Mercurial > hg > webaudioevaluationtool

annotate scripts/timeline_view_movement.py @ 1946:1d08f8aee098

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Merge WAC paper
author Dave Moffat <me@davemoffat.com>
date Thu, 24 Sep 2015 09:52:08 +0100
parents 4988c805ff9e
children 235594325b84 b5bf2f57187c
rev   line source
me@1942 1 #!/usr/bin/python
me@1942 2
me@1942 3 import xml.etree.ElementTree as ET
me@1942 4 import os # list files in directory
me@1942 5 import sys # command line arguments
me@1942 6 import matplotlib.pyplot as plt # plots
me@1942 7 import matplotlib.patches as patches # rectangles
me@1942 8
me@1942 9
me@1942 10 # COMMAND LINE ARGUMENTS
me@1942 11
me@1942 12 assert len(sys.argv)<3, "timeline_view_movement takes at most 1 command line argument\n"+\
me@1942 13 "Use: python timeline_view_movement.py [XML_files_location]"
me@1942 14
me@1942 15 # XML results files location
me@1942 16 if len(sys.argv) == 1:
me@1942 17 folder_name = "../saves" # Looks in 'saves/' folder from 'scripts/' folder
me@1942 18 print "Use: python timeline_view_movement.py [XML_files_location]"
me@1942 19 print "Using default path: " + folder_name
me@1942 20 elif len(sys.argv) == 2:
me@1942 21 folder_name = sys.argv[1] # First command line argument is folder
me@1942 22
me@1942 23 # check if folder_name exists
me@1942 24 if not os.path.exists(folder_name):
me@1942 25 #the file is not there
me@1942 26 print "Folder '"+folder_name+"' does not exist."
me@1942 27 sys.exit() # terminate script execution
me@1942 28 elif not os.access(os.path.dirname(folder_name), os.W_OK):
me@1942 29 #the file does exist but write privileges are not given
me@1942 30 print "No write privileges in folder '"+folder_name+"'."
me@1942 31
me@1942 32
me@1942 33 # CONFIGURATION
me@1942 34
me@1942 35 # Folder where to store timelines
me@1942 36 timeline_folder = folder_name + '/timelines_movement/' # Stores in 'saves/timelines_movement/' by default
me@1942 37
me@1942 38 # Font settings
me@1942 39 font = {'weight' : 'bold',
me@1942 40 'size' : 16}
me@1942 41 plt.rc('font', **font)
me@1942 42
me@1942 43 # Colormap for to cycle through
me@1942 44 colormap = ['b', 'g', 'c', 'm', 'y', 'k']
me@1942 45
me@1942 46 # figure size
me@1942 47 fig_width = 25
me@1942 48 fig_height = 10
me@1942 49
me@1942 50
me@1942 51 # CODE
me@1942 52
me@1942 53 # create timeline_folder if not yet created
me@1942 54 if not os.path.exists(timeline_folder):
me@1942 55 os.makedirs(timeline_folder)
me@1942 56
me@1942 57 # get every XML file in folder
me@1942 58 for file in os.listdir(folder_name):
me@1942 59 if file.endswith(".xml"):
me@1942 60 tree = ET.parse(folder_name + '/' + file)
me@1942 61 root = tree.getroot()
me@1942 62 subject_id = file[:-4] # drop '.xml'
me@1942 63
me@1942 64 previous_audioholder_time = 0 # time spent before current audioholder
me@1942 65 time_offset = 0 # test starts at zero
me@1942 66
me@1942 67 # ONE TIMELINE PER PAGE - make new plot per page
me@1942 68
me@1942 69 # get list of all page names
me@1942 70 for audioholder in root.findall("./audioholder"): # iterate over pages
me@1942 71 page_name = audioholder.get('id') # get page name
me@1942 72 plot_empty = True # check if any data is plotted
me@1942 73
me@1942 74 if page_name is None: # ignore 'empty' audio_holders
me@1942 75 print "Skipping empty audioholder name from "+subject_id+"."
