コード例 #1
0
    def preview(self, inp, direction):
        if self.step == 0:
            self.previous_data = [inp]
            return [BRepBuilderAPI.BRepBuilderAPI_MakeVertex(inp).Vertex()]
        elif self.step == 1:
            point0 = self.previous_data[0]
            point1 = inp
            point1[direction] = point0[direction]
            if (point1[direction-1] == point0[direction-1] or
                point1[direction-2] == point0[direction-2]):
                raise InvalidInputException
            points = []
            # add two other corners:
            for i in range(3):
                if i != direction:
                    point = point0[:]
                    point[i] = point1[i]
                    points.append(point)
            points.insert(1, point0)
            points.insert(3, point1)

            builder = BRepBuilderAPI.BRepBuilderAPI_MakePolygon()
            for pnt in points:
                builder.Add(gp.gp_Pnt(*pnt))
            builder.Build()
            builder.Close()
            polygon = builder.Wire()

            face = BRepBuilderAPI.BRepBuilderAPI_MakeFace(polygon).Face()
            self._final = [face]
            return self._final
コード例 #2
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def make_ellipsoid(focus1, focus2, major_axis):
    """
    @param focus1: length 3 sequence giving first focus location
    @param focus2: length 3 sequence giving second focus location
    @param path_length: major axis length
    """
    f1 = numpy.asarray(focus1)
    f2 = numpy.asarray(focus2)
    direction = -(f1 - f2)
    centre = (f1 + f2)/2.
    sep = numpy.sqrt((direction**2).sum())
    minor_axis = numpy.sqrt( major_axis**2 - (sep/2.)**2 )
    
    sphere = BRepPrimAPI.BRepPrimAPI_MakeSphere(minor_axis)
    
    scale = gp.gp_GTrsf()
    scale.SetValue(3,3, major_axis/minor_axis)
    
    ellipse = BRepBuilderAPI.BRepBuilderAPI_GTransform(sphere.Shape(), scale)
    
    loc = gp.gp_Ax3()
    loc.SetLocation(gp.gp_Pnt(*centre))
    loc.SetDirection(gp.gp_Dir(*direction))
    
    tr = gp.gp_Trsf()
    tr.SetTransformation(loc, gp.gp_Ax3())
    
    trans = BRepBuilderAPI.BRepBuilderAPI_Transform(ellipse.Shape(), tr)
    shape = toshape(trans)
    return shape
コード例 #3
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    def preview(self, inp, direction):
        if self.step == 0:
            self.previous_data = [inp]
            return [BRepBuilderAPI.BRepBuilderAPI_MakeVertex(inp).Vertex()]
        elif self.step == 1:
            point0 = self.previous_data[0]
            point1 = inp
            # checking if the previous points are identical: This is necessary
            # before continuing in order to avoid a crash on Windows
            if point0 == point1:
                raise InvalidInputException
            dirvec = vec(0, 0, 0)
            dirvec[direction] = 1
            axis = gp.gp_Ax2(point0, dirvec.to_gp_Dir())

            d = point0 - inp
            d[direction] = 0
            dist = d.length()

            a = Geom.Geom_Circle(axis, dist).GetHandle()
            b = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(a).Edge()
            c = BRepBuilderAPI.BRepBuilderAPI_MakeWire(b).Wire()
            d = BRepBuilderAPI.BRepBuilderAPI_MakeFace(c).Face()
            self._final = [d]
            return self._final
コード例 #4
0
ファイル: TestObjects.py プロジェクト: k-automation/emcfab
def makeOffsetTestWire():
    "creates difficult test cases for offsetting"
    p1 = OCCUtil.pnt(11.0, 0)
    p2 = OCCUtil.pnt(7.0, 8.0)
    p3 = OCCUtil.pnt(7.0, 12.0)
    p4 = OCCUtil.pnt(17.0, 22.0)
    p5 = OCCUtil.pnt(0.0, 22.0)
    p6 = OCCUtil.pnt(3.0, 17.0)
    p7 = OCCUtil.pnt(4.0, 8.0)
    c1 = OCCUtil.pnt(10.0, 18.5)
    c2 = OCCUtil.pnt(6.0, 3.0)

