#!/usr/bin/env python3 # McDermott # Feb 2021 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload( macfp) # use for development (while making changes to macfp.py) import matplotlib.pyplot as plt macfp.dataplot(config_filename='UMD_FM_Burner_dataplot_config.csv', institute='UMD', expdir='../../../Experimental_Data/', pltdir='./Plots/', close_figs=True, verbose=True, plot_list=['all']) # plt.show()
#!/usr/bin/env python3 # McDermott # March 2020 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload(macfp) import matplotlib.pyplot as plt macfp.dataplot(config_filename='UGent_macfp_config.csv', institute='UGent', expdir='../../../Experimental_Data/', pltdir='./Plots/', verbose=True, close_figs=True) # plt.show()
import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload( macfp) # use for development (while making changes to macfp.py) import matplotlib.pyplot as plt macfp.dataplot( config_filename='NIST_Waterloo_Methanol_dataplot_config_base.csv', institute='NIST FDS6.7.5-1004-g197c82469-master', expdir='../../../../../Liquid_Pool_Fires/', cmpdir='', pltdir='./Baseline/Plots/', close_figs=True, verbose=True, plot_range=range(1000)) macfp.dataplot( config_filename='NIST_Waterloo_Methanol_dataplot_config_dev.csv', institute='NIST FDS6.7.5-1004-g197c82469-master', expdir='../../../../../Liquid_Pool_Fires/', cmpdir='', pltdir='./Development/Plots/', close_figs=True, verbose=True, plot_range=range(1000))
#!/usr/bin/env python3 # McDermott # Feb 2021 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload(macfp) # use for development (while making changes to macfp.py) import matplotlib.pyplot as plt macfp.dataplot(config_filename='Sandia_Helium_Plume_exp_config.csv', institute='', expdir='../Experimental_Data/', cmpdir='../Experimental_Data/', pltdir='../Plots/') plt.show()
#!/usr/bin/env python3 # McDermott # March 2020 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload(macfp) import matplotlib.pyplot as plt macfp.dataplot(config_filename='NIST_Sandia_Helium_Plume_dataplot_config.csv', institute='NIST Cartesian Geometry', expdir='../../../Experimental_Data/', pltdir='./Plots/', verbose=True, close_figs=True, plot_list=['all']) # plt.show()
#!/usr/bin/env python3 # McDermott # Feb 2021 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload( macfp) # use for development (while making changes to macfp.py) import matplotlib.pyplot as plt macfp.dataplot(config_filename='Waterloo_Methanol_exp_config.csv', institute='', expdir='../Experimental_Data/', cmpdir='../Experimental_Data/', pltdir='../Plots/', close_figs=True, verbose=True) # This case create almost 300 figures! Better to just look at them in the ../Plots/ directory. # plt.show()
#!/usr/bin/env python3 # McDermott # Feb 2021 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload( macfp) # use for development (while making changes to macfp.py) import matplotlib.pyplot as plt macfp.dataplot(config_filename='MaCFP-2_NIST_Pool_Fires_dataplot_config.csv', institute='Case 3: Methanol 30 cm', expdir='../../../../../Liquid_Pool_Fires/', cmpdir='', pltdir='./Plots/', close_figs=True, verbose=True, plot_range=range(1000)) # plt.show()
#!/usr/bin/env python3 # McDermott # Feb 2021 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload( macfp) # use for development (while making changes to macfp.py) import matplotlib.pyplot as plt macfp.dataplot(config_filename='NIST_Pool_Fires_exp_config.csv', institute='', expdir='../Experimental_Data/', cmpdir='../Experimental_Data/', pltdir='../Plots/', close_figs=True, verbose=True, plot_list=['all']) # plt.show()
#!/usr/bin/env python3 # McDermott # Feb 2021 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload( macfp) # use for development (while making changes to macfp.py) import matplotlib.pyplot as plt macfp.dataplot(config_filename='NIST_FM_Burner_dataplot_config.csv', institute='NIST', expdir='../../../Experimental_Data/', pltdir='./Plots/', close_figs=True, verbose=True, plot_range=range(1000)) # plt.show()
