Landlab’s radial grids are implemented by the class RadialModelGrid, which inherits from VoronoiDelaunayGrid. This text lists grid methods available for the class:
The following attributes, properties, and methods provide data about the grid, its geometry, and the connectivity among the various elements. Each grid element has an ID number, which is also its position in an array that contains information about that type of element. For example, the x coordinate of node 5 would be found at grid.node_x[5].
The naming of grid-element arrays is attribute*`_at_`*element, where attribute is the name of the data in question, and element is the element to which the attribute applies. For example, the property node_at_cell contains the ID of the node associated with each cell. For example, node_at_cell[3] contains the node ID of the node associated with cell 3. The attribute is singular if there is only one value per element; for example, there is only one node associated with each cell. It is plural when there are multiple values per element; for example, the faces_at_cell array contains multiple faces for each cell. Exceptions to these general rules are functions that return indices of a subset of all elements of a particular type. For example, you can obtain an array with IDs of only the core nodes using core_nodes, while active_links provides an array of IDs of active links (only). Finally, attributes that represent a measurement of something, such as the length of a link or the surface area of a cell, are described using _of_, as in the example area_of_cell.
axis_name |
Get the name of each coordinate axis. |
axis_units |
Get units for each axis. |
from_dict(params) |
LLCATS: GINF |
move_origin(origin) |
Changes the x, y values of all nodes. |
ndim |
Number of spatial dimensions of the grid. |
node_axis_coordinates(\*args, \*\*kwds) |
Get the coordinates of nodes along a particular axis. |
number_of_elements(name) |
Number of instances of an element. |
number_of_nodes_in_shell |
Number of nodes in each shell. |
number_of_shells |
Number of node shells in grid. |
save(path[, clobber]) |
Save a grid and fields. |
size(group) |
Size of the arrays stored in a group. |
spacing_of_shells |
Fixed distance between shells. |
active_link_dirs_at_node |
Link flux directions at each node: 1=incoming flux, -1=outgoing flux, 0=no flux. |
active_neighbors_at_node |
Get list of neighbor node IDs. |
all_node_azimuths_map |
Get azimuths from every node to every other node. |
all_node_distances_map |
Get distances from every node to every other node. |
boundary_nodes |
Get array of boundary nodes. |
calc_distances_of_nodes_to_point(coord[, ...]) |
Get distances for nodes to a given point. |
cell_area_at_node |
Cell areas in a nnodes-long array. |
cell_at_node |
Node ID associated with grid cells. |
closed_boundary_nodes |
Get array of closed boundary nodes. |
core_nodes |
Get array of core nodes. |
downwind_links_at_node(values[, bad_index]) |
Return an (nnodes, X) shape array of link IDs of which links are downwind of each node, according to values (array or field). |
fixed_gradient_boundary_nodes |
Get array of fixed gradient boundary nodes. |
fixed_value_boundary_nodes |
Get array of fixed value boundary nodes. |
link_at_node_is_downwind(values[, out]) |
Return a boolean the same shape as links_at_node() which flags links which are downwind of the node as True. |
link_at_node_is_upwind(values[, out]) |
Return a boolean the same shape as links_at_node() which flags links which are upwind of the node as True. |
link_dirs_at_node |
Link directions at each node: 1=incoming, -1=outgoing, 0=none. |
links_at_node |
Get links of nodes. |
neighbors_at_node |
Get neighboring nodes. |
node_at_cell |
Node ID associated with grid cells. |
node_at_core_cell |
Get array of nodes associated with core cells. |
node_at_link_head |
Get array of the node at each link head (to-node). |
node_at_link_tail |
Get array of the node at each link tail (from-node). |
node_axis_coordinates(\*args, \*\*kwds) |
Get the coordinates of nodes along a particular axis. |
node_is_boundary(ids[, boundary_flag]) |
Check if nodes are boundary nodes. |
node_x |
Get array of the x-coordinates of nodes. |
node_y |
Get array of the y-coordinates of nodes. |
nodes |
Get node ids for the grid. |
nodes_at_patch |
Get the four nodes at the corners of each patch in a regular grid. |
number_of_core_nodes |
Number of core nodes. |
number_of_links_at_node |
Number of links connected to each node. |
number_of_nodes |
Total number of nodes. |
number_of_nodes_in_shell |
Number of nodes in each shell. |
number_of_patches_present_at_node |
Return the number of patches at a node without a closed node. |
open_boundary_nodes |
Get array of open boundary nodes. |
patches_at_node |
Return a (nnodes, max_voronoi_polygon_sides) array of patches at nodes. |
patches_present_at_node |
A boolean array, False where a patch has a closed node or is missing. |
radius_at_node |
Distance for center node to each node. |
set_nodata_nodes_to_closed(node_data, ...) |
Make no-data nodes closed boundaries. |
set_nodata_nodes_to_fixed_gradient(...) |
Make no-data nodes fixed gradient boundaries. |
status_at_node |
Get array of the boundary status for each node. |
unit_vector_sum_xcomponent_at_node |
Get array of x-component of unit vector sums at each node. |
unit_vector_sum_ycomponent_at_node |
