plt.plot(et_list, 'g-', label="total")
plt.legend()
plt.savefig("energy.png")
plt.clf()
plt.title("Pressure versus time")
plt.xlabel("Simulation step")
plt.ylabel("Pressure")
plt.grid(True)
plt.plot(pr_list, 'b-')
plt.savefig("pressure.png")
plt.clf()
plt.title("Temperature versus time")
plt.xlabel("Simulation step")
plt.ylabel("Temperature")
plt.grid(True)
plt.plot(te_list, 'b-')
plt.savefig("temperature.png")
plt.clf()
print box_size
# Remember not to save a video
# for large n_steps
if save_video:
video3d.save('solution_4', box_size)
plt.savefig("energy.png")
plt.clf()
plt.title("Pressure versus time")
plt.xlabel("Simulation step")
plt.ylabel("Pressure")
plt.grid(True)
plt.plot(pr_list, 'b-')
plt.savefig("pressure.png")
plt.clf()
plt.title("Temperature versus time")
plt.xlabel("Simulation step")
plt.ylabel("Temperature")
plt.grid(True)
plt.plot(te_list, 'b-')
plt.savefig("temperature.png")
plt.clf()
print box_size
# Remember not to save a video
# for large n_steps
if save_video:
video3d.save('solution_4',box_size)
pylab.savefig("energy.png")
pylab.clf()
pylab.title("Pressure versus time")
pylab.xlabel("Simulation step")
pylab.ylabel("Pressure")
pylab.grid(True)
pylab.plot(pr_list, 'b-')
pylab.savefig("pressure.png")
pylab.clf()
pylab.title("Temperature versus time")
pylab.xlabel("Simulation step")
pylab.ylabel("Temperature")
pylab.grid(True)
pylab.plot(te_list, 'b-')
pylab.savefig("temperature.png")
pylab.clf()
print box_size
# Remember not to save a video
# for large n_steps
if save_video:
video3d.save(box_size, 'solution_4')
