Analysis_final_mult.py 55.3 KB
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#!/usr/bin/env python
# coding: utf-8

# In[1]:


import pandas as pd
import numpy as np
import ndjson
import jsonlines
import json
import pickle
import os
import sys
import random as rd
import json
import re, regex
from joblib import dump, load
import collections
import math
import statistics
import itertools
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import multiprocessing as mp
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from sklearn.preprocessing import LabelEncoder
from sklearn.linear_model import PassiveAggressiveClassifier, SGDClassifier
from sklearn.feature_extraction.text import CountVectorizer
from sklearn.metrics import accuracy_score, precision_score, recall_score, f1_score

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import matplotlib
matplotlib.use('agg')
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import matplotlib.colors as cl
import matplotlib.pyplot as plt
from sklearn.metrics import confusion_matrix
import seaborn as sns # data visualization library  
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# In[2]:

path = '/draco/ptmp/mschuber/PAN/Data/pan19-celebrity-profiling-training-dataset-2019-01-31/stratified_subsample/'
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savedir = '/draco/ptmp/mschuber/PAN/Data/results/'
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#path = '../Data/pan19-celebrity-profiling-training-dataset-2019-01-31/stratified_subsample/'

subana_l = ['org/', 'min_tweets_1000/', 'complete_balance/']
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#subana_l = ['org/']
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subsets_l = [200, 500, 1000, 2000]
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#subsets_l = [200]
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classifiers = ['SVM']

datafolder = 'split_data/'

ml_results = 'ml/'

filebeg = 'stratified_subsample_'

labels_l = ['age', 'gender', 'author']

phases_l = ['child_21', 'young_adult_35', 'adult_50', 'old_adult_65', 'retiree']


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    #get_ipython().run_line_magic('matplotlib', 'inline')
    #import matplotlib

cmap = cl.LinearSegmentedColormap.from_list("", ["skyblue","cadetblue","darkblue", "steelblue"]) #define colors
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# In[3]:


####tester

#subana = ['org/']

#subsets = [200]

#classifiers = ['SVM']

#datafolder = 'split_data/'

#ml_results = 'ml/'

#filebeg = 'stratified_subsample_'

#labels = ['age', 'gender', 'author']


# In[4]:


def identity_tokenizer(text):
    return text

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def plot_confusion_matrix(cm, classes,normalize=True,title='Confusion matrix',cmap=plt.cm.Blues, ax = None):
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   """
   This function prints and plots the confusion matrix.
   Normalization can be applied by setting `normalize=True`.
   """
   if not ax:
       ax = plt.gca()
       
       
   cm_old = cm
   if normalize:
       cm = cm.astype('float') / cm.sum(axis=1)[:, np.newaxis]
       print("Normalized confusion matrix")
   else:
       print('Confusion matrix, without normalization')
   #print(cm)


   im = ax.imshow(cm, interpolation='nearest', cmap=cmap)
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   #plt.title(title)
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   cbar = ax.figure.colorbar(im, ax = ax, ticks=[], label = "Heat per Row (Normalized from 0 to 1)")
   tick_marks = np.arange(len(classes))
   #ax.set_xticks(tick_marks)
   #ax.set_yticks(tick_marks)
   #ax.set_xticklabels(classes, rotation=45)
   #ax.set_yticklabels(classes)
   ax.set(xticks=np.arange(cm.shape[1]),
          yticks=np.arange(cm.shape[0]),
          # ... and label them with the respective list entries
          xticklabels=classes, yticklabels=classes,
          ylabel='True label',
          xlabel='Predicted label')    
   # Rotate the tick labels and set their alignment.
   plt.setp(ax.get_xticklabels(), rotation=45, ha="right",
            rotation_mode="anchor")
   #make it so that text is on minor label and not on edge of boundary (i.e. half cutoff at top and bottom) 
   ax.set_xticks(np.arange(cm.shape[1]+1)-.5, minor=True)
   ax.set_yticks(np.arange(cm.shape[0]+1)-.5, minor=True)
   
   fmt = '.2f' if normalize else 'd'
   fmt = 'd'
   thresh = cm.max() / 1.5

   for i, j in itertools.product(range(cm.shape[0]), range(cm.shape[1])):
       ax.text(j, i, format(cm_old[i, j], fmt),
                ha="center",
                va="center",
                color="white" if cm[i, j] > thresh else "black")
       
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    # Start with analysis of precision and recall as well as heatmaps/confusion matrices:
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def plotter(subsets, subana, phases, labels):
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    df_dic = {}
    res_dic = {}
    author_dic = {}

    for st in subsets:

        res_dic[st] = {}
       
        df_dic[st] = {}
        author_dic[st] = {}
        for ana in subana:
            
            res_dic[st][ana.split('/')[0]] = {}
            df_dic[st][ana.split('/')[0]] = {}
            author_dic[st][ana.split('/')[0]] = {}
            ###make dic with all authors
            with open(path+ana+str(st)+'/'+datafolder+filebeg+str(st)+'_author_train.json', 'r', encoding='utf-8') as f:
                authors = json.load(f)
            with open(path+ana+str(st)+'/'+datafolder+filebeg+str(st)+'_gender_train.json', 'r', encoding='utf-8') as f:
                gender = json.load(f)            
            with open(path+ana+str(st)+'/'+datafolder+filebeg+str(st)+'_age_train.json', 'r', encoding='utf-8') as f:
                year = json.load(f)
            

            for i in range(0, len(year)):
                age = 2019 - year[i]
                
                if age <22:
                    lifePhase = 'child_21'
                elif age <36:
                    lifePhase = 'young_adult_35'
                elif age < 51:
                    lifePhase = 'adult_50'
                elif age <66:
                    lifePhase = 'old_adult_65'
                else:
                    lifePhase = 'retiree'
                
                author_dic[st][ana.split('/')[0]][authors[i]] = {}
                author_dic[st][ana.split('/')[0]][authors[i]]['life_phase'] = lifePhase
                author_dic[st][ana.split('/')[0]][authors[i]]['age'] = year[i]
                author_dic[st][ana.split('/')[0]][authors[i]]['gender'] = gender[i]
                      