    edges = []
    edges.append(OCCUtil.edgeFromTwoPoints(p1, p2))
    edges.append(OCCUtil.edgeFromTwoPoints(p2, p3))

    circle = GC.GC_MakeArcOfCircle(p3, c1, p4)
    #circle through 3 points
    e2 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(circle.Value()).Edge()
    edges.append(e2)

    edges.append(OCCUtil.edgeFromTwoPoints(p4, p5))
    edges.append(OCCUtil.edgeFromTwoPoints(p5, p6))
    edges.append(OCCUtil.edgeFromTwoPoints(p6, p7))

    circle = GC.GC_MakeArcOfCircle(p1, c2, p7)
    #circle through 3 points
    e3 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(circle.Value()).Edge()
    edges.append(e3)

    return OCCUtil.wireFromEdges(edges)
コード例 #5
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def make_interp_parabola(FL, rmin, rmax, segments=50):
    A = 1./(4*FL)
    x = numpy.linspace(rmin, rmax, segments)
    y = (A * x**2) - FL
    
    points = [(X,0,Z) for X,Z in zip(x,y)]
    points.append((x[0],0,y[-1]))
    
    def pairs(itr):
        a,b = itertools.tee(itr)
        next(b)
        return zip(a,b)
    
    edges = (BRepBuilderAPI.BRepBuilderAPI_MakeEdge(
                    gp.gp_Pnt(*p1), gp.gp_Pnt(*p2))
                    for p1, p2 in pairs(points))
    last_edge = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(
                    gp.gp_Pnt(*points[-1]), 
                    gp.gp_Pnt(*points[0]))
    
    wire = BRepBuilderAPI.BRepBuilderAPI_MakeWire()
    for e in edges:
        wire.Add(e.Edge())
    wire.Add(last_edge.Edge())
    
    face = BRepBuilderAPI.BRepBuilderAPI_MakeFace(wire.Wire())
    
    ax = gp.gp_Ax1(gp.gp_Pnt(0,0,0),
                   gp.gp_Dir(0,0,1))
    
    revol = BRepPrimAPI.BRepPrimAPI_MakeRevol(face.Shape(), ax)
    
    return revol.Shape()
コード例 #6
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def makeCircleWire():
    "designed to be include inside the square to simulate an island"

