markre = ['Re = ' + '{0:.1f}'.format(x) for x in Re] markar = ['AR = ' + '{0:.1f}'.format(x) for x in AR] markofs = ['Offset= ' + '{0:.1f}'.format(x) for x in offset] marks = [markre, markar, markofs] #--------------------------------------- time_to_plot = 'all' coeffs_show_range = 'all' time_to_plot = [4.0, 5.0] show_range_cl = [-2.0, 8.0] show_range_cd = [-15.0, 15.0] cycle_time = 1.0 #--------------------------------------- show_range = [show_range_cl, show_range_cd] cd = os.getcwd() wd = os.path.dirname(cd) wd = os.path.dirname(wd) wd = os.path.join(os.path.dirname(wd), 'geometry_effect_fw_data') image_out_path = cd #--------------------------------------- cf_array = [] for cfi in cfd_data_list: cfd_datai = os.path.join(wd, '3_SIM_RESULTS', cfi) cf_arrayi = read_cfd_data(cfd_datai) cf_array.append(cf_arrayi) data_array = cf_array #--------------------------------------- cf_plotter(data_array, marks, time_to_plot, show_range, image_out_path, cycle_time, 'against_t')
# else: # time_to_plot = [1.0, 2.0] time_to_plot = [1.0, 1.6] if pa == 0: coeffs_show_range = [[-1.0, 1.5], [-1.0, 1.5]] #--pa0 wake-- elif pa == 45: coeffs_show_range = [[-2.5, 1.0], [-9.0, 2]] #--pa45 wake-- elif pa == 90: coeffs_show_range = [[-3.5, 3.5], [-3.5, 3.0]] #--pa90 wake-- cycle_time = 1.0 # coeffs_show_range = [-10.0, 4.0] cycle_time = 1.0 #--------------------------------------- cwd = os.getcwd() wd = os.path.join(os.path.dirname(os.path.dirname(os.path.dirname(cwd))), 'wake_convection_data') oimage_file = os.path.join( cwd, 'transient_force_pa' + '{0:.0f}'.format(pa) + 'wake.svg') #--------------------------------------- cf_array = [] for cfi in cfd_data_list: cfd_datai = os.path.join(wd, '3_SIM_RESULTS', cfi) cf_arrayi = read_cfd_data(cfd_datai) cf_array.append(cf_arrayi) data_array = cf_array #--------------------------------------- cf_plotter(pa, data_array, legends, time_to_plot, coeffs_show_range, oimage_file, cycle_time, 'wake')