            
            df = pd.DataFrame()
            with open(path+ana+str(st)+'/'+datafolder+filebeg+str(st)+'_bigram_vocab.json', 'r', encoding='utf-8') as f:
                vocab = json.load(f)
                
                res_dic[st][ana.split('/')[0]]['vocab'] = vocab
                res_dic[st][ana.split('/')[0]]['vocab_inverse'] = {v:k for k,v in vocab.items()}
            ##update  "vocab" to include the tweet length as feature to display
            if len(vocab) not in res_dic[st][ana.split('/')[0]]['vocab_inverse']:
                leng = len(vocab)
                res_dic[st][ana.split('/')[0]]['vocab']['§LENGTH§'] = leng
                res_dic[st][ana.split('/')[0]]['vocab_inverse'][leng] = '§LENGTH§'
            else:
                print('error; key already exists')
                print(res_dic[st][ana.split('/')[0]]['vocab_inverse'][len(vocab)])
                sys.exit(1)
            
            
            for label in labels:
                
                res_dic[st][ana.split('/')[0]][label] = {}
                
                enc = load(path+ana+str(st)+'/'+ml_results+filebeg+label+'_'+str(st)+'_encoder.jlib')
                res_dic[st][ana.split('/')[0]][label]['label_encoder'] = enc          
                
                for clf in classifiers:
                    
                    clf_l = load(path+ana+str(st)+'/'+ml_results+filebeg+clf+'_'+label+'_'+str(st)+'_svm_out_count.jlib')
                    
                    with open(path+ana+str(st)+'/'+datafolder+filebeg+str(st)+'_'+label+'_test.json') as f:
                        lab = json.load(f)
                        df[ana.split('/')[0]+'_'+str(st)+'_'+clf+'_'+label] = lab
                        print(str(st)+'_'+ana+'_'+label+'_'+clf)
                        if label == 'age':
                            phase = []
                            for el in lab:
                                age = 2019 - el
                                if age <22:
                                    lifePhase = 'child_21'
                                elif age <36:
                                    lifePhase = 'young_adult_35'
                                elif age < 51:
                                    lifePhase = 'adult_50'
                                elif age <66:
                                    lifePhase = 'old_adult_65'
                                else:
                                    lifePhase = 'retiree'
                                phase.append(lifePhase)
                            df[ana.split('/')[0]+'_'+str(st)+'_life_phase'] = phase
                            
                        
                        
                        #print(len(json.load(f)))
                    
                    res_dic[st][ana.split('/')[0]][label][clf] = clf_l.coef_
       
                    
                    
                    df[ana.split('/')[0]+'_'+str(st)+'_'+clf+'_'+label+'_pred_enc'] = list(load(path+ana+str(st)+'/'+ml_results+filebeg+clf+'_'+label+'_'+str(st)+'_predictions_count.jlib'))
                    rev_enc = list(enc.inverse_transform(load(path+ana+str(st)+'/'+ml_results+filebeg+clf+'_'+label+'_'+str(st)+'_predictions_count.jlib')))
                    df[ana.split('/')[0]+'_'+str(st)+'_'+clf+'_'+label+'_pred'] = rev_enc
                    if label == 'age':
                        phase = []
                        for el in rev_enc:
                            age = 2019 - el
                            if age <22:
                                lifePhase = 'child_21'
                            elif age <36:
                                lifePhase = 'young_adult_35'
                            elif age < 51:
                                lifePhase = 'adult_50'
                            elif age <66:
                                lifePhase = 'old_adult_65'
                            else:
                                lifePhase = 'retiree'
                            phase.append(lifePhase)
                                
                        df[ana.split('/')[0]+'_'+str(st)+'_life_phase_pred'] = phase
                        
                        
                    res_dic[st][ana.split('/')[0]][label]['labels'] = {}
                    for l in lab:
                        res_dic[st][ana.split('/')[0]][label]['labels'][l] = {}
                    
                    
                    
            df_dic[st][ana.split('/')[0]]['df'] = df


    # In[ ]:





    # In[ ]:





    # In[ ]:


    for st in subsets:
        for ana in subana:
            an = ana.split('/')[0]
            for label in labels:
                
                enc = res_dic[st][an][label]['label_encoder']
                coef = res_dic[st][an][label]['SVM']
                key_len = len(res_dic[st][an][label]['labels'].keys())
                df = df_dic[st][an]['df']
                res_dic[st][an][label]['acc'] = accuracy_score(df[an+'_'+str(st)+'_SVM_'+label], df[an+'_'+str(st)+'_SVM_'+label+'_pred']).round(3)
                res_dic[st][an][label]['prec'] = precision_score(df[an+'_'+str(st)+'_SVM_'+label], df[an+'_'+str(st)+'_SVM_'+label+'_pred'], average='weighted').round(3)
                res_dic[st][an][label]['rec'] = recall_score(df[an+'_'+str(st)+'_SVM_'+label], df[an+'_'+str(st)+'_SVM_'+label+'_pred'], average='weighted').round(3)
                res_dic[st][an][label]['f1'] = f1_score(df[an+'_'+str(st)+'_SVM_'+label], df[an+'_'+str(st)+'_SVM_'+label+'_pred'], average='weighted').round(3)
                
                for key in res_dic[st][an][label]['labels'].keys():
                    key_enc = enc.transform([key])[0]
        
                    subDf = df.loc[df[an+'_'+str(st)+'_SVM_'+label] == key]
                    if label == 'author':
                        row = df.loc[df[an+'_'+str(st)+'_'+'SVM'+'_'+'author'] == key].iloc[0]
                        res_dic[st][an][label]['labels'][key]['gender'] = row[an+'_'+str(st)+'_'+'SVM'+'_'+'gender']
                        res_dic[st][an][label]['labels'][key]['age'] = row[an+'_'+str(st)+'_'+'SVM'+'_'+'age']
                        res_dic[st][an][label]['labels'][key]['life_phase'] = row[an+'_'+str(st)+'_'+'life_phase']
                    elif label == 'age':
                        age = 2019 -key
                        if age <22:
                            lifePhase = 'child_21'
                        elif age <36:
                            lifePhase = 'young_adult_35'
                        elif age < 51:
                            lifePhase = 'adult_50'
                        elif age <66:
                            lifePhase = 'old_adult_65'
                        else:
                            lifePhase = 'retiree'

