def plotTemps(c): integrator.meanTemp(c) vals = c.temps xtemps = numpy.linspace(0, integrator.drinkingTime, num=int(integrator.drinkingTime / integrator.dt)) plt.plot(xtemps, vals) plt.xlabel("time / s") plt.ylabel("temperature / K") plt.show()
def plotTemps(c): integrator.meanTemp(c) vals = c.temps xtemps = numpy.linspace(0, integrator.drinkingTime, num=int(integrator.drinkingTime / integrator.dt)) plt.plot(xtemps, vals) plt.xlabel("time / s") plt.ylabel("temperature / K") plt.show()
import chromosome import integrator import ga c1 = chromosome.randomChromosome() print integrator.meanTemp(c1)
def fitness(c): meanTemp = integrator.meanTemp(c) driftTemp = meanTemp - integrator.startTemp return driftTemp
def fitness(c): meanTemp = integrator.meanTemp(c) driftTemp = meanTemp - integrator.startTemp return driftTemp