Mercurial > hg > webaudioevaluationtool
view scripts/generate_report.py @ 1076:1d4d4d50ce62
Scripts: generate_report slightly more robust against missing duration values
| author | Brecht De Man <BrechtDeMan@users.noreply.github.com> |
|---|---|
| date | Tue, 22 Sep 2015 18:19:38 +0200 |
| parents | 056a8454500e |
| children | 2bbf813c0e61 235594325b84 |
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#!/usr/bin/python # -*- coding: utf-8 -*- import xml.etree.ElementTree as ET import os # for getting files from directory import operator # for sorting data with multiple keys import sys # for accessing command line arguments import subprocess # for calling pdflatex import shlex # for calling pdflatex import matplotlib.pyplot as plt # plots import numpy as np # numbers # Command line arguments assert len(sys.argv)<4, "evaluation_stats takes at most 2 command line argument\n"+\ "Use: python generate_report.py [results_folder] [no_render | -nr]" render_figures = True # XML results files location if len(sys.argv) == 1: folder_name = "../saves" # Looks in 'saves/' folder from 'scripts/' folder print "Use: python generate_report.py [results_folder] [no_render | -nr]" print "Using default path: " + folder_name elif len(sys.argv) == 2: folder_name = sys.argv[1] # First command line argument is folder elif len(sys.argv) == 3: folder_name = sys.argv[1] # First command line argument is folder assert sys.argv[2] in ('no_render','-nr'), "Second argument not recognised. \n" +\ "Use: python generate_report.py [results_folder] [no_render | -nr]" # Second command line argument is [no_render | -nr] render_figures = False def isNaN(num): return num != num # Turn number of seconds (int) to '[minutes] min [seconds] s' (string) def seconds2timestr(time_in_seconds): if time_in_seconds is not None and not isNaN(time_in_seconds): time_in_minutes = int(time_in_seconds/60) remaining_seconds = int(time_in_seconds%60) return str(time_in_minutes) + " min " + str(remaining_seconds) + " s" else: return 'N/A' # stats initialisation number_of_XML_files = 0 number_of_pages = 0 number_of_fragments = 0 total_empty_comments = 0 total_not_played = 0 total_not_moved = 0 time_per_page_accum = 0 # arrays initialisation page_names = [] real_page_names = [] # regardless of differing numbers of fragments subject_count = [] # subjects per audioholder name page_count = [] duration_page = [] # duration of experiment in function of page content duration_order = [] # duration of experiment in function of page number fragments_per_page = [] # number of fragments for corresponding page # survey stats gender = [] age = [] # get username if available for name in ('LOGNAME', 'USER', 'LNAME', 'USERNAME'): user = os.environ.get(name) if user: break else: user = '' # begin LaTeX document header = r'''\documentclass[11pt, oneside]{article} \usepackage{geometry} \geometry{a4paper} \usepackage[parfill]{parskip} % empty line instead of indent \usepackage{graphicx} % figures \usepackage{hyperref} \usepackage{tikz} % pie charts \title{Report} \author{'''+\ user+\ r'''} \graphicspath{{'''+\ folder_name+\ r'''/}} %\setcounter{section}{-1} % Summary section 0 so number of sections equals number of files \begin{document} \maketitle This is an automatically generated report using the `generate\_report.py' Python script included with the Web Audio Evaluation Tool \cite{WAET} distribution which can be found at \texttt{code.soundsoftware.ac.uk/projects/webaudioevaluationtool}. \tableofcontents ''' footer = '\n\t\t'+r'''\begin{thebibliography}{9} \bibitem{WAET} % reference to accompanying publication Nicholas Jillings, Brecht De Man, David Moffat and Joshua D. Reiss, ``Web Audio Evaluation Tool: A browser-based listening test environment,'' presented at the 12th Sound