                            
                        res_dic[st][an][label]['labels'][key]['life_phase'] = lifePhase
                        
                        
                    res_dic[st][an][label]['labels'][key]['acc'] = accuracy_score(subDf[an+'_'+str(st)+'_SVM_'+label], subDf[an+'_'+str(st)+'_SVM_'+label+'_pred']).round(3)
                    ##no second category for subanalysis: prec = 1
                    #res_dic[st][an][label]['labels'][key]['prec'] = precision_score(subDf[an+'_'+str(st)+'_SVM_'+label], subDf[an+'_'+str(st)+'_SVM_'+label+'_pred'], average='weighted').round(3)
                    ## precision always equals recall in subanalyis
                    #res_dic[st][an][label]['labels'][key]['rec'] = recall_score(subDf[an+'_'+str(st)+'_SVM_'+label], subDf[an+'_'+str(st)+'_SVM_'+label+'_pred'], average='weighted').round(3)
                    ##f1 score is ill defined
                    #res_dic[st][an][label]['labels'][key]['f1'] = f1_score(subDf[an+'_'+str(st)+'_SVM_'+label], subDf[an+'_'+str(st)+'_SVM_'+label+'_pred'], average='weighted').round(3)

                    if key_len > 2:
                        res_dic[st][an][label]['labels'][key]['feature_vec'] = coef[key_enc]
                    
                    elif key_enc > 0:
                        res_dic[st][an][label]['labels'][key]['feature_vec'] = coef[0]
                        



    ###save top 25 most predictive labels for each set and each subset in groups


    most_pred = {}


    for st in subsets:
        most_pred[st] = {}
        for ana in subana:
            an = ana.split('/')[0]
            most_pred[st][an] = {}
            for label in labels:
                most_pred[st][an][label] = {'feature_vecs':[]}
                for ph in phases:
                    most_pred[st][an][label][ph] = {'feature_vecs_pos': [], 'feature_vecs_neg': [], 'val_array': []}
                    if label in ['author']:
                        for sex in ['male', 'female']:
                            most_pred[st][an][label][ph][sex] = {'feature_vecs_pos':[], 'feature_vecs_neg':[],
                                                                    'val_array': []}
                            most_pred[st][an][label][sex] = {'feature_vecs_pos':[], 'feature_vecs_neg':[],
                                                             'val_array': []}

                with open(path+ana+str(st)+'/'+datafolder+filebeg+str(st)+'_bigram_vocab.json' , 'r', encoding = 'utf-8') as f:
                    most_pred[st][an]['vocab'] = json.load(f) 
                ##author and age to have different depth than gender and can be used for life phases
                if label in ['age']:
                    for key in res_dic[st][an][label]['labels'].keys():
                        ph = res_dic[st][an][label]['labels'][key]['life_phase']
                        sort = list(np.argsort(res_dic[st][an][label]['labels'][key]['feature_vec']))
                        array = res_dic[st][an][label]['labels'][key]['feature_vec']
                        most_pred[st][an][label][ph]['feature_vecs_pos'].append([i for i in sort if array[i] > 0 ])

                        most_pred[st][an][label][ph]['feature_vecs_neg'].append([i for i in sort if array[i] < 0 ])
                        if type(most_pred[st][an][label][ph]['val_array']) != type([]):
                            A = most_pred[st][an][label][ph]['val_array']
                            most_pred[st][an][label][ph]['val_array'] = np.vstack((A, array))
                        
                        else:
                            most_pred[st][an][label][ph]['val_array'] = array
                    for ph in phases:
                        most_pred[st][an][label][ph]['min_array'] = np.amin(most_pred[st][an][label][ph]['val_array'], axis=0)
                        most_pred[st][an][label][ph]['max_array'] = np.amax(most_pred[st][an][label][ph]['val_array'], axis=0)
                        most_pred[st][an][label][ph]['number'] = most_pred[st][an][label][ph]['val_array'].shape[0]
                        most_pred[st][an][label][ph]['val_array'] = np.mean(most_pred[st][an][label][ph]['val_array'], axis = 0)
      
                            
                elif label in ['author']:
                    for key in res_dic[st][an][label]['labels'].keys():
                        ph = res_dic[st][an][label]['labels'][key]['life_phase']
                        sex = res_dic[st][an][label]['labels'][key]['gender']
                        sort = list(np.argsort(res_dic[st][an][label]['labels'][key]['feature_vec']))
                        array = res_dic[st][an][label]['labels'][key]['feature_vec']
                        m_pred_pos = [i for i in sort if array[i] > 0 ]
                        m_pred_neg = [i for i in sort if array[i] < 0 ]
                        most_pred[st][an][label][ph]['feature_vecs_pos'].append(m_pred_pos)
                        most_pred[st][an][label][sex]['feature_vecs_pos'].append(m_pred_pos)
                        most_pred[st][an][label][ph][sex]['feature_vecs_pos'].append(m_pred_pos)
                        most_pred[st][an][label][ph]['feature_vecs_neg'].append(m_pred_neg)
                        most_pred[st][an][label][sex]['feature_vecs_neg'].append(m_pred_neg)
                        most_pred[st][an][label][ph][sex]['feature_vecs_neg'].append(m_pred_neg)
                        
                        if type(most_pred[st][an][label][ph]['val_array']) != type([]):
                            A = most_pred[st][an][label][ph]['val_array']
                            most_pred[st][an][label][ph]['val_array'] = np.vstack((A, array))
                        
                        else:
                            most_pred[st][an][label][ph]['val_array'] = array
                            
                        if type(most_pred[st][an][label][sex]['val_array']) != type([]):
                            A = most_pred[st][an][label][sex]['val_array']
                            most_pred[st][an][label][sex]['val_array'] = np.vstack((A, array))
                        
                        else:

                            most_pred[st][an][label][sex]['val_array'] = array
                            
                        if type(most_pred[st][an][label][ph][sex]['val_array']) != type([]):
                            A = most_pred[st][an][label][ph][sex]['val_array']
                            most_pred[st][an][label][ph][sex]['val_array'] = np.vstack((A, array))
                        
