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Fixing proportion labels

tforest 11 meses atrás
pai
commit
eb2799bc98
1 arquivos alterados com 214 adições e 23 exclusões
  1. 214 23
      swp2.py

+ 214 - 23
swp2.py Ver arquivo

@@ -2,10 +2,11 @@ import matplotlib.pyplot as plt
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 import os
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 import numpy as np
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 import math
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+import json
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+import io
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 from scipy.special import gammaln
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 from matplotlib.backends.backend_pdf import PdfPages
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 from matplotlib.ticker import MaxNLocator
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-import io
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 from mpl_toolkits.axes_grid1.inset_locator import inset_axes
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 from matplotlib.ticker import MultipleLocator
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 def log_facto(k):
@@ -197,8 +198,6 @@ def plot_k_epochs_thetafolder(folder_path, mu, tgen, breaks = 2, title = "Title"
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     my_dpi = 300
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     plt.figure(figsize=(5000/my_dpi, 2800/my_dpi), dpi=my_dpi)
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     plt.plot(x, y, 'r-', lw=2, label = 'Lik='+greatest_likelihood)
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-    plt.xlim(1e-3, 1)
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-    plt.ylim(0, 10)
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     #plt.yscale('log')
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     plt.xscale('log')
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     plt.grid(True,which="both", linestyle='--', alpha = 0.3)
@@ -271,7 +270,6 @@ def plot_all_epochs_thetafolder(folder_path, mu, tgen, title = "Title", theta_sc
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         fnt_size = 12
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         # plt.rcParams['font.size'] = fnt_size
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         ax1 = ax[0,0]
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-    #ax1.set_xlim(1e-3, 1)
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     ax1.set_yscale('log')
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     ax1.set_xscale('log')
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     ax1.grid(True,which="both", linestyle='--', alpha = 0.3)
@@ -321,7 +319,6 @@ def plot_all_epochs_thetafolder(folder_path, mu, tgen, title = "Title", theta_sc
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         # years
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         plt.set_xlabel("Time (years)", fontsize=fnt_size)
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         plt.set_ylabel("Individuals (N)", fontsize=fnt_size)
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-        ax1.set_xlim(1e-5, 1)
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     # plt.rcParams['font.size'] = fnt_size
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     # print(fnt_size, "rcParam font.size=", plt.rcParams['font.size'])
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     ax1.legend(handles = plot_handles, loc='best', fontsize = fnt_size*0.5)
@@ -382,6 +379,189 @@ def plot_all_epochs_thetafolder(folder_path, mu, tgen, title = "Title", theta_sc
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     # return plots
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     return ax
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+def save_k_theta(folder_path, mu, tgen, title = "Title", theta_scale = True,
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+    breaks_max = 10, output = None):
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+    """
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+    Save theta values as is to do basic plots.
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+    """
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+    cpt = 0
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+    epochs = {}
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+    len_sfs = 0
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+    for file_name in os.listdir(folder_path):
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+        cpt +=1
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+        if os.path.isfile(os.path.join(folder_path, file_name)):
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+            for k in range(breaks_max):
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+                thetas,sfs = return_x_y_from_stwp_theta_file_as_is(folder_path+file_name, breaks = k,
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+                                                                 tgen = tgen,
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+                                                                 mu = mu, relative_theta_scale = theta_scale)
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+                if thetas == 0:
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+                    continue
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+                if len(thetas)-1 != k:
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+                    continue
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+                if k not in epochs.keys():
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+                    epochs[k] = {}
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+                likelihood = str(eval(thetas[k][2]))
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+                epochs[k][likelihood] = thetas
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+                #epochs[k] = thetas
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+    print("\n*******\n"+title+"\n--------\n"+"mu="+str(mu)+"\ntgen="+str(tgen)+"\nbreaks="+str(k)+"\n*******\n")
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+    print(cpt, "theta file(s) have been scanned.")
