""" This file contains all your file and directory definitions for elevation, meshes and outputs. """ import os from anuga.utilities.system_tools import get_user_name, get_host_name from time import localtime, strftime, gmtime from os.path import join, exists #------------------------------------------------------------------------------ # Directory setup #------------------------------------------------------------------------------ # this section needs to be updated to reflect the modelled community. # Note, the user needs to set up the directory system accordingly state = 'thailand' scenario_name = 'patong' scenario_folder = 'patong_tsunami_scenario' #------------------------------------------------------------------------------ # Initial Conditions #------------------------------------------------------------------------------ # Model specific parameters. # One or all can be changed each time the run_model script is executed tide = 0.8 # difference between MSL and HAT zone = 47 # specify zone of model model = 'small' # different size model 'small' or 'large' event_number = 'mux_' + model # the event number or the mux file name alpha = 0.1 # smoothing parameter for mesh friction = 0.01 # manning's friction coefficient starttime = 0 # start time for simulation finaltime = 15000 # final time for simulation use_buildings = True setup = '#!SETUP!#' # This can be one of three values # trial - coarsest mesh, fast # basic - coarse mesh # final - fine mesh, slowest #------------------------------------------------------------------------------ # Output filename # # Your output filename should be unique between different runs on different # data. # The list of items below will be used to create a file in your output # directory. # Your user name and time+date will be automatically added. For example, # [setup, tide, event_number] # will result in a filename like # 20090212_091046_run_final_0_27283_rwilson #------------------------------------------------------------------------------ output_comment = [setup, tide, event_number, 'final'] #------------------------------------------------------------------------------ # Input Data #------------------------------------------------------------------------------ # ELEVATION DATA # Used in build_elevation.py # Format for ascii grids, as produced in ArcGIS + a projection file ascii_grid_filenames = [] # Format for point is x,y,elevation (with header) point_filenames = ['patong_10m_grid_msl_Project.txt', # 10m main grid 'patong_10m_small_grid_for_anuga_sub_Project.txt', # 10m saddle 'patong_bay_1s_grid_Project.txt', # 1s grid 'andaman_3s_grid_Clip2_Project.txt'] #3s grid ### Add csv header list to all files in point_filenames ##headerlist = ['x', 'y', 'elevation'] ##for f in point_filenames: ## add_csv_header(join(topographies_folder, f), headerlist) extent_polygon_filenames = ['patong_10m.txt', 'saddle_10m.txt', 'patong_1s.txt'] # BOUNDING POLYGON - for data clipping and estimate of triangles in mesh # Used in build_elevation.py # Format for points easting,northing (no header) bounding_polygon_filename = 'bounding_polygon_'+ model + '.csv' bounding_polygon_maxarea = 100000 # INTERIOR REGIONS - for designing the mesh # Used in run_model.py # Format for points easting,northing (no header) interior_regions_data = [['inundation_area.csv', 75], ['aoi.csv', 200], ['aos.csv', 900], ['sw_coast_original.csv', 7000], ['building_main.csv', 20], ['building_main_small.csv', 20], ['building_main_south.csv', 20], ['building_saddle.csv', 20]] # LAND - used to set the initial stage/water to be offcoast only # Used in run_model.py. Format for points easting,northing (no header) land_initial_conditions_filename = [['initial_conditions_' + model +'.csv', 0]] # GAUGES - for creating timeseries at a specific point # Used in get_timeseries.py. # Format easting,northing,name,elevation (with header) gauges_filename = 'gauges.csv' # BUILDINGS POLYOGN - for elevation of buildings # Used in run_model.py # Format easting,northing,id,floor (with header) building_polygon_filename = 'buildings.csv' # BUILDINGS EXPOSURE - for identifying inundated houses # Used in run_building_inundation.py # Format latitude,longitude etc (geographic) building_exposure_filename = 'busselton_res_clip.csv' # from NEXIS # BOUNDING POLYGON - used in build_boundary.py and run_model.py respectively # NOTE: when files are put together the points must be in sequence # For ease go clockwise! # Check the run_model.py for boundary_tags # Thinned ordering file from Hazard Map (geographic) # Format is index,latitude,longitude (with header) urs_order_filename = 'urs_order_'+ model +'.csv' # Landward bounding points # Format easting,northing (no header) landward_boundary_filename = 'landward_boundary_'+ model +'.csv' # MUX