                        else:
                            most_pred[st][an][label][ph][sex]['val_array'] = array
                            
                            
                    check = True
                    for ph in phases:        
                        most_pred[st][an][label][ph]['min_array'] = np.amin(most_pred[st][an][label][ph]['val_array'], axis = 0)
                        most_pred[st][an][label][ph]['max_array'] = np.amax(most_pred[st][an][label][ph]['val_array'], axis = 0)
                        most_pred[st][an][label][ph]['number'] = most_pred[st][an][label][ph]['val_array'].shape[0]
                        most_pred[st][an][label][ph]['val_array'] = np.mean(most_pred[st][an][label][ph]['val_array'], axis = 0)
                        for sex in ['female', 'male']:
                            if check:
                                #print(sex)
                                #print(most_pred[st][an][label][sex]['val_array'])
                                most_pred[st][an][label][sex]['min_array'] = np.amin(most_pred[st][an][label][sex]['val_array'], axis = 0)
                                most_pred[st][an][label][sex]['max_array'] = np.amax(most_pred[st][an][label][sex]['val_array'], axis = 0)
                                most_pred[st][an][label][sex]['number'] = most_pred[st][an][label][sex]['val_array'].shape[0]
                                most_pred[st][an][label][sex]['val_array'] = np.mean(most_pred[st][an][label][sex]['val_array'], axis = 0)
                                #print(most_pred[st][an][label][sex]['val_array'])
                                #print(most_pred[st][an][label][sex]['min_array'])
                                #print(most_pred[st][an][label][sex]['max_array'])
        
                            most_pred[st][an][label][ph][sex]['min_array']= np.amin(most_pred[st][an][label][ph][sex]['val_array'], axis = 0)
                            most_pred[st][an][label][ph][sex]['max_array'] =np.amax(most_pred[st][an][label][ph][sex]['val_array'], axis = 0)
                            most_pred[st][an][label][ph][sex]['number'] = most_pred[st][an][label][ph][sex]['val_array'].shape[0]
                            most_pred[st][an][label][ph][sex]['val_array'] = np.mean(most_pred[st][an][label][ph][sex]['val_array'], axis = 0)
                        check = False
                         
                
                else:
                    
                    most_pred[st][an][label]['feature_vecs'].append(list(np.argsort(res_dic[st][an][label]['labels']['male']['feature_vec'])))


    #sys.exit(1)                
    for st in subsets:
        for ana in subana:
            an = ana.split('/')[0]
            for label in labels:
                if label == 'age':
                    for ph in phases:

                        c = collections.Counter()
                        for vec in most_pred[st][an][label][ph]['feature_vecs_pos']:
                            c.update(list(vec))
                        most_pred[st][an][label][ph]['count_tot_pos'] = c.most_common()
                        c = collections.Counter()
                        for vec in most_pred[st][an][label][ph]['feature_vecs_pos']:
                            c.update(list(vec[-25:]))
                        most_pred[st][an][label][ph]['count_top25_pos'] = c.most_common()
                        c = collections.Counter()
                        for vec in most_pred[st][an][label][ph]['feature_vecs_neg']:
                            c.update(list(vec))
                        most_pred[st][an][label][ph]['count_tot_neg'] = c.most_common()
                        c = collections.Counter()
                        for vec in most_pred[st][an][label][ph]['feature_vecs_neg']:
                            c.update(list(vec[-25:]))
                        most_pred[st][an][label][ph]['count_top25_neg'] = c.most_common()
          
                if label == 'author':
                    for ph in phases:
                        c = collections.Counter()
                        for vec in most_pred[st][an][label][ph]['feature_vecs_pos']:
                            c.update(list(vec))
                        most_pred[st][an][label][ph]['count_tot_pos'] = c.most_common()
                        c = collections.Counter()
                        for vec in most_pred[st][an][label][ph]['feature_vecs_pos']:
                            c.update(list(vec[-25:]))
                        most_pred[st][an][label][ph]['count_top25_pos'] = c.most_common()
                        for sex in ['male', 'female']:
                            c = collections.Counter()
                            for vec in most_pred[st][an][label][ph][sex]['feature_vecs_pos']:
                                c.update(list(vec))
                            most_pred[st][an][label][ph][sex]['count_tot_pos'] = c.most_common()
                            c = collections.Counter()
                            for vec in most_pred[st][an][label][ph][sex]['feature_vecs_pos']:
                                c.update(list(vec[-25:]))
                            most_pred[st][an][label][ph][sex]['count_top25_pos'] = c.most_common()
                            
                        c = collections.Counter()
                        for vec in most_pred[st][an][label][ph]['feature_vecs_neg']:
                            c.update(list(vec))
                        most_pred[st][an][label][ph]['count_tot_neg'] = c.most_common()
                        c = collections.Counter()
                        for vec in most_pred[st][an][label][ph]['feature_vecs_neg']:
                            c.update(list(vec[-25:]))
                        most_pred[st][an][label][ph]['count_top25_neg'] = c.most_common()
                        for sex in ['male', 'female']:
                            c = collections.Counter()
                            for vec in most_pred[st][an][label][ph][sex]['feature_vecs_neg']:
                                c.update(list(vec))
                            most_pred[st][an][label][ph][sex]['count_tot_neg'] = c.most_common()
                            c = collections.Counter()
                            for vec in most_pred[st][an][label][ph][sex]['feature_vecs_neg']:
                                c.update(list(vec[-25:]))
                            most_pred[st][an][label][ph][sex]['count_top25_neg'] = c.most_common()                        
                    for sex in ['male', 'female']:
                        
                        c = collections.Counter()
                        for vec in most_pred[st][an][label][sex]['feature_vecs_pos']:
                            c.update(list(vec))
                        most_pred[st][an][label][sex]['count_tot_pos'] = c.most_common()
                        c = collections.Counter()
                        for vec in most_pred[st][an][label][sex]['feature_vecs_pos']:
                            c.update(list(vec[-25:]))
                        most_pred[st][an][label][sex]['count_top25_pos'] = c.most_common()                       
                        c = collections.Counter()
                        for vec in most_pred[st][an][label][sex]['feature_vecs_neg']:
                            c.update(list(vec))
                        most_pred[st][an][label][sex]['count_tot_neg'] = c.most_common()
                        c = collections.Counter()
                        for vec in most_pred[st][an][label][sex]['feature_vecs_neg']:
                            c.update(list(vec[-25:]))
                        most_pred[st][an][label][sex]['count_top25_neg'] = c.most_common()                           
              