and Music Computing Conference, July 2015. \end{thebibliography} \end{document}''' body = '' # generate images for later use if render_figures: subprocess.call("python timeline_view_movement.py "+folder_name, shell=True) subprocess.call("python score_parser.py "+folder_name, shell=True) subprocess.call("python score_plot.py "+folder_name, shell=True) # get every XML file in folder files_list = os.listdir(folder_name) for file in files_list: # iterate over all files in files_list if file.endswith(".xml"): # check if XML file number_of_XML_files += 1 tree = ET.parse(folder_name + '/' + file) root = tree.getroot() # PRINT name as section body+= '\n\section{'+file[:-4].capitalize()+'}\n' # make section header from name without extension # reset for new subject total_duration = 0 page_number = 0 individual_table = '\n' # table with stats for this individual test file timeline_plots = '' # plots of timeline (movements and plays) # DEMO survey stats # get gender this_subjects_gender = root.find("./posttest/radio/[@id='gender']") if this_subjects_gender is not None: gender.append(this_subjects_gender.get("name")) else: gender.append('UNAVAILABLE') # get age this_subjects_age = root.find("./posttest/number/[@id='age']") if this_subjects_age is not None: age.append(this_subjects_age.text) #TODO add plot of age # get list of all page names for audioholder in root.findall("./audioholder"): # iterate over pages page_name = audioholder.get('id') # get page name if page_name is None: # ignore 'empty' audio_holders print "WARNING: " + file + " contains empty audio holder. (evaluation_stats.py)" break # move on to next number_of_comments = 0 # for this page number_of_missing_comments = 0 # for this page not_played = [] # for this page not_moved = [] # for this page if audioholder.find("./metric/metricresult[@id='testTime']") is not None: # check if time is included # 'testTime' keeps total duration: subtract time so far for duration of this audioholder duration = float(audioholder.find("./metric/metricresult[@id='testTime']").text) - total_duration # total duration of test total_duration += duration else: duration = float('nan') total_duration = float('nan') # number of audio elements audioelements = audioholder.findall("./audioelement") # get audioelements number_of_fragments += len(audioelements) # add length of this list to total # number of comments (interesting if comments not mandatory) for audioelement in audioelements: response = audioelement.find("./comment/response") was_played = audioelement.find("./metric/metricresult/[@name='elementFlagListenedTo']") was_moved = audioelement.find("./metric/metricresult/[@name='elementFlagMoved']") if response.text is not None and len(response.text) > 1: number_of_comments += 1 else: number_of_missing_comments += 1 if was_played is not None and was_played.text == 'false': not_played.append(audioelement.get('id')) if was_moved is not None and was_moved.text == 'false': not_moved.append(audioelement.get('id')) # update global counters total_empty_comments += number_of_missing_comments total_not_played += len(not_played) total_not_moved += len(not_moved) # PRINT alerts when elements not played or markers not moved # number of audio elements not played if len(not_played) > 1: body += '\t\t\\emph{\\textbf{ATTENTION: '+str(len(not_played))+\ ' fragments were not listened to in '+page_name+'! }}'+\ ', '.join(not_played)+'\\\\ \n' if len(not_played) == 1: body += '\t\t\\emph{\\textbf{ATTENTION: one fragment was not listened to in '+page_name+'! }}'+\ not_played[0]+'\\\\ \n' # number of audio element markers not moved if len(not_moved) > 1: body += '\t\t\\emph{\\textbf{ATTENTION: '+str(len(not_moved))+\ ' markers were not moved in '+page_name+'! }}'+\ ', '.join(not_moved)+'\\\\ \n' if len(not_moved) == 1: body += '\t\t\\emph{\\textbf{ATTENTION: one marker was not moved in '+page_name+'! }}'+\ not_moved[0]+'\\\\ \n' # PRINT song-specific statistic individual_table += '\t\t'+page_name+'&'+\ str(number_of_comments) + '/' +\ str(number_of_comments+number_of_missing_comments)+'&'+\ seconds2timestr(duration)+'\\\\\n' # get timeline for this audioholder img_path = 'timelines_movement/'+file[:-4]+'-'+page_name+'.pdf' # check if available if os.path.isfile(folder_name+'/'+img_path): # SHOW timeline image timeline_plots += '\\includegraphics[width=\\textwidth]{'+\ folder_name+'/'+img_path+'}\n\t\t' # keep track of duration in function of page index if len(duration_order)>page_number: duration_order[page_number].append(duration) else: duration_order.append([duration]) # keep list of audioholder ids and count how many times each audioholder id # was tested, how long it took, and how many fragments there were # (if number of fragments is different, store as different audioholder id) if page_name in page_names: page_index = page_names.index(page_name) # get index # check if number of audioelements the same if len(audioelements) == fragments_per_page[page_index]: page_count[page_index] += 1 duration_page[page_index].append(duration) else: # make new entry alt_page_name = page_name+"("+str(len(audioelements))+")" if alt_page_name in page_names: # if already there alt_page_index = page_names.index(alt_page_name) # get index page_count[alt_page_index] += 1 duration_page[alt_page_index].append(duration) else: page_names.append(alt_page_name) page_count.append(1) duration_page.append([duration]) fragments_per_page.append(len(audioelements)) else: page_names.append(page_name) page_count.append(1) duration_page.append([duration]) fragments_per_page.append(len(audioelements)) # number of subjects per audioholder regardless of differing numbers of # fragments (for inclusion in box plots) if page_name in real_page_names: page_index = real_page_names.index(page_name) # get index subject_count[page_index] += 1 else: real_page_names.append(page_name) subject_count.append(1) # bookkeeping page_number += 1 # increase page count for this specific test number_of_pages += 1 # increase total number of pages time_per_page_accum += duration # total duration (for average time spent per page) # PRINT table with statistics about this test body += '\t\t'+r'''\begin{tabular}{|p{3.5cm}|c|p{2.5cm}|} \hline \textbf{Song name} & \textbf{Comments} & \textbf{Duration} \\ \hline '''+\ individual_table+'\t\t'+\ r'''\hline \textbf{TOTAL} & & \textbf{'''+\ seconds2timestr(total_duration)+\ r'''}\\ \hline \end{tabular} ''' # PRINT timeline plots body += timeline_plots # join to footer footer = body + footer # empty body again body = '' # PRINT summary of everything (at start) # unnumbered so that number of sections equals number of files body += '\section*{Summary}\n\t\t\\addcontentsline{toc}{section}{Summary}\n' # PRINT table with statistics body += '\t\t\\begin{tabular}{ll}\n\t\t\t' body += r'Number of XML files: &' + str(number_of_XML_files) + r'\\'+'\n\t\t\t' body += r'Number of pages: &' + str(number_of_pages) + r'\\'+'\n\t\t\t' body += r'Number of fragments: &' + str(number_of_fragments) + r'\\'+'\n\t\t\t' body += r'Number of empty comments: &' + str(total_empty_comments) +\ " (" + str(round(100.0*total_empty_comments/number_of_fragments,2)) + r"\%)\\"+'\n\t\t\t' body += r'Number of unplayed fragments: &' + str(total_not_played) +\ " (" + str(round(100.0*total_not_played/number_of_fragments,2)) + r"\%)\\"+'\n\t\t\t' body += r'Number of unmoved markers: &' + str(total_not_moved) +\ " (" + str(round(100.0*total_not_moved/number_of_fragments,2)) + r"\%)\\"+'\n\t\t\t' body += r'Average time per page: &' + seconds2timestr(time_per_page_accum/number_of_pages) + r"\\"+'\n\t\t' body += '\\end{tabular} \\vspace{1.5cm} \\\\ \n' # Average duration for first, second, ... page body += "\t\t\\vspace{.5cm} \n\n\t\tAverage duration per page (see also Figure \\ref{fig:avgtimeperpage}): \\\\ \n\t\t" body += r'''\begin{tabular}{lll} \textbf{Page} & \textbf{Duration} & \textbf{\# subjects}\\''' tpp_averages = [] # store average time per page for page_number in range(len(duration_order)): body += '\n\t\t\t'+str(page_number+1) + "&" +\ seconds2timestr(sum(duration_order[page_number])/len(duration_order[page_number])) +\ "&"+str(len(duration_order[page_number]))+r"\\" tpp_averages.append(sum(duration_order[page_number])/len(duration_order[page_number])) body += '\n\t\t\\end{tabular} \\vspace{1.5cm} \\\\ \n\n\t\t' # SHOW bar plot of average time per page plt.bar(range(1,len(duration_order)+1), np.array(tpp_averages)/60) plt.xlabel('Page order') plt.xlim(.8, len(duration_order)+1) plt.xticks(np.arange(1,len(duration_order)+1)+.4, range(1,len(duration_order)+1)) plt.ylabel('Average time [minutes]') plt.savefig(folder_name+"/time_per_page.pdf", bbox_inches='tight') plt.close() #TODO add error bars # Sort pages by number of audioelements, then by duration # average duration and number of subjects per page average_duration_page = [] number_of_subjects_page = [] for line in duration_page: number_of_subjects_page.append(len(line)) average_duration_page.append(sum(line)/len(line)) # combine and sort in function of number of audioelements and duration combined_list = [page_names, average_duration_page, fragments_per_page, number_of_subjects_page] combined_list = sorted(zip(*combined_list), key=operator.itemgetter(1, 2)) # sort # Show average duration for all songs body += r'''\vspace{.5cm} Average duration per audioholder (see also Figure \ref{fig:avgtimeperaudioholder}): \\ \begin{tabular}{llll} \textbf{Audioholder} & \textbf{Duration} & \textbf{\# subjects} & \textbf{\# fragments} \\''' audioholder_names_ordered = [] average_duration_audioholder_ordered = [] number_of_subjects = [] for page_index in range(len(page_names)): audioholder_names_ordered.append(combined_list[page_index][0]) average_duration_audioholder_ordered.append(combined_list[page_index][1]) number_of_subjects.append(combined_list[page_index][3]) body += '\n\t\t\t'+combined_list[page_index][0] + "&" +\ seconds2timestr(combined_list[page_index][1]) + "&" +\ str(combined_list[page_index][3]) + "&" +\ str(combined_list[page_index][2]) + r"\\" body += '\n\t\t\\end{tabular}\n' # SHOW bar plot of average time per page plt.bar(range(1,len(audioholder_names_ordered)+1), np.array(average_duration_audioholder_ordered)/60) plt.xlabel('Audioholder') plt.xlim(.8, len(audioholder_names_ordered)+1) plt.xticks(np.arange(1,len(audioholder_names_ordered)+1)+.4, audioholder_names_ordered, rotation=90) plt.ylabel('Average time [minutes]') plt.savefig(folder_name+"/time_per_audioholder.pdf", bbox_inches='tight') plt.close() # SHOW bar plot of average time per page plt.bar(range(1,len(audioholder_names_ordered)+1), number_of_subjects) plt.xlabel('Audioholder') plt.xlim(.8, len(audioholder_names_ordered)+1) plt.xticks(np.arange(1,len(audioholder_names_ordered)+1)+.4, audioholder_names_ordered, rotation=90) plt.ylabel('Number of subjects') ax = plt.gca() ylims = ax.get_ylim() yint = np.arange(int(np.floor(ylims[0])), int(np.ceil(ylims[1]))+1) plt.yticks(yint) plt.savefig(folder_name+"/subjects_per_audioholder.pdf", bbox_inches='tight') plt.close() # SHOW both figures body += r''' \begin{figure}[htbp] \begin{center} \includegraphics[width=.65\textwidth]{'''+\ folder_name+"/time_per_page.pdf"+\ r'''} \caption{Average time spent per page.