[5786] | 1 | """Common filenames and locations for elevation, meshes and outputs. |
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| 2 | This script is the heart of all scripts in the folder |
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[5000] | 3 | """ |
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[5786] | 4 | #------------------------------------------------------------------------------ |
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| 5 | # Import necessary modules |
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| 6 | #------------------------------------------------------------------------------ |
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[5000] | 7 | |
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[5786] | 8 | from os import sep, environ, getenv, getcwd |
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[5000] | 9 | from os.path import expanduser |
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| 10 | import sys |
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| 11 | from time import localtime, strftime, gmtime |
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| 12 | from anuga.utilities.polygon import read_polygon, plot_polygons, is_inside_polygon, number_mesh_triangles |
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| 13 | from anuga.utilities.system_tools import get_user_name, get_host_name |
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[5786] | 14 | from anuga.shallow_water.data_manager import urs2sts,create_sts_boundary |
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[5575] | 15 | from anuga.utilities.polygon import read_polygon, plot_polygons, polygon_area, is_inside_polygon |
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[5000] | 16 | |
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[5786] | 17 | #------------------------------------------------------------------------------ |
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| 18 | # Directory setup |
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| 19 | #------------------------------------------------------------------------------ |
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| 20 | # Note: INUNDATIONHOME is the inundation directory, not the data directory. |
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[5000] | 21 | |
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[5786] | 22 | home = getenv('INUNDATIONHOME') + sep +'data'+sep #Sandpit's parent diruser = get_user_name() |
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[5575] | 23 | muxhome = getenv('MUXHOME') |
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[5000] | 24 | user = get_user_name() |
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| 25 | host = get_host_name() |
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[5415] | 26 | |
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[5786] | 27 | # determines time for setting up output directories |
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| 28 | time = strftime('%Y%m%d_%H%M%S',localtime()) |
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| 29 | gtime = strftime('%Y%m%d_%H%M%S',gmtime()) |
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[5000] | 30 | build_time = time+'_build' |
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| 31 | run_time = time+'_run' |
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| 32 | |
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[5786] | 33 | #------------------------------------------------------------------------------ |
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| 34 | # Initial Conditions |
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| 35 | #------------------------------------------------------------------------------ |
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| 36 | |
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| 37 | # this section needs to be updated to reflect the modelled community. |
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| 38 | # Note, the user needs to set up the directory system accordingly |
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[5000] | 39 | state = 'western_australia' |
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| 40 | scenario_name = 'busselton' |
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[5149] | 41 | scenario = 'busselton_tsunami_scenario' |
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[5000] | 42 | |
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[5786] | 43 | # Model specific parameters. One or all can be changed each time the |
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| 44 | # run_scenario script is executed |
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[6062] | 45 | tide = 0 #0.6 |
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| 46 | #event_number = 27255 # Java 9.3 worst case for Perth |
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[6018] | 47 | #event_number = 68693 # Sumatra 9.2 |
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[6062] | 48 | event_number = 27283 # Java 9.3 original |
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[5786] | 49 | alpha = 0.1 # smoothing parameter for mesh |
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| 50 | friction=0.01 # manning's friction coefficient |
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| 51 | starttime=0 |
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| 52 | finaltime=80000 # final time for simulation |
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[5415] | 53 | |
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[5786] | 54 | setup='final' # Final can be replaced with trial or basic. |
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| 55 | # Either will result in a coarser mesh that will allow a |
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| 56 | # faster, but less accurate, simulation. |
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[5000] | 57 | |
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| 58 | if setup =='trial': |
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| 59 | print'trial' |
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| 60 | res_factor=10 |
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| 61 | time_thinning=48 |
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| 62 | yieldstep=240 |
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| 63 | if setup =='basic': |
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| 64 | print'basic' |
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| 65 | res_factor=4 |
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| 66 | time_thinning=12 |
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| 67 | yieldstep=120 |
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| 68 | if setup =='final': |
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| 69 | print'final' |
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| 70 | res_factor=1 |
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| 71 | time_thinning=4 |
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| 72 | yieldstep=60 |
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| 73 | |
