neckLocation, neckAxis)
myNeckRadius = thickness / 4.0
myNeckHeight = height / 10.0
mkCylinder = BRepPrimAPI_MakeCylinder(neckAx2, myNeckRadius, myNeckHeight)
myBody = BRepAlgoAPI_Fuse(myBody, mkCylinder.Shape())
if startOnly: # quit here
uid = win.getNewPartUID(myBody.Shape(), name=partName)
win.redraw()
return
partName = "Bottle-complete"
# Our goal is to find the highest Z face and remove it
faceToRemove = None
zMax = -1
# We have to work our way through all the faces to find the highest Z face
aFaceExplorer = TopExp_Explorer(myBody.Shape(), TopAbs_FACE)
while aFaceExplorer.More():
aFace = topods.Face(aFaceExplorer.Current())
if face_is_plane(aFace):
aPlane = geom_plane_from_face(aFace)
# We want the highest Z face, so compare this to the previous faces
aPnt = aPlane.Location()
aZ = aPnt.Z()
if aZ > zMax:
zMax = aZ
faceToRemove = aFace
aFaceExplorer.Next()
facesToRemove = TopTools_ListOfShape()
facesToRemove.Append(faceToRemove)
myBody = BRepOffsetAPI_MakeThickSolid(myBody.Shape(), facesToRemove,
-thickness / 50.0, 0.001)
# Set up our surfaces for the threading on the neck
neckAx2_Ax3 = gp_Ax3(neckLocation, gp_DZ())
aCyl1 = Geom_CylindricalSurface(neckAx2_Ax3, myNeckRadius * 0.99)
aCyl2 = Geom_CylindricalSurface(neckAx2_Ax3, myNeckRadius * 1.05)
# Set up the curves for the threads on the bottle's neck
aPnt = gp_Pnt2d(2.0 * math.pi, myNeckHeight / 2.0)
aDir = gp_Dir2d(2.0 * math.pi, myNeckHeight / 4.0)
anAx2d = gp_Ax2d(aPnt, aDir)
aMajor = 2.0 * math.pi
aMinor = myNeckHeight / 10.0
anEllipse1 = Geom2d_Ellipse(anAx2d, aMajor, aMinor)
anEllipse2 = Geom2d_Ellipse(anAx2d, aMajor, aMinor / 4.0)
anArc1 = Geom2d_TrimmedCurve(anEllipse1, 0, math.pi)
anArc2 = Geom2d_TrimmedCurve(anEllipse2, 0, math.pi)
anEllipsePnt1 = anEllipse1.Value(0)
anEllipsePnt2 = anEllipse1.Value(math.pi)
aSegment = GCE2d_MakeSegment(anEllipsePnt1, anEllipsePnt2)
# Build edges and wires for threading
anEdge1OnSurf1 = BRepBuilderAPI_MakeEdge(anArc1, aCyl1)
anEdge2OnSurf1 = BRepBuilderAPI_MakeEdge(aSegment.Value(), aCyl1)
anEdge1OnSurf2 = BRepBuilderAPI_MakeEdge(anArc2, aCyl2)
anEdge2OnSurf2 = BRepBuilderAPI_MakeEdge(aSegment.Value(), aCyl2)
threadingWire1 = BRepBuilderAPI_MakeWire(anEdge1OnSurf1.Edge(),
anEdge2OnSurf1.Edge())
threadingWire2 = BRepBuilderAPI_MakeWire(anEdge1OnSurf2.Edge(),
anEdge2OnSurf2.Edge())
# Compute the 3D representations of the edges/wires
breplib.BuildCurves3d(threadingWire1.Shape())
breplib.BuildCurves3d(threadingWire2.Shape())
# Create the surfaces of the threading
aTool = BRepOffsetAPI_ThruSections(True)
aTool.AddWire(threadingWire1.Wire())
aTool.AddWire(threadingWire2.Wire())
aTool.CheckCompatibility(False)
myThreading = aTool.Shape()
# Build the resulting compound
aRes = TopoDS_Compound()
aBuilder = BRep_Builder()
aBuilder.MakeCompound(aRes)
aBuilder.Add(aRes, myBody.Shape())
aBuilder.Add(aRes, myThreading)
uid = win.getNewPartUID(aRes, name=partName)
win.redraw()
thickness = 30
print("creating bottle")
# The points we'll use to create the profile of the bottle's body
aPnt1 = gp_Pnt(-width / 2.0, 0, 0)
aPnt2 = gp_Pnt(-width / 2.0, -thickness / 4.0, 0)
aPnt3 = gp_Pnt(0, -thickness / 2.0, 0)
aPnt4 = gp_Pnt(width / 2.0, -thickness / 4.0, 0)
aPnt5 = gp_Pnt(width / 2.0, 0, 0)
aArcOfCircle = GC_MakeArcOfCircle(aPnt2, aPnt3, aPnt4)
aSegment1 = GC_MakeSegment(aPnt1, aPnt2)
aSegment2 = GC_MakeSegment(aPnt4, aPnt5)
# Could also construct the line edges directly using the points instead of the resulting line
aEdge1 = BRepBuilderAPI_MakeEdge(aSegment1.Value())
aEdge2 = BRepBuilderAPI_MakeEdge(aArcOfCircle.Value())
aEdge3 = BRepBuilderAPI_MakeEdge(aSegment2.Value())
# Create a wire out of the edges
aWire = BRepBuilderAPI_MakeWire(aEdge1.Edge(), aEdge2.Edge(), aEdge3.Edge())
# Quick way to specify the X axis
xAxis = gp_OX()
# Set up the mirror
aTrsf = gp_Trsf()
aTrsf.SetMirror(xAxis)
# Apply the mirror transformation
aBRespTrsf = BRepBuilderAPI_Transform(aWire.Wire(), aTrsf)