me@1942 76 break
me@1942 77
me@1942 78 # subtract total audioholder length from subsequent audioholder event times
me@1942 79 audioholder_time_temp = audioholder.find("./metric/metricresult/[@id='testTime']")
me@1942 80 if audioholder_time_temp is not None:
me@1942 81 audioholder_time = float(audioholder_time_temp.text)
me@1942 82 else:
me@1942 83 print "Skipping audioholder without total time specified from "+subject_id+"."
me@1942 84 break
me@1942 85
me@1942 86 # get audioelements
me@1942 87 audioelements = audioholder.findall("./audioelement")
me@1942 88
me@1942 89 # sort alphabetically
me@1942 90 data = []
me@1942 91 for elem in audioelements: # from http://effbot.org/zone/element-sort.htm
me@1942 92 key = elem.get("id")
me@1942 93 data.append((key, elem))
me@1942 94 data.sort()
me@1942 95
me@1942 96 N_audioelements = len(audioelements) # number of audio elements for this page
me@1942 97 increment = 0 # increased for every new audioelement
me@1942 98
me@1942 99 # get axes handle
me@1942 100 fig = plt.figure(figsize=(fig_width, fig_height))
me@1942 101 ax = fig.add_subplot(111)
me@1942 102
me@1942 103 # for page [page_name], print comments related to fragment [id]
me@1942 104 #for tuple in data:
me@1942 105 # audioelement = tuple[1]
me@1942 106 for tuple in data:
me@1942 107 audioelement = tuple[1]
me@1942 108 if audioelement is not None: # Check it exists
me@1942 109 audio_id = str(audioelement.get('id'))
me@1942 110
me@1942 111 # break if no initial position or move events registered
me@1942 112 initial_position_temp = audioelement.find("./metric/metricresult/[@name='elementInitialPosition']")
me@1942 113 if initial_position_temp is None:
me@1942 114 print "Skipping "+page_name+" from "+subject_id+": does not have initial positions specified."
me@1942 115 break
me@1942 116
me@1942 117 # get move events, initial and eventual position
me@1942 118 initial_position = float(initial_position_temp.text)
me@1942 119 move_events = audioelement.findall("./metric/metricresult/[@name='elementTrackerFull']/timepos")
me@1942 120 final_position = float(audioelement.find("./value").text)
me@1942 121
me@1942 122 # get listen events
me@1942 123 start_times_global = []
me@1942 124 stop_times_global = []
me@1942 125 listen_events = audioelement.findall("./metric/metricresult/[@name='elementListenTracker']/event")
me@1942 126 for event in listen_events:
me@1942 127 # get testtime: start and stop
me@1942 128 start_times_global.append(float(event.find('testtime').get('start'))-time_offset)
me@1942 129 stop_times_global.append(float(event.find('testtime').get('stop'))-time_offset)
me@1942 130
me@1942 131 # display fragment name at start
me@1942 132 plt.text(0,initial_position+0.02,audio_id,color=colormap[increment%len(colormap)]) #,rotation=45
me@1942 133
me@1942 134 # previous position and time
me@1942 135 previous_position = initial_position
me@1942 136 previous_time = 0
me@1942 137
me@1942 138 # assume not playing at start
me@1942 139 currently_playing = False # keep track of whether fragment is playing during move event
me@1942 140
me@1942 141 # draw all segments except final one
me@1942 142 for event in move_events:
me@1942 143 # mark this plot as not empty
me@1942 144 plot_empty = False
me@1942 145
me@1942 146 # get time and final position of move event
me@1942 147 new_time = float(event.find("./time").text)-time_offset
me@1942 148 new_position = float(event.find("./position").text)
me@1942 149
me@1942 150 # get play/stop events since last move until current move event
me@1942 151 stop_times = []
me@1942 152 start_times = []
me@1942 153 # is there a play and/or stop event between previous_time and new_time?
