source: anuga_work/production/carnarvon/build_boundary_27283.py @ 6568

Last change on this file since 6568 was 5804, checked in by kristy, 16 years ago
File size: 7.4 KB
Line 
1"""
2Script for building boundary to run tsunami inundation scenario for carnarvon,
3WA, Australia.  The boundary is based on the National Hazard Map.
4
5Input: order_filename from project.py
6       event_number needs to be reflected in the project file
7Output: creates a sts file and csv files stored in project.boundaries_dir_event.
8The run_carnarvon.py is reliant on the output of this script.
9"""
10import os
11from os import sep
12import project
13
14from anuga.utilities.numerical_tools import ensure_numeric
15from Scientific.IO.NetCDF import NetCDFFile
16from Numeric import asarray,transpose,sqrt,argmax,argmin,arange,Float,\
17    compress,zeros,fabs,allclose,ones
18from anuga.utilities.polygon import inside_polygon,read_polygon
19from time import localtime, strftime, gmtime
20from anuga.shallow_water.data_manager import urs2sts,create_sts_boundary
21
22try:
23    from pylab import plot,show,xlabel,ylabel,legend,title,savefig,hold
24except:
25    print 'Cannot import pylab plotting will not work. Csv files are still created'
26
27#--------------------------------------------------------------------------
28# Create sts boundary from mux2files
29#--------------------------------------------------------------------------
30
31dir=os.path.join(project.muxhome,'mux')
32
33# Refer to event_027255.list in home+state+sep+event08 for event details
34# taken from David's event list for 27255
35urs_filenames = [
36    os.path.join(dir,'Java-0000-z.grd'),
37    os.path.join(dir,'Java-0001-z.grd'),
38    os.path.join(dir,'Java-0002-z.grd'),
39    os.path.join(dir,'Java-0003-z.grd'),
40    os.path.join(dir,'Java-0005-z.grd'), 
41    os.path.join(dir,'Java-0006-z.grd'), 
42    os.path.join(dir,'Java-0007-z.grd'), 
43    os.path.join(dir,'Java-0008-z.grd'), 
44    os.path.join(dir,'Java-0010-z.grd'), 
45    os.path.join(dir,'Java-0011-z.grd'), 
46    os.path.join(dir,'Java-0012-z.grd'), 
47    os.path.join(dir,'Java-0013-z.grd'), 
48    os.path.join(dir,'Java-0015-z.grd'), 
49    os.path.join(dir,'Java-0016-z.grd'), 
50    os.path.join(dir,'Java-0017-z.grd'), 
51    os.path.join(dir,'Java-0018-z.grd'), 
52    os.path.join(dir,'Java-0020-z.grd'), 
53    os.path.join(dir,'Java-0021-z.grd'), 
54    os.path.join(dir,'Java-0022-z.grd'), 
55    os.path.join(dir,'Java-0023-z.grd'), 
56    os.path.join(dir,'Java-0025-z.grd'), 
57    os.path.join(dir,'Java-0026-z.grd'), 
58    os.path.join(dir,'Java-0027-z.grd'), 
59    os.path.join(dir,'Java-0028-z.grd'), 
60    os.path.join(dir,'Java-0029-z.grd'), 
61    os.path.join(dir,'Java-0030-z.grd'), 
62    os.path.join(dir,'Java-0031-z.grd'), 
63    os.path.join(dir,'Java-0032-z.grd'), 
64    os.path.join(dir,'Java-0033-z.grd'), 
65    os.path.join(dir,'Java-0034-z.grd'), 
66    os.path.join(dir,'Java-0035-z.grd'), 
67    os.path.join(dir,'Java-0036-z.grd'), 
68    os.path.join(dir,'Java-0037-z.grd'), 
69    os.path.join(dir,'Java-0038-z.grd'), 
70    os.path.join(dir,'Java-0039-z.grd'), 
71    os.path.join(dir,'Java-0040-z.grd'), 
72    os.path.join(dir,'Java-0041-z.grd'), 
73    os.path.join(dir,'Java-0042-z.grd'), 
74    os.path.join(dir,'Java-0043-z.grd'), 
75    os.path.join(dir,'Java-0044-z.grd'), 
76    os.path.join(dir,'Java-0045-z.grd'), 
77    os.path.join(dir,'Java-0046-z.grd'), 
78    os.path.join(dir,'Java-0047-z.grd'),
79    os.path.join(dir,'Java-0048-z.grd')]   
80 
81print 'number of sources', len(urs_filenames)
82
83if len(urs_filenames) == 44: #change per event
84
85# AS per David Burbidge email on Friday 4th July the mag 9.3 event
86# has 1m worth of slip on each sub fault therefore mutliple each unit
87# source by the slip (10.4544) and sum the 44 time series together to
88# get the time series for this event at the points on your boundary.
