Exemple #1
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def GetOrientedBoundingBoxShapeCompound(shapes_compound, optimal_OBB=False):

    obb = Bnd_OBB()
    if optimal_OBB:
        is_triangulationUsed = True
        is_optimal = True
        is_shapeToleranceUsed = False
        brepbndlib_AddOBB(shapes_compound, obb, is_triangulationUsed, is_optimal, is_shapeToleranceUsed)
    else:
        brepbndlib_AddOBB(shapes_compound, obb)
    aBaryCenter = obb.Center()
    aXDir = obb.XDirection()
    aYDir = obb.YDirection()
    aZDir = obb.ZDirection()
    aHalfX = obb.XHSize()
    aHalfY = obb.YHSize()
    aHalfZ = obb.ZHSize()

    ax = gp_XYZ(aXDir.X(), aXDir.Y(), aXDir.Z())
    ay = gp_XYZ(aYDir.X(), aYDir.Y(), aYDir.Z())
    az = gp_XYZ(aZDir.X(), aZDir.Y(), aZDir.Z())
    p = gp_Pnt(aBaryCenter.X(), aBaryCenter.Y(), aBaryCenter.Z())

    pt=[]
    pt.append(gp_Pnt(p.XYZ() - ax * aHalfX - ay * aHalfY - az * aHalfZ))
    pt.append(gp_Pnt(p.XYZ() + ax * aHalfX - ay * aHalfY - az * aHalfZ))
    pt.append(gp_Pnt(p.XYZ() + ax * aHalfX + ay * aHalfY - az * aHalfZ))
    pt.append(gp_Pnt(p.XYZ() - ax * aHalfX + ay * aHalfY - az * aHalfZ))
    pt.append(gp_Pnt(p.XYZ() - ax * aHalfX - ay * aHalfY + az * aHalfZ))
    pt.append(gp_Pnt(p.XYZ() + ax * aHalfX - ay * aHalfY + az * aHalfZ))
    pt.append(gp_Pnt(p.XYZ() + ax * aHalfX + ay * aHalfY + az * aHalfZ))
    pt.append(gp_Pnt(p.XYZ() - ax * aHalfX + ay * aHalfY + az * aHalfZ))

    return  pt
Exemple #2
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def get_oriented_boundingbox_ratio(shape, optimal_OBB=True, ratio=1.0):
    """ return the oriented bounding box of the TopoDS_Shape `shape`

    Parameters
    ----------

    shape : TopoDS_Shape or a subclass such as TopoDS_Face
        the shape to compute the bounding box from

    optimal_OBB : bool, True by default. If set to True, compute the
        optimal (i.e. the smallest oriented bounding box). 
        Optimal OBB is a bit longer.

    ratio : float, 1.0 by default.

    Returns
    -------
        a list with center, x, y and z sizes

        a shape
    """
    obb = Bnd_OBB()
    if optimal_OBB:
        is_triangulationUsed = True
        is_optimal = True
        is_shapeToleranceUsed = False
        brepbndlib_AddOBB(shape, obb, is_triangulationUsed, is_optimal,
                          is_shapeToleranceUsed)
    else:
        brepbndlib_AddOBB(shape, obb)

    # converts the bounding box to a shape
    aBaryCenter = obb.Center()
    aXDir = obb.XDirection()
    aYDir = obb.YDirection()
    aZDir = obb.ZDirection()
    aHalfX = obb.XHSize()
    aHalfY = obb.YHSize()
    aHalfZ = obb.ZHSize()
    dx = aHalfX * ratio
    dy = aHalfY * ratio
    dz = aHalfZ * ratio

    ax = gp_XYZ(aXDir.X(), aXDir.Y(), aXDir.Z())
    ay = gp_XYZ(aYDir.X(), aYDir.Y(), aYDir.Z())
    az = gp_XYZ(aZDir.X(), aZDir.Y(), aZDir.Z())
    p = gp_Pnt(aBaryCenter.X(), aBaryCenter.Y(), aBaryCenter.Z())
    anAxes = gp_Ax2(p, gp_Dir(aZDir), gp_Dir(aXDir))
    anAxes.SetLocation(gp_Pnt(p.XYZ() - ax * dx - ay * dy - az * dz))
    aBox = BRepPrimAPI_MakeBox(anAxes, 2.0 * dx, 2.0 * dy, 2.0 * dz).Shape()
    return aBaryCenter, [dx, dy, dz], aBox
Exemple #3
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def get_oriented_boundingbox_coor(shape, optimal_OBB=False):
    '''return the oriented bounding box of the TopoDS_Shape `shape`'''

