def plot_Oede(i, param, ylabel=None, ytick=None, ymax=1.01, quint=False, ylim=None): ax = fig.add_subplot(4, 3, i) for i in range(rr): sc = ax.scatter(Oede_cmb[i], param[i], color=Usf.colour(i + 1)) ax.grid(True) if quint: plt.xticks(np.arange(0.02, 0.0601, 0.01)) plt.xlim([0.02, 0.0601]) else: plt.xticks(np.arange(0.0, 0.09, 0.02)) plt.xlim(xmin=0) if ylim is not None: yin, yf = ylim plt.ylim([yin, yf]) if ytick is not None: yin, yf, yd = ytick plt.yticks(np.arange(yin, yf, yd)) plt.xlabel("$ \Omega_{ede}(z_{drag})$") plt.ylabel(ylabel)
def plot_Oede(i, param, ylabel= None, ytick=None, ymax=1.01, quint= False, ylim=None): ax = fig.add_subplot(4,3,i) for i in range(rr): sc = ax.scatter(Oede_cmb[i], param[i], color=Usf.colour(i+1)) ax.grid(True) if quint: plt.xticks(np.arange(0.02, 0.0601, 0.01)) plt.xlim([0.02,0.0601]) else: plt.xticks(np.arange(0.0, 0.09, 0.02)) plt.xlim(xmin=0) if ylim is not None: yin, yf = ylim plt.ylim([yin, yf]) if ytick is not None: yin, yf, yd= ytick plt.yticks(np.arange(yin, yf, yd)) plt.xlabel("$ \Omega_{ede}(z_{drag})$") plt.ylabel(ylabel)
if ytick is not None: yin, yf, yd= ytick plt.yticks(np.arange(yin, yf, yd)) plt.xlabel("$ \Omega_{ede}(z_{drag})$") plt.ylabel(ylabel) #---------------Plot Files----------------------# if True: fig = pylab.figure(figsize=(10,12)) ax8 = fig.add_subplot(4, 3, 1) for i in range(rr): z = np.exp(-lna[i]) ax8.plot(z, Oede[i], color=Usf.colour(i+1)) ax8.grid(True) ax8.set_xscale('log') plt.xlabel("$z+1$") plt.yticks(np.arange(0,1,0.2)) plt.ylabel("$\\Omega_{ede}$") plt.xlim([1,1.0e6]) ax9 = fig.add_subplot(4, 3, 2) for i in range(rr): z = np.exp(-lna[i]) ax9.plot(z, wede[i], color=Usf.colour(i+1), label = '$\Omega_{ede} = $%1.3f'%(Oede_cmb[i])) ax9.legend(loc='center left', bbox_to_anchor=(1.5, 0.5)) ax9.grid(True)
T.updateParams([lam_, V0_, A_, lB_]) sol = T.Ini_phi() xx, yy = sol.T pts.append(T.O_phi(lna)) pts3.append(T.w_ede(lna)) Oma.append(Om0/(exp(lna)**3)*(1.0/T.hub((lna), sol.T))**2) Ora.append(Or0/(exp(lna)**4)*(1.0/T.hub((lna), sol.T))**2) pts4.append(xx) if True: fig = plt.figure(figsize=(16,5)) ax=fig.add_subplot(1,3,1) for i in range(4): ax.plot(z, pts[i], color = Usf.colour(i+1)) ax.plot(z, Oma[i], 'g--') ax.plot(z, Ora[i], 'y--') plt.ylim([-0.01,1.01]) ax.set_xscale('log') plt.xlim([1.e-1, 1e8]) plt.xlabel("$z$") plt.ylabel("$\\Omega_{ede}$") ax.grid(True) ax2=fig.add_subplot(1,3,2) for i in range(4): ax2.plot(z, pts3[i], color = Usf.colour(i+1)) plt.ylim(ymin=-1.01) ax2.set_xscale('log') plt.xlim([1.e-1, 1e8])
if ytick is not None: yin, yf, yd = ytick plt.yticks(np.arange(yin, yf, yd)) plt.xlabel("$ \Omega_{ede}(z_{drag})$") plt.ylabel(ylabel) #---------------Plot Files----------------------# if True: fig = pylab.figure(figsize=(10, 12)) ax8 = fig.add_subplot(4, 3, 1) for i in range(rr): z = np.exp(-lna[i]) ax8.plot(z, Oede[i], color=Usf.colour(i + 1)) ax8.grid(True) ax8.set_xscale('log') plt.xlabel("$z+1$") plt.yticks(np.arange(0, 1, 0.2)) plt.ylabel("$\\Omega_{ede}$") plt.xlim([1, 1.0e6]) ax9 = fig.add_subplot(4, 3, 2) for i in range(rr): z = np.exp(-lna[i]) ax9.plot(z, wede[i], color=Usf.colour(i + 1), label='$\Omega_{ede} = $%1.3f' % (Oede_cmb[i])) ax9.legend(loc='center left', bbox_to_anchor=(1.5, 0.5))
T.updateParams([lam_, V0_, A_, lB_]) sol = T.Ini_phi() xx, yy = sol.T pts.append(T.O_phi(lna)) pts3.append(T.w_ede(lna)) Oma.append(Om0 / (exp(lna)**3) * (1.0 / T.hub((lna), sol.T))**2) Ora.append(Or0 / (exp(lna)**4) * (1.0 / T.hub((lna), sol.T))**2) pts4.append(xx) if True: fig = plt.figure(figsize=(16, 5)) ax = fig.add_subplot(1, 3, 1) for i in range(4): ax.plot(z, pts[i], color=Usf.colour(i + 1)) ax.plot(z, Oma[i], 'g--') ax.plot(z, Ora[i], 'y--') plt.ylim([-0.01, 1.01]) ax.set_xscale('log') plt.xlim([1.e-1, 1e8]) plt.xlabel("$z$") plt.ylabel("$\\Omega_{ede}$") ax.grid(True) ax2 = fig.add_subplot(1, 3, 2) for i in range(4): ax2.plot(z, pts3[i], color=Usf.colour(i + 1)) plt.ylim(ymin=-1.01) ax2.set_xscale('log') plt.xlim([1.e-1, 1e8])