Get array of y-component of unit vector sums at each node. |
upwind_links_at_node(values[, bad_index]) |
Return an (nnodes, X) shape array of link IDs of which links are upwind of each node, according to values (field or array). |
x_of_node |
Get array of the x-coordinates of nodes. |
y_of_node |
Get array of the y-coordinates of nodes. |
active_link_dirs_at_node |
Link flux directions at each node: 1=incoming flux, -1=outgoing flux, 0=no flux. |
active_links |
Get array of active links. |
angle_of_link |
Find and return the angle of a link about the node at the link tail. |
angle_of_link_about_head |
Find and return the angle of a link about the node at the link head. |
downwind_links_at_node(values[, bad_index]) |
Return an (nnodes, X) shape array of link IDs of which links are downwind of each node, according to values (array or field). |
face_at_link |
Get array of faces associated with links. |
fixed_links |
Get array of fixed links. |
length_of_link |
Get lengths of links. |
link_at_face |
Get links associated with faces. |
link_at_node_is_downwind(values[, out]) |
Return a boolean the same shape as links_at_node() which flags links which are downwind of the node as True. |
link_at_node_is_upwind(values[, out]) |
Return a boolean the same shape as links_at_node() which flags links which are upwind of the node as True. |
link_dirs_at_node |
Link directions at each node: 1=incoming, -1=outgoing, 0=none. |
links_at_node |
Get links of nodes. |
links_at_patch |
Returns the links forming each patch. |
node_at_link_head |
Get array of the node at each link head (to-node). |
node_at_link_tail |
Get array of the node at each link tail (from-node). |
number_of_active_links |
Number of active links. |
number_of_fixed_links |
Number of fixed links. |
number_of_links |
Total number of links. |
number_of_links_at_node |
Number of links connected to each node. |
number_of_patches_present_at_link |
Return the number of patches at a link without a closed node. |
patches_at_link |
Returns the patches adjoined to each link. |
patches_present_at_link |
A boolean array, False where a patch has a closed node or is missing. |
resolve_values_on_active_links(\*args, \*\*kwargs) |
Resolve the xy-components of active links. |
resolve_values_on_links(link_values[, out]) |
Resolve the xy-components of links. |
status_at_link |
Get array of the status of all links. |
unit_vector_xcomponent_at_link |
Get array of x-component of unit vector for links. |
unit_vector_ycomponent_at_link |
Get array of y-component of unit vector for links. |
upwind_links_at_node(values[, bad_index]) |
Return an (nnodes, X) shape array of link IDs of which links are upwind of each node, according to values (field or array). |
x_of_link |
Get array of the x-coordinates of link midpoints. |
y_of_link |
Get array of the y-coordinates of link midpoints. |
area_of_cell |
Get areas of grid cells. |
cell_area_at_node |
Cell areas in a nnodes-long array. |
cell_at_node |
Node ID associated with grid cells. |
core_cells |
Get array of core cells. |
faces_at_cell |
Return array containing face IDs at each cell. |
node_at_cell |
Node ID associated with grid cells. |
node_at_core_cell |
Get array of nodes associated with core cells. |
number_of_cells |
Total number of cells. |
number_of_core_cells |
Number of core cells. |
number_of_faces_at_cell() |
Number of faces attached to each cell. |
x_of_cell |
Get array of the x-coordinates of nodes at cells. |
y_of_cell |
Get array of the y-coordinates of nodes at cells. |
active_faces |
Get array of active faces. |
face_at_link |
Get array of faces associated with links. |
faces_at_cell |
Return array containing face IDs at each cell. |
link_at_face |
Get links associated with faces. |
number_of_active_faces |
Total number of active faces. |
number_of_faces |
Total number of faces. |
number_of_faces_at_cell() |
Number of faces attached to each cell. |
width_of_face |
Width of grid faces. |
x_of_face |
Get array of the x-coordinates of face midpoints. |
y_of_face |
Get array of the y-coordinates of face midpoints. |
links_at_patch |
Returns the links forming each patch. |
nodes_at_patch |
Get the four nodes at the corners of each patch in a regular grid. |
number_of_patches |
Number of patches. |
number_of_patches_present_at_link |
Return the number of patches at a link without a closed node. |
number_of_patches_present_at_node |
Return the number of patches at a node without a closed node. |
patches_at_link |
Returns the patches adjoined to each link. |
patches_at_node |
Return a (nnodes, max_voronoi_polygon_sides) array of patches at nodes. |
patches_present_at_link |
A boolean array, False where a patch has a closed node or is missing. |
patches_present_at_node |
A boolean array, False where a patch has a closed node or is missing. |
number_of_corners |
Total number of corners. |
ModelGrid inherits from the ModelDataFields class. This
provides ~.ModelGrid, and its subclasses, with the ability to, optionally,
store data values that are associated with the different types grid elements
(nodes, cells, etc.). In particular, as part of ModelGrid.__init__(),
data field groups are added to the ModelGrid that provide containers to
put data fields into. There is one group for each of the eight grid elements
(node, cell, link, face, core_node, core_cell, active_link, and active_face).