                    










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    for st in subsets:
        for ana in subana:
            an = ana.split('/')[0]
            tmp = []
            index = []
            for label in labels:
                comp = {'accuracy': accuracy_score(df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_'+label],
                                              df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_'+label+'_pred']).round(3),
                        'precision': precision_score(df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_'+label],
                                              df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_'+label+'_pred'],
                                                 average='weighted').round(3),
                        'recall': recall_score(df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_'+label],
                                              df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_'+label+'_pred'],
                                                 average='weighted').round(3),
                        'f1-score': f1_score(df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_'+label],
                                              df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_'+label+'_pred'],
                                                 average='weighted').round(3),
                       }
                tmp.append(comp)
                index.append(label)
                
                if label == 'age':
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                    tmp_sub = []
                    ind_sub = []
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                    comp = {'accuracy': accuracy_score(df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase'],
                                              df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase_pred']).round(3),
                        'precision': precision_score(df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase'],
                                              df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase_pred'],
                                                 average='weighted').round(3),
                        'recall': recall_score(df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase'],
                                              df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase_pred'],
                                                 average='weighted').round(3),
                        'f1-score': f1_score(df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase'],
                                              df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase_pred'],
                                                 average='weighted').round(3)
                           }
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                    for ph in phases:
                        df = df_dic[st][an]['df']
                        comp_sub = {'accuracy': accuracy_score(df.loc[df[an+'_'+str(st)+'_life_phase'] == ph][an+'_'+str(st)+'_life_phase'],
                                                  df.loc[df[an+'_'+str(st)+'_life_phase'] == ph][an+'_'+str(st)+'_life_phase_pred']).round(3),
                            'precision': precision_score(df['df'][an+'_'+str(st)+'_life_phase'],
                                                  df[an+'_'+str(st)+'_life_phase_pred'], labels = [ph],
                                                     average='weighted').round(3),
                            'recall': recall_score(df[an+'_'+str(st)+'_life_phase'],
                                                  df[an+'_'+str(st)+'_life_phase_pred'],labels = [ph],
                                                     average='weighted').round(3),
                            'f1-score': f1_score(df[an+'_'+str(st)+'_life_phase'],
                                                  df[an+'_'+str(st)+'_life_phase_pred'],labels = [ph],
                                                     average='weighted').round(3)}

                        tmp_sub.append(comp_sub)
                        ind_sub.append('age phase {}'.format(ph))    



                    f= plt.figure(figsize=(10,5))
                    tmp_df =pd.DataFrame(tmp_sub, index = ind_sub)
                    tmp_df.plot(kind='barh', colormap = cmap, ax=f.gca())
                    plt.legend(loc='center left', bbox_to_anchor=(1.0, 0.5)) #legend outside box
                    plt.ylabel(ylabel='Evaluation Measures for Different Groups',fontsize ='large', fontweight='roman')
                    plt.tight_layout()
                    plt.savefig(savedir+'barplots/age_scores_{}_{}.pdf'.format(st, an))
                    plt.savefig(savedir+'barplots/age_scores_{}_{}.png'.format(st, an))                                          

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                    tmp.append(comp)
                    index.append('age by life_phase')
                    
                    np.set_printoptions(precision=2)
                    cnf_matrix = confusion_matrix(df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase'],
                                                 df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase_pred'],
                                                 labels=phases)
                    f = plt.figure()
                    ax = f.subplots()
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                    plot_confusion_matrix(cnf_matrix, classes=phases,title=None, ax=ax)
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                    plt.tight_layout()
                    #plt.show()
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                    #f.savefig('../Data/results/heatmaps/test.png')
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                    f.savefig(savedir+ 'heatmaps/cm_{st}_{an}_{label}_{group}.pdf'.format(st = st,
                                                                                                  an=an,
                                                                                                  label=label,
                                                                                                  group='life_phase'))
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                    f.savefig(savedir+ 'heatmaps/cm_{st}_{an}_{label}_{group}.png'.format(st = st,
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                                                                                                  an=an,
                                                                                                  label=label,
                                                                                                  group='life_phase'))
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                if label == 'author':
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                    tmp_sub = []
                    ind_sub = []


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                    gen_pred_auth = []
                    life_ph_pred_auth = []
                    gen_pred_auth_wrong = []
                    life_ph_pred_auth_wrong = []
                    auth = list(df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_author_pred'])
                    sub_wrong = df_dic[st][an]['df'].loc[df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_author_pred'] != df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_author']]                
                    auth_sub_wrong = list(sub_wrong[an+'_'+str(st)+'_SVM_author_pred'])
                    
                    for au in auth:
                        gen_pred_auth.append(author_dic[st][an][au]['gender'])
                        life_ph_pred_auth.append(author_dic[st][an][au]['life_phase'])
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                    df_dic[st][an]['df'][an+'_'+str(st)+'gender_pred_auth'] = gen_pred_auth
                    df_dic[st][an]['df'][an+'_'+str(st)+'life_phase_pred_auth'] = life_ph_pred_auth

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                    for au in auth_sub_wrong:
                        gen_pred_auth_wrong.append(author_dic[st][an][au]['gender'])
                        life_ph_pred_auth_wrong.append(author_dic[st][an][au]['life_phase']) 
                        
