1 | # -*- coding: cp1252 -*- |
---|
2 | """Common filenames and locations for topographic data, meshes and outputs. |
---|
3 | """ |
---|
4 | |
---|
5 | from os import sep, environ, getenv, getcwd |
---|
6 | from os.path import expanduser |
---|
7 | import sys |
---|
8 | from time import localtime, strftime, gmtime |
---|
9 | from anuga.utilities.polygon import read_polygon, plot_polygons_points, polygon_area, is_inside_polygon |
---|
10 | |
---|
11 | if sys.platform == 'win32': |
---|
12 | home = getenv('INUNDATIONHOME') |
---|
13 | user = getenv('USERPROFILE') |
---|
14 | |
---|
15 | else: |
---|
16 | home = getenv('INUNDATIONHOME', sep+'d'+sep+'xrd'+sep+'gem'+sep+'2'+sep+'ramp'+sep+'risk_assessment_methods_project'+sep+'inundation') |
---|
17 | user = getenv('LOGNAME') |
---|
18 | print 'USER:', user |
---|
19 | |
---|
20 | # INUNDATIONHOME is the inundation directory, not the data directory. |
---|
21 | home += sep +'data' |
---|
22 | |
---|
23 | #Making assumptions about the location of scenario data |
---|
24 | state = 'new_south_wales' |
---|
25 | scenario_dir_name = 'wollongong_tsunami_scenario_2006' |
---|
26 | |
---|
27 | # onshore data provided by NSW LPI, Krishna merged with existing |
---|
28 | # PMD data to make 100m DEM |
---|
29 | on_offshore10_name = 'wollongong_10' |
---|
30 | nsw100 = 'dem_utm' |
---|
31 | |
---|
32 | # survey data |
---|
33 | offshore_name1 = 'surveyAreaA' |
---|
34 | |
---|
35 | # AHO data |
---|
36 | offshore_name4 = '1000003611export' |
---|
37 | offshore_name5 = '1000003613export' |
---|
38 | offshore_name6 = '1000003614export' |
---|
39 | offshore_name7 = '1000003627export' |
---|
40 | offshore_name8 = '1000003628export' |
---|
41 | offshore_name9 = 'AHDexport' |
---|
42 | |
---|
43 | #swollen/ all data output |
---|
44 | basename = 'source' |
---|
45 | codename = 'project_slide.py' |
---|
46 | |
---|
47 | #Derive subdirectories and filenames |
---|
48 | local_time = strftime('%Y%m%d_%H%M%S',gmtime()) |
---|
49 | meshdir = home+sep+state+sep+scenario_dir_name+sep+'anuga'+sep+'meshes'+sep |
---|
50 | datadir = home+sep+state+sep+scenario_dir_name+sep+'anuga'+sep+'topographies'+sep |
---|
51 | gaugedir = home+sep+state+sep+scenario_dir_name+sep+'anuga'+sep+'gauges'+sep |
---|
52 | polygondir = home+sep+state+sep+scenario_dir_name+sep+'anuga'+sep+'polygons'+sep |
---|
53 | boundarydir = home+sep+sep+state+sep+scenario_dir_name+sep+'anuga'+sep+'boundaries'+sep |
---|
54 | outputdir = home+sep+state+sep+scenario_dir_name+sep+'anuga'+sep+'outputs'+sep |
---|
55 | outputtimedir = outputdir + local_time + sep |
---|
56 | polygondir = home+sep+state+sep+scenario_dir_name+sep+'anuga'+sep+'polygons'+sep |
---|
57 | |
---|
58 | #gauge_filename = gaugedir + 'gong_gauges.csv' |
---|
59 | gauge_filename = gaugedir + 'gauges.csv' |
---|
60 | codedir = getcwd()+sep |
---|
61 | codedirname = codedir + 'project_slide.py' |
---|
62 | meshname = outputtimedir + 'mesh_' + basename |
---|
63 | |
---|
64 | # Necessary if using point datasets, rather than grid |
---|
65 | on_offshore10_dem_name = datadir + on_offshore10_name |
---|
66 | nsw_dem_name = datadir + nsw100 |
---|
67 | offshore_dem_name1 = datadir + offshore_name1 |
---|
68 | offshore_dem_name4 = datadir + offshore_name4 |
---|
69 | offshore_dem_name5 = datadir + offshore_name5 |
---|
70 | offshore_dem_name6 = datadir + offshore_name6 |
---|
71 | offshore_dem_name7 = datadir + offshore_name7 |
---|
72 | offshore_dem_name8 = datadir + offshore_name8 |
---|
73 | offshore_dem_name9 = datadir + offshore_name9 |
---|
74 | combined_dem_name = datadir + 'gong_combined_elevation' |
---|
75 | |
---|
76 | ############################### |
---|
77 | # Domain definitions |
---|
78 | ############################### |
---|
79 | |
---|
80 | # bounding polygon for study area |
---|
81 | polyAll = read_polygon(polygondir+'extentA_up.csv') |
---|
82 | |
---|
83 | print 'Area of bounding polygon', polygon_area(polyAll)/1000000.0 |
---|
84 | |
---|
85 | ############################### |
---|
86 | # Interior region definitions |
---|
87 | ############################### |
---|
88 | |
---|
89 | # areaA digitized polygons |