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+    plots = []
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+    best_epochs = {}
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+    for epoch in epochs:
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+        likelihoods = []
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+        for key in epochs[epoch].keys():
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+            likelihoods.append(key)
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+        likelihoods.sort()
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+        minLogLn = str(likelihoods[0])
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+        best_epochs[epoch] = epochs[epoch][minLogLn]
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+    for epoch, theta in best_epochs.items():
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+        groups = np.array(list(theta.values()), dtype=object)[:, 1].tolist()
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+        x = []
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+        y = []
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+        thetas = np.array(list(theta.values()), dtype=object)[:, 0]
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+        for i,group in enumerate(groups):
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+            x += group[::-1]
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+            y += list(np.repeat(thetas[i], len(group)))
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+            if epoch == 0:
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+                N0 = y[0]
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+                # compute the proportion of information used at each bin of the SFS
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+                sum_theta_i = 0
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+                for i in range(2, len(y)+2):
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+                    sum_theta_i+=y[i-2] / (i-1)
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+                prop = []
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+                for k in range(2, len(y)+2):
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+                    prop.append(y[k-2] / (k - 1) / sum_theta_i)
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+                prop = prop[::-1]
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+        # normalise to N0 (N0 of epoch1)
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+        for i in range(len(y)):
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+            y[i] = y[i]/N0
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+        # x_plot, y_plot = plot_straight_x_y(x, y)
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+        p = x, y
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+        # add plot to the list of all plots to superimpose
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+        plots.append(p)
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+    cumul = 0
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+    prop_cumul = []
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+    for val in prop:
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+        prop_cumul.append(val+cumul)
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+        cumul = val+cumul
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+    prop = prop_cumul
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+
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+    lines_fig2 = []
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+    for epoch, theta in best_epochs.items():
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+        groups = np.array(list(theta.values()), dtype=object)[:, 1].tolist()
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+        x = []
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+        y = []
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+        thetas = np.array(list(theta.values()), dtype=object)[:, 0]
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+        for i,group in enumerate(groups):
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+            x += group[::-1]
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+            y += list(np.repeat(thetas[i], len(group)))
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+            if epoch == 0:
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+                N0 = y[0]
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+        for i in range(len(y)):
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+            y[i] = y[i]/N0
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+        x_2 = []
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+        T = 0
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+        for i in range(len(x)):
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+            x[i] = int(x[i])
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+        # compute the times as: theta_k / (k*(k-1))
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+        for i in range(0, len(x)):
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+            T += y[i] / (x[i]*(x[i]-1))
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+            x_2.append(T)
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+        # Save plotting (fig 2)
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+        x_2 = [0]+x_2
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+        y = [y[0]]+y
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+        # x2_plot, y2_plot = plot_straight_x_y(x_2, y)
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+        p2 = x_2, y
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+        lines_fig2.append(p2)
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+
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+    saved_plots = {"raw_stairs":plots, "scaled_stairs":lines_fig2,
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+                    "prop":prop}
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+    if output == None:
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+        output = title+"_plotdata.json"
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+    with open(output, 'w') as json_file:
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+        json.dump(saved_plots, json_file)
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+    return saved_plots
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+
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+def plot_raw_stairs(plot_lines, plot_lines2, prop, title, ax = None, n_ticks = 10):
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+    # multiple fig
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+    if ax is None:
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+        # intialize figure 1
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+        my_dpi = 300
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+        fnt_size = 18
