API for subgrid

2025-08-08 07:24:19 +08:00 · 2019-07-31 18:32:11 +01:00
--- a/gprMax/subgrids/user_objects.py
+++ b/gprMax/subgrids/user_objects.py
@@ -0,0 +1,196 @@
 from .hsg import SubGridHSG as SubGridHSGUser
 from .multi import ReferenceRx as ReferenceRxUser
 from ..exceptions import CmdInputError
 from ..cmds_multiple import UserObjectMulti
 from ..cmds_geometry.cmds_geometry import UserObjectGeometry
 from ..cmds_multiple import Rx
 from copy import copy
 import numpy as np
 class SubGridBase(UserObjectMulti):
    """Class to allow UserObjectMulti and UserObjectGeometry to be nested in SubGrid type user objects."""
    def __init__(self, **kwargs):
        """Constructor."""
        super().__init__(**kwargs)
        self.children_multiple = []
        self.children_geometry = []
    def add(self, node):
        """Function to add other user objects. Geometry and multi only."""
        if isinstance(node, UserObjectMulti):
            self.children_multiple.append(node)
        elif isinstance(node, UserObjectGeometry):
            self.children_geometry.append(node)
        else:
            raise Exception(str(node) + ' This Object can not be added to a sub grid')
    def check_filters(self, grid):
        """Check the filter of other grids - Only allow filters all on or filters all off."""
        if grid.subgrids:
            f = grid.subgrids[0]
            if f != self.kwargs['filter']:
                raise CmdInputError(self.__str__() + "Filters should be on or off. Set Filter on or off for all subgrids")
    def set_discretisation(self, sg, grid):
        """Set the spatial discretisation."""
        sg.dx = grid.dx / sg.ratio
        sg.dy = grid.dy / sg.ratio
        sg.dz = grid.dz / sg.ratio
    def set_main_grid_indices(self, sg, grid, uip, p1, p2):
        """Set subgrid indices related to main grid placement."""
        # Main grid indices of the sub grid. These are dummy indices. They are
        # not user internal except for printing to the user
        sg.i0_u, sg.j0_u, sg.k0_u = p1
        sg.i1_u, sg.j1_u, sg.k1_u = p2
        # The actual sub gridded area (IS index) is 4 cells in
        sg.i0, sg.j0, sg.k0 = np.add([sg.i0_u, sg.j0_u, sg.k0_u], sg.is_os_sep)
        sg.i1, sg.j1, sg.k1 = np.subtract([sg.i1_u, sg.j1_u, sg.k1_u], sg.is_os_sep)
        # Main grid indices of the sub grid. These are dummy indices. They are
        # not user internal except for printing to the user
        sg.x1_u, sg.y1_u, sg.z1_u = uip.round_to_grid(p1)
        sg.x2_u, sg.y2_u, sg.z2_u = uip.round_to_grid(p2)
        sg.x1, sg.y1, sg.z1 = np.add([sg.x1_u, sg.y1_u, sg.z1_u], sg.is_os_sep * sg.dx)
        sg.x2, sg.y2, sg.z2 = np.subtract([sg.x2_u, sg.y2_u, sg.z2_u], sg.is_os_sep * sg.dx)
    def set_working_region_cells(self, sg):
        """Number of cells in each dimension for the working region."""
        sg.nwx = (sg.i1 - sg.i0) * sg.ratio
        sg.nwy = (sg.j1 - sg.j0) * sg.ratio
        sg.nwz = (sg.k1 - sg.k0) * sg.ratio
    def set_total_cells(self, sg):
        """Number of cells in each dimension for the whole region."""
        sg.nx = 2 * sg.n_boundary_cells_x + sg.nwx
        sg.ny = 2 * sg.n_boundary_cells_y + sg.nwy
        sg.nz = 2 * sg.n_boundary_cells_z + sg.nwz
    def set_iterations(self, sg, main):
        """Set number of iterations that will take place in the subgrid."""
        sg.iterations = main.iterations * sg.ratio
    def setup(self, sg, grid, uip):
        """"Common setup to both all subgrid types."""
        p1 = self.kwargs['p1']
        p2 = self.kwargs['p2']
        p1, p2 = uip.check_box_points(p1, p2, self.__str__())
        self.check_filters(grid)
        self.set_discretisation(sg, grid)
        # Set the temporal discretisation
        sg.calculate_dt()
        # ensure stability
        sg.round_time_step()
        # set the indices related to the subgrids main grid placement
        self.set_main_grid_indices(sg, grid, uip, p1, p2)
        """
        try:
            uip.check_box_points([sg.i0, sg.j0, sg.k0],
                                 [sg.i1, sg.j1, sg.k1], cmd_str)
        except CmdInputError:
            es_f = 'The subgrid should extend at least {} cells'
            es = es_f.format(sg.is_os_sep * 2)
            raise CmdInputError(cmd_str, es)
        """
        self.set_working_region_cells(sg)
        self.set_total_cells(sg)
        self.set_iterations(sg, grid)
        # Copy a reference for the main grid to the sub grid
        sg.parent_grid = grid
        sg.timewindow = grid.timewindow
        # Copy a subgrid reference to self so that children.create(grid, uip) can access
        # the correct grid
        self.subgrid = sg
        # Copy over built in materials
        sg.materials = [copy(m) for m in grid.materials if m.numID in range(0, grid.n_built_in_materials + 1)]
        # use same number of threads
        sg.nthreads = grid.nthreads
        # Dont mix and match different subgrids
        for sg_made in grid.subgrids:
            if type(sg) != type(sg_made):
                raise CmdInputError(self.__str__() + ' Please only use one type of subgrid')
        # Reference the sub grid under the main grid to which it belongs.
        grid.subgrids.append(sg)
 class SubGridHSG(SubGridBase):
    """HSG User Object."""
    def __init__(self,
                 p1=None,
                 p2=None,
                 ratio=3,
                 ID='',
                 is_os_sep=3,
                 pml_separation=4,
                 subgrid_pml_thickness=6,
                 interpolation='linear',
                 loss_mechanism=False,
                 loss_factor=False,
                 filter=True,
                 **kwargs):
        """Constructor."""
        # copy over the optional parameters
        kwargs['p1'] = p1
        kwargs['p2'] = p2
        kwargs['ratio'] = ratio
        kwargs['ID'] = ID
        kwargs['is_os_sep'] = is_os_sep
        kwargs['pml_separation'] = pml_separation
        kwargs['subgrid_pml_thickness'] = subgrid_pml_thickness
        kwargs['interpolation'] = interpolation
        kwargs['filter'] = filter
        kwargs['loss_mechanism'] = loss_mechanism
        kwargs['loss_factor'] = loss_factor
        super().__init__(**kwargs)
        self.order = 18
        self.hash = '#subgrid_hsg'
    def create(self, grid, uip):
        sg = SubGridHSGUser(**self.kwargs)
        self.setup(sg, grid, uip)
        if grid.messages:
            print(sg)
        return sg
 class ReferenceRx(Rx):
    """ReferenceRx User Object."""
    def __init__(self, **kwargs):
        super().__init__(**kwargs)
        self.hash = '#rx_reference'
        self.constructor = ReferenceRxUser
    def create(self, grid, uip):
        r = super().create(grid, uip)
        try:
            ratio = self.kwargs['ratio']
            r.ratio = ratio
            r.offset = ratio // 2
        except KeyError:
            raise CmdInputError("'{}' has an no ratio parameter".format(self.__str__()))