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[5786] | 74 | #------------------------------------------------------------------------------ |
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| 75 | # Revision numbers - for comparisons study |
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| 76 | #------------------------------------------------------------------------------ |
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[5526] | 77 | rev_num = 'newExtent' |
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[5457] | 78 | #rev_num = '5449' |
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[5448] | 79 | #rev_num = '4695' # 2nd Sept 2007 |
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| 80 | #rev_num = '4743' # 3nd Oct 2007 |
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| 81 | #rev_num = '4777' # 1st Nov 2007 |
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| 82 | #rev_num = '4874' # 3rd Dec 2007 |
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| 83 | #rev_num = '4901' # 3rd Jan 2007 |
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| 84 | #rev_num = '4990' # 5th Feb 2007 |
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| 85 | #rev_num = '5103' # 3rd March 2007 |
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[5472] | 86 | #rev_num = '5120' # 5th March 2007 |
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| 87 | #rev_num = '5140' # 7th March 2007 |
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[5526] | 88 | #rev_num = '5160' # 11th March 2007 |
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[5448] | 89 | #rev_num = '5185' # 1st April 2007 |
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[5479] | 90 | #rev_num = '5273' # 2nd May 2007 |
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[5000] | 91 | |
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| 92 | |
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[5786] | 93 | #------------------------------------------------------------------------------ |
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| 94 | # Output Filename |
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| 95 | #------------------------------------------------------------------------------ |
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| 96 | # Important to distinguish each run - ensure str(user) is included! |
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| 97 | # Note, the user is free to include as many parameters as desired |
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| 98 | dir_comment='_'+setup+'_'+str(tide)+'_'+str(event_number)+'_'+ 'alpha' +str(alpha)+'_'+str(user) |
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[5000] | 99 | |
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[5786] | 100 | #------------------------------------------------------------------------------ |
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| 101 | # Input Data |
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| 102 | #------------------------------------------------------------------------------ |
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[5415] | 103 | |
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[5786] | 104 | # elevation data used in build_busselton.py |
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| 105 | # onshore data: format ascii grid with accompanying projection file |
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| 106 | onshore_name = 'busselton_v2_gda94_mga50' |
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| 107 | # coastline: format x,y,elevation (with title) |
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| 108 | coast_name = 'Busselton_Contour0.txt' |
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| 109 | coast_name1 = 'Busselton_BeachSurvey.txt' |
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| 110 | # bathymetry: format x,y,elevation (with title) |
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[5796] | 111 | offshore_name = 'Busselton_NavyFinal.txt' |
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| 112 | offshore_name1 = 'Busselton_Chart.txt' |
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| 113 | offshore_name2 = 'Busselton_Digitised.txt' |
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| 114 | offshore_name3 = 'Busselton_250m.txt' # for areas that were heading to zero - 2005 Bathymetry grid |
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[6062] | 115 | offshore_name4 = 'DPI.txt' # for area within Bunbury 500 mesh less than zero generated from TIN |
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| 116 | offshore_name5 = 'topo_20m_buss_1km' # for area within Busselton 500 mesh less than zero generated from TIN |
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[5000] | 117 | |
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[5786] | 118 | # gauges - used in get_timeseries.py |
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[6201] | 119 | #gauge_name = scenario_name+'.txt' |
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| 120 | gauge_name = 'Gauges.csv' |
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[6018] | 121 | # buildings - used in run_building_inundation.py |
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| 122 | building = 'busselton_res_clip' |
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[5526] | 123 | |
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[6018] | 124 | |
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[5786] | 125 | # BOUNDING POLYGON - used in build_boundary.py and run_busselton.py respectively |
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| 126 | # NOTE: when files are put together the points must be in sequence - for ease go clockwise! |
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| 127 | # Check the run_busselton.py for boundary_tags |
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| 128 | # thinned ordering file from Hazard Map: format is index,latitude,longitude (with title) |
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[5796] | 129 | order_filename = 'thinned_boundary_ordering.csv' |
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[5786] | 130 | #landward bounding points |
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[5796] | 131 | landward = 'landward_bounding_polygon.csv' |
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[5786] | 132 | |
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| 133 | #------------------------------------------------------------------------------ |
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| 134 | # Output Elevation Data |
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| 135 | #------------------------------------------------------------------------------ |
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| 136 | # Output filename for elevation |
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| 137 | # this is a combination of all the data (utilisied in build_boundary) |
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[5149] | 138 | combined_name ='busselton_combined_elevation' |
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[5786] | 139 | combined_smaller_name = 'busselton_combined_elevation_smaller' |
