source: inundation/ga/storm_surge/pyvolution/pmesh2domain.py @ 663

Last change on this file since 663 was 663, checked in by duncan, 20 years ago

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[374]1"""Class pmesh2domain - Converting .tsh files to doamains
[371]2
3
4   Copyright 2004
5   Ole Nielsen, Stephen Roberts, Duncan Gray, Christopher Zoppou
6   Geoscience Australia
7"""
8
9
[415]10def pmesh_to_domain_instance(fileName, DomainClass, setting_function = None):
[371]11    """
12    """
13    import sys
[389]14    from domain import Domain
[371]15
[415]16    vertex_coordinates, volumes, marker_dict, vertex_quantity_dict ,tagged_elements_dict = \
[389]17                        pmesh_to_domain(fileName,
18                                                   setting_function=setting_function)
[371]19       
[389]20    assert issubclass(DomainClass, Domain), "DomainClass is not a subclass of Domain."
[636]21
22
23   
[415]24    domain = DomainClass(vertex_coordinates, volumes, marker_dict,
25                         tagged_elements = tagged_elements_dict )
[371]26
[636]27
28   
29    #FIXME (Ole): Is this really the right place to apply the a default
30    #value specific to the shallow water wave equation?
31    #The 'assert' above indicates that any subclass of Domain is acceptable.
32    #Suggestion - module shallow_water.py will eventually take care of this
33    #(when I get around to it) so it should be removed from here. 
34   
[389]35    # set the water level to be the elevation
[663]36    # This doesn't work on the domain instance.
[389]37    if vertex_quantity_dict.has_key('elevation') and not vertex_quantity_dict.has_key('level'):
38        vertex_quantity_dict['level'] = vertex_quantity_dict['elevation']
39    domain.set_quantity_vertices_dict(vertex_quantity_dict)
40    #print "vertex_quantity_dict",vertex_quantity_dict
41    return domain
[371]42
43
[389]44
45def pmesh_to_domain(fileName, setting_function = None):
[371]46    """
47    convert a pmesh dictionary to a list of Volumes.
48    Also, return a list of triangles which have boundary tags
[389]49    mesh_dict structure;
[371]50    generated point list: [(x1,y1),(x2,y2),...] (Tuples of doubles) 
51    generated point attribute list:[(P1att1,P1attt2, ...),(P2att1,P2attt2,...),...]
52    generated segment list: [(point1,point2),(p3,p4),...] (Tuples of integers)
53    generated segment marker list: [S1Marker, S2Marker, ...] (list of ints)
54    triangle list:  [(point1,point2, point3),(p5,p4, p1),...] (Tuples of integers)
55    triangle neighbor list: [(triangle1,triangle2, triangle3),(t5,t4, t1),...] (Tuples of integers) -1 means there's no triangle neighbor
[415]56    triangle attribute list: [T1att, T2att, ...] (list of strings)
[371]57    """
[389]58   
59    from Numeric import transpose
60    from load_mesh.loadASCII import mesh_file_to_mesh_dictionary
61   
62    mesh_dict = mesh_file_to_mesh_dictionary(fileName)
63    #print "mesh_dict",mesh_dict
64    vertex_coordinates = mesh_dict['generatedpointlist']
65    volumes = mesh_dict['generatedtrianglelist']
[371]66
67    #if setting_function:
68    #    if not type(setting_function) is ListType:
69    #        setting_function = [setting_function]
70    #    for funct in setting_function:
[389]71    #        mesh_dict = funct(mesh_dict, vertices = mesh_vertices,
[371]72    #                        volumes = volumes)
[389]73
74
75    vertex_quantity_dict = {}
76    point_atts = transpose(mesh_dict['generatedpointattributelist'])
77    point_titles  = mesh_dict['generatedpointattributetitlelist']
78    #print "point_titles",point_titles
79    for quantity, value_vector in map (None, point_titles, point_atts):
80        vertex_quantity_dict[quantity] = value_vector
[415]81    marker_dict = pmesh_dict_to_marker_dict(mesh_dict)
82    tagged_elements_dict = build_tagged_elements_dictionary(mesh_dict)
83    return vertex_coordinates, volumes, marker_dict, vertex_quantity_dict,tagged_elements_dict
[371]84
85
86
[415]87def build_tagged_elements_dictionary(mesh_dict):
88    """Build the dictionary of element tags.
89    tagged_elements is a dictionary of element arrays,
90    keyed by tag:
91    { (tag): [e1, e2, e3..] }
92    """
93    tri_atts = mesh_dict['generatedtriangleattributelist']
94    #print "tri_atts", tri_atts
95    tagged_elements = {}
96    for tri_att_index in range(len(tri_atts)):
97        tagged_elements.setdefault(tri_atts[tri_att_index][0],[]).append(tri_att_index)
98    #print "DSG pm2do tagged_elements", tagged_elements
99    return tagged_elements
[371]100
101#FIXME: The issue is whether this format should be stored in the tsh file
102#instead of having to be created here?
103
104#FIXME: Another issue is that the tsh file stores consecutive
105#indices explicitly. This is really redundant.
106#Suggest looking at obj and our own sww format and also consider
107#using netCDF.
108
[415]109def pmesh_dict_to_marker_dict(mesh_dict):
[389]110    """ Convert the pmesh dictionary (mesh_dict) description of boundary tags
[371]111    to a dictionary of markers, indexed with volume id and face number.
112    """
[415]113    triangles = mesh_dict['generatedtrianglelist']
[371]114    sides = calc_sides(triangles)
115    marker_dict = {}
[389]116    for seg, marker in map(None,mesh_dict['generatedsegmentlist'],
117                           mesh_dict['generatedsegmentmarkerlist']):
[371]118        v1 = seg[0]
119        v2 = seg[1]
120        for key in [(v1,v2),(v2,v1)]:
121            if sides.has_key(key):
122                #this creates a dict of lists of faces, indexed by marker
123                #tagged_edges.setdefault(marker,[]).append(sides[key])
124                marker_dict[sides[key]] = marker
125    return marker_dict
126
127   
128def calc_sides(triangles):
129    #Build dictionary mapping from sides (2-tuple of points)
130    #to left hand side neighbouring triangle       
131    sides = {}
132    for id, triangle in enumerate(triangles):
133        a = triangle[0]
134        b = triangle[1]
135        c = triangle[2]       
136        sides[a,b] = (id, 2) #(id, face)
137        sides[b,c] = (id, 0) #(id, face)
138        sides[c,a] = (id, 1) #(id, face)
139    return sides       
140
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