bicycle_statistics: Transformed to file system event driven service

Signed-off-by: Thomas Klaehn <thomas.klaehn@u-blox.com>
2018-07-26 14:20:15 +02:00 · 2018-07-26 14:20:15 +02:00 · b4d4d844fd
commit b4d4d844fd
parent 492c67bec3
4 changed files with 185 additions and 94 deletions
--- a/bicycle_statistics/main.py
+++ b/bicycle_statistics/main.py
@ -1,6 +1,12 @@
 import argparse
 import sys
 import threading
 import time
 from watchdog.observers import Observer
 from gpx2html import Gpx2Html
 from input_observer import InputObserver
 def parse_args():
    '''Shell argument parser.'''
@ -9,10 +15,48 @@ def parse_args():
    parser.add_argument('outfolder', help='Specify the out folder.')
    return parser.parse_args()
 class myLoop(threading.Thread):
    def __init__(self, infolder, outfolder):
        super(myLoop, self).__init__()
        self.run_condition = True
        self.infolder = infolder
        self.outfolder = outfolder
        self.observer = Observer()
        self.in_obs = InputObserver(patterns=["*.gpx"])
    def run(self):
        gpx2html = Gpx2Html(self.infolder, self.outfolder)
        gpx2html.process()
        self.observer.schedule(self.in_obs, self.infolder)
        self.observer.start()
        while self.run_condition is True:
            new_file = self.in_obs.get_new_file()
            if new_file:
                gpx2html.process()
                print "processed"
    def stop(self):
        self.run_condition = False
        self.in_obs.stop()
        self.observer.stop()
        self.observer.join()
 def main():
    args = parse_args()
-    gpx2html = Gpx2Html(args.infolder, args.outfolder)
+
-    gpx2html.process()
+    my_loop = myLoop(args.infolder, args.outfolder)
    my_loop.start()
    try:
        while True:
            time.sleep(1)
    except KeyboardInterrupt:
        my_loop.stop()
        my_loop.join()
    return 0
 if __name__ == '__main__':
    sys.exit(main())
--- a/gpx2html/init.py
+++ b/gpx2html/init.py
@ -47,99 +47,37 @@ class Gpx2Html(object):
    def __init__(self, infolder, outfolder):
        self.infolder = infolder
-        self.outfolder = outfolder
+        self.outfolder = os.path.abspath(outfolder)
        self.distance_diag_file = 'distance.png'
        self.distance_diag_abs = os.path.join(self.outfolder, self.distance_diag_file)
        self.avg_spd_diag_file = 'avg_spd.png'
        self.avg_spd_diag_abs = os.path.join(self.outfolder, self.avg_spd_diag_file)
        self.last_n_days_diag_file = None
        self.html_file = os.path.join(self.outfolder, 'index.html')
        self.years_distance = list()
        self.years_avg_spd = list()
        self.years = list()
-    def process(self):
+    def plot_distance_diagram(self):
-        self.tracks = gpx_parser.Tracks(self.infolder)
+        plot_bar_chart(self.years, self.MONTH_LABELS, self.years_distance,
-        years_distance = list()
+                       'Distance', 'Month', 'km', self.distance_diag_abs)
        years_avg_spd = list()
        years = list()
        for year in range(2017, datetime.datetime.now().year + 1):
            month_avg_spd = {1:0, 2:0, 3:0, 4:0, 5:0, 6:0, 7:0, 8:0, 9:0, 10:0, 11:0, 12:0}
            month_distance = {1:0, 2:0, 3:0, 4:0, 5:0, 6:0, 7:0, 8:0, 9:0, 10:0, 11:0, 12:0}
            month_duration = {1:0, 2:0, 3:0, 4:0, 5:0, 6:0, 7:0, 8:0, 9:0, 10:0, 11:0, 12:0}
            for month in range(1, 13):
                if month == 12:
                    max_day = (datetime.date(year + 1, 1, 1) - datetime.timedelta(days=1)).day
                else:
                    max_day = (datetime.date(year, month + 1, 1) - datetime.timedelta(days=1)).day
                for day in range(1, max_day + 1):
                    date_tracks = self.tracks.get(year, month, day)
                    for track in date_tracks:
                        month_distance[month] += (track.distance / 1000)    # km
                        month_duration[month] += track.duration.total_seconds() / 3600  # h
            for i in range(1, 13):
                if month_duration[i] > 0:
                    month_avg_spd[i] = month_distance[i] / month_duration[i]
            years_distance.append(month_distance.values())
            years_avg_spd.append(month_avg_spd.values())
            years.append(str(year))
        out_folder = os.path.abspath(self.outfolder)
-        dst_file_name = 'distance.png'
+    def plot_avg_spd_diagram(self):
-        plot_bar_chart(years, self.MONTH_LABELS, years_distance, 'Distance', 'Month', 'km', os.path.join(out_folder, dst_file_name))
+        plot_bar_chart(self.years, self.MONTH_LABELS, self.years_avg_spd,
                       'Average Speed', 'Month', 'km/h', self.avg_spd_diag_abs)