    circle = gp.gp_Circ(gp.gp_Ax2(gp.gp_Pnt(2, 2, 0),
                                  gp.gp().DZ()), 1)
    e1 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(circle).Edge()
    mw = BRepBuilderAPI.BRepBuilderAPI_MakeWire()
    mw.Add(e1)
    return mw.Wire()
コード例 #7
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	def OrientShape(self):
		# Intended to be called at end of CreateShape
		# Shape is expected to be in default position and orientation
		T = gp_Trsf()
		u = self.orientation.u
		v = self.orientation.v
		w = self.orientation.w
		#T.SetValues(u[0],u[1],u[2],0,v[0],v[1],v[2],0,w[0],w[1],w[2],0)
		T.SetValues(u[0],v[0],w[0],0,u[1],v[1],w[1],0,u[2],v[2],w[2],0)
		self.occ_shape = occbuild.BRepBuilderAPI_Transform(self.occ_shape,T,False).Shape()
		T.SetTranslation(gp_Vec(self.center[0],self.center[1],self.center[2]))
		self.occ_shape = occbuild.BRepBuilderAPI_Transform(self.occ_shape,T,False).Shape()
コード例 #8
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def make_wire(listOfPoints, close=False):
    vertices = [BRepBuilderAPI.BRepBuilderAPI_MakeVertex(gp.gp_Pnt(*p))
                for p in listOfPoints]
    edges = [BRepBuilderAPI.BRepBuilderAPI_MakeEdge(v1.Vertex(),v2.Vertex())
         for v1,v2 in pairs(vertices)]
    if close:
        edges.append(BRepBuilderAPI.BRepBuilderAPI_MakeEdge(vertices[-1].Vertex(),
                                                            vertices[0].Vertex()))
    wire = BRepBuilderAPI.BRepBuilderAPI_MakeWire()
    for e in edges:
        wire.Add(e.Edge())
    return toshape(wire)
コード例 #9
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def makeHeartWire():
    "make a heart wire"
    e1 = Wrappers.edgeFromTwoPoints(gp.gp_Pnt(0, 0, 0), gp.gp_Pnt(4.0, 4.0, 0))
    circle = gp.gp_Circ(gp.gp_Ax2(gp.gp_Pnt(2, 4, 0),
                                  gp.gp().DZ()), 2)
    e2 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(circle, gp.gp_Pnt(4, 4, 0),
                                                gp.gp_Pnt(0, 4, 0)).Edge()
    circle = gp.gp_Circ(gp.gp_Ax2(gp.gp_Pnt(-2, 4, 0),
                                  gp.gp().DZ()), 2)
    e3 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(circle, gp.gp_Pnt(0, 4, 0),
                                                gp.gp_Pnt(-4, 4, 0)).Edge()
    e4 = Wrappers.edgeFromTwoPoints(gp.gp_Pnt(-4, 4, 0), gp.gp_Pnt(0, 0, 0))
    return Wrappers.wireFromEdges([e1, e2, e3, e4])
コード例 #10
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ファイル: TestObjects.py プロジェクト: k-automation/emcfab
def makeSquareWithRoundHole():

    points = [(0, 0), (0.05, -1.0), (1.0, 0), (2.0, 0), (2.0, 6.0), (0.0, 6.0)]
    ow = makeWireFromPointList(points)

    circle = gp.gp_Circ(gp.gp_Ax2(gp.gp_Pnt(1.0, 2, 0),
                                  gp.gp().DZ()), 0.75)
    e1 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(circle).Edge()
    mw = BRepBuilderAPI.BRepBuilderAPI_MakeWire()
    mw.Add(e1)
    circle = mw.Wire()
    builder = BRepBuilderAPI.BRepBuilderAPI_MakeFace(ow, True)
    builder.Add(circle)
    return builder.Face()
コード例 #11
0
ファイル: hexagonlib.py プロジェクト: k-automation/emcfab
    def makeHexArray(self, bottomLeftCenter, countX, countY):
        """
			makes an array of hexagons
			bottomLeftCenter is the center of the top left hex, as a three-element tuple
			countX is the number of hexes in the x direction
			countY is the number of hexes in the y direction
			returns a list of wires representing a hexagon fill pattern
		"""
        pattern = self.makePeriodic(bottomLeftCenter)
        wireBuilder = BRepBuilderAPI.BRepBuilderAPI_MakeWire(pattern)

        #make horizontal array
        tsf = gp.gp_Trsf()
        pDist = 2.0 * self.cartesianSpacing()[0]
        tsf.SetTranslation(gp.gp_Pnt(0, 0, 0), gp.gp_Pnt(pDist, 0, 0))
        tx = BRepBuilderAPI.BRepBuilderAPI_Transform(tsf)
        currentShape = pattern
        for i in range(1, int((countX / 2) + 1)):
            tx.Perform(currentShape, False)
            currentShape = tx.Shape()
            #display.DisplayShape(currentShape);
            wireBuilder.Add(Wrappers.cast(currentShape))

        #create an array by alternately offsetting one cell right and
        #moving down
        topHalf = wireBuilder.Wire()
        #topHalf= approximatedWire(topHalf);

        wires = []
        wires.append(topHalf)
        dY = self.cartesianSpacing()[1] / 2.0
        dX = self.cartesianSpacing()[0]