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[5000] | 140 | |
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[5786] | 141 | #------------------------------------------------------------------------------ |
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| 142 | # Directory Structure |
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| 143 | #------------------------------------------------------------------------------ |
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[5000] | 144 | anuga_dir = home+state+sep+scenario+sep+'anuga'+sep |
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[5149] | 145 | topographies_in_dir = home+state+sep+scenario+sep+'elevation_final'+sep+'points'+sep |
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[5415] | 146 | topographies_dir = anuga_dir+'topographies'+sep |
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[5786] | 147 | polygons_dir = anuga_dir+'polygons'+sep |
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| 148 | tide_dir = anuga_dir+'tide_data'+sep |
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| 149 | boundaries_dir = anuga_dir+'boundaries'+ sep |
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| 150 | output_dir = anuga_dir+'outputs'+sep |
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| 151 | gauges_dir = anuga_dir+'gauges'+sep |
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| 152 | meshes_dir = anuga_dir+'meshes'+sep |
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[5000] | 153 | |
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[5786] | 154 | #------------------------------------------------------------------------------ |
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| 155 | # Location of input and output data |
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| 156 | #------------------------------------------------------------------------------ |
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| 157 | # where the input data sits |
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[5381] | 158 | onshore_in_dir_name = topographies_in_dir + onshore_name #topo |
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| 159 | coast_in_dir_name = topographies_in_dir + coast_name #coastline |
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| 160 | coast_in_dir_name1 = topographies_in_dir + coast_name1 #beach survey |
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| 161 | offshore_in_dir_name = topographies_in_dir + offshore_name #bathymetry |
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[5415] | 162 | offshore_in_dir_name1 = topographies_in_dir + offshore_name1 #bathymetry Charts |
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| 163 | offshore_in_dir_name2 = topographies_in_dir + offshore_name2 #Digitised Fairsheet |
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[5526] | 164 | offshore_in_dir_name3 = topographies_in_dir + offshore_name3 #250m |
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[6062] | 165 | offshore_in_dir_name4 = topographies_in_dir + offshore_name4 #Bunbury DPI |
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| 166 | offshore_in_dir_name5 = topographies_in_dir + offshore_name5 #Busselton Topo |
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[5000] | 167 | |
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[5786] | 168 | # where the output data sits |
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[5000] | 169 | onshore_dir_name = topographies_dir + onshore_name |
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[5381] | 170 | |
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[5000] | 171 | coast_dir_name = topographies_dir + coast_name |
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[5149] | 172 | coast_dir_name1 = topographies_dir + coast_name1 |
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[5415] | 173 | |
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[5000] | 174 | offshore_dir_name = topographies_dir + offshore_name |
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[5415] | 175 | offshore_dir_name1 = topographies_dir + offshore_name1 |
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| 176 | offshore_dir_name2 = topographies_dir + offshore_name2 |
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[5526] | 177 | offshore_dir_name3 = topographies_dir + offshore_name3 |
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[5647] | 178 | offshore_dir_name4 = topographies_dir + offshore_name4 |
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| 179 | offshore_dir_name5 = topographies_dir + offshore_name5 |
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[5000] | 180 | |
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[5786] | 181 | # where the combined elevation file sits |
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[5000] | 182 | combined_dir_name = topographies_dir + combined_name |
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[5786] | 183 | combined_smaller_name_dir = topographies_dir + combined_smaller_name |
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[5000] | 184 | |
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[5786] | 185 | # where the mesh sits (this is created during the run_busselton.py) |
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| 186 | meshes_dir_name = meshes_dir + scenario_name+'.msh' |
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[5000] | 187 | |
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[5786] | 188 | # where the boundary ordering files sit (this is used within build_boundary.py) |
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| 189 | order_filename_dir = boundaries_dir + order_filename |
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[5000] | 190 | |
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[5786] | 191 | # where the landward points of boundary extent sit (this is used within run_busselton.py) |
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| 192 | landward_dir = boundaries_dir + landward |
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[5415] | 193 | |
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[5786] | 194 | # where the event sts files sits (this is created during the build_boundary.py) |
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| 195 | boundaries_dir_event = boundaries_dir + str(event_number) + sep |
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[5575] | 196 | boundaries_dir_mux = muxhome |
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[5000] | 197 | |
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[5786] | 198 | # where the directory of the output filename sits |
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| 199 | output_build_time_dir = output_dir+build_time+dir_comment+sep #used for build_busselton.py |
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| 200 | output_run_time_dir = output_dir+run_time+dir_comment+sep #used for run_busselton.py |
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[5000] | 201 | output_run_time_dir_name = output_run_time_dir + scenario_name #Used by post processing |
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| 202 | |