me@1942 154 for time in start_times_global:
me@1942 155 if time>previous_time and time<new_time:
me@1942 156 start_times.append(time)
me@1942 157 for time in stop_times_global:
me@1942 158 if time>previous_time and time<new_time:
me@1942 159 stop_times.append(time)
me@1942 160 # if no play/stop events between move events, find out whether playing
me@1942 161
me@1942 162 segment_start = previous_time # first segment starts at previous move event
me@1942 163
me@1942 164 # draw segments (horizontal line)
me@1942 165 while len(start_times)+len(stop_times)>0: # while still play/stop events left
me@1942 166 if len(stop_times)<1: # upcoming event is 'play'
me@1942 167 # draw non-playing segment from segment_start to 'play'
me@1942 168 currently_playing = False
me@1942 169 segment_stop = start_times.pop(0) # remove and return first item
me@1942 170 elif len(start_times)<1: # upcoming event is 'stop'
me@1942 171 # draw playing segment (red) from segment_start to 'stop'
me@1942 172 currently_playing = True
me@1942 173 segment_stop = stop_times.pop(0) # remove and return first item
me@1942 174 elif start_times[0]<stop_times[0]: # upcoming event is 'play'
me@1942 175 # draw non-playing segment from segment_start to 'play'
me@1942 176 currently_playing = False
me@1942 177 segment_stop = start_times.pop(0) # remove and return first item
me@1942 178 else: # stop_times[0]<start_times[0]: upcoming event is 'stop'
me@1942 179 # draw playing segment (red) from segment_start to 'stop'
me@1942 180 currently_playing = True
me@1942 181 segment_stop = stop_times.pop(0) # remove and return first item
me@1942 182
me@1942 183 # draw segment
me@1942 184 plt.plot([segment_start, segment_stop], # x-values
me@1942 185 [previous_position, previous_position], # y-values
me@1942 186 color='r' if currently_playing else colormap[increment%len(colormap)],
me@1942 187 linewidth=3
me@1942 188 )
me@1942 189 segment_start = segment_stop # move on to next segment
me@1942 190 currently_playing = not currently_playing # toggle to draw final segment correctly
me@1942 191
me@1942 192 # draw final segment (horizontal line) from last 'segment_start' to current move event time
me@1942 193 plt.plot([segment_start, new_time], # x-values
me@1942 194 [previous_position, previous_position], # y-values
me@1942 195 # color depends on playing during move event or not:
me@1942 196 color='r' if currently_playing else colormap[increment%len(colormap)],
me@1942 197 linewidth=3
me@1942 198 )
me@1942 199
me@1942 200 # vertical line from previous to current position
me@1942 201 plt.plot([new_time, new_time], # x-values
me@1942 202 [previous_position, new_position], # y-values
me@1942 203 # color depends on playing during move event or not:
me@1942 204 color='r' if currently_playing else colormap[increment%len(colormap)],
me@1942 205 linewidth=3
me@1942 206 )
me@1942 207
me@1942 208 # update previous_position value
me@1942 209 previous_position = new_position
me@1942 210 previous_time = new_time
me@1942 211
me@1942 212
me@1942 213
me@1942 214 # draw final horizontal segment (or only segment if audioelement not moved)
me@1942 215 # horizontal line from previous time to end of audioholder
me@1942 216
me@1942 217 # get play/stop events since last move until current move event
me@1942 218 stop_times = []
me@1942 219 start_times = []
me@1942 220 # is there a play and/or stop event between previous_time and new_time?