        ####TODO// performance note.  This method takes about 31ms to compute 1000x1000 hex.
        # pretty good, except that nearly 50% of the time is spent in makeTransform!!!
        # a much better method would be to use the same transform object somehow
        for i in range(1, int(countY * 2)):
            if i % 2 == 0:
                t = makeTransform(0, dY * i, 0)
            else:
                t = makeTransform(dX, dY * i, 0)
            t.Perform(topHalf, False)
            w = Wrappers.cast(t.Shape())

            #approximate the wire
            #wires.append ( approximatedWire(w));
            wires.append(w)

        #display.DisplayShape(wires);
        return wires
コード例 #12
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 def preview(self, inp, direction):
     if self.step == 0:
         self.previous_data = [inp]
         return [BRepBuilderAPI.BRepBuilderAPI_MakeVertex(inp).Vertex()]
     elif self.step == 1:
         point0 = self.previous_data[0]
         # checking if the previous points are identical: This is necessary
         # before continuing in order to avoid a crash on Windows
         if point0 == inp:
             raise InvalidInputException
         a = GC.GC_MakeSegment(inp, point0).Value()
         b = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(a).Edge()
         self._final = [BRepBuilderAPI.BRepBuilderAPI_MakeWire(b).Wire()]
         return self._final
コード例 #13
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def makeReversedWire():
    "this is a square"
    p1 = gp.gp_Pnt(.5, .5, 0)
    p2 = gp.gp_Pnt(1, 4, 0)
    p3 = gp.gp_Pnt(2, 4, 0)
    e1 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(p1, p2).Edge()
    e2 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(p3, p2).Edge()
    e2.Reverse()
    e3 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(p3, p1).Edge()
    mw = BRepBuilderAPI.BRepBuilderAPI_MakeWire()
    mw.Add(e1)
    mw.Add(e2)
    mw.Add(e3)
    return mw.Wire()
コード例 #14
0
ファイル: OccSliceLib.py プロジェクト: k-automation/emcfab
def fixShape(shape):
    """
		fixes a shape
	"""
    log.info("Fixing holes and degenerated Meshes...")
    sf = ShapeFix.ShapeFix_Shape(shape)
    sf.SetMaxTolerance(TOLERANCE)

    msgRegistrator = ShapeExtend.ShapeExtend_MsgRegistrator()
    sf.SetMsgRegistrator(msgRegistrator.GetHandle())

    sf.Perform()

    log.info("ShapeFix Complete.")
    for i in range(0, 18):
        log.info("ShapeFix Status %d --> %s" % (i, sf.Status(i)))

    fixedShape = sf.Shape()
    #fixedShape = shape;
    return fixedShape
    #if the resulting shape is a compound, we need to convert
    #each shell to a solid, and then re-create a new compound of solids
    if fixedShape.ShapeType() == TopAbs.TopAbs_COMPOUND:

        log.warn("Shape is a compound. Creating solids for each shell.")
        builder = BRep.BRep_Builder()
        newCompound = TopoDS.TopoDS_Compound()
        #newCompound = TopoDS.TopoDS_CompSolid();
        builder.MakeCompound(newCompound)
        #builder.MakeCompSolid(newCompound);
        for shell in Topo(fixedShape).shells():

            solidBuilder = BRepBuilderAPI.BRepBuilderAPI_MakeSolid(shell)
            solid = solidBuilder.Solid()
            sa = SolidAnalyzer(solid)
            print sa.friendlyDimensions()
            builder.Add(newCompound, solid)

        #time.sleep(4);
        #Topology.dumpTopology(newCompound);
        return newCompound
        #return temporarily after the first one
    else:
        log.info("Making Solid from the Shell...")