        avg_file_name = 'avg_spd.png'
        plot_bar_chart(years, self.MONTH_LABELS, years_avg_spd, 'Average Speed', 'Month', 'km/h', os.path.join(out_folder, avg_file_name))
-        # last n days
+    def plot_last_n_days(self, day_count):
-        n = 14
+        plot_bar_chart(["Distance", "Average speed"], self.date_distance.keys(),
-        end_date = datetime.date.today()
+                       [self.date_distance.values(), self.date_avg_spd.values()],
-        start_date = end_date - datetime.timedelta(days=n)
+                       'Last {} days'.format(day_count), 'Date', 'km, km/h',
-        dates = pd.date_range(start_date, end_date)
+                       os.path.join(self.outfolder, self.last_n_days_diag_file), 90)
        date_distance = dict()
        date_duration = dict()
        date_avg_spd = dict()
-        for date in dates:
+    def write_html_file(self):
-            date_str = "{0:04d}-{1:02d}-{2:02d}".format(date.year, date.month, date.day)
+        with open(self.html_file, 'w') as handle:
            date_tracks = self.tracks.get(date.year, date.month, date.day)
            for track in date_tracks:
                try:
                    current_dist = date_distance[date_str]
                    current_duration = date_duration[date_str]
                except KeyError:
                    current_dist = 0
                    current_duration = 0
                current_dist += track.distance / 1000
                date_distance.update({date_str:current_dist})
                current_duration += track.duration.total_seconds() / 3600
                date_duration.update({date_str:current_duration})
            # check for empty dates
            try:
                current_dist = date_distance[date_str]
                current_duration = date_duration[date_str]
            except KeyError:
                date_distance.update({date_str:0})
                date_duration.update({date_str:0})
        date_duration = collections.OrderedDict(sorted(date_duration.items()))
        for key, value in date_duration.items():
            if value == 0:
                date_avg_spd.update({key:0})
            else:
                avg_spd = date_distance[key] / value
                date_avg_spd.update({key:avg_spd})
        date_avg_spd = collections.OrderedDict(sorted(date_avg_spd.items()))
        date_distance = collections.OrderedDict(sorted(date_distance.items()))
        dst_n_file_name = "distance_last_{}_days.png".format(n)
        plot_bar_chart(["Distance", "Average speed"],
                    date_distance.keys(),
                    [date_distance.values(), date_avg_spd.values()],
                    'Last {} days'.format(n),
                    'Date',
                    'km, km/h',
                    os.path.join(out_folder, dst_n_file_name),
                    90)
        html_file = os.path.join(out_folder, 'index.html')
        with open(html_file, 'w') as handle:
            handle.write('<!DOCTYPE html>\n')
            handle.write('<html>\n')
            handle.write('<head>\n')
@ -161,24 +99,102 @@ class Gpx2Html(object):
            handle.write('<table>\n')
            handle.write('<tr>\n')
-            for year in years:
+            for year in self.years:
                handle.write('<th>{}</th>\n'.format(year))
            handle.write('</tr>\n')
            handle.write('<tr>\n')
-            for i in range(len(years_distance)):
+            for i in range(len(self.years_distance)):
-                handle.write('<td>{} km</td>\n'.format(round(sum(years_distance[i]), 1)))
+                handle.write('<td>{} km</td>\n'.format(round(sum(self.years_distance[i]), 1)))
            handle.write('</tr>\n')
            handle.write('</table>\n')
            handle.write('</p>\n')
            handle.write('<p>\n')
-            handle.write('<IMG SRC="{}" ALT="Distance">\n'.format(dst_file_name))
+            handle.write('<IMG SRC="{}" ALT="Distance">\n'.format(self.distance_diag_file))
-            handle.write('<IMG SRC="{}" ALT="Distance">\n'.format(avg_file_name))
+            handle.write('<IMG SRC="{}" ALT="Distance">\n'.format(self.avg_spd_diag_file))
-            handle.write('<IMG SRC="{}" ALT="Distance">\n'.format(dst_n_file_name))
+            handle.write('<IMG SRC="{}" ALT="Distance">\n'.format(self.last_n_days_diag_file))
            handle.write('</p>\n')
            handle.write('</body>\n')
            handle.write('<center>\n')
            handle.write('</html>\n')
    def process(self):
        self.years[:] = []
        self.years_avg_spd[:] = []
        self.years_distance[:] = []
        self.tracks = gpx_parser.Tracks(self.infolder)
        for year in range(2017, datetime.datetime.now().year + 1):