me@1942 221 for time in start_times_global:
me@1942 222 if time>previous_time and time<audioholder_time-time_offset:
me@1942 223 start_times.append(time)
me@1942 224 for time in stop_times_global:
me@1942 225 if time>previous_time and time<audioholder_time-time_offset:
me@1942 226 stop_times.append(time)
me@1942 227 # if no play/stop events between move events, find out whether playing
me@1942 228
me@1942 229 segment_start = previous_time # first segment starts at previous move event
me@1942 230
me@1942 231 # draw segments (horizontal line)
me@1942 232 while len(start_times)+len(stop_times)>0: # while still play/stop events left
me@1942 233 # mark this plot as not empty
me@1942 234 plot_empty = False
me@1942 235 if len(stop_times)<1: # upcoming event is 'play'
me@1942 236 # draw non-playing segment from segment_start to 'play'
me@1942 237 currently_playing = False
me@1942 238 segment_stop = start_times.pop(0) # remove and return first item
me@1942 239 elif len(start_times)<1: # upcoming event is 'stop'
me@1942 240 # draw playing segment (red) from segment_start to 'stop'
me@1942 241 currently_playing = True
me@1942 242 segment_stop = stop_times.pop(0) # remove and return first item
me@1942 243 elif start_times[0]<stop_times[0]: # upcoming event is 'play'
me@1942 244 # draw non-playing segment from segment_start to 'play'
me@1942 245 currently_playing = False
me@1942 246 segment_stop = start_times.pop(0) # remove and return first item
me@1942 247 else: # stop_times[0]<start_times[0]: upcoming event is 'stop'
me@1942 248 # draw playing segment (red) from segment_start to 'stop'
me@1942 249 currently_playing = True
me@1942 250 segment_stop = stop_times.pop(0) # remove and return first item
me@1942 251
me@1942 252 # draw segment
me@1942 253 plt.plot([segment_start, segment_stop], # x-values
me@1942 254 [previous_position, previous_position], # y-values
me@1942 255 color='r' if currently_playing else colormap[increment%len(colormap)],
me@1942 256 linewidth=3
me@1942 257 )
me@1942 258 segment_start = segment_stop # move on to next segment
me@1942 259 currently_playing = not currently_playing # toggle to draw final segment correctly
me@1942 260
me@1942 261 # draw final segment (horizontal line) from last 'segment_start' to current move event time
me@1942 262 plt.plot([segment_start, audioholder_time-time_offset], # x-values
me@1942 263 [previous_position, previous_position], # y-values
me@1942 264 # color depends on playing during move event or not:
me@1942 265 color='r' if currently_playing else colormap[increment%len(colormap)],
me@1942 266 linewidth=3
me@1942 267 )
me@1942 268
me@1942 269 # plt.plot([previous_time, audioholder_time-time_offset], # x-values
me@1942 270 # [previous_position, previous_position], # y-values
me@1942 271 # color=colormap[increment%len(colormap)],
me@1942 272 # linewidth=3
me@1942 273 # )
me@1942 274
me@1942 275 # display fragment name at end
me@1942 276 plt.text(audioholder_time-time_offset,previous_position,\
me@1942 277 audio_id,color=colormap[increment%len(colormap)]) #,rotation=45
me@1942 278
me@1942 279 increment+=1 # to next audioelement
me@1942 280
me@1942 281 last_audioholder_duration = audioholder_time-time_offset
me@1942 282 time_offset = audioholder_time
me@1942 283
me@1942 284 if not plot_empty: # if plot is not empty, show or store
me@1942 285 # set plot parameters
me@1942 286 plt.title('Timeline ' + file + ": "+page_name)
me@1942 287 plt.xlabel('Time [seconds]')
me@1942 288 plt.xlim(0, last_audioholder_duration)
me@1942 289 plt.ylabel('Rating') # default
me@1942 290 plt.ylim(0, 1) # rating between 0 and 1
me@1942 291
me@1942 292 #y-ticks: labels on rating axis
me@1942 293 label_positions = []
me@1942 294 label_text = []
me@1942 295 scale_tags = root.findall("./BrowserEvalProjectDocument/audioHolder/interface/scale")
me@1942 296 scale_title = root.find("./BrowserEvalProjectDocument/audioHolder/interface/title")
me@1942 297 for tag in scale_tags:
me@1942 298 label_positions.append(float(tag.get('position'))/100) # on a scale from 0 to 100
me@1942 299 label_text.append(tag.text)
me@1942 300 if len(label_positions) > 0: # if any labels available
me@1942 301 plt.yticks(label_positions, label_text) # show rating axis labels
me@1942 302 # set label Y-axis
me@1942 303 if scale_title is not None:
me@1942 304 plt.ylabel(scale_title.text)
me@1942 305
me@1942 306 #plt.show() # uncomment to show plot; comment when just saving
me@1942 307 #exit()
me@1942 308
me@1942 309 plt.savefig(timeline_folder+subject_id+"-"+page_name+".pdf", bbox_inches='tight')
me@1942 310 plt.close()
me@1942 311