tidy3d.Box#
- class Box[source]#
Bases:
Centered
- Rectangular prism.
Also base class for
Simulation
,Monitor
, andSource
.
- Parameters:
center (Attribute:
center
) –Type
Tuple[float, float, float]
Default
= (0.0, 0.0, 0.0)
Units
um
Description
Center of object in x, y, and z.
size (Attribute:
size
) –Type
Tuple[NonNegativeFloat, NonNegativeFloat, NonNegativeFloat]
Default
Units
um
Description
Size in x, y, and z directions.
Example
>>> b = Box(center=(1,2,3), size=(2,2,2))
Attributes
Returns bounding box min and max coordinates.
Box
representation of self (used for subclasses of Box).A list of axes along which the
Box
is zero-sized.Methods
from_bounds
(rmin, rmax, **kwargs)Constructs a
Box
from minimum and maximum coordinate boundsinside
(x, y, z)For input arrays
x
,y
,z
of arbitrary but identical shape, return an array with the same shape which isTrue
for every point in zip(x, y, z) that is inside the volume of theGeometry
, andFalse
otherwise.intersections_plane
([x, y, z])Returns shapely geometry at plane specified by one non None value of x,y,z.
intersections_tilted_plane
(normal, origin, to_2D)Return a list of shapely geometries at the plane specified by normal and origin.
intersections_with
(other)Returns list of shapely geometries representing the intersections of the geometry with this 2D box.
surfaces
(size, center, **kwargs)Returns a list of 6
Box
instances corresponding to each surface of a 3D volume.surfaces_with_exclusion
(size, center, **kwargs)Returns a list of 6
Box
instances corresponding to each surface of a 3D volume.- size#
- classmethod from_bounds(rmin, rmax, **kwargs)[source]#
Constructs a
Box
from minimum and maximum coordinate bounds- Parameters:
rmin (Tuple[float, float, float]) – (x, y, z) coordinate of the minimum values.
rmax (Tuple[float, float, float]) – (x, y, z) coordinate of the maximum values.
Example
>>> b = Box.from_bounds(rmin=(-1, -2, -3), rmax=(3, 2, 1))
- classmethod surfaces(size, center, **kwargs)[source]#
Returns a list of 6
Box
instances corresponding to each surface of a 3D volume. The output surfaces are stored in the order [x-, x+, y-, y+, z-, z+], where x, y, and z denote which axis is perpendicular to that surface, while “-” and “+” denote the direction of the normal vector of that surface. If a name is provided, each output surface’s name will be that of the provided name appended with the above symbols. E.g., if the provided name is “box”, the x+ surfaces’s name will be “box_x+”.- Parameters:
size (Tuple[float, float, float]) – Size of object in x, y, and z directions.
center (Tuple[float, float, float]) – Center of object in x, y, and z.
Example
>>> b = Box.surfaces(size=(1, 2, 3), center=(3, 2, 1))
- classmethod surfaces_with_exclusion(size, center, **kwargs)[source]#
Returns a list of 6
Box
instances corresponding to each surface of a 3D volume. The output surfaces are stored in the order [x-, x+, y-, y+, z-, z+], where x, y, and z denote which axis is perpendicular to that surface, while “-” and “+” denote the direction of the normal vector of that surface. If a name is provided, each output surface’s name will be that of the provided name appended with the above symbols. E.g., if the provided name is “box”, the x+ surfaces’s name will be “box_x+”. If kwargs contains an exclude_surfaces parameter, the returned list of surfaces will not include the excluded surfaces. Otherwise, the behavior is identical to that of surfaces().- Parameters:
size (Tuple[float, float, float]) – Size of object in x, y, and z directions.
center (Tuple[float, float, float]) – Center of object in x, y, and z.
Example
>>> b = Box.surfaces_with_exclusion( ... size=(1, 2, 3), center=(3, 2, 1), exclude_surfaces=["x-"] ... )
- intersections_tilted_plane(normal, origin, to_2D)[source]#
Return a list of shapely geometries at the plane specified by normal and origin.
- Parameters:
normal (Coordinate) – Vector defining the normal direction to the plane.
origin (Coordinate) – Vector defining the plane origin.
to_2D (MatrixReal4x4) – Transformation matrix to apply to resulting shapes.
- Returns:
List of 2D shapes that intersect plane. For more details refer to Shapely’s Documentation.
- Return type:
List[shapely.geometry.base.BaseGeometry]
- intersections_plane(x=None, y=None, z=None)[source]#
Returns shapely geometry at plane specified by one non None value of x,y,z.
- Parameters:
x (float = None) – Position of plane in x direction, only one of x,y,z can be specified to define plane.
y (float = None) – Position of plane in y direction, only one of x,y,z can be specified to define plane.
z (float = None) – Position of plane in z direction, only one of x,y,z can be specified to define plane.
- Returns:
List of 2D shapes that intersect plane. For more details refer to Shapely’s Documentation.
- Return type:
List[shapely.geometry.base.BaseGeometry]
- inside(x, y, z)[source]#
For input arrays
x
,y
,z
of arbitrary but identical shape, return an array with the same shape which isTrue
for every point in zip(x, y, z) that is inside the volume of theGeometry
, andFalse
otherwise.- Parameters:
x (np.ndarray[float]) – Array of point positions in x direction.
y (np.ndarray[float]) – Array of point positions in y direction.
z (np.ndarray[float]) – Array of point positions in z direction.
- Returns:
True
for every point that is inside the geometry.- Return type:
np.ndarray[bool]
- intersections_with(other)[source]#
Returns list of shapely geometries representing the intersections of the geometry with this 2D box.
- Returns:
List of 2D shapes that intersect this 2D box. For more details refer to Shapely’s Documentation.
- Return type:
List[shapely.geometry.base.BaseGeometry]
- property bounds#
Returns bounding box min and max coordinates.
- Returns:
Min and max bounds packaged as
(minx, miny, minz), (maxx, maxy, maxz)
.- Return type:
Tuple[float, float, float], Tuple[float, float float]
- __hash__()#
Hash method.