To access these groups, use the same methods as accessing groups with
~.ModelDataFields. ModelGrid.__init__() adds the following attributes to
itself that provide access to the values groups:
at_node |
|
at_cell |
|
at_link |
|
at_face |
|
at_patch |
|
at_corner |
Each of these attributes returns a dict-like object whose keys are value
names as strings and values are numpy arrays that gives quantities at
grid elements.
ModelGrid inherits several useful methods for creating new data
fields and adding new data fields to a ModelGrid instance. Methods to add or
create a new data array follow the numpy syntax for creating arrays. The
folowing methods create and, optionally, initialize new arrays. These arrays
are of the correct size but a new field will not be added to the field:
empty |
Uninitialized array whose size is that of the field. |
ones |
Array, initialized to 1, whose size is that of the field. |
zeros |
Array, initialized to 0, whose size is that of the field. |
Unlike with the equivalent numpy functions, these do not take a size argument as the size of the returned arrays is determined from the size of the ModelGrid. However, the keyword arguments are the same as those of the numpy equivalents.
The following methods will create a new array and add a reference to that array to the ModelGrid:
add_empty |
Create and add an uninitialized array of values to the field. |
add_field |
Add an array of values to the field. |
add_ones |
Create and add an array of values, initialized to 1, to the field. |
add_zeros |
Create and add an array of values, initialized to 0, to the field. |
delete_field |
Erases an existing field. |
set_units |
Set the units for a field of values. |
These methods operate in the same way as the previous set except that, in
addition to creating a new array, the newly-created array is added to the
ModelGrid. The calling signature is the same but with the addition of an
argument that gives the name of the new field as a string. The additional
method, add_field(), adds a previously allocation
array to the ModelGrid. If the array is of the incorrect size it will raise
ValueError.
Use the following methods/attributes get information about the stored data fields:
size |
Size of the arrays stored in a group. |
keys |
List of field names in a group. |
has_group |
Check if a group exists. |
has_field |
Check if a field is in a group. |
field_units |
Get units for a field. |
field_values |
Get values of a field. |
groups |
List of group names. |
i.e., call, e.g. mg.has_field(‘node’, ‘my_field_name’)
Landlab is designed to easily calculate gradients in quantities across the grid, and to construct fluxes and flux divergences from them. Because these calculations tend to be a little more involved than property lookups, the methods tend to start with calc_.
calc_diff_at_link(grid, vals, \*args, \*\*kwds) |
Calculate differences of node values over links. |
calc_flux_div_at_cell(grid, vals, \*args, \*\*kwds) |
Calculate divergence of link-based fluxes at cells. |
calc_flux_div_at_node(grid, vals, \*args, \*\*kwds) |
Calculate divergence of link-based fluxes at nodes. |
calc_grad_at_link(grid, vals, \*args, \*\*kwds) |
Calculate gradients of node values at links. |
calc_grad_at_patch(grid[, elevs, ...]) |
Calculate the components of the gradient at each patch. |
calc_net_flux_at_node(grid, vals, \*args, \*\*kwds) |
Calculate net link fluxes at nodes. |
calc_slope_at_node(grid[, elevs, method, ...]) |
Array of slopes at nodes, averaged over neighboring patches. |
calc_slope_at_patch(grid[, elevs, ...]) |
Calculate the slope (positive magnitude of gradient) at patches. |
calc_unit_normal_at_patch(grid[, elevs]) |
Calculate and return the unit normal vector <a, b, c> to a patch. |
These methods allow mapping of values defined on one grid element type onto a second, e.g., mapping upwind node values onto links, or mean link values onto nodes.