                        
                    comp = {'accuracy': accuracy_score(df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase'],
                                              life_ph_pred_auth).round(3),
                        'precision': precision_score(df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase'],
                                              life_ph_pred_auth,
                                                 average='weighted').round(3),
                        'recall': recall_score(df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase'],
                                              life_ph_pred_auth,
                                                 average='weighted').round(3),
                        'f1-score': f1_score(df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase'],
                                              life_ph_pred_auth,
                                                 average='weighted').round(3)
                           }
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                    for ph in phases:
                        df = df_dic[st][an]['df']
                        comp_sub = {'accuracy': accuracy_score(df.loc[df[an+'_'+str(st)+'_life_phase'] == ph][an+'_'+str(st)+'_life_phase'],
                                                  df.loc[df[an+'_'+str(st)+'_life_phase'] == ph][an+'_'+str(st)+'_life_phase_pred_auth']).round(3),
                            'precision': precision_score(df['df'][an+'_'+str(st)+'_life_phase'],
                                                  df[an+'_'+str(st)+'_life_phase_pred_auth'], labels = [ph],
                                                     average='weighted').round(3),
                            'recall': recall_score(df[an+'_'+str(st)+'_life_phase'],
                                                  df[an+'_'+str(st)+'_life_phase_pred_auth'],labels = [ph],
                                                     average='weighted').round(3),
                            'f1-score': f1_score(df[an+'_'+str(st)+'_life_phase'],
                                                  df[an+'_'+str(st)+'_life_phase_pred_auth'],labels = [ph],
                                                     average='weighted').round(3)}

                        tmp_sub.append(comp_sub)
                        ind_sub.append('age phase {}'.format(ph))    



                    f= plt.figure(figsize=(10,5))
                    tmp_df =pd.DataFrame(tmp_sub, index = ind_sub)
                    tmp_df.plot(kind='barh', colormap = cmap, ax=f.gca())
                    plt.legend(loc='center left', bbox_to_anchor=(1.0, 0.5)) #legend outside box
                    plt.ylabel(ylabel='Evaluation Measures for Different Groups',fontsize ='large', fontweight='roman')
                    plt.tight_layout()
                    plt.savefig(savedir+'barplots/author_scores_{}_{}.pdf'.format(st, an))
                    plt.savefig(savedir+'barplots/author_scores_{}_{}.png'.format(st, an)) 

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                    tmp.append(comp)
                    index.append('author by life_phase')
                    
                    cnf_matrix = confusion_matrix(df_dic[st][an]['df'][an+'_'+str(st)+'_life_phase'],
                                                 life_ph_pred_auth,
                                                 labels=phases)
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                    f = plt.figure()
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                    ax = f.subplots()
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                    plot_confusion_matrix(cnf_matrix, classes=phases,title=None, ax=ax)
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                    plt.show()
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                    plt.tight_layout()
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                    f.savefig(savedir+'heatmaps/cm_{st}_{an}_{label}_{group}.pdf'.format(st = st, an=an,
                                                                                                  label=label,
                                                                                                  group='life_phase'))
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                    f.savefig(savedir+'heatmaps/cm_{st}_{an}_{label}_{group}.png'.format(st = st, an=an,
                                                                                                  label=label,
                                                                                                  group='life_phase'))
                    
                    comp = {'accuracy': accuracy_score(df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_gender'],
                                              gen_pred_auth).round(3),
                        'precision': precision_score(df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_gender'],
                                              gen_pred_auth,
                                                 average='weighted').round(3),
                        'recall': recall_score(df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_gender'],
                                              gen_pred_auth,
                                                 average='weighted').round(3),
                        'f1-score': f1_score(df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_gender'],
                                              gen_pred_auth,
                                                 average='weighted').round(3)
                           }
                        
                    tmp.append(comp)
                    index.append('author by gender')
                        
                    cnf_matrix = confusion_matrix(df_dic[st][an]['df'][an+'_'+str(st)+'_SVM_gender'],
                                                 gen_pred_auth,
                                                 labels=['female', 'male'])
                    f = plt.figure()
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                    ax = f.subplots()
                    plot_confusion_matrix(cnf_matrix, classes=phases,title=None, ax=ax)
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                    plt.tight_layout()
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                    f.savefig(savedir+'heatmaps/cm_{st}_{an}_{label}_{group}.pdf'.format(st = st, an=an,
                                                                                                  label=label,
                                                                                                  group='gender'))
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                    f.savefig(savedir+'heatmaps/cm_{st}_{an}_{label}_{group}.png'.format(st = st, an=an,
                                                                                                  label=label,
                                                                                                  group='gender'))
                    
                    ###make author cmap showing whether the author missclassified
                    ##were confused with authors of similar gender or life_phase
                    cnf_matrix = confusion_matrix(sub_wrong[an+'_'+str(st)+'_life_phase'],
                                                 life_ph_pred_auth_wrong,
                                                 labels=phases)
                    f = plt.figure()
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                    ax = f.subplots()
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                    plot_confusion_matrix(cnf_matrix, classes=phases,title=None, ax=ax)
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                    plt.tight_layout()
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                    f.savefig(savedir+'heatmaps/cm_{st}_{an}_{label}_{group}_false.pdf'.format(st = st, an=an,
                                                                                                  label=label,
                                                                                                  group='life_phase')) 
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                    f.savefig(savedir+'heatmaps/cm_{st}_{an}_{label}_{group}_false.png'.format(st = st, an=an,
                                                                                                  label=label,
                                                                                                  group='life_phase'))                
                    
                    
                    cnf_matrix = confusion_matrix(sub_wrong[an+'_'+str(st)+'_SVM_gender'],
                                                 gen_pred_auth_wrong,
                                                 labels=['female', 'male'])
                    f = plt.figure()
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                    ax = f.subplots()
                    plot_confusion_matrix(cnf_matrix, classes=phases,title=None, ax=ax)
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                    plt.tight_layout()
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                    f.savefig(savedir+'heatmaps/cm_{st}_{an}_{label}_{group}_false.pdf'.format(st = st, an=an,
                                                                                                  label=label,
                                                                                                  group='gender'))
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                    f.savefig(savedir+'heatmaps/cm_{st}_{an}_{label}_{group}_false.png'.format(st = st, an=an,
                                                                                                  label=label,
                                                                                                  group='gender'))                
                                    
                    
                    
                    
                    