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[5786] | 203 | #w here the directory of the gauges sit |
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| 204 | gauges_dir_name = gauges_dir + gauge_name #used for get_timeseries.py |
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[6018] | 205 | building_in_dir_name = gauges_dir + building + '.csv' #used for run_building_inundation.py |
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[5626] | 206 | |
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[5786] | 207 | #------------------------------------------------------------------------------ |
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| 208 | # Interior region definitions |
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| 209 | #------------------------------------------------------------------------------ |
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[5000] | 210 | |
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[5786] | 211 | #Land, to set the initial stage/water to be offcoast only |
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| 212 | poly_mainland = read_polygon(polygons_dir+'initial_condition.csv') |
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[5000] | 213 | |
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[6062] | 214 | #Land, to set the initial stage/water to be offcoast only |
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| 215 | poly_marina = read_polygon(polygons_dir+'initial_condition_marina.csv') |
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| 216 | |
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[5786] | 217 | # Initial bounding polygon for data clipping |
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[5526] | 218 | poly_all = read_polygon(polygons_dir+'poly_all_extend.csv') |
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[5000] | 219 | res_poly_all = 100000*res_factor |
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| 220 | |
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[5786] | 221 | # Area of Interest 1 (Busselton) |
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| 222 | poly_aoi1 = read_polygon(polygons_dir+'busselton_1km.csv') |
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| 223 | res_aoi1 = 500*res_factor |
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[5149] | 224 | |
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[5786] | 225 | # Area of Interest 2 (Bunbury) |
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| 226 | poly_aoi2 = read_polygon(polygons_dir+'bunbury_1km.csv') |
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| 227 | res_aoi2 = 500*res_factor |
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[5000] | 228 | |
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[5786] | 229 | # Area of Significance 1 (Busselton) |
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| 230 | poly_aos1 = read_polygon(polygons_dir+'busselton_2km.csv') |
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| 231 | res_aos1 = 10000*res_factor |
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[5000] | 232 | |
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[5786] | 233 | # Area of Significance 2 (Bunbury) |
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| 234 | poly_aos2 = read_polygon(polygons_dir+'busselton_2km.csv') |
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| 235 | res_aos2 = 10000*res_factor |
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[5000] | 236 | |
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[5786] | 237 | # Refined areas |
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| 238 | # Polygon designed to islands |
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| 239 | poly_aos3 = read_polygon(polygons_dir+'island1.csv') |
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| 240 | res_aos3 = 10000*res_factor |
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| 241 | poly_aos4 = read_polygon(polygons_dir+'island2.csv') |
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| 242 | res_aos4 = 10000*res_factor |
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[5415] | 243 | |
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[5786] | 244 | # Shallow water 1 |
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| 245 | poly_sw1 = read_polygon(polygons_dir+'coast_5km_d20m.csv') |
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| 246 | res_sw1 = 40000*res_factor |
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[5430] | 247 | |
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[5786] | 248 | # Combined all regions, must check that all are included! |
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| 249 | interior_regions = [[poly_aoi1,res_aoi1],[poly_aoi2,res_aoi2] |
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| 250 | ,[poly_aos1,res_aos1],[poly_aos2,res_aos2] |
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| 251 | ,[poly_aos3,res_aos3],[poly_aos4,res_aos4] |
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| 252 | ,[poly_sw1,res_sw1]] |
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[5647] | 253 | |
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[5786] | 254 | |
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[5000] | 255 | trigs_min = number_mesh_triangles(interior_regions, poly_all, res_poly_all) |
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[5786] | 256 | print 'min estimated number of triangles', trigs_min |
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| 257 | |
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| 258 | #------------------------------------------------------------------------------ |
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| 259 | # Clipping regions for export to asc and regions for clipping data |
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| 260 | # Final inundation maps should only be created in regions of the finest mesh |
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| 261 | #------------------------------------------------------------------------------ |
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[5000] | 262 | |
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[5792] | 263 | # exporting asc grid for Busselton |
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| 264 | xminBusselton = 340000 |
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| 265 | xmaxBusselton = 352000 |
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| 266 | yminBusselton = 6271500 |
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| 267 | ymaxBusselton = 6280000 |
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[5000] | 268 | |
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[5792] | 269 | # exporting asc grid for Bunbury |
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| 270 | xminBunbury = 369000 |
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| 271 | xmaxBunbury = 381000 |
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| 272 | yminBunbury = 6308000 |
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| 273 | ymaxBunbury = 6316500 |
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[5000] | 274 | |
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