Exemplo n.º 1
0
def gen_ellipsoid(axs=gp_Ax3(), rxyz=[10, 20, 30]):
    sphere = BRepPrimAPI_MakeSphere(gp_Ax2(), 1).Solid()
    loc = set_loc(gp_Ax3(), axs)
    mat = gp_Mat(rxyz[0], 0, 0, 0, rxyz[1], 0, 0, 0, rxyz[2])
    gtrf = gp_GTrsf(mat, gp_XYZ(0, 0, 0))
    ellips = BRepBuilderAPI_GTransform(sphere, gtrf).Shape()
    ellips.Location(loc)
    return ellips
Exemplo n.º 2
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def gen_ellipsoid_geom(axs=gp_Ax3(), rxyz=[10, 20, 30]):
    sphere = gp_Sphere(axs, 1)
    api = Geom_SphericalSurface(sphere)
    api.Continuity()
    api.Transform()
    print(api.Area())

    loc = set_loc(gp_Ax3(), axs)
    mat = gp_Mat(rxyz[0], 0, 0, 0, rxyz[1], 0, 0, 0, rxyz[2])
    gtrf = gp_GTrsf(mat, gp_XYZ(0, 0, 0))
    ellips = BRepBuilderAPI_GTransform(sphere, gtrf).Shape()
    ellips.Location(loc)
    return ellips
Exemplo n.º 3
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def uniform_scale(occtopology, tx, ty, tz, ref_pypt):
    """
    This function uniformly scales an OCCtopology based on the reference point and tx,ty,tz factors.
 
    Parameters
    ----------        
    occtopology : OCCtopology
        The OCCtopology to be scaled.
        OCCtopology includes: OCCshape, OCCcompound, OCCcompsolid, OCCsolid, OCCshell, OCCface, OCCwire, OCCedge, OCCvertex 
        
    tx : float
        The scale factor in the X-axis.
        
    ty : float
        The scale factor in the Y-axis.
        
    tz : float
        The scale factor in the Z-axis.
       
    ref_pypt : tuple of floats
        The OCCtopology will scale in reference to this point.
        A pypt is a tuple that documents the xyz coordinates of a pt e.g. (x,y,z)
        
    Returns
    -------
    scaled topology : OCCtopology (OCCshape)
        The scaled OCCtopology.
    """
    moved_shape = move(ref_pypt, (0, 0, 0), occtopology)
    xform = gp_GTrsf()
    xform.SetVectorialPart(gp_Mat(
        tx,
        0,
        0,
        0,
        ty,
        0,
        0,
        0,
        tz,
    ))

    brep = BRepBuilderAPI_GTransform(xform)
    brep.Perform(moved_shape, True)
    trsfshape = brep.Shape()
    move_back_shp = move((0, 0, 0), ref_pypt, trsfshape)
    return move_back_shp
Exemplo n.º 4
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    def transform(self, trans):
        if isinstance(trans, Transformation):
            shp = BRepBuilderAPI_Transform(
                self._shp, trans._trsf, True).Shape()
            return Shape(shp)

        if isinstance(trans, GeneralTransformation):
            shp = BRepBuilderAPI_GTransform(
                self._shp, trans._gtrsf, True).Shape()
            return Shape(shp)
Exemplo n.º 5
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def scale_shape(shape, fx, fy, fz):
    """Scale a shape along the 3 directions
    @param fx : scale factor in the x direction
    @param fy : scale factor in the y direction
    @param fz : scale factor in the z direction