            month_avg_spd = {1:0, 2:0, 3:0, 4:0, 5:0, 6:0, 7:0, 8:0, 9:0, 10:0, 11:0, 12:0}
            month_distance = {1:0, 2:0, 3:0, 4:0, 5:0, 6:0, 7:0, 8:0, 9:0, 10:0, 11:0, 12:0}
            month_duration = {1:0, 2:0, 3:0, 4:0, 5:0, 6:0, 7:0, 8:0, 9:0, 10:0, 11:0, 12:0}
            for month in range(1, 13):
                if month == 12:
                    max_day = (datetime.date(year + 1, 1, 1) - datetime.timedelta(days=1)).day
                else:
                    max_day = (datetime.date(year, month + 1, 1) - datetime.timedelta(days=1)).day
                for day in range(1, max_day + 1):
                    date_tracks = self.tracks.get(year, month, day)
                    for track in date_tracks:
                        month_distance[month] += (track.distance / 1000)    # km
                        month_duration[month] += track.duration.total_seconds() / 3600  # h
            for i in range(1, 13):
                if month_duration[i] > 0:
                    month_avg_spd[i] = month_distance[i] / month_duration[i]
            self.years_distance.append(month_distance.values())
            self.years_avg_spd.append(month_avg_spd.values())
            self.years.append(str(year))
        self.plot_distance_diagram()
        self.plot_avg_spd_diagram()
        # last n days
        n = 14
        end_date = datetime.date.today()
        start_date = end_date - datetime.timedelta(days=n)
        dates = pd.date_range(start_date, end_date)
        self.date_distance = dict()
        date_duration = dict()
        self.date_avg_spd = dict()
        for date in dates:
            date_str = "{0:04d}-{1:02d}-{2:02d}".format(date.year, date.month, date.day)
            date_tracks = self.tracks.get(date.year, date.month, date.day)
            for track in date_tracks:
                try:
                    current_dist = self.date_distance[date_str]
                    current_duration = date_duration[date_str]
                except KeyError:
                    current_dist = 0
                    current_duration = 0
                current_dist += track.distance / 1000
                self.date_distance.update({date_str:current_dist})
                current_duration += track.duration.total_seconds() / 3600
                date_duration.update({date_str:current_duration})
            # check for empty dates
            try:
                current_dist = self.date_distance[date_str]
                current_duration = date_duration[date_str]
            except KeyError:
                self.date_distance.update({date_str:0})
                date_duration.update({date_str:0})
        date_duration = collections.OrderedDict(sorted(date_duration.items()))
        for key, value in date_duration.items():
            if value == 0:
                self.date_avg_spd.update({key:0})
            else:
                avg_spd = self.date_distance[key] / value
                self.date_avg_spd.update({key:avg_spd})
        self.date_avg_spd = collections.OrderedDict(sorted(self.date_avg_spd.items()))
        self.date_distance = collections.OrderedDict(sorted(self.date_distance.items()))
        self.last_n_days_diag_file = "distance_last_{}_days.png".format(n)
        self.plot_last_n_days(n)
        self.write_html_file()
--- a/input_observer/init.py
+++ b/input_observer/init.py
@ -0,0 +1,31 @@
 from watchdog.events import PatternMatchingEventHandler
 import threading
 class InputObserver(PatternMatchingEventHandler):
    def __init__(self, patterns=None, ignore_patterns=None,
                 ignore_directories=False, case_sensitive=False):
        super(InputObserver, self).__init__(patterns, ignore_patterns,
                                            ignore_directories, case_sensitive)
        self.lock = threading.Lock()
        self.lock.acquire()
        self.new_filename = None
        self.run_condition = True
    def on_created(self, event):
        self.new_filename = event.src_path
        self.lock.release()
    def get_new_file(self):
        self.lock.acquire() # don't release - will be released with next on_created
        if self.run_condition == True:
            return self.new_filename
        else:
            return None
    def stop(self):
        self.run_condition = False
        self.lock.release()
--- a/setup.py
+++ b/setup.py
@ -10,7 +10,7 @@ NAME = 'bicycle-statistics'
 VERSION = '0.1.0'
 AUTHOR = 'Thomas Klaehn'
 EMAIL = 'tkl@blackfinn.de'
-PACKAGES = [NAME, 'gpx_parser', 'gpx2html']
+PACKAGES = ['bicycle_statistics', 'gpx_parser', 'gpx2html', 'input_observer']
 SCRIPTS = ['example-gpx-parser', 'bicycle-stat']
 DAEMON_START_SCRIPT = os.path.join("/lib/systemd/system", "bicycle-stat.service")