        solidBuilder = BRepBuilderAPI.BRepBuilderAPI_MakeSolid(
            ts.Shell(fixedShape))
        return solidBuilder.Solid()
コード例 #15
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 def preview(self, input, direction):
     point = input
     if self.step == 0 and point is not None:
         point1 = gp_.gp_Pnt_([0, 0, 0])
         a = GC.GC_MakeSegment(point1, point).Value()
         self._final = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(a).Shape()
         return self._final,
コード例 #16
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ファイル: OccSliceLib.py プロジェクト: k-automation/emcfab
    def copyToZ(self, z):
        "makes a copy of this slice, transformed to the specified z height"
        theCopy = Slice()
        theCopy.zLevel = z
        theCopy.zHeight = self.zHeight
        theCopy.sliceHeight = self.sliceHeight
        theCopy.fillWidth = self.fillWidth
        theCopy.hatchDir = self.hatchDir
        theCopy.checkSum = self.checkSum

        #make transformation
        p1 = gp.gp_Pnt(0, 0, 0)
        p2 = gp.gp_Pnt(0, 0, z)
        xform = gp.gp_Trsf()
        xform.SetTranslation(p1, p2)
        bt = BRepBuilderAPI.BRepBuilderAPI_Transform(xform)

        #copy all of the faces
        for f in hSeqIterator(self.faces):
            bt.Perform(f, True)
            theCopy.addFace(Wrappers.cast(bt.Shape()))

        #copy all of the fillWires
        for w in hSeqIterator(self.fillWires):
            bt.Perform(w, True)
            #TestDisplay.display.showShape(bt.Shape() );
            theCopy.fillWires.Append(Wrappers.cast(bt.Shape()))

        #copy all of the fillEdges
        for e in hSeqIterator(self.fillEdges):
            bt.Perform(e, True)
            #TestDisplay.display.showShape(bt.Shape() );
            theCopy.fillEdges.Append(Wrappers.cast(bt.Shape()))

        return theCopy
コード例 #17
0
ファイル: TestObjects.py プロジェクト: k-automation/emcfab
def makeBsplineEdge():
    pts = []
    pts.append(OCCUtil.pnt(0.0, 0))
    pts.append(OCCUtil.pnt(1.0, 0.0))
    pts.append(OCCUtil.pnt(1.2, 0.1))
    pts.append(OCCUtil.pnt(2.0, 2.0))
    pts.append(OCCUtil.pnt(2.0, 2.4))
    pts.append(OCCUtil.pnt(3.0, 2.4))
    pts.append(OCCUtil.pnt(4.0, 1.5))
    pts.append(OCCUtil.pnt(5.0, 1.5))
    pts.append(OCCUtil.pnt(4.0, 0))
    pts.append(OCCUtil.pnt(3.0, -0.1))
    pts.append(OCCUtil.pnt(2.0, -0.1))
    pts.append(OCCUtil.pnt(2.0, -0.1))
    pts.append(OCCUtil.pnt(2.0, 0.2))
    pts.append(OCCUtil.pnt(3.0, 0.5))
    pts.append(OCCUtil.pnt(3.0, 1.0))

    points = TColgp.TColgp_HArray1OfPnt(1, len(pts))
    i = 1
    for p in pts:
        points.SetValue(i, p)
        i += 1

    #q = time.clock();
    #for i in range(1000):
    gi = GeomAPI.GeomAPI_Interpolate(points.GetHandle(), False, 0.001)
    gi.Perform()
    curve = gi.Curve()
    #print "1000 iters: Elapsed: %0.3f " % ( time.clock() -  q)

    builder = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(curve)
    return builder.Edge()
コード例 #18
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def intersectWiresUsingDistShapeShape(wire, edges):
    "intersect a wire with a series of edges. naive algorithm without bounding box sorting "
    ipoints = []
    w = Wrappers.Wire(wire)