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+        # plt.rcParams['font.size'] = fnt_size
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+        fig, ax1 = plt.subplots(figsize=(5000/my_dpi, 2800/my_dpi), dpi=my_dpi)
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+    else:
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+        fnt_size = 12
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+        # plt.rcParams['font.size'] = fnt_size
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+        ax1 = ax[0, 1]
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+        plt.subplots_adjust(wspace=0.3, hspace=0.3)
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+    plots = []
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+
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+    for epoch, plot in enumerate(plot_lines):
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+        x,y = plot
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+        x_plot, y_plot = plot_straight_x_y(x,y)
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+        p, = ax1.plot(x_plot, y_plot, 'o', linestyle="-", alpha=0.75, lw=2, label = str(epoch)+' brks')
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+
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+        # add plot to the list of all plots to superimpose
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+        plots.append(p)
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+    x_ticks = x
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+    # print(x_ticks)
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+    #print(prop, "\n", sum(prop))
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+    #ax.legend(handles=[p0]+plots)
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+    ax1.set_xlabel("# bin", fontsize=fnt_size)
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+    # Set the x-axis locator to reduce the number of ticks to 10
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+    ax1.set_ylabel("theta", fontsize=fnt_size)
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+    ax1.set_title("Title", fontsize=fnt_size)
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+    ax1.legend(handles=plots, loc='best', fontsize = fnt_size*0.5)
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+    ax1.set_xticks(x_ticks)
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+    step = len(x_ticks)//(n_ticks-1)
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+    values = x_ticks[::step]
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+    new_prop = []
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+    for val in values:
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+        new_prop.append(prop[int(val)-2])
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+    new_prop = new_prop[::-1]
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+    ax1.set_xticks(values)
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+    ax1.set_xticklabels([f'{values[k]}\n{val:.2f}' for k, val in enumerate(new_prop)], fontsize = fnt_size*0.8)
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+    if ax is None:
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+        plt.savefig(title+'_raw'+str(k)+'.pdf')
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+    # fig 2 & 3
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+    if ax is None:
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+        fig2, ax2 = plt.subplots(figsize=(5000/my_dpi, 2800/my_dpi), dpi=my_dpi)
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+        fig3, ax3 = plt.subplots(figsize=(5000/my_dpi, 2800/my_dpi), dpi=my_dpi)
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+    else:
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+        # plt.rcParams['font.size'] = fnt_size
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+        # place of plots on the grid
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+        ax2 = ax[1,0]
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+        ax3 = ax[1,1]
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+    lines_fig2 = []
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+    lines_fig3 = []
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+    #plt.figure(figsize=(5000/my_dpi, 2800/my_dpi), dpi=my_dpi)
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+    for epoch, plot in enumerate(plot_lines2):
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+        x,y=plot
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+        x2_plot, y2_plot = plot_straight_x_y(x,y)
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+        p2, = ax2.plot(x2_plot, y2_plot, 'o', linestyle="-", alpha=0.75, lw=2, label = str(epoch)+' brks')
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+        lines_fig2.append(p2)
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+        # Plotting (fig 3) which is the same but log scale for x
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+        p3, = ax3.plot(x2_plot, y2_plot, 'o', linestyle="-", alpha=0.75, lw=2, label = str(epoch)+' brks')
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+        lines_fig3.append(p3)
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+    ax2.set_xlabel("Relative scale", fontsize=fnt_size)
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+    ax2.set_ylabel("theta", fontsize=fnt_size)
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+    ax2.set_title("Title", fontsize=fnt_size)
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+    ax2.legend(handles=lines_fig2, loc='best', fontsize = fnt_size*0.5)
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+    if ax is None:
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+        plt.savefig(title+'_plot2_'+str(k)+'.pdf')
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+    ax3.set_xscale('log')
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+    ax3.set_yscale('log')
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+    ax3.set_xlabel("log Relative scale", fontsize=fnt_size)
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+    ax3.set_ylabel("theta", fontsize=fnt_size)
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+    ax3.set_title("Title", fontsize=fnt_size)
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+    ax3.legend(handles=lines_fig3, loc='best', fontsize = fnt_size*0.5)
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+    if ax is None:
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+        plt.savefig(title+'_plot3_'+str(k)+'_log.pdf')
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+        plt.clf()
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+    # return plots
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+    return ax
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+
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 def plot_test_theta(folder_path, mu, tgen, title = "Title", theta_scale = True, breaks_max = 10, ax = None, n_ticks = 10):
386 566
     """
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     Use theta values as is to do basic plots.
