"""Common filenames and locations for topographic data, meshes and outputs. Also includes origin for slump scenario. """ from os import sep, environ, getenv, getcwd from os.path import expanduser from utilities.polygon import read_polygon import sys from pmesh.create_mesh import convert_points_from_latlon_to_utm from coordinate_transforms.redfearn import degminsec2decimal_degrees from time import localtime, strftime, gmtime #Making assumptions about the location of scenario data state = 'western_australia' scenario_dir_name = 'onslow_tsunami_scenario_2006' # 250m data to be provided coarsename = 'onsl_bathydem250' # get from Neil/Ingo (DEM or topo data) # 30m data to be provided onshore_name_dted = 'onslow_onshore_30m_dted2' # get from Neil/Ingo (DEM or topo data) # 20m data to be provided onshore_name_dli = 'onslow_onshore_20m_dli' # get from Neil/Ingo (DEM or topo data) coast_name = 'onslow_coast' islands_name = 'onslow_islands_dted2' offshore_name = 'onslow_offshore_points' boundary_basename = 'SU-AU_clip' #swollen/ all data output basename = 'source' codename = 'project.py' if sys.platform == 'win32': home = getenv('INUNDATIONHOME') # python_home = getenv('PWD') # home = environ['INUNDATIONHOME'] #Sandpit's parent dir user = getenv('USERPROFILE') # user = basename(user_path) else: home = getenv('INUNDATIONHOME', sep+'d'+sep+'cit'+sep+'1'+sep+'cit'+sep+'risk_assessment_methods_project'+sep+'inundation') user = getenv('LOGNAME') print 'USER:', user #Derive subdirectories and filenames #time = strftime('%Y%m%d_%H%M%S',localtime()) #gets time for new dir local_time = strftime('%Y%m%d_%H%M%S',gmtime()) #gets time for new dir meshdir = home+sep+state+sep+scenario_dir_name+sep+'anuga'+sep+'meshes'+sep datadir = home+sep+state+sep+scenario_dir_name+sep+'anuga'+sep+'topographies'+sep gaugedir = home+sep+state+sep+scenario_dir_name+sep+'anuga'+sep+'gauges'+sep polygondir = home+sep+state+sep+scenario_dir_name+sep+'anuga'+sep+'polygons'+sep boundarydir = home+sep+state+sep+scenario_dir_name+sep+'anuga'+sep+'boundaries'+sep #output dir without time outputdir = home+sep+state+sep+scenario_dir_name+sep+'anuga'+sep+'outputs'+sep tidedir = home+sep+state+sep+scenario_dir_name+sep+'anuga'+sep+'tide_data'+sep comparereportdir = '..'+sep+'..'+sep+'documentation'+sep+'experimentation'+sep+'boundary_ANUGA_MOST'+sep+'report' outputtimedir = outputdir + local_time + sep print'bound', boundarydir #gauge_filename = gaugedir + 'onslow_gauges.xya' #for MOST gauge_filename = gaugedir + 'gauge_location_onslow.csv' gauges50 = gaugedir + '50_gauges.xya' gauge_comparison = gaugedir + 'MOST_comparison_gauges.xya' gauge_comparison_3d = gaugedir + 'MOST_comparison_gauges_3d.xya' community_filename = gaugedir + 'CHINS_v2.csv' community_scenario = gaugedir + 'community_onslow.csv' buildings_filename = gaugedir + 'onslow_res.csv' buildings_filename_out = gaugedir + 'onslow_res_modified.csv' gaugetimeseries = gaugedir + 'onslow' tidal_filename = tidedir + 'onsl.txt' tidal_outname = tidedir + 'max_min.txt' # boundary source data #MOST_dir = 