def __init__(self) -> None: self._athlete: typing.Optional[str] = None self._title: typing.Optional[str] = None self.tracks_by_date: typing.Dict[ str, typing.List[Track]] = defaultdict(list) self.tracks: typing.List[Track] = [] self.length_range = QuantityRange() self.length_range_by_date = QuantityRange() self.total_length_year_dict: typing.Dict[ int, pint.quantity.Quantity] = defaultdict(int) self.units = "metric" self.colors = { "background": "#222222", "text": "#FFFFFF", "special": "#FFFF00", "track": "#4DD2FF", } self.special_distance: typing.Dict[str, float] = { "special_distance1": 10, "special_distance2": 20 } self.width = 200 self.height = 300 self.years = YearRange() self.tracks_drawer: typing.Optional["TracksDrawer"] = None self._trans: typing.Optional[typing.Callable[[str], str]] = None self.set_language(None)
def __init__(self) -> None: self._min_length: pint.quantity.Quantity = 1 * Units().km self.special_file_names: typing.List[str] = [] self.year_range = YearRange() self.cache_dir: typing.Optional[str] = None self.strava_cache_file = "" self._cache_file_names: typing.Dict[str, str] = {}
def __init__(self, workers: typing.Optional[int]) -> None: self._workers = workers self._min_length: pint.quantity.Quantity = 1 * Units().km self.special_file_names: typing.List[str] = [] self.year_range = YearRange() self.cache_dir: typing.Optional[str] = None self.strava_cache_file = "" self._cache_file_names: typing.Dict[str, str] = {} self._activity_type: str = "all"
def __compute_years(self, tracks): if self.years is not None: return self.years = YearRange() for t in tracks: self.years.add(t.start_time)
class Poster: """Create a poster from track data. Attributes: athlete: Name of athlete to be displayed on poster. title: Title of poster. tracks_by_date: Tracks organized temporally if needed. tracks: List of tracks to be used in the poster. length_range: Range of lengths of tracks in poster. length_range_by_date: Range of lengths organized temporally. units: Length units to be used in poster. colors: Colors for various components of the poster. width: Poster width. height: Poster height. years: Years included in the poster. tracks_drawer: drawer used to draw the poster. Methods: set_tracks: Associate the Poster with a set of tracks draw: Draw the tracks on the poster. m2u: Convert meters to kilometers or miles based on units u: Return distance unit (km or mi) """ def __init__(self): self.athlete = None self.title = None self.tracks_by_date = {} self.tracks = [] self.length_range = None self.length_range_by_date = None self.units = "metric" self.colors = { "background": "#222222", "text": "#FFFFFF", "special": "#FFFF00", "track": "#4DD2FF", } self.special_distance = { "special_distance1": "10", "special_distance2": "20" } self.width = 200 self.height = 300 self.years = None self.tracks_drawer = None self.trans = None self.set_language(None) def set_language(self, language): if language: try: locale.setlocale(locale.LC_ALL, f"{language}.utf8") except locale.Error as e: print(f'Cannot set locale to "{language}": {e}') language = None pass # Fall-back to NullTranslations, if the specified language translation cannot be found. if language: lang = gettext.translation("gpxposter", localedir="locale", languages=[language], fallback=True) else: lang = gettext.NullTranslations() self.trans = lang.gettext def set_tracks(self, tracks): """Associate the set of tracks with this poster. In addition to setting self.tracks, also compute the necessary attributes for the Poster based on this set of tracks. """ self.tracks = tracks self.tracks_by_date = {} self.length_range = ValueRange() self.length_range_by_date = ValueRange() self.__compute_years(tracks) for track in tracks: if not self.years.contains(track.start_time): continue text_date = track.start_time.strftime("%Y-%m-%d") if text_date in self.tracks_by_date: self.tracks_by_date[text_date].append(track) else: self.tracks_by_date[text_date] = [track] self.length_range.extend(track.length) for tracks in self.tracks_by_date.values(): length = sum([t.length for t in tracks]) self.length_range_by_date.extend(length) def draw(self, drawer, output): """Set the Poster's drawer and draw the tracks.""" self.tracks_drawer = drawer d = svgwrite.Drawing(output, (f"{self.width}mm", f"{self.height}mm")) d.viewbox(0, 0, self.width, self.height) d.add( d.rect((0, 0), (self.width, self.height), fill=self.colors["background"])) self.