    obb = Bnd_OBB()
    if optimal_OBB:
        is_triangulationUsed = True
        is_optimal = True
        is_shapeToleranceUsed = False
        brepbndlib_AddOBB(shape, obb, is_triangulationUsed, is_optimal,
                          is_shapeToleranceUsed)
    else:
        brepbndlib_AddOBB(shape, obb)
    # converts the bounding box to a shape
    aBaryCenter = obb.Center()
    aXDir = obb.XDirection()
    aYDir = obb.YDirection()
    aZDir = obb.ZDirection()
    aHalfX = obb.XHSize()
    aHalfY = obb.YHSize()
    aHalfZ = obb.ZHSize()

    ax = gp_XYZ(aXDir.X(), aXDir.Y(), aXDir.Z())
    ay = gp_XYZ(aYDir.X(), aYDir.Y(), aYDir.Z())
    az = gp_XYZ(aZDir.X(), aZDir.Y(), aZDir.Z())
    p = gp_Pnt(aBaryCenter.X(), aBaryCenter.Y(), aBaryCenter.Z())
    anAxes = gp_Ax2(p, gp_Dir(aZDir), gp_Dir(aXDir))
    anAxes.SetLocation(
        gp_Pnt(p.XYZ() - ax * aHalfX - ay * aHalfY - az * aHalfZ))
    #corner points on the ground face of the box

    new_origin = gp_Pnt(p.XYZ() - ax * aHalfX - ay * aHalfY -
                        az * aHalfZ)  # left_down
    right_up = gp_Pnt(p.XYZ() + ax * aHalfX + ay * aHalfY - az * aHalfZ)
    right_down = gp_Pnt(p.XYZ() + ax * aHalfX - ay * aHalfY - az * aHalfZ)
    left_up = gp_Pnt(p.XYZ() - ax * aHalfX + ay * aHalfY - az * aHalfZ)
    corners_bot = [new_origin, left_up, right_up, right_down]

    new_origin_top = gp_Pnt(p.XYZ() - ax * aHalfX - ay * aHalfY + az * aHalfZ)
    right_up_top = gp_Pnt(p.XYZ() + ax * aHalfX + ay * aHalfY + az * aHalfZ)
    right_down_top = gp_Pnt(p.XYZ() + ax * aHalfX - ay * aHalfY + az * aHalfZ)
    left_up_top = gp_Pnt(p.XYZ() - ax * aHalfX + ay * aHalfY + az * aHalfZ)
    corners_top = [new_origin_top, left_up_top, right_up_top, right_down_top]

    if corners_top[0].Z() >= corners_bot[0].Z():  #always return bot , top
        return corners_bot, corners_top
    else:
        return corners_top, corners_bot
def get_oriented_boundingbox(shape, optimal_OBB=True):
    """return the oriented bounding box of the TopoDS_Shape `shape`

    Parameters
    ----------

    shape : TopoDS_Shape or a subclass such as TopoDS_Face
        the shape to compute the bounding box from
    optimal_OBB : bool, True by default. If set to True, compute the
        optimal (i.e. the smallest oriented bounding box). Optimal OBB is
        a bit longer.
    Returns
    -------
        a list with center, x, y and z sizes

        a shape
    """
    obb = Bnd_OBB()
    if optimal_OBB:
        is_triangulation_used = True
        is_optimal = True
        is_shape_tolerance_used = False
        brepbndlib_AddOBB(shape, obb, is_triangulation_used, is_optimal,
                          is_shape_tolerance_used)
    else:
        brepbndlib_AddOBB(shape, obb)

    # converts the bounding box to a shape
    bary_center = obb.Center()
    x_direction = obb.XDirection()
    y_direction = obb.YDirection()
    z_direction = obb.ZDirection()
    a_half_x = obb.XHSize()
    a_half_y = obb.YHSize()
    a_half_z = obb.ZHSize()

    ax = gp_XYZ(x_direction.X(), x_direction.Y(), x_direction.Z())
    ay = gp_XYZ(y_direction.X(), y_direction.Y(), y_direction.Z())
    az = gp_XYZ(z_direction.X(), z_direction.Y(), z_direction.Z())
    p = gp_Pnt(bary_center.X(), bary_center.Y(), bary_center.Z())
    an_axe = gp_Ax2(p, gp_Dir(z_direction), gp_Dir(x_direction))
    an_axe.SetLocation(
        gp_Pnt(p.XYZ() - ax * a_half_x - ay * a_half_y - az * a_half_z))
    a_box = BRepPrimAPI_MakeBox(an_axe, 2.0 * a_half_x, 2.0 * a_half_y,
                                2.0 * a_half_z).Shape()
    return bary_center, [a_half_x, a_half_y, a_half_z], a_box
def get_oriented_bounding_box(
    shape,
    offset=0.0,
    xWidht=None,
    yWidht=None,
    zWidht=None,
    xxWidht=None,
    yyWidht=None,
    zzWidht=None,
):
    bbox = Bnd_OBB()
    brepbndlib_AddOBB(shape, bbox, True, True, True)
    # bbox.Enlarge(0.5)
    obb_shape1 = ConvertBndToShape(bbox, offset, xWidht, yWidht, zWidht,
                                   zzWidht, xxWidht, yyWidht)
    return obb_shape1
Exemple #6
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def get_bounding_box_alt(geom):
    from OCC.Core.Bnd import Bnd_OBB
    from OCC.Core.BRepBndLib import brepbndlib_AddOBB

    obb = Bnd_OBB()
    brepbndlib_AddOBB(geom, obb)