@@ -402,7 +582,7 @@ def plot_test_theta(folder_path, mu, tgen, title = "Title", theta_scale = True,
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                     continue
403 583
                 if k not in epochs.keys():
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                     epochs[k] = {}
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-                likelihood = thetas[k][2]
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+                likelihood = str(eval(thetas[k][2]))
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                 epochs[k][likelihood] = thetas
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                 #epochs[k] = thetas
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     print("\n*******\n"+title+"\n--------\n"+"mu="+str(mu)+"\ntgen="+str(tgen)+"\nbreaks="+str(k)+"\n*******\n")
@@ -424,7 +604,7 @@ def plot_test_theta(folder_path, mu, tgen, title = "Title", theta_scale = True,
424 604
     for epoch in epochs:
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         likelihoods = []
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         for key in epochs[epoch].keys():
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-            likelihoods.append(float(key))
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+            likelihoods.append(key)
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         likelihoods.sort()
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         minLogLn = str(likelihoods[0])
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         best_epochs[epoch] = epochs[epoch][minLogLn]
@@ -537,24 +717,35 @@ def plot_test_theta(folder_path, mu, tgen, title = "Title", theta_scale = True,
537 717
 
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 def combined_plot(folder_path, mu, tgen, breaks, title = "Title", theta_scale = True):
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     my_dpi = 300
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-    # Add some extra space for the second axis at the bottom
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-    #plt.rcParams['font.size'] = 18
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-    fig, axs = plt.subplots(3, 2, figsize=(5000/my_dpi, 2970/my_dpi), dpi=my_dpi)
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-    #plt.rcParams['font.size'] = 12
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-    ax = plot_all_epochs_thetafolder(folder_path, mu, tgen, title, theta_scale, ax = axs)
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-    ax = plot_test_theta(folder_path, mu, tgen, title, theta_scale, breaks_max = breaks, ax = axs)
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-    # Adjust layout to prevent clipping of titles
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-    plt.tight_layout()
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-    # Adjust absolute space between the top and bottom rows
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-    #plt.subplots_adjust(hspace=0.7)  # Adjust this value based on your requirement
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-    # Save the entire grid as a single figure
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-    plt.savefig(title+'_combined.pdf')
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-    plt.clf()
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-    # # second call for individual plots
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-    # plot_all_epochs_thetafolder(folder_path, mu, tgen, title, theta_scale, ax = None)
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-    # plot_test_theta(folder_path, mu, tgen, title, theta_scale, breaks_max = breaks, ax = None)
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+    # # Add some extra space for the second axis at the bottom
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+    # #plt.rcParams['font.size'] = 18
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+    # fig, axs = plt.subplots(2, 2, figsize=(5000/my_dpi, 2970/my_dpi), dpi=my_dpi)
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+    # #plt.rcParams['font.size'] = 12
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+    # ax = plot_all_epochs_thetafolder(folder_path, mu, tgen, title, theta_scale, ax = axs)
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+    # ax = plot_test_theta(folder_path, mu, tgen, title, theta_scale, breaks_max = breaks, ax = axs)
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+    # # Adjust layout to prevent clipping of titles
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+    # plt.tight_layout()
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+    # # Adjust absolute space between the top and bottom rows
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+    # #plt.subplots_adjust(hspace=0.7)  # Adjust this value based on your requirement
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+    # # Save the entire grid as a single figure
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+    # plt.savefig(title+'_combined.pdf')
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     # plt.clf()
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+    # # # second call for individual plots
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+    # # plot_all_epochs_thetafolder(folder_path, mu, tgen, title, theta_scale, ax = None)
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+    # # plot_test_theta(folder_path, mu, tgen, title, theta_scale, breaks_max = breaks, ax = None)
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+    # # plt.clf()
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+    # save_k_theta(folder_path, mu, tgen, title, theta_scale, breaks_max = breaks, output = title+"_plotdata.json")
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+
739
+    with open(title+"_plotdata.json", 'r') as json_file:
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+        loaded_data = json.load(json_file)
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+
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+    fig1, ax1 = plt.subplots(2, 2, figsize=(5000/my_dpi, 2970/my_dpi), dpi=my_dpi)
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+    # plot_test_theta(folder_path, mu, tgen, title, theta_scale, breaks_max = breaks, ax = ax1)
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+    ax1 = plot_raw_stairs(plot_lines = loaded_data['raw_stairs'], plot_lines2 = loaded_data['scaled_stairs'],
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+                            prop = loaded_data['prop'], title = title, ax = ax1)
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+    plt.savefig(title+'_raw_scaled.pdf')
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+    fig1.clf()
558 749
 if __name__ == "__main__":
559 750
 
560 751
     if len(sys.argv) != 4: