# To reproduce the data needed for Figure 7B in associated original paper, # execute this script in the Python console in OpenCOR. This can be done # with the following commands at the prompt in the OpenCOR Python console: # # In [1]: cd path/to/folder_this_file_is_in # In [2]: run Fig7B_sim.py import opencor as oc import numpy as np # Load the simulation file simfile='../Vramp_experiment.sedml' simulation = oc.open_simulation(simfile) # The data object houses all the relevant information # and pointers to the OpenCOR internal data representations data = simulation.data() # Set the experiments K_Cahalf =[3, 11, 15] duration = 160 Nai=2.9836 # Define the interval of interest for this simulation experiment start, pointInterval = 0, 0.001 data.set_starting_point(start) data.set_point_interval(pointInterval) # Data to save varName = np.array(["time", "rho_vCa", "V"]) vars = np.reshape(varName, (1, len(varName))) # start to save when the test voltage returns to holding rows=int((duration)/pointInterval+1) r = np.zeros((rows,len(varName))) # The prefix of the saved output file name prefilename = 'simFig7B' inhPump=1 for j, iK_Cahalf in enumerate(K_Cahalf): data.set_ending_point(duration) # Reset states and parameters simulation.reset(True) # Set constant parameter values data.constants()['control_para/Nai'] = Nai data.constants()['control_para/inhPump'] = inhPump data.constants()['control_para/K_Cahalf'] = iK_Cahalf simulation.run() # Access simulation results results = simulation.results() # Grab a specific algebraic variable results r[:,0] = results.voi().values()[-rows:] r[:,1] = results.algebraic()['outputs/rho_vCa'].values()[-rows:] r[:,2] = results.states()['outputs/V'].values()[-rows:] # clear the results except the last run simulation.clear_results() # Save the simulation result of the last run filename='../simulatedData/%s_%d.csv' % (prefilename,j) np.savetxt(filename, vars, fmt='%s',delimiter=",") with open(filename, "ab") as f: np.savetxt(f, r, delimiter=",") f.close