def __init__(self, structured_node_regions, cell2ordnodes):
num_cells = len(cell2ordnodes)
node2ordcells = _invert_cell2ordnodes(cell2ordnodes)
structured_cell_regions = []
for node_region in structured_node_regions:
# Preview of node region
_print_partial_region('Structured node region:', node_region)
# Extract cell structured region
topleft_quad, compass = _find_topleftmost_structured_quad(node_region, node2ordcells)
cell_region = _find_remaining_structure(topleft_quad, compass, node_region, node2ordcells)
structured_cell_regions.append(cell_region)
# Renumber cells
oldcell2newcell, newcell2oldcell, num_structured_cells, unstructured_cells_offset = _renumber_cells(structured_cell_regions, num_cells)
# Determine number of unstructured cells
assert num_structured_cells == unstructured_cells_offset
num_unstructured_cells = num_cells - num_structured_cells
# Unstructured cell region metadata
unstructured_cell_regions = UnstructuredCellRegion()
unstructured_cell_regions.unstructured_cells_offset = unstructured_cells_offset
unstructured_cell_regions.num_unstructured_cells = num_unstructured_cells
# Apply cell reordering to original map
new_cell2ordnodes = renumber_keys(cell2ordnodes, newcell2oldcell)
# Save
self.new_cell2ordnodes = new_cell2ordnodes
self.structured_cell_regions = structured_cell_regions
self.unstructured_cell_regions = unstructured_cell_regions
self.oldcell2newcell = oldcell2newcell
def __init__(self, structured_node_regions, structured_cell_regions, inedge2ordnodes, inedge2ordcells):
self._inedge2ordnodes = inedge2ordnodes
self._inedge2ordcells = inedge2ordcells
# Get numbers
assert len(self._inedge2ordnodes) == len(inedge2ordcells), "Number of edges must match!"
assert len(structured_node_regions) == len(structured_cell_regions), "Number of edges must match!"
num_edges = len(self._inedge2ordnodes)
# Invert map
self.node2ordinedges = _build_node2ordinedges(self._inedge2ordnodes)
# Detect structure
self.detect_edge_structure_and_renumber_edges(structured_node_regions, structured_cell_regions, num_edges)
# Applying edge renumbering
self.new_inedge2ordnodes = renumber_keys(self._inedge2ordnodes, self.newedge2oldedge)
self.new_inedge2ordcells = renumber_keys(inedge2ordcells, self.newedge2oldedge)
def main(in_filename, out_filename, random_seed, start_node):
# Copy file
copyfile(in_filename, out_filename)
# Read adjacency list
log('Reading node2node map')
node2node = read_mesh_from_file(out_filename, 'node_to_node', int, frozenset)
# Set random seed, and choose a start node
if random_seed:
seed(random_seed)
if start_node is None:
start_node = randint(0, len(node2node) - 1)
log('Out of %d nodes, we chose %d' % (len(node2node), start_node))
# Detect node structure
log('Detecting structure')
node_structure = DetectNodeStructure(node2node, start_node)
# Write out structured node data
log('Writing out structured node to ' + out_filename)
write_structured_node_info(node_structure, out_filename)
log('Writing oldnode2newnode')
write_text_map('oldnode_to_newnode', node_structure.oldnode2newnode, out_filename)
# Renumber nodes
node_structure.structured_node_regions = [ renumber_value_lists(region, node_structure.oldnode2newnode)
for region in node_structure.structured_node_regions ]
# Reorder coordinates
log('Reordering coordinates')
coord_data = read_mesh_from_file(out_filename, 'coord_data', float, list)
new_coord_data = renumber_keys(coord_data, node_structure.newnode2oldnode)
write_new_coord_data(new_coord_data, out_filename)
# Figure out cell2nodes stuff
log('Figuring out cell2nodes')
cell2ordnodes = read_mesh_from_file(out_filename, 'cell_to_ord_nodes', int, list)
# Apply node renumbering to cell map
cell2ordnodes = renumber_value_lists(cell2ordnodes, node_structure.oldnode2newnode)
cell_structure = CellStructureFromNodeStructure(node_structure.structured_node_regions, cell2ordnodes)
log('Writing out structured cells to ' + out_filename)
write_structured_cell_info(cell_structure, out_filename)
# Figure out inedge2nodes
log('Figuring out inedge2nodes and inedge2cells')
inedge2nodes = read_mesh_from_file(out_filename, 'inedge_to_nodes', int, list)
inedge2cells = read_mesh_from_file(out_filename, 'inedge_to_cells', int, list)
# Apply node and cell renumbering to inedge maps
inedge2nodes = renumber_value_lists(inedge2nodes, node_structure.oldnode2newnode)
inedge2cells = renumber_value_lists(inedge2cells, cell_structure.oldcell2newcell)
# Renumber cells
for cell_region in cell_structure.structured_cell_regions:
cell_region.structured_cells = renumber_value_lists(cell_region.structured_cells, cell_structure.oldcell2newcell)
edge_structure = EdgeStructureFromNodeStructure(node_structure.structured_node_regions, cell_structure.structured_cell_regions, inedge2nodes, inedge2cells)
log('Writing out structured inedges to ' + out_filename)
write_structured_inedge_info(edge_structure, out_filename)
# Read border edges
borderedge2nodes = read_mesh_from_file(out_filename, 'borderedge_to_nodes', int, list)
borderedge2cell = read_mesh_from_file(out_filename, 'borderedge_to_cell', int, list)
# Apply node and cell renumbering to borderedge maps
new_borderedge2nodes = renumber_value_lists(borderedge2nodes, node_structure.oldnode2newnode)
new_borderedge2cell = renumber_value_lists(borderedge2cell, cell_structure.oldcell2newcell)
log('Writing renumbered borderedges to ' + out_filename)
write_renumbered_border_edges(new_borderedge2nodes, new_borderedge2cell, out_filename)
log('Writing oldcell2newcell')
write_text_map('oldcell_to_newcell', cell_structure.oldcell2newcell, out_filename)
log('Writing oldedge2newedge')
write_text_map('newedge_to_oldedge', edge_structure.newedge2oldedge, out_filename)