---|
90 | poly_local = read_polygon(polygondir+'local2.csv') |
---|
91 | poly_gong = read_polygon(polygondir+'gong3.csv') |
---|
92 | poly_southgong = read_polygon(polygondir+'south_gong.csv') |
---|
93 | |
---|
94 | print 'Area of local polygon', polygon_area(poly_local)/1000000.0 |
---|
95 | |
---|
96 | ################################################################### |
---|
97 | # Clipping regions for export to asc and regions for clipping data |
---|
98 | ################################################################### |
---|
99 | |
---|
100 | poly_10mclip = read_polygon(polygondir+'10mclip.csv') |
---|
101 | poly_surveyclip = read_polygon(polygondir+'surveyclip.csv') |
---|
102 | |
---|
103 | # clipping for nsw grid for conversion |
---|
104 | eastingmin_nsw = 272900 |
---|
105 | eastingmax_nsw = 463550 |
---|
106 | northingmin_nsw = 6112950 |
---|
107 | northingmax_nsw = 6269750 |
---|
108 | |
---|
109 | # exporting asc grid |
---|
110 | ##eastingmin = 300000 |
---|
111 | ##eastingmax = 314000 |
---|
112 | ##northingmin = 6167680 |
---|
113 | ##northingmax = 6202130 |
---|
114 | |
---|
115 | eastingmin = 300000 |
---|
116 | eastingmax = 314000 |
---|
117 | northingmin = 6167680 |
---|
118 | northingmax = 6202130 |
---|
119 | |
---|
120 | # exporting asc grid for Amy |
---|
121 | ##eastingmin = 282000 |
---|
122 | ##eastingmax = 306500 |
---|
123 | ##northingmin = 6131750 |
---|
124 | ##northingmax = 6170850 |
---|
125 | |
---|
126 | ################################################################### |
---|
127 | # Slide characteristics |
---|
128 | ################################################################### |
---|
129 | |
---|
130 | # historical slides |
---|
131 | slide_origin_bulli = [370110,6189489] |
---|
132 | slide_origin_shovel = [354753,6187397] |
---|
133 | #slide_origin_yacaaba = [463012,6334735] original work was actually Birubi |
---|
134 | slide_origin_yacaaba = [476465, 6362424] |
---|
135 | slide_origin_birubi = [462267,6335100] |
---|
136 | |
---|
137 | # potential slides: these correspond approximately to modelled depths |
---|
138 | slide_origin_bulli_b = [405617,6249852] |
---|
139 | slide_origin_bulli_c0 = [438583,6308510] |
---|
140 | slide_origin_bulli_c1 = [465283,6335210] |
---|
141 | slide_origin_bulli_c2 = [483783,6358810] |
---|
142 | slide_origin_shovel_b = [396262,6252144] |
---|
143 | slide_origin_shovel_c0 = [431683,6311110] |
---|
144 | slide_origin_shovel_c1 = [458694,6340352] |
---|
145 | slide_origin_shovel_c2 = [475589,6363030] |
---|
146 | slide_origin_yacaaba_a = [359796,6190943] |
---|
147 | slide_origin_yacaaba_b = [397330,6251857] |
---|
148 | slide_origin_yacaaba_c0 = [431283,6312110] |
---|
149 | slide_origin_yacaaba_c1 = [459983,6339110] |
---|
150 | slide_origin_birubi_a = [362811,6191183] |
---|
151 | slide_origin_birubi_b = [403573,6250268] |
---|
152 | slide_origin_birubi_c0 = [437183,6309410] |
---|
153 | slide_origin_birubi_c2 = [483392,6359044] |
---|
154 | |
---|
155 | #bulli_depth = 2087.0 |
---|
156 | bulli_depth = 1470.0 |
---|
157 | bulli_length = 16840.0 |
---|
158 | bulli_thickness = 424.0 |
---|
159 | bulli_width = 8860.0 |
---|
160 | bulli_density = 1.46 |
---|
161 | bulli_slope = 4.0 |
---|
162 | bulli_alpha = 126.0 - 90.0 |
---|
163 | |
---|
164 | #shovel_depth = 968.0 |
---|
165 | shovel_depth = 877.0 |
---|
166 | shovel_length = 13500.0 |
---|
167 | shovel_thickness = 165.0 |
---|
168 | shovel_width = 4350.0 |
---|
169 | shovel_density = 1.49 |
---|
170 | shovel_slope = 4.0 |
---|
171 | shovel_alpha = 118.0 - 90.0 |
---|
172 | |
---|
173 | #yacaaba_depth = 1119.0 |
---|
174 | yacaaba_depth = 938. |
---|
175 | yacaaba_length = 4189. |
---|
176 | yacaaba_thickness = 53. |
---|
177 | yacaaba_width = 2898. |
---|
178 | yacaaba_density = 1.48 |
---|
179 | yacaaba_slope = 2.3 |
---|
180 | yacaaba_alpha = 133.0 - 90.0 |
---|
181 | |
---|
182 | birubi_depth = 1320. |
---|
183 | birubi_length = 9903.0 |
---|
184 | birubi_width = 4150. |
---|
185 | birubi_density = 1.48 |
---|
186 | birubi_slope = 3.7 |
---|
187 | birubi_alpha = 133.0 - 90.0 |
---|
188 | birubi_thickness = 140. |
---|