                    
            f= plt.figure(figsize=(10,5))
            tmp_df =pd.DataFrame(tmp, index = index)
            tmp_df.plot(kind='barh', colormap = cmap, ax=f.gca())
            plt.legend(loc='center left', bbox_to_anchor=(1.0, 0.5)) #legend outside box
            plt.ylabel(ylabel='Evaluation Measures for Different Subsets',fontsize ='large', fontweight='roman')
            plt.tight_layout()
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            plt.savefig(savedir+'barplots/overall_scores_{}_{}.pdf'.format(st, an))
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            plt.savefig(savedir+'barplots/overall_scores_{}_{}.png'.format(st, an))
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    # Make plots with most predicitve features

    # In[ ]:


    #import matplotlib as mpl
    #mpl.rcParams['font.sans-serif'] = ['Segoe UI Emoji']
    #mpl.rcParams['font.serif'] = ['Segoe UI Emoji']
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    #sns.set_style({"font.sans-serif":['Segoe UI Emoji']}) 
    for st in subsets:
        for ana in subana:
            an = ana.split('/')[0]
            vocab = res_dic[st][an]['vocab_inverse']
            for label in labels:
                dic = {}
                ind_pos = []
                ind_neg = []
                if label == 'age':
                    phase_key = []
                    for ph in phases:
                        
                        leng = most_pred[st][an][label][ph]['number']
                        arr = most_pred[st][an][label][ph]['val_array']
                        maxi = most_pred[st][an][label][ph]['max_array']
                        mini = most_pred[st][an][label][ph]['min_array']
                        ##make it so that the values of heat are relatively to the min and max values of the feature
                        dic[ph+'\n({})'.format(leng)] = {el[0]:(arr[el[0]]/maxi[el[0]]).round(3) for el in most_pred[st][an][label][ph]['count_tot_pos'] if (el[1]/leng) >= .95}
                        dic[ph+'\n({})'.format(leng)].update({el[0]:-(abs(arr[el[0]])/abs(mini[el[0]])).round(3) for el in most_pred[st][an][label][ph]['count_tot_neg'] if (el[1]/leng) >= .95})        
                        ind_pos.extend([el[0] for el in most_pred[st][an][label][ph]['count_tot_pos'] if (el[1]/leng) >= .95])
                        ind_neg.extend([el[0] for el in most_pred[st][an][label][ph]['count_tot_neg'] if (el[1]/leng) >= .95]) 
                        phase_key.append(ph+'\n({})'.format(leng))
                    ind_pos = list(np.unique(ind_pos))
                    ind_neg = list(np.unique(ind_neg))
                        
                    tmp = {}
                    for ph in phase_key:
                        tmp_l = []
                        for el in ind_pos+ind_neg:
                            try:
                                tmp_l.append(dic[ph][el])
                            except:
                                tmp_l.append(0)
                        tmp[ph] = tmp_l
                    
                    #print([vocab[el] for el in ind_pos + ind_neg])
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                    ind = [vocab[el].replace('§', '') for el in ind_pos+ind_neg]
                    ind = [re.sub(r'\s', 'BLANK', el) for el in ind]
                    ind = [el.replace('$', r'\$') for el in ind]
                    ind = [el.replace('\n', 'BREAK') for el in ind]
                    #print(ind)
                    for i in range(0, len(ind)):
                        try:
                            ind[i].encode('ascii')
                        except:
                            ind[i] = ind[i].encode('unicode-escape')
                    
                        
                    df = pd.DataFrame(tmp , index = ind)
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                    ##select only informative features (i.e. those which are 0 across less than all columns of type)
                    mask = (df == 0.0).T
                    ls = []
                    for col in mask.columns:
                        if Counter(mask[col])[True] < 1:
                            ls.append(col)
                    df.drop(ls, inplace = True)
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                    f,ax = plt.subplots(figsize=(18, len(ind)/6))
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                    sns.heatmap(df, fmt= '.1f',ax=ax, center = 0, yticklabels = True)
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                    f.savefig(savedir+'featureplots/features_heat_{}_{}_{}_phases.pdf'.format(st, an, label))
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                    f.savefig(savedir+'featureplots/features_heat_{}_{}_{}_phases.png'.format(st, an, label))
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                elif label == 'author':
                    sex_key = []
                    phase_key = []
                    for sex in ['male', 'female']:
                        leng = most_pred[st][an][label][sex]['number']
                        arr = most_pred[st][an][label][sex]['val_array']
                        maxi = most_pred[st][an][label][sex]['max_array']
                        mini = most_pred[st][an][label][sex]['min_array']
                        ##make it so that the values of heat are relatively to the min and max values of the feature
                        dic[sex+'\n({})'.format(leng)] = {el[0]:(arr[el[0]]/maxi[el[0]]).round(3) for el in most_pred[st][an][label][sex]['count_tot_pos'] if (el[1]/leng) >= .95}
                        dic[sex+'\n({})'.format(leng)].update({el[0]:-(abs(arr[el[0]])/abs(mini[el[0]])).round(3) for el in most_pred[st][an][label][sex]['count_tot_neg'] if (el[1]/leng) >= .95})        
                        ind_pos.extend([el[0] for el in most_pred[st][an][label][sex]['count_tot_pos'] if (el[1]/leng) >= .95])
                        ind_neg.extend([el[0] for el in most_pred[st][an][label][sex]['count_tot_neg'] if (el[1]/leng) >= .95]) 
                        sex_key.append(sex+'\n({})'.format(leng))

                    for ph in phases:
                        leng = most_pred[st][an][label][ph]['number']
                        arr = most_pred[st][an][label][ph]['val_array']
                        maxi = most_pred[st][an][label][ph]['max_array']
                        mini = most_pred[st][an][label][ph]['min_array']
                        ##make it so that the values of heat are relatively to the min and max values of the feature
                        dic[ph+'\n({})'.format(leng)] = {el[0]:(arr[el[0]]/maxi[el[0]]).round(3) for el in most_pred[st][an][label][ph]['count_tot_pos'] if (el[1]/leng) >= 0.95}
                        dic[ph+'\n({})'.format(leng)].update({el[0]:-(abs(arr[el[0]])/abs(mini[el[0]])).round(3) for el in most_pred[st][an][label][ph]['count_tot_neg'] if (el[1]/leng) >= .95})        
                        ind_pos.extend([el[0] for el in most_pred[st][an][label][ph]['count_tot_pos'] if (el[1]/leng) >= .95])
                        ind_neg.extend([el[0] for el in most_pred[st][an][label][ph]['count_tot_neg'] if (el[1]/leng) >= .95]) 
                        phase_key.append(ph+'\n({})'.format(leng))
                    ind_pos = list(np.unique(ind_pos))
                    ind_neg = list(np.unique(ind_neg))
                    
                    tmp = {}
                    for ph in phase_key+sex_key:
                        tmp_l = []
                        for el in ind_pos+ind_neg:
                            try:
                                tmp_l.append(dic[ph][el])
                            except:
                                tmp_l.append(0)
                        tmp[ph] = tmp_l
                                          