importlib.reload( macfp) # use for development (while making changes to macfp.py) import matplotlib.pyplot as plt #-------------------------------------------------------------------------------- plotFile_01 = "01_very_coarse_v0a_v0b_v0f_UoWu_FM_Burner_dataplot_config.csv" plotFile_02 = "02_coarse_RadImpact_UoWu_FM_Burner_dataplot_config.csv" plotFile_03 = "03_allMesh_v0f_v2f_v3f_UoWu_FM_Burner_dataplot_config.csv" plotFile_04 = "04_averaging_15s_vs_40s_v2e_v3i_UoWu_FM_Burner_dataplot_config.csv" plotFile_all = "UoW_FM_Burner_dataplot_config.csv" macfp.dataplot(config_filename=plotFile_01, institute='UWuppertal', expdir='../../../Experimental_Data/', pltdir='./Plots_01/', close_figs=True, verbose=True, plot_list=['all']) macfp.dataplot(config_filename=plotFile_02, institute='UWuppertal', expdir='../../../Experimental_Data/', pltdir='./Plots_02/', close_figs=True, verbose=True, plot_list=['all']) macfp.dataplot(config_filename=plotFile_03, institute='UWuppertal', expdir='../../../Experimental_Data/', pltdir='./Plots_03/', close_figs=True,
#!/usr/bin/env python3 # McDermott # March 2020 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload(macfp) import matplotlib.pyplot as plt macfp.dataplot(config_filename='helium_mixture_demo_config.csv', institute='', expdir='../../../Experimental_Data/', cmpdir='../NIST/', pltdir='./Plots/', verbose=True, close_figs=True, plot_list=['all']) # plt.show()
#!/usr/bin/env python3 # McDermott # March 2020 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload(macfp) import matplotlib.pyplot as plt macfp.dataplot(config_filename='SNL_dataplot_config.csv', institute='Sandia National Laboratories', expdir='../../../Experimental_Data/', pltdir='./Plots/', verbose=True, close_figs=True ) # plt.show()
#!/usr/bin/env python3 # McDermott # March 2020 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload(macfp) import matplotlib.pyplot as plt macfp.dataplot(config_filename='MaCFP-2_Sandia_Helium_Plume_dataplot_config.csv', institute='Case 1: Sandia Helium Plume', expdir='../../../Experimental_Data/', pltdir='./Plots/', verbose=True, close_figs=True, plot_range=range(1000)) # plt.show()
#!/usr/bin/env python3 # McDermott # Feb 2021 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload(macfp) # use for development (while making changes to macfp.py) import matplotlib.pyplot as plt macfp.dataplot(config_filename='EDFAMU_Waterloo_Methanol_dataplot_config.csv', institute='EDFAMU', expdir='../../../../../Liquid_Pool_Fires/', pltdir='./Plots/', close_figs=True, verbose=True, plot_range=range(1000)) # plt.show()
#!/usr/bin/env python3 # McDermott # March 2020 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload(macfp) import matplotlib.pyplot as plt macfp.dataplot(config_filename='NIST_macfp_config.csv', institute='NIST test', expdir='../../../Experimental_Data/', pltdir='./Plots/') plt.show()
#!/usr/bin/env python3 # McDermott # Feb 2021 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload(macfp) # use for development (while making changes to macfp.py) import matplotlib.pyplot as plt macfp.dataplot(config_filename='FM_Waterloo_Methanol_dataplot_config.csv', institute='FM Global', expdir='../../../../../Liquid_Pool_Fires/', pltdir='./Plots/', close_figs=True, verbose=True, plot_list=['all']) # plt.show()
#!/usr/bin/env python3 # McDermott # Feb 2021 # first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload( macfp) # use for development (while making changes to macfp.py) import matplotlib.pyplot as plt macfp.dataplot(config_filename='UNSW_NIST_Pool_Fires_dataplot_config.csv', institute='UNSW', expdir='../../../../../Liquid_Pool_Fires/', pltdir='./Plots/', close_figs=True, verbose=True, plot_list=['all']) # plt.show()
# first, make sure the macfp module directory is in your path # if not, uncomment the lines below and replace <path to macfp-db> # with the path (absolute or relative) to your macfp-db repository import sys # sys.path.append('<path to macfp-db>/macfp-db/Utilities/') sys.path.append('../../../../../../macfp-db/Utilities/') import macfp import importlib importlib.reload(macfp) # use for development (while making changes to macfp.py) import matplotlib.pyplot as plt macfp.dataplot(config_filename='NIST_NIST_Pool_Fires_dataplot_config_base.csv', institute='NIST FDS6.7.5-1092-g94ad5b6a4-master', expdir='../../../../../Liquid_Pool_Fires/', pltdir='./Baseline/Plots/', close_figs=True, verbose=True, plot_range=range(1000)) macfp.dataplot(config_filename='NIST_NIST_Pool_Fires_dataplot_config_dev.csv', institute='NIST FDS6.7.5-1373-g26b258878-master', expdir='../../../../../Liquid_Pool_Fires/', pltdir='./Development/Plots/', close_figs=True, verbose=True, plot_range=range(1000)) # plt.show()