1 | """Script for running tsunami inundation scenario for Dampier, WA, Australia. |
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2 | |
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3 | Source data such as elevation and boundary data is assumed to be available in |
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4 | directories specified by project.py |
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5 | The output sww file is stored in project.output_time_dir |
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6 | |
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7 | The scenario is defined by a triangular mesh created from project.polygon, |
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8 | the elevation data and a simulated submarine landslide. |
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9 | |
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10 | Ole Nielsen and Duncan Gray, GA - 2005 and Jane Sexton, Nick Bartzis, GA - 2006 |
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11 | """ |
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12 | |
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13 | #------------------------------------------------------------------------------ |
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14 | # Import necessary modules |
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15 | #------------------------------------------------------------------------------ |
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16 | |
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17 | # Standard modules |
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18 | from os import sep |
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19 | from os.path import dirname, basename |
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20 | from os import mkdir, access, F_OK |
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21 | from shutil import copy |
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22 | import time |
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23 | import sys |
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24 | |
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25 | # Related major packages |
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26 | from anuga.shallow_water import Domain |
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27 | from anuga.shallow_water.data_manager import convert_dem_from_ascii2netcdf, dem2pts |
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28 | from anuga.geospatial_data.geospatial_data import * |
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29 | from anuga.shallow_water.data_manager import start_screen_catcher, copy_code_files,store_parameters |
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30 | |
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31 | # Application specific imports |
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32 | import project # Definition of file names and polygons |
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33 | |
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34 | #------------------------------------------------------------------------------ |
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35 | # Copy scripts to time stamped output directory and capture screen |
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36 | # output to file |
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37 | #------------------------------------------------------------------------------ |
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38 | |
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39 | copy_code_files(project.output_build_time_dir,__file__, |
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40 | dirname(project.__file__)+sep+ project.__name__+'.py' ) |
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41 | |
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42 | start_screen_catcher(project.output_build_time_dir) |
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43 | |
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44 | print 'USER: ', project.user |
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45 | |
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46 | #------------------------------------------------------------------------------- |
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47 | # Preparation of topographic data |
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48 | # |
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49 | # Convert ASC 2 DEM 2 PTS using source data and store result in source data |
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50 | # Do for coarse and fine data |
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51 | # Fine pts file to be clipped to area of interest |
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52 | #------------------------------------------------------------------------------- |
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53 | print"project.poly_all",project.poly_all |
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54 | print"project.combined_dir_name",project.combined_dir_name |
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55 | |
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56 | # topography directory filenames |
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57 | onshore_in_dir_name = project.onshore_in_dir_name |
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58 | coast_in_dir_name = project.coast_in_dir_name |
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59 | offshore_in_dir_name = project.offshore_in_dir_name |
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60 | offshore_in_dir_name1 = project.offshore_in_dir_name1 |
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61 | offshore_in_dir_name2 = project.offshore_in_dir_name2 |
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62 | |
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63 | onshore_dir_name = project.onshore_dir_name |
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64 | coast_dir_name = project.coast_dir_name |
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65 | |
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66 | offshore_dir_name = project.offshore_dir_name |
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67 | offshore_dir_name1 = project.offshore_dir_name1 |
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68 | offshore_dir_name2 = project.offshore_dir_name2 |
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69 | |
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70 | |
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71 | # creates DEM from asc data |
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72 | print "creates DEMs from ascii data" |
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73 | convert_dem_from_ascii2netcdf(onshore_in_dir_name, basename_out=onshore_dir_name, use_cache=True, verbose=True) |
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74 | |
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75 | #creates pts file for onshore DEM |
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76 | print "creates pts file for onshore DEM" |
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77 | dem2pts(onshore_dir_name, |
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78 | # easting_min=project.eastingmin, |
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79 | # easting_max=project.eastingmax, |
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80 | # northing_min=project.northingmin, |
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81 | # northing_max= project.northingmax, |
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82 | use_cache=True, |
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83 | verbose=True) |
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84 | |
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85 | #creates pts file for island DEM |
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86 | #dem2pts(island_dir_name, use_cache=True, verbose=True) |
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87 | |
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88 | print'create Geospatial data1 objects from topographies' |
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89 | G1 = Geospatial_data(file_name = onshore_dir_name + '.pts',verbose=True) |
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90 | G2 = Geospatial_data(file_name = coast_in_dir_name + '.txt',verbose=True) |
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91 | |
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92 | G_off = Geospatial_data(file_name = offshore_in_dir_name + '.txt',verbose=True) |
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93 | G_off1 = Geospatial_data(file_name = offshore_in_dir_name1 + '.txt',verbose=True) |
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94 | G_off2 = Geospatial_data(file_name = offshore_in_dir_name2 + '.txt',verbose=True) |
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95 | print'add all geospatial objects' |
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96 | G = G1 + G2 + G_off + G_off1 + G_off2 |
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97 | |
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98 | print'clip combined geospatial object by bounding polygon' |
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99 | G_clipped = G.clip(project.poly_all) |
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100 | |
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101 | print'export combined DEM file' |
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102 | if access(project.topographies_dir,F_OK) == 0: |
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103 | mkdir (project.topographies_dir) |
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104 | G_clipped.export_points_file(project.combined_dir_name + '.txt') |
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105 | |
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106 | print'project.combined_dir_name + .txt',project.combined_dir_name + '.txt' |
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107 | |
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108 | ###------------------------------------------------------------------------- |
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109 | ### Convert URS to SWW file for boundary conditions |
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110 | ###------------------------------------------------------------------------- |
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111 | ##print 'starting to create boundary conditions' |
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112 | ##from anuga.shallow_water.data_manager import urs2sww, urs_ungridded2sww |
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113 | ## |
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114 | ##boundaries_in_dir_name = project.boundaries_in_dir_name |
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115 | ##print 'boundaries_in_dir_name',project.boundaries_in_dir_name |
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116 | ## |
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117 | ## |
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118 | ###import sys; sys.exit() |
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119 | ## |
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120 | ##urs_ungridded2sww(project.boundaries_in_dir_name, project.boundaries_in_dir_name, |
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121 | ## verbose=True, mint=4000, maxt=80000, zscale=1) |
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122 | ## |
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