    circle = gp.gp_Circ2d(gp.gp_Ax2d(tP(2, 4),
                                     gp.gp().DX2d()), 2)
    e2 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge2d(circle, tP(4, 4),
                                                  tP(0, 4)).Edge()
    TestDisplay.display.showShape(e2)
    e4 = edgeFromTwoPoints((-4, 4), (0, 0))
    TestDisplay.display.showShape(e4)
    brp = BRepExtrema.BRepExtrema_DistShapeShape(e2, e4)
    print "runing"
    brp.Perform()
    print "done"
    if brp.Value() < 0.001:
        print "intersection found!"
        #TODO need to handle the somewhat unusual cases that the intersection is
        #on a vertex
        for k in range(1, brp.NbSolution() + 1):
            p1 = brp.PointOnShape1(k)
            ipoints.append(p1.X(), p1.Y())

    return (count, ipoints)
コード例 #19
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def makeSquareWire():
    "this is a square"
    p1 = gp.gp_Pnt(0, 0, 0)
    p2 = gp.gp_Pnt(5, 0, 0)
    p3 = gp.gp_Pnt(5, 5, 0)
    p4 = gp.gp_Pnt(0, 5, 0)
    e1 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(p1, p2).Edge()
    e2 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(p2, p3).Edge()
    e3 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(p3, p4).Edge()
    e4 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(p4, p1).Edge()
    mw = BRepBuilderAPI.BRepBuilderAPI_MakeWire()
    mw.Add(e1)
    mw.Add(e2)
    mw.Add(e3)
    mw.Add(e4)
    return mw.Wire()
コード例 #20
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ファイル: Utils.py プロジェクト: k-automation/emcfab
def edgeFromTwoPoints(p1, p2):
    builder = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(p1, p2)
    builder.Build()
    if builder.IsDone():
        return builder.Edge()
    else:
        return None
コード例 #21
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ファイル: Slicer.py プロジェクト: k-automation/emcfab
    def makeSection2(self, cuttingPlane, shapeToSection, zLevel):
        """
            Uses BrepSection Algo. this generally returns a list of wires, not a face      
        """
        #section is certainly faster, but produces only edges.
        #those have to be re-organized into wires, probably
        #using ShapeAnalysis_WireOrder

        face = BRepBuilderAPI.BRepBuilderAPI_MakeFace(cuttingPlane).Shape()
        # Computes Shape/Plane intersection
        section = BRepAlgoAPI.BRepAlgoAPI_Section(self.solid.shape, face)
        #section = BRepAlgo.BRepAlgo_Section(self.solid.shape,face);
        section.Build()
        if section.IsDone():
            #Topology.dumpTopology(section.Shape());

            #what we got back was a compound of edges
            t = Topo(section.Shape())
            wb = OCCUtil.MultiWireBuilder()
            for e in t.edges():
                wb.addEdge(e)
            wires = wb.getWires()
            print wires
            for w in wires:
                Topology.dumpTopology(w)
            return wires
        else:
            raise Exception("Could not compute Section!")
コード例 #22
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ファイル: Slicer.py プロジェクト: k-automation/emcfab
    def copyToZ(self, z, layerNo):
        "makes a copy of this slice, transformed to the specified z height"

        theCopy = Slice()
        theCopy.zLevel = z
        theCopy.fillAngle = self.fillAngle
        theCopy.layerNo = layerNo
        theCopy.thickness = self.thickness

        #make transformation
        p1 = gp.gp_Pnt(0, 0, 0)
        p2 = gp.gp_Pnt(0, 0, z)
        xform = gp.gp_Trsf()
        xform.SetTranslation(p1, p2)
        bt = BRepBuilderAPI.BRepBuilderAPI_Transform(xform)

        #copy all of the faces
        for f in self.faces:

            bt.Perform(f.face, True)
            newFace = Face(OCCUtil.cast(bt.Shape()))

            #copy shells
            for shell in f.shellWires:
                #print shell
                bt.Perform(shell, True)
                newFace.shellWires.append(OCCUtil.cast(bt.Shape()))