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                    #print([vocab[el] for el in ind_pos + ind_neg])
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                    ind = [vocab[el].replace('§', '') for el in ind_pos+ind_neg]
                    ind = [re.sub(r'\s', 'BLANK', el) for el in ind]       
                    ind = [el.replace('$', r'\$') for el in ind]
                    ind = [el.replace('\n', 'BREAK') for el in ind]
                    #print(ind)
                    for i in range(0, len(ind)):
                        try:
                            ind[i].encode('ascii')
                        except:
                            ind[i] = ind[i].encode('unicode-escape')
                    #print([vocab[el] for el in ind_pos + ind_neg])
                    df = pd.DataFrame(tmp, index = ind)
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                    ##select only informative features (i.e. those which are 0 across less than all columns of type)
                    mask = (df == 0.0).T
                    ls = []
                    for col in mask.columns:
                        if Counter(mask[col])[True] < 1:
                            ls.append(col)
                    df.drop(ls, inplace = True)   


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                    f,ax = plt.subplots(figsize=(18, len(ind_pos+ind_neg)/6))
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                    sns.heatmap(df, fmt= '.1f',ax=ax, center = 0, yticklabels = True)
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                    f.savefig(savedir+'featureplots/features_heat_{}_{}_{}_phases.pdf'.format(st, an, label))
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                    f.savefig(savedir+'featureplots/features_heat_{}_{}_{}_phases.png'.format(st, an, label))
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                    dic = {}
                    ind_pos = []
                    ind_neg = []
                    phase_key = []
                    for ph in phases:
                        for sex in ['female', 'male']:
                            leng = most_pred[st][an][label][ph][sex]['number']
                            arr = most_pred[st][an][label][ph][sex]['val_array']
                            maxi = most_pred[st][an][label][ph][sex]['max_array']
                            mini = most_pred[st][an][label][ph][sex]['min_array']
                            ##make it so that the values of heat are relatively to the min and max values of the feature
                            dic[sex+'_'+ph+'\n({})'.format(leng)] = {el[0]:(arr[el[0]]/maxi[el[0]]).round(3) for el in most_pred[st][an][label][ph][sex]['count_tot_pos'] if (el[1]/leng) >= 0.95}
                            dic[sex+'_'+ph+'\n({})'.format(leng)].update({el[0]:-(abs(arr[el[0]])/abs(mini[el[0]])).round(3) for el in most_pred[st][an][label][ph][sex]['count_tot_neg'] if (el[1]/leng) >= .95})        
                            ind_pos.extend([el[0] for el in most_pred[st][an][label][ph][sex]['count_tot_pos'] if (el[1]/leng) >= .95])
                            ind_neg.extend([el[0] for el in most_pred[st][an][label][ph][sex]['count_tot_neg'] if (el[1]/leng) >= .95])                
                            phase_key.append(sex+'_'+ph+'\n({})'.format(leng))
                    ind_pos = list(np.unique(ind_pos))
                    ind_neg = list(np.unique(ind_neg))
                    
                    tmp = {}
                    for ph in phase_key:
                        tmp_l = []
                        for el in ind_pos+ind_neg:
                            try:
                                tmp_l.append(dic[ph][el])
                            except:
                                tmp_l.append(0)
                        tmp[ph] = tmp_l                                    
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                    #print([vocab[el] for el in ind_pos + ind_neg])
                    ind = [vocab[el].replace('§', '') for el in ind_pos+ind_neg]
                    ind = [re.sub(r'\s', 'BLANK', el) for el in ind]
                    ind = [el.replace('$', r'\$') for el in ind]
                    ind = [el.replace('\n', 'BREAK') for el in ind]
                    #print(ind)
                    for i in range(0, len(ind)):
                        try:
                            ind[i].encode('ascii')
                        except:
                            ind[i] = ind[i].encode('unicode-escape')
                    df = pd.DataFrame(tmp, index = ind)
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                    ##select only informative features (i.e. those which are 0 across less than all columns of type)
                    mask = (df == 0.0).T
                    ls = []
                    for col in mask.columns:
                        if Counter(mask[col])[True] < 1:
                            ls.append(col)
                    df.drop(ls, inplace = True)

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                    f,ax = plt.subplots(figsize=(18, len(ind_pos+ind_neg)/6))
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                    sns.heatmap(df, fmt= '.1f',ax=ax, center = 0, yticklabels = True)
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                    f.savefig(savedir+'featureplots/features_heat_{}_{}_{}_gender_phases.pdf'.format(st, an, label)) 
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                    f.savefig(savedir+'featureplots/features_heat_{}_{}_{}_gender_phases.png'.format(st, an, label))                      
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    return 1
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def main():
                        
    cpus = mp.cpu_count()
    pool = mp.Pool(cpus)
    #fire off workers
    jobs = []
    #create jobs
    print('make job queue...')
    sys.stdout.flush()
    print('enter cycle...')
    for subsets in subsets_l:
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        for subana in subana_l:
            job = pool.apply_async(plotter,([subsets], [subana], phases_l, labels_l))
            jobs.append(job)
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    print('collect results from jobs...')
    sys.stdout.flush()
    # collect results from the workers through the pool result queue
    for j in range(0, len(jobs)):
        tmp = jobs.pop(0)
        tmp = tmp.get()
        del tmp

    print('kill all remaining workers...')
    sys.stdout.flush()
    print('closing down the pool')
    sys.stdout.flush()
    pool.close()   
    pool.join()
    print('done and exit :)')
    sys.stdout.flush()




if __name__ == "__main__":
    main()