    # converts the bounding box to a shape
    # aBaryCenter = obb.Center()
    # aXDir = obb.XDirection()
    # aYDir = obb.YDirection()
    # aZDir = obb.ZDirection()
    # aHalfX = obb.XHSize()
    # aHalfY = obb.YHSize()
    # aHalfZ = obb.ZHSize()
    return obb
Exemple #7
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    def obb(self, precision=0.0):
        """Compute the oriented bounding box of the surface.

        Parameters
        ----------
        precision : float, optional

        Returns
        -------
        :class:`~compas.geometry.Box`

        """
        box = Bnd_OBB()
        brepbndlib_AddOBB(self.occ_shape, box, True, True, True)
        return Box(Frame.from_occ(box.Position()), box.XHSize(), box.YHSize(),
                   box.ZHSize())
    aHalfY = theBox.YHSize()
    aHalfZ = theBox.ZHSize()

    ax = gp_XYZ(aXDir.X(), aXDir.Y(), aXDir.Z())
    ay = gp_XYZ(aYDir.X(), aYDir.Y(), aYDir.Z())
    az = gp_XYZ(aZDir.X(), aZDir.Y(), aZDir.Z())
    p = gp_Pnt(aBaryCenter.X(), aBaryCenter.Y(), aBaryCenter.Z())
    anAxes = gp_Ax2(p, gp_Dir(aZDir), gp_Dir(aXDir))
    anAxes.SetLocation(
        gp_Pnt(p.XYZ() - ax * aHalfX - ay * aHalfY - az * aHalfZ))
    aBox = BRepPrimAPI_MakeBox(anAxes, 2.0 * aHalfX, 2.0 * aHalfY,
                               2.0 * aHalfZ).Shape()
    return aBox


obb = Bnd_OBB()

# choose n random vertices
n = 10
for _ in range(n):
    x = random.uniform(100, 1000)
    y = random.uniform(100, 1000)
    z = random.uniform(100, 1000)
    p = BRepBuilderAPI_MakeVertex(gp_Pnt(x, y, z)).Shape()
    display.DisplayShape(p)
    brepbndlib_AddOBB(p, obb)
obb_shape = ConvertBndToShape(obb)
display.DisplayShape(obb_shape)

# a ref box
b = BRepPrimAPI_MakeBox(10, 10, 10).Shape()
def get_oriented_bounding_box_bnd(shape):
    bbox = Bnd_OBB()
    brepbndlib_AddOBB(shape, bbox, True, True, True)

    return bbox
Exemple #10
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    aHalfZ = theBox.ZHSize()

    ax = gp_XYZ(aXDir.X(), aXDir.Y(), aXDir.Z())
    ay = gp_XYZ(aYDir.X(), aYDir.Y(), aYDir.Z())
    az = gp_XYZ(aZDir.X(), aZDir.Y(), aZDir.Z())
    p = gp_Pnt(aBaryCenter.X(), aBaryCenter.Y(), aBaryCenter.Z())
    anAxes = gp_Ax2(p, gp_Dir(aZDir), gp_Dir(aXDir))
    anAxes.SetLocation(
        gp_Pnt(p.XYZ() - ax * aHalfX - ay * aHalfY - az * aHalfZ))
    aBox = BRepPrimAPI_MakeBox(anAxes, 2.0 * aHalfX, 2.0 * aHalfY,
                               2.0 * aHalfZ).Shape()
    return aBox


# compute the oriented bounding box of a point cloud
obb1 = Bnd_OBB()
n = 10
for _ in range(n):
    x = random.uniform(100, 500)
    y = random.uniform(100, 500)
    z = random.uniform(100, 500)
    p = BRepBuilderAPI_MakeVertex(gp_Pnt(x, y, z)).Shape()
    display.DisplayShape(p)
    brepbndlib_AddOBB(p, obb1)
obb_shape1 = ConvertBndToShape(obb1)
display.DisplayShape(obb_shape1, transparency=0.5)

# then loads a brep file and computes the optimal bounding box
from OCC.Core.BRepTools import breptools_Read
from OCC.Core.TopoDS import TopoDS_Shape
from OCC.Core.BRep import BRep_Builder