} \label{fig:avgtimeperpage} \end{center} \end{figure} ''' body += r'''\begin{figure}[htbp] \begin{center} \includegraphics[width=.65\textwidth]{'''+\ folder_name+"/time_per_audioholder.pdf"+\ r'''} \caption{Average time spent per audioholder.} \label{fig:avgtimeperaudioholder} \end{center} \end{figure} ''' body += r'''\begin{figure}[htbp] \begin{center} \includegraphics[width=.65\textwidth]{'''+\ folder_name+"/subjects_per_audioholder.pdf"+\ r'''} \caption{Number of subjects per audioholder.} \label{fig:subjectsperaudioholder} \end{center} \end{figure} ''' #TODO add error bars #TODO layout of figures # SHOW boxplot per audioholder #TODO order in decreasing order of participants for audioholder_name in page_names: # get each name # plot boxplot if exists (not so for the 'alt' names) if os.path.isfile(folder_name+'/ratings/'+audioholder_name+'-ratings-box.pdf'): body += r'''\begin{figure}[htbp] \begin{center} \includegraphics[width=.65\textwidth]{'''+\ folder_name+"/ratings/"+audioholder_name+'-ratings-box.pdf'+\ r'''} \caption{Box plot of ratings for audioholder '''+\ audioholder_name+' ('+str(subject_count[real_page_names.index(audioholder_name)])+\ ''' participants).} \label{fig:boxplot'''+audioholder_name.replace(" ", "")+'''} \end{center} \end{figure} ''' # DEMO pie chart of gender distribution among subjects genders = ['male', 'female', 'other', 'preferNotToSay', 'UNAVAILABLE'] # TODO: get the above automatically gender_distribution = '' for item in genders: number = gender.count(item) if number>0: gender_distribution += str("{:.2f}".format((100.0*number)/len(gender)))+\ '/'+item.capitalize()+' ('+str(number)+'),\n' body += r''' % Pie chart of gender distribution \def\angle{0} \def\radius{3} \def\cyclelist{{"orange","blue","red","green"}} \newcount\cyclecount \cyclecount=-1 \newcount\ind \ind=-1 \begin{figure}[htbp] \begin{center}\begin{tikzpicture}[nodes = {font=\sffamily}] \foreach \percent/\name in {'''+\ gender_distribution+\ r'''} {\ifx\percent\empty\else % If \percent is empty, do nothing \global\advance\cyclecount by 1 % Advance cyclecount \global\advance\ind by 1 % Advance list index \ifnum6<\cyclecount % If cyclecount is larger than list \global\cyclecount=0 % reset cyclecount and \global\ind=0 % reset list index \fi \pgfmathparse{\cyclelist[\the\ind]} % Get color from cycle list \edef\color{\pgfmathresult} % and store as \color % Draw angle and set labels \draw[fill={\color!50},draw={\color}] (0,0) -- (\angle:\radius) arc (\angle:\angle+\percent*3.6:\radius) -- cycle; \node at (\angle+0.5*\percent*3.6:0.7*\radius) {\percent\,\%}; \node[pin=\angle+0.5*\percent*3.6:\name] at (\angle+0.5*\percent*3.6:\radius) {}; \pgfmathparse{\angle+\percent*3.6} % Advance angle \xdef\angle{\pgfmathresult} % and store in \angle \fi }; \end{tikzpicture} \caption{Representation of gender across subjects} \label{default} \end{center} \end{figure} ''' # problem: some people entered twice? #TODO # time per page in function of number of fragments (plot) # time per participant in function of number of pages # plot total time for each participant # show 'count' per page (in order) # clear up page_index <> page_count <> page_number confusion texfile = header+body+footer # add bits together # write TeX file with open(folder_name + '/' + 'Report.tex','w') as f: f.write(texfile) proc=subprocess.Popen(shlex.split('pdflatex -output-directory='+folder_name+' '+ folder_name + '/Report.tex')) proc.communicate() # run again proc=subprocess.Popen(shlex.split('pdflatex -output-directory='+folder_name+' '+ folder_name + '/Report.tex')) proc.communicate() #TODO remove auxiliary LaTeX files try: os.remove(folder_name + '/' + 'Report.aux') os.remove(folder_name + '/' + 'Report.log') os.remove(folder_name + '/' + 'Report.out') os.remove(folder_name + '/' + 'Report.toc') except OSError: pass