89
90    weight_factor = 10.4544 #change per event
91    weights=weight_factor*ones(len(urs_filenames),Float)
92
93    scenario_name=project.scenario_name
94    order_filename=os.path.join(project.order_filename_dir)
95
96    print 'reading', order_filename
97    # Create ordered sts file
98    print 'creating sts file'
99
100    urs2sts(urs_filenames,
101            basename_out=os.path.join(project.boundaries_dir_event,scenario_name),
102            ordering_filename=order_filename,
103            weights=weights,
104            mean_stage=project.tide,
105            verbose=True)
106else:
107    print 'number of sources do not match event.list'
108
109#------------------------------------------------------------------------------
110# Get gauges (timeseries of index points)
111#------------------------------------------------------------------------------
112def get_sts_gauge_data(filename,verbose=False):
113    from Numeric import asarray,transpose,sqrt,argmax,argmin,arange,Float,\
114        compress,zeros,fabs,take
115    fid = NetCDFFile(filename+'.sts', 'r')    #Open existing file for read
116    permutation = fid.variables['permutation'][:]
117    x = fid.variables['x'][:]+fid.xllcorner   #x-coordinates of vertices
118    y = fid.variables['y'][:]+fid.yllcorner   #y-coordinates of vertices
119    points=transpose(asarray([x.tolist(),y.tolist()]))
120    time=fid.variables['time'][:]+fid.starttime
121    elevation=fid.variables['elevation'][:]
122       
123    basename='sts_gauge'
124    quantity_names=['stage','xmomentum','ymomentum']
125    quantities = {}
126    for i, name in enumerate(quantity_names):
127        quantities[name] = fid.variables[name][:]
128
129#------------------------------------------------------------------------------
130# Get Maxium wave height throughout timeseries at each index point
131#------------------------------------------------------------------------------
132
133    maxname = 'max_sts_stage.csv'
134    fid_max = open(project.boundaries_dir_event+sep+maxname,'w')
135    s = 'index, x, y, max_stage \n'
136    fid_max.write(s)   
137    for j in range(len(x)):
138        index= permutation[j]
139        stage = quantities['stage'][:,j]
140        xmomentum = quantities['xmomentum'][:,j]
141        ymomentum = quantities['ymomentum'][:,j]
142
143        s = '%d, %.6f, %.6f, %.6f\n' %(index, x[j], y[j], max(stage))
144        fid_max.write(s)
145     
146#------------------------------------------------------------------------------
147# Get Minium wave height throughout timeseries at each index point
148#------------------------------------------------------------------------------
149
150    minname = 'min_sts_stage.csv'
151    fid_min = open(project.boundaries_dir_event+sep+minname,'w')
152    s = 'index, x, y, max_stage \n'
153    fid_min.write(s)   
154    for j in range(len(x)):
155        index= permutation[j]
156        stage = quantities['stage'][:,j]
157        xmomentum = quantities['xmomentum'][:,j]
158        ymomentum = quantities['ymomentum'][:,j]
159
160        s = '%d, %.6f, %.6f, %.6f\n' %(index, x[j], y[j], min(stage))
161        fid_min.write(s)
162       
163
164
165        fid_sts = open(project.boundaries_dir_event+sep+basename+'_'+ str(index)+'.csv', 'w')
166        s = 'time, stage, xmomentum, ymomentum \n'
167        fid_sts.write(s)
168
169#------------------------------------------------------------------------------
170# End of the get gauges
171#------------------------------------------------------------------------------
172        for k in range(len(time)-1):
173            s = '%.6f, %.6f, %.6f, %.6f\n' %(time[k], stage[k], xmomentum[k], ymomentum[k])
174            fid_sts.write(s)
175
176        fid_sts.close()     
177
178    fid.close()
179
180
181    return quantities,elevation,time
182
183quantities,elevation,time=get_sts_gauge_data(os.path.join(project.boundaries_dir_event,project.scenario_name),verbose=False)
184
185print len(elevation), len(quantities['stage'][0,:])
186
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