__draw_header(d) self.__draw_footer(d) self.__draw_tracks(d, XY(self.width - 20, self.height - 30 - 30), XY(10, 30)) d.save() def m2u(self, m): """Convert meters to kilometers or miles, according to units.""" if self.units == "metric": return 0.001 * m return 0.001 * m / 1.609344 def u(self): """Return the unit of distance being used on the Poster.""" if self.units == "metric": return "km" return "mi" def format_distance(self, d: float) -> str: """Formats a distance using the locale specific float format and the selected unit.""" return format_float(self.m2u(d)) + " " + self.u() def __draw_tracks(self, d, size: XY, offset: XY): self.tracks_drawer.draw(d, size, offset) def __draw_header(self, d): text_color = self.colors["text"] title_style = "font-size:12px; font-family:Arial; font-weight:bold;" d.add( d.text(self.title, insert=(10, 20), fill=text_color, style=title_style)) def __draw_footer(self, d): text_color = self.colors["text"] header_style = "font-size:4px; font-family:Arial" value_style = "font-size:9px; font-family:Arial" small_value_style = "font-size:3px; font-family:Arial" ( total_length, average_length, min_length, max_length, weeks, ) = self.__compute_track_statistics() d.add( d.text( self.trans("ATHLETE"), insert=(10, self.height - 20), fill=text_color, style=header_style, )) d.add( d.text( self.athlete, insert=(10, self.height - 10), fill=text_color, style=value_style, )) d.add( d.text( self.trans("STATISTICS"), insert=(120, self.height - 20), fill=text_color, style=header_style, )) d.add( d.text( self.trans("Number") + f": {len(self.tracks)}", insert=(120, self.height - 15), fill=text_color, style=small_value_style, )) d.add( d.text( self.trans("Weekly") + ": " + format_float(len(self.tracks) / weeks), insert=(120, self.height - 10), fill=text_color, style=small_value_style, )) d.add( d.text( self.trans("Total") + ": " + self.format_distance(total_length), insert=(139, self.height - 15), fill=text_color, style=small_value_style, )) d.add( d.text( self.trans("Avg") + ": " + self.format_distance(average_length), insert=(139, self.height - 10), fill=text_color, style=small_value_style, )) d.add( d.text( self.trans("Min") + ": " + self.format_distance(min_length), insert=(167, self.height - 15), fill=text_color, style=small_value_style, )) d.add( d.text( self.trans("Max") + ": " + self.format_distance(max_length), insert=(167, self.height - 10), fill=text_color, style=small_value_style, )) def __compute_track_statistics(self): length_range = ValueRange() total_length = 0 total_length_year_dict = defaultdict(int) weeks = {} for t in self.tracks: total_length += t.length total_length_year_dict[t.start_time.year] += t.length length_range.extend(t.length) # time.isocalendar()[1] -> week number weeks[(t.start_time.year, t.start_time.isocalendar()[1])] = 1 self.total_length_year_dict = total_length_year_dict return ( total_length, total_length / len(self.tracks), length_range.lower(), length_range.upper(), len(weeks), ) def __compute_years(self, tracks): if self.years is not None: return self.years = YearRange() for t in tracks: self.years.add(t.start_time)