map_downwind_node_link_max_to_node(grid, ...) |
Map the largest magnitude of the links carrying flux from the node to the node. |
map_downwind_node_link_mean_to_node(grid, ...) |
Map the mean magnitude of the links carrying flux out of the node to the node. |
map_link_head_node_to_link(grid, var_name[, out]) |
Map values from a link head nodes to links. |
map_link_tail_node_to_link(grid, var_name[, out]) |
Map values from a link tail nodes to links. |
map_link_vector_sum_to_patch(grid, var_name) |
Map the vector sum of links around a patch to the patch. |
map_link_vector_to_nodes(q) |
Map data defined on links to nodes. |
map_max_of_link_nodes_to_link(grid, var_name) |
Map the maximum of a link’s nodes to the link. |
map_max_of_node_links_to_node(grid, var_name) |
Map the maximum value of a nodes’ links to the node. |
map_max_of_patch_nodes_to_patch(grid, var_name) |
Map the maximum value of nodes around a patch to the patch. |
map_mean_of_link_nodes_to_link(grid, var_name) |
Map the mean of a link’s nodes to the link. |
map_mean_of_patch_nodes_to_patch(grid, var_name) |
Map the mean value of nodes around a patch to the patch. |
map_min_of_link_nodes_to_link(grid, var_name) |
Map the minimum of a link’s nodes to the link. |
map_min_of_node_links_to_node(grid, var_name) |
Map the minimum value of a nodes’ links to the node. |
map_min_of_patch_nodes_to_patch(grid, var_name) |
Map the minimum value of nodes around a patch to the patch. |
map_node_to_cell(grid, var_name[, out]) |
Map values for nodes to cells. |
map_upwind_node_link_max_to_node(grid, var_name) |
Map the largest magnitude of the links bringing flux into the node to the node. |
map_upwind_node_link_mean_to_node(grid, var_name) |
Map the mean magnitude of the links bringing flux into the node to the node. |
map_value_at_downwind_node_link_max_to_node(...) |
Map the the value found in one link array to a node, based on the largest magnitude value of links carrying fluxes out of the node, found in a second node array or field. |
map_value_at_max_node_to_link(grid, ...[, out]) |
Map the the value found in one node array to a link, based on the maximum value found in a second node field or array. |
map_value_at_min_node_to_link(grid, ...[, out]) |
Map the the value found in one node array to a link, based on the minimum value found in a second node field or array. |
map_value_at_upwind_node_link_max_to_node(...) |
Map the the value found in one link array to a node, based on the largest magnitude value of links bringing fluxes into the node, found in a second node array or field. |
These are the primary properties for getting and setting the grid boundary
conditions. Changes made to status_at_node() and
status_at_node() will automatically update the conditions
defined at other grid elements automatically.
active_faces |
Get array of active faces. |
active_links |
Get array of active links. |
active_neighbors_at_node |
Get list of neighbor node IDs. |
boundary_nodes |
Get array of boundary nodes. |
closed_boundary_nodes |
Get array of closed boundary nodes. |
core_cells |
Get array of core cells. |
core_nodes |
Get array of core nodes. |
fixed_gradient_boundary_nodes |
Get array of fixed gradient boundary nodes. |
fixed_links |
Get array of fixed links. |
fixed_value_boundary_nodes |
Get array of fixed value boundary nodes. |
node_at_core_cell |
Get array of nodes associated with core cells. |
node_is_boundary(ids[, boundary_flag]) |
Check if nodes are boundary nodes. |
number_of_active_faces |
Total number of active faces. |
number_of_active_links |
Number of active links. |
number_of_core_cells |
Number of core cells. |
number_of_core_nodes |
Number of core nodes. |
number_of_fixed_links |
Number of fixed links. |
number_of_patches_present_at_link |
Return the number of patches at a link without a closed node. |
number_of_patches_present_at_node |
Return the number of patches at a node without a closed node. |
open_boundary_nodes |
Get array of open boundary nodes. |
set_nodata_nodes_to_closed(node_data, ...) |
Make no-data nodes closed boundaries. |
set_nodata_nodes_to_fixed_gradient(...) |
Make no-data nodes fixed gradient boundaries. |
status_at_link |
Get array of the status of all links. |
status_at_node |
Get array of the boundary status for each node. |
These methods are useful in identifying subsets of nodes, e.g., closest node to a point; nodes at edges.
(None are available for this grid type)
These methods permit the kinds of surface analysis that you might expect to find in GIS software.
calc_aspect_at_node(grid[, ...]) |
Get array of aspect of a surface. |
calc_hillshade_at_node([alt, az, slp, asp, ...]) |
Get array of hillshade. |
calc_slope_at_node(grid[, elevs, method, ...]) |
Array of slopes at nodes, averaged over neighboring patches. |
It is important that when creating a new grid class that inherits from
ModelGrid, to call ModelGrid.__init__() in the new grid’s
__init__(). For example, the new class’s __init__ should contain the
following code,
class NewGrid(ModelGrid):
def __init__(self, *args, **kwds):
ModelGrid.__init__(self, **kwds)
# Code that initializes the NewGrid
Without this, the new grid class will not have the at_* attributes.