    @return : the scaled shape
    """
    assert_shape_not_null(shape)
    scale_trsf = gp_GTrsf()
    rot = gp_Mat(fx, 0.0, 0.0, 0.0, fy, 0.0, 0.0, 0.0, fz)
    scale_trsf.SetVectorialPart(rot)
    shp = BRepBuilderAPI_GTransform(shape, scale_trsf).Shape()
    return shp
Exemplo n.º 6
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 def __init__(self):
     super().__init__()
     self.axs = gp_Ax3()
     self.radi = [500, 200]
     self.rxyz = [1.5, 1.2, 1.5]
     mat = gp_Mat(self.rxyz[0], 0, 0, 0, self.rxyz[1], 0, 0, 0,
                  self.rxyz[2])
     gtrf = gp_GTrsf(mat, gp_XYZ(0, 0, 0))
     #self.t = Geom_ToroidalSurface(self.axs, *self.radi)
     self.t = Geom_SphericalSurface(self.axs, 100.0)
     self.face = BRepBuilderAPI_MakeFace(self.t, 1e-6).Face()
     self.face = BRepBuilderAPI_GTransform(self.face, gtrf).Shape()
     self.surf = BRep_Tool.Surface(self.face)
     self.prop = GeomLProp_SLProps(self.surf, 0.0, 0.0, 1, 1.0)
     self.export_stp(self.face)
     print(self.t.UPeriod())
Exemplo n.º 7
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def brep_feat_extrusion_protrusion(event=None):
    # Extrusion
    S = BRepPrimAPI_MakeBox(400., 250., 300.).Shape()
    faces = TopologyExplorer(S).faces()
    F = next(faces)
    surf1 = BRep_Tool_Surface(F)

    Pl1 = Geom_Plane.DownCast(surf1)

    D1 = Pl1.Pln().Axis().Direction().Reversed()
    MW = BRepBuilderAPI_MakeWire()
    p1, p2 = gp_Pnt2d(200., -100.), gp_Pnt2d(100., -100.)
    aline = GCE2d_MakeLine(p1, p2).Value()
    MW.Add(BRepBuilderAPI_MakeEdge(aline, surf1, 0., p1.Distance(p2)).Edge())

    p1, p2 = gp_Pnt2d(100., -100.), gp_Pnt2d(100., -200.)
    aline = GCE2d_MakeLine(p1, p2).Value()
    MW.Add(BRepBuilderAPI_MakeEdge(aline, surf1, 0., p1.Distance(p2)).Edge())

    p1, p2 = gp_Pnt2d(100., -200.), gp_Pnt2d(200., -200.)
    aline = GCE2d_MakeLine(p1, p2).Value()
    MW.Add(BRepBuilderAPI_MakeEdge(aline, surf1, 0., p1.Distance(p2)).Edge())

    p1, p2 = gp_Pnt2d(200., -200.), gp_Pnt2d(200., -100.)
    aline = GCE2d_MakeLine(p1, p2).Value()
    MW.Add(BRepBuilderAPI_MakeEdge(aline, surf1, 0., p1.Distance(p2)).Edge())

    MKF = BRepBuilderAPI_MakeFace()
    MKF.Init(surf1, False, 1e-6)
    MKF.Add(MW.Wire())
    FP = MKF.Face()
    breplib_BuildCurves3d(FP)

    display.EraseAll()
    MKP = BRepFeat_MakePrism(S, FP, F, D1, 0, True)
    MKP.PerformThruAll()

    res1 = MKP.Shape()
    display.DisplayShape(res1)

    # Protrusion
    next(faces)
    F2 = next(faces)
    surf2 = BRep_Tool_Surface(F2)
    Pl2 = Geom_Plane.DownCast(surf2)
    D2 = Pl2.Pln().Axis().Direction().Reversed()
    MW2 = BRepBuilderAPI_MakeWire()
    p1, p2 = gp_Pnt2d(100., 100.), gp_Pnt2d(200., 100.)
    aline = GCE2d_MakeLine(p1, p2).Value()
    MW2.Add(BRepBuilderAPI_MakeEdge(aline, surf2, 0., p1.Distance(p2)).Edge())

    p1, p2 = gp_Pnt2d(200., 100.), gp_Pnt2d(150., 200.)
    aline = GCE2d_MakeLine(p1, p2).Value()
    MW2.Add(BRepBuilderAPI_MakeEdge(aline, surf2, 0., p1.Distance(p2)).Edge())

    p1, p2 = gp_Pnt2d(150., 200.), gp_Pnt2d(100., 100.)
    aline = GCE2d_MakeLine(p1, p2).Value()
    MW2.Add(BRepBuilderAPI_MakeEdge(aline, surf2, 0., p1.Distance(p2)).Edge())