input filename. # If a meta-file from EventSelection is used, set 'multi-mux' to True. # If a single MUX stem filename (*.grd) is used, set 'multi-mux' to False. mux_input_filename = event_number # to be found in event_folder # (ie boundaries/event_number/) multi_mux = False ##mux_input_filename = 'event.list' ##multi_mux = True #------------------------------------------------------------------------------ # Clipping regions for export to asc and regions for clipping data # Final inundation maps should only be created in regions of the finest mesh #------------------------------------------------------------------------------ #CBD extract ascii grid - coordinates from patong_1s extent xminCBD = 417445.1119 xmaxCBD = 425601.7881 yminCBD = 870663.4547 ymaxCBD = 876965.3856 ################################################################################ ################################################################################ #### NOTE: NOTHING WOULD NORMALLY CHANGE BELOW THIS POINT. #### ################################################################################ ################################################################################ # Get system user and host names. # These values can be used to distinguish between two similar runs by two # different users or runs by the same user on two different machines. user = get_user_name() host = get_host_name() #------------------------------------------------------------------------------- # Output Elevation Data #------------------------------------------------------------------------------- # Output filename for elevation # this is a combination of all the data generated in build_elevation.py combined_elevation_basename = scenario_name + '_combined_elevation_' + model #------------------------------------------------------------------------------- # Directory Structure #------------------------------------------------------------------------------- # determines time for setting up output directories time = strftime('%Y%m%d_%H%M%S', localtime()) gtime = strftime('%Y%m%d_%H%M%S', gmtime()) build_time = time + '_build_' + model run_time = time + '_run_' # create paths for data files. output_dirname = os.path.dirname(__file__) home = os.path.join(output_dirname, 'local_data', 'data') muxhome = home # FIXME (Ole): Get rid off # check various directories/files that must exist anuga_folder = join(home, state, scenario_folder, 'anuga') topographies_folder = join(anuga_folder, 'topographies') polygons_folder = join(anuga_folder, 'polygons') boundaries_folder = join(anuga_folder, 'boundaries') output_folder = join(anuga_folder, 'outputs') gauges_folder = join(anuga_folder, 'gauges') meshes_folder = join(anuga_folder, 'meshes') event_folder = join(boundaries_folder, str(event_number)) # MUX data files # Directory containing the MUX data files to be used with EventSelection. mux_data_folder = join(muxhome, 'mux') #------------------------------------------------------------------------------ # Location of input and output data #------------------------------------------------------------------------------ # Convert the user output_comment to a string for run_model.py output_comment = ('_'.join([str(x) for x in output_comment if x != user]) + '_' + user) # The absolute pathname of the all elevation, generated in build_elevation.py combined_elevation = join(topographies_folder, combined_elevation_basename) # The absolute pathname of the mesh, generated in run_model.py meshes = join(meshes_folder, scenario_name) + model +'.msh' # The pathname for the urs order points, used within build_urs_boundary.py urs_order = join(boundaries_folder, urs_order_filename) # The absolute pathname for the landward points of the bounding polygon, # Used within run_model.py) landward_boundary = join(boundaries_folder, landward_boundary_filename) # The absolute pathname for the .sts file, generated in build_boundary.py event_sts = join(event_folder, scenario_name) # The absolute pathname for the output folder names # Used for build_elevation.py output_build = join(output_folder, build_time) + '_' + str(user) # Used for run_model.py output_run = join(output_folder, run_time) + output_comment # Used by post processing output_run_time = join(output_run, scenario_name) # The absolute pathname for the gauges file # Used for get_timeseries.py gauges = join(gauges_folder, gauges_filename) # The absolute pathname for the gauges file # Used for run_model.py building_polygon = join(polygons_folder, building_polygon_filename) # The absolute pathname for the building file # Used for run_building_inundation.py building_exposure = join(gauges_folder, building_exposure_filename) # full path to where MUX files (or meta-files) live mux_input = join(event_folder, mux_input_filename)