class Poster: """Create a poster from track data. Attributes: athlete: Name of athlete to be displayed on poster. title: Title of poster. tracks_by_date: Tracks organized temporally if needed. tracks: List of tracks to be used in the poster. length_range: Range of lengths of tracks in poster. length_range_by_date: Range of lengths organized temporally. units: Length units to be used in poster. colors: Colors for various components of the poster. width: Poster width. height: Poster height. years: Years included in the poster. tracks_drawer: drawer used to draw the poster. Methods: set_tracks: Associate the Poster with a set of tracks draw: Draw the tracks on the poster. m2u: Convert meters to kilometers or miles based on units u: Return distance unit (km or mi) """ def __init__(self) -> None: self._athlete: typing.Optional[str] = None self._title: typing.Optional[str] = None self.tracks_by_date: typing.Dict[str, typing.List[Track]] = defaultdict(list) self.tracks: typing.List[Track] = [] self.length_range = QuantityRange() self.length_range_by_date = QuantityRange() self.total_length_year_dict: typing.Dict[int, pint.quantity.Quantity] = defaultdict(int) self.units = "metric" self.colors = { "background": "#222222", "text": "#FFFFFF", "special": "#FFFF00", "track": "#4DD2FF", } self.special_distance: typing.Dict[str, float] = {"special_distance1": 10, "special_distance2": 20} self.width = 200 self.height = 300 self.years = YearRange() self.tracks_drawer: typing.Optional["TracksDrawer"] = None self._trans: typing.Optional[typing.Callable[[str], str]] = None self.set_language(None, None) def set_language(self, language: typing.Optional[str], localedir: typing.Optional[str]) -> None: if language: try: locale.setlocale(locale.LC_ALL, f"{language}.utf8") except locale.Error as e: log.warning("Unable to set the locale to %s (%s)", language, str(e)) language = None # Fall-back to NullTranslations, if the specified language translation cannot be found. if language: lang = gettext.translation("gpxposter", localedir=localedir, languages=[language], fallback=True) if len(lang.info()) == 0: log.warning( "Unable to load translations for %s from %s; falling back to the default translation.", language, localedir if localedir else "the system's default locale directory", ) else: lang = gettext.NullTranslations() self._trans = lang.gettext def translate(self, s: str) -> str: if self._trans is None: return s return self._trans(s) def month_name(self, month: int) -> str: assert 1 <= month <= 12 return [ self.translate("January"), self.translate("February"), self.translate("March"), self.translate("April"), self.translate("May"), self.translate("June"), self.translate("July"), self.translate("August"), self.translate("September"), self.translate("October"), self.translate("November"), self.translate("December"), ][month - 1] def set_athlete(self, athlete: str) -> None: self._athlete = athlete def set_title(self, title: str) -> None: self._title = title def set_tracks(self, tracks: typing.List[Track]) -> None: """Associate the set of tracks with this poster. In addition to setting self.tracks, also compute the necessary attributes for the Poster based on this set of tracks. """ self.tracks = tracks self.tracks_by_date.clear() self.length_range.clear() self.length_range_by_date.clear() self._compute_years(tracks) for track in tracks: if not self.years.contains(track.start_time()): continue text_date = track.start_time().strftime("%Y-%m-%d") self.tracks_by_date[text_date].append(track) self.length_range.extend(track.length()) for date_tracks in self.tracks_by_date.values(): length = sum([t.length() for t in date_tracks]) self.length_range_by_date.extend(length) def draw(self, drawer: "TracksDrawer", output: str) -> None: """Set the Poster's drawer and draw the tracks.""" self.tracks_drawer = drawer d = svgwrite.Drawing(output, (f"{self.width}mm", f"{self.height}mm")) d.viewbox(0, 0, self.width, self.height) d.add(d.rect((0, 0), (self.width, self.height), fill=self.colors["background"])) self._draw_header(d) self._draw_footer(d) self._draw_tracks(d, XY(self.width - 20, self.height - 30 - 30), XY(10, 30)) d.save() def m2u(self, m: pint.quantity.Quantity) -> float: """Convert meters to kilometers or miles, according to units.""" if self.units == "metric": return m.m_as(Units().km) return m.m_as(Units().mile) def u(self) -> str: """Return the unit of distance being used on the Poster.""" if self.units == "metric": return self.translate("km") return self.translate("mi") def format_distance(self, d: pint.quantity.Quantity) -> str: """Formats a distance using the locale specific float