    MKF2 = BRepBuilderAPI_MakeFace()
    MKF2.Init(surf2, False, 1e-6)
    MKF2.Add(MW2.Wire())
    MKF2.Build()

    FP = MKF2.Face()
    breplib_BuildCurves3d(FP)
    MKP2 = BRepFeat_MakePrism(res1, FP, F2, D2, 0, True)
    MKP2.PerformThruAll()
    display.EraseAll()

    trf = gp_Trsf()
    trf.SetTranslation(gp_Vec(0, 0, 300))
    gtrf = gp_GTrsf()
    gtrf.SetTrsf(trf)
    tr = BRepBuilderAPI_GTransform(MKP2.Shape(), gtrf, True)

    fused = BRepAlgoAPI_Fuse(tr.Shape(), MKP2.Shape())
    fused.Build()

    display.DisplayShape(fused.Shape())
    display.FitAll()
Exemplo n.º 8
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def utilShapeZScale(shape, scaleK):
    transform = gp_GTrsf()
    transform.SetAffinity(gp_Ax2(gp_Pnt(0, 0, 0), gp_Dir(0, 0, 1), gp_Dir(0, 1, 0)), scaleK)
    shape = BRepBuilderAPI_GTransform(shape, transform).Shape()
    return shape
Exemplo n.º 9
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from OCC.Core.BRepPrimAPI import BRepPrimAPI_MakeSphere, BRepPrimAPI_MakeBox
from OCC.Core.BRepBuilderAPI import BRepBuilderAPI_GTransform
from OCC.Core.BRepAlgoAPI import BRepAlgoAPI_Common

from OCC.Display.SimpleGui import init_display

display, start_display, add_menu, add_function_to_menu = init_display()
orig = gp_Pnt(0., 0., 0.)
sphere = BRepPrimAPI_MakeSphere(orig, 50.).Solid()

# be careful that the following scale numbers are "not too big",
# otherwise boolean operations can be buggy
# see isue
a1 = 17.1
a2 = 17.1
a3 = 3.5
gTrsf = gp_GTrsf(gp_Mat(a1, 0, 0, 0, a2, 0, 0, 0, a3), gp_XYZ(0., 112.2, 0.))
ellipsoid = BRepBuilderAPI_GTransform(sphere, gTrsf).Shape()

# then perform a boolean intersection with a box
box = BRepPrimAPI_MakeBox(gp_Pnt(-1000, -1000, -1000),
                          gp_Pnt(1000, 112.2, 1000)).Shape()
common = BRepAlgoAPI_Common(box, ellipsoid).Shape()
if common.IsNull():
    raise AssertionError("common result is Null.")

display.DisplayShape(box, color="BLACK", transparency=0.8)
display.DisplayShape(ellipsoid, color="BLACK", transparency=0.8)
display.DisplayShape(common, color="BLACK", transparency=0.8, update=True)
start_display()
Exemplo n.º 10
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def gen_ellipsoid(axs=gp_Ax3(), rxyz=[10, 20, 30]):
    mat = gp_Mat(rxyz[0], 0, 0, 0, rxyz[1], 0, 0, 0, rxyz[2])
    gtrf = gp_GTrsf(mat, gp_XYZ(0, 0, 0))
    sphere = BRepPrimAPI_MakeSphere(axs.Ax2(), 1).Solid()
    ellips = BRepBuilderAPI_GTransform(sphere, gtrf).Shape()
    return ellips