source: trunk/anuga_core/source/anuga/structures/inlet.py @ 8050

Last change on this file since 8050 was 8050, checked in by steve, 13 years ago

Added in an inlet_operator class to implement inflow "boundary condition" by setting up a inlet defined by a line close to the boundary. Look at testing_culvert_inlet.py as an example.

File size: 5.4 KB
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1from anuga.geometry.polygon import inside_polygon, is_inside_polygon, polyline_overlap
2from anuga.config import velocity_protection, g
3import math
4
5import numpy as num
6
7class Inlet:
8    """Contains information associated with each inlet
9    """
10
11    def __init__(self, domain, polyline, verbose=False):
12
13        self.domain = domain
14        self.domain_bounding_polygon = self.domain.get_boundary_polygon()
15        self.polyline = polyline
16        self.verbose = verbose
17
18        self.compute_triangle_indices()
19        self.compute_area()
20
21
22    def compute_triangle_indices(self):
23
24        # Get boundary (in absolute coordinates)
25        bounding_polygon = self.domain_bounding_polygon
26        domain_centroids = self.domain.get_centroid_coordinates(absolute=True)
27        vertex_coordinates = self.domain.get_vertex_coordinates(absolute=True)
28
29        # Check that polyline lies within the mesh.
30        for point in self.polyline: 
31                msg = 'Point %s ' %  str(point)
32                msg += ' did not fall within the domain boundary.'
33                assert is_inside_polygon(point, bounding_polygon), msg
34               
35
36
37        self.triangle_indices = polyline_overlap(vertex_coordinates, self.polyline)
38
39        if len(self.triangle_indices) == 0:
40            msg = 'Inlet polyline=%s ' % (self.polyline)
41            msg += 'No triangles intersecting polyline '
42            raise Exception, msg
43
44
45
46    def compute_area(self):
47       
48        # Compute inlet area as the sum of areas of triangles identified
49        # by polyline. Must be called after compute_inlet_triangle_indices().
50        if len(self.triangle_indices) == 0:
51            region = 'Inlet polyline=%s' % (self.inlet_polyline)
52            msg = 'No triangles have been identified in region '
53            raise Exception, msg
54       
55        self.area = 0.0
56        for j in self.triangle_indices:
57            self.area += self.domain.areas[j]
58
59        msg = 'Inlet exchange area has area = %f' % self.area
60        assert self.area > 0.0
61
62
63    def get_area(self):
64
65        return self.area
66
67   
68    def get_areas(self):
69       
70        # Must be called after compute_inlet_triangle_indices().
71        return self.domain.areas.take(self.triangle_indices)
72   
73       
74    def get_stages(self):
75       
76        return self.domain.quantities['stage'].centroid_values.take(self.triangle_indices)
77       
78       
79    def get_average_stage(self):
80
81        return num.sum(self.get_stages()*self.get_areas())/self.area
82       
83    def get_elevations(self):   
84       
85        return self.domain.quantities['elevation'].centroid_values.take(self.triangle_indices)
86       
87    def get_average_elevation(self):
88
89        return num.sum(self.get_elevations()*self.get_areas())/self.area
90   
91   
92    def get_xmoms(self):
93   
94        return self.domain.quantities['xmomentum'].centroid_values.take(self.triangle_indices)
95       
96       
97    def get_average_xmom(self):
98
99        return num.sum(self.get_xmoms()*self.get_areas())/self.area
100       
101   
102    def get_ymoms(self):
103       
104        return self.domain.quantities['ymomentum'].centroid_values.take(self.triangle_indices)
105 
106 
107    def get_average_ymom(self):
108       
109        return num.sum(self.get_ymoms()*self.get_areas())/self.area
110   
111
112    def get_heights(self):
113   
114        return self.get_stages() - self.get_elevations()
115   
116   
117    def get_total_water_volume(self):
118       
119       return num.sum(self.get_heights()*self.get_areas())
120 
121
122    def get_average_height(self):
123   
124        return self.get_total_water_volume()/self.area
125       
126       
127    def get_velocities(self):
128       
129            heights = self.get_heights()
130            u = self.get_xmoms()/(heights + velocity_protection/heights)
131            v = self.get_ymoms()/(heights + velocity_protection/heights)
132           
133            return u, v
134
135
136    def get_xvelocities(self):
137
138            heights = self.get_heights()
139            return self.get_xmoms()/(heights + velocity_protection/heights)
140
141    def get_yvelocities(self):
142
143            heights = self.get_heights()
144            return self.get_ymoms()/(heights + velocity_protection/heights)
145           
146           
147    def get_average_speed(self):
148 
149            u, v = self.get_velocities()
150           
151            average_u = num.sum(u*self.get_areas())/self.area
152            average_v = num.sum(v*self.get_areas())/self.area
153           
154            return math.sqrt(average_u**2 + average_v**2)
155
156
157    def get_average_velocity_head(self):
158
159        return 0.5*self.get_average_speed()**2/g
160
161
162    def get_average_total_energy(self):
163       
164        return self.get_average_velocity_head() + self.get_average_stage()
165       
166   
167    def get_average_specific_energy(self):
168       
169        return self.get_average_velocity_head() + self.get_average_height()
170
171
172
173    def set_heights(self,height):
174
175        self.domain.quantities['stage'].centroid_values.put(self.triangle_indices, self.get_elevations() + height)
176
177
178    def set_stages(self,stage):
179
180        self.domain.quantities['stage'].centroid_values.put(self.triangle_indices, stage)
181
182
183    def set_xmoms(self,xmom):
184
185        self.domain.quantities['xmomentum'].centroid_values.put(self.triangle_indices, xmom)
186
187
188    def set_ymoms(self,ymom):
189
190        self.domain.quantities['ymomentum'].centroid_values.put(self.triangle_indices, ymom)
191
192
193    def set_elevations(self,elevation):
194
195        self.domain.quantities['elevation'].centroid_values.put(self.triangle_indices, elevation)
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