            #copy fillWires
            for fill in f.fillWires:
                bt.Perform(fill, True)
                newFace.shellWires.append(OCCUtil.cast(bt.Shape()))
            theCopy.addFace(newFace)

        return theCopy
コード例 #23
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def makeHeartWire2d():
    "make a heart wire in 2d"
    e1 = edgeFromTwoPoints((0, 0), (4.0, 4.0))

    circle = gp.gp_Circ2d(gp.gp_Ax2d(tP(2, 4),
                                     gp.gp().DX2d()), 2)
    e2 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge2d(circle, tP(4, 4),
                                                  tP(0, 4)).Edge()

    circle = gp.gp_Circ2d(gp.gp_Ax2d(tP(-2, 4),
                                     gp.gp().DX2d()), 2)
    e3 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge2d(circle, tP(0, 4),
                                                  tP(-4, 4)).Edge()

    e4 = edgeFromTwoPoints((-4, 4), (0, 0))
    return Wrappers.wireFromEdges([e1, e2, e3, e4])
コード例 #24
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def make_rays_wires(listOfRays, scale=None):
    raysItr = iter(listOfRays)
    first = next(raysItr)
    def MakeVertex(pt): 
        vt = BRepBuilderAPI.BRepBuilderAPI_MakeVertex(gp.gp_Pnt(*pt))
        #print "make vertex", pt, vt
        return vt
    def MakeEdge(v1, v2):
        e = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(v1.Vertex(), v2.Vertex())
        #print "make edge", v1, v2, e
        return e
    wires = [BRepBuilderAPI.BRepBuilderAPI_MakeWire() 
             for i in range(first.origin.shape[0])]
    v_start = [MakeVertex(pt) for pt in first.origin]
    v_end = [MakeVertex(pt) for pt in first.termination]
    first_edges = [MakeEdge(v1,v2) for v1, v2 in zip(v_start, v_end)]
    for edge, wire in zip(first_edges, wires):
        wire.Add(edge.Edge())
    id_map = list(range(len(wires)))
    for rays in raysItr:
        id_map = [id_map[pid] for pid in rays.parent_idx]
        v_start = [v_end[pid] for pid in rays.parent_idx]
        v_end = [MakeVertex(pt) for pt in rays.termination]
        edges = [MakeEdge(v1,v2) for v1, v2 in zip(v_start, v_end)]
        for edge, w_id in zip(edges, id_map):
            wires[w_id].Add(edge.Edge())
    return make_compound([w.Shape() for w in wires])
コード例 #25
0
ファイル: testCircle.py プロジェクト: k-automation/emcfab
def normalEdgesAlongEdge(edge, length , interval):
	"compute an edge having length at the specified parameter on the supplied curve:"

	edgeList = [];
	
	ew = Wrappers.Edge(edge);
	zDir = gp.gp().DZ();
	zVec = gp.gp_Vec(zDir);
	
	curve = ew.curve;
	pStart = ew.firstParameter;
	pEnd = ew.lastParameter;
	
	for p in Wrappers.frange6(pStart,pEnd,interval):
		tangent = gp.gp_Vec();
		tanpoint = gp.gp_Pnt();
		curve.D1(p,tanpoint,tangent );
		axis = gp.gp_Ax1(tanpoint, gp.gp_Dir(tangent.Crossed(zVec) ) );
	
		line = Geom.Geom_Line(axis );
		e = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(line.GetHandle(),0, length).Edge();	
		if e:
			edgeList.append(e);
			