'f:'+sep+'3'+sep+'ehn'+sep+'users'+sep+'davidb'+sep+'tsunami'+sep+'WA_project'+sep+'SU-AU_90'+sep+'most_2'+sep+'detailed'+sep codedir = getcwd()+sep codedirname = codedir + 'project.py' #meshname = meshdir + basename meshname = outputtimedir + 'mesh_' + basename print 'meshname',meshname coarsedemname = datadir + coarsename onshore_dem_name = datadir + onshore_name_dli offshore_dem_name = datadir + offshore_name coast_dem_name = datadir + coast_name islands_dem_name = datadir + islands_name combined_dem_name = datadir + 'onslow_combined_elevation' outputname = outputtimedir + basename #Used by post processing #!gauge_filename = outputdir + 'onslow_gauges.xya' #!gauge_outname = outputdir + 'gauges_max_output.xya' # clipping region to make DEM (pts file) from fine elevation data eastingmin = 240000 eastingmax = 340000 northingmin = 7580000 northingmax = 7700000 south = degminsec2decimal_degrees(-22,15,0) north = degminsec2decimal_degrees(-20,30,0) west = degminsec2decimal_degrees(114,15,0) east = degminsec2decimal_degrees(115,50,0) ''' # region for visualisation eminviz = 260000 emaxviz = 320000 nminviz = 7590000 nmaxviz = 7630000 ''' # region to export e_min_area = 300000 e_max_area = 310000 n_min_area = 7600000 n_max_area = 7610000 #Georeferencing from coordinate_transforms.redfearn import degminsec2decimal_degrees refzone = 50 #Updated Main Domain of Onslow: first run NB 6/4/06 d0 = [310000, 7690000] d1 = [280000, 7690000] d2 = [270000, 7645000] d3 = [240000, 7625000] d4 = [270000, 7580000] d5 = [300000, 7590000] d6 = [340000, 7610000] polyAll = [d0, d1, d2, d3, d4, d5, d6] #Interior region - Onslow town #first run! #i0 = [304000, 7608000] #i1 = [302000, 7605000] #i2 = [303000, 7602000] #i3 = [305000, 7601000] #i4 = [309000, 7603000] #i5 = [307000, 7606500] #refined run #i0 = [304000, 7607000] #i1 = [302000, 7605000] #i2 = [304000, 7603000] #i3 = [307000, 7602000] #i4 = [309000, 7603000] #i5 = [307000, 7606000] #for visualisation #i0 = [304000, 7609000] #i1 = [301500, 7605000] #i2 = [304000, 7603000] #i3 = [307000, 7602000] #i4 = [309000, 7603000] #i5 = [311000, 7607000] #i0 = [304000, 7608000] i0 = [304000, 7607000] i1 = [302000, 7605000] #i2 = [303000, 7602000] i2 = [304000, 7603000] #i3 = [305000, 7601000] i3 = [307000, 7602000] i4 = [309000, 7603000] #i5 = [307000, 7606500] i5 = [307000, 7606000] poly_onslow = [i0, i1, i2, i3, i4, i5] #Thevenard Island j0 = [294000, 7629000] j1 = [285000, 7625000] j2 = [294000, 7621000] j3 = [299000, 7625000] poly_thevenard = [j0, j1, j2, j3] ''' # Direction Is k0 = [309000, 7619000] k1 = [304000, 7619000] k2 = [304000, 7616500] k3 = [309000, 7616500] poly_direction = [k0, k1, k2, k3] ''' #med res around onslow l0 = [300000, 7610000] l1 = [285000, 7600000] l2 = [300000, 7597500] l3 = [310000, 7600000] l4 = [315000, 7610000] #l5 = [310000, 7612500] #poly_coast = [l0, l1, l2, l3, l4, l5] poly_coast = [l0, l1, l2, l3, l4] #general coast and local area to onslow region m0 = [270000, 7581000] m1 = [300000, 7591000] m2 = [339000, 7610000] m3 = [330000, 7630000] m4 = [290000, 7640000] m5 = [260000, 7600000] poly_region = [m0, m1, m2, m3, m4, m5]