format and the selected unit.""" return format_float(self.m2u(d)) + " " + self.u() def _draw_tracks(self, d: svgwrite.Drawing, size: XY, offset: XY) -> None: assert self.tracks_drawer g = d.g(id="tracks") d.add(g) self.tracks_drawer.draw(d, g, size, offset) def _draw_header(self, d: svgwrite.Drawing) -> None: g = d.g(id="header") d.add(g) text_color = self.colors["text"] title_style = "font-size:12px; font-family:Arial; font-weight:bold;" assert self._title is not None g.add(d.text(self._title, insert=(10, 20), fill=text_color, style=title_style)) def _draw_footer(self, d: svgwrite.Drawing) -> None: g = d.g(id="footer") d.add(g) text_color = self.colors["text"] header_style = "font-size:4px; font-family:Arial" value_style = "font-size:9px; font-family:Arial" small_value_style = "font-size:3px; font-family:Arial" ( total_length, average_length, length_range, weeks, ) = self._compute_track_statistics() g.add( d.text( self.translate("ATHLETE"), insert=(10, self.height - 20), fill=text_color, style=header_style, ) ) g.add( d.text( self._athlete, insert=(10, self.height - 10), fill=text_color, style=value_style, ) ) g.add( d.text( self.translate("STATISTICS"), insert=(120, self.height - 20), fill=text_color, style=header_style, ) ) g.add( d.text( self.translate("Number") + f": {len(self.tracks)}", insert=(120, self.height - 15), fill=text_color, style=small_value_style, ) ) g.add( d.text( self.translate("Weekly") + ": " + format_float(len(self.tracks) / weeks), insert=(120, self.height - 10), fill=text_color, style=small_value_style, ) ) g.add( d.text( self.translate("Total") + ": " + self.format_distance(total_length), insert=(141, self.height - 15), fill=text_color, style=small_value_style, ) ) g.add( d.text( self.translate("Avg") + ": " + self.format_distance(average_length), insert=(141, self.height - 10), fill=text_color, style=small_value_style, ) ) if length_range.is_valid(): min_length = length_range.lower() max_length = length_range.upper() assert min_length is not None assert max_length is not None else: min_length = 0.0 max_length = 0.0 g.add( d.text( self.translate("Min") + ": " + self.format_distance(min_length), insert=(167, self.height - 15), fill=text_color, style=small_value_style, ) ) g.add( d.text( self.translate("Max") + ": " + self.format_distance(max_length), insert=(167, self.height - 10), fill=text_color, style=small_value_style, ) ) def _compute_track_statistics( self, ) -> typing.Tuple[pint.quantity.Quantity, pint.quantity.Quantity, QuantityRange, int]: length_range = QuantityRange() total_length = 0.0 * Units().meter self.total_length_year_dict.clear() weeks = {} for t in self.tracks: total_length += t.length() self.total_length_year_dict[t.start_time().year] += t.length() length_range.extend(t.length()) # time.isocalendar()[1] -> week number weeks[(t.start_time().year, t.start_time().isocalendar()[1])] = 1 return ( total_length, total_length / len(self.tracks), length_range, len(weeks), ) def _compute_years(self, tracks: typing.List[Track]) -> None: self.years.clear() for t in tracks: self.years.add(t.start_time())
class TrackLoader: """Handle the loading of tracks from cache and/or GPX files Attributes: min_length: All tracks shorter than this value are filtered out. special_file_names: Tracks marked as special in command line args year_range: All tracks outside of this range will be filtered out. cache_dir: Directory used to store cached tracks Methods: clear_cache: Remove cache directory load_tracks: Load all data from cache and GPX files """ def __init__(self, workers: typing.Optional[int]) -> None: self._workers = workers self._min_length: pint.quantity.Quantity = 1 * Units().km self.special_file_names: typing.List[str] = [] self.year_range = YearRange() self.cache_dir: typing.Optional[str] = None self.strava_cache_file = "" self._cache_file_names: typing.Dict[str, str] = {} def set_cache_dir(self, cache_dir: str) -> None: self.cache_dir = cache_dir def clear_cache(self) -> None: """Remove cache directory, if it exists""" if self.cache_dir is not None and os.path