	return edgeList;
コード例 #26
0
	def CreateShape(self):
		outer = occprim.BRepPrimAPI_MakeCylinder(self.outer_radius,self.length).Shape()
		inner = occprim.BRepPrimAPI_MakeCylinder(self.inner_radius,self.length).Shape()
		self.occ_shape = occalgo.BRepAlgoAPI_Cut(outer,inner).Shape()
		T = gp_Trsf()
		T.SetTranslation(gp_Vec(0,0,-self.length/2))
		self.occ_shape = occbuild.BRepBuilderAPI_Transform(self.occ_shape,T,False).Shape()
		self.OrientShape()
コード例 #27
0
def edgeFromTwoPoints(p1, p2):
    "make a linear edge from two points "
    builder = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(p1, p2)
    builder.Build()
    if builder.IsDone():
        return builder.Edge()
    else:
        return None
コード例 #28
0
ファイル: twcad.py プロジェクト: WIEQLI/turboWAVE
 def CreateShape(self):
     self.occ_shape = occprim.BRepPrimAPI_MakeCylinder(
         self.radius, self.length).Shape()
     T = gp_Trsf()
     T.SetTranslation(gp_Vec(0, 0, -self.length / 2))
     self.occ_shape = occbuild.BRepBuilderAPI_Transform(
         self.occ_shape, T, False).Shape()
     self.OrientShape()
コード例 #29
0
ファイル: OccSliceLib.py プロジェクト: k-automation/emcfab
    def _makeSlice(self, shapeToSlice, zLevel):

        s = Slice()

        #used to determine if a slice is identical to others.
        s.hatchDir = self.hatchReversed
        s.fillWidth = self.options.filling.fillWidth

        #change if layers are variable thickness
        s.sliceHeight = self.options.layerHeight
        s.zLevel = zLevel

        #make a cutting plane
        p = gp.gp_Pnt(0, 0, zLevel)

        origin = gp.gp_Pnt(0, 0, zLevel - 1)
        csys = gp.gp_Ax3(p, gp.gp().DZ())
        cuttingPlane = gp.gp_Pln(csys)
        bff = BRepBuilderAPI.BRepBuilderAPI_MakeFace(cuttingPlane)
        face = bff.Face()

        #odd, a halfspace is faster than a box?
        hs = BRepPrimAPI.BRepPrimAPI_MakeHalfSpace(face, origin)
        hs.Build()
        halfspace = hs.Solid()

        #make the cut
        bc = BRepAlgoAPI.BRepAlgoAPI_Cut(shapeToSlice, halfspace)
        cutShape = bc.Shape()

        foundFace = False
        for face in Topo(cutShape).faces():
            if self._isAtZLevel(zLevel, face):
                foundFace = True
                log.debug("Face is at zlevel" + str(zLevel))
                s.addFace(face)
                #TestDisplay.display.showShape(face);

                log.debug("Face" + str(face))

        if self.options.useSliceFactoring:
            mySum = s.getCheckSum()
            #print 'Slice Created, Checksum is',mySum;
            for otherSlice in self.slices:
                #print "Slice Checksum=",otherSlice.getCheckSum();
                if mySum == otherSlice.getCheckSum():
                    log.info(
                        "This slice matches another one exactly. using that so we can save time."
                    )
                    return otherSlice.copyToZ(zLevel)

        if not foundFace:
            log.warn("No faces found after slicing at zLevel " + str(zLevel) +
                     " !. Skipping This layer completely")
            return None
        else:
            return s
コード例 #30
0
def makeKeyHoleWire():
    circle2 = gp.gp_Circ(gp.gp_Ax2(gp.gp_Pnt(40, 40, 2), gp.gp_Dir(0, 0, 1)),
                         10)
    Edge4 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(circle2,
                                                   gp.gp_Pnt(40, 50, 2),
                                                   gp.gp_Pnt(50, 40,
                                                             2)).Edge()
    ExistingWire2 = BRepBuilderAPI.BRepBuilderAPI_MakeWire(Edge4).Wire()
    P1 = gp.gp_Pnt(50, 40, 2)
    P2 = gp.gp_Pnt(80, 40, 2)  #5,204,0
    Edge5 = BRepBuilderAPI.BRepBuilderAPI_MakeEdge(P1, P2).Edge()
    MW = BRepBuilderAPI.BRepBuilderAPI_MakeWire()
    MW.Add(Edge5)
    MW.Add(ExistingWire2)

    if MW.IsDone():
        WhiteWire = MW.Wire()
        return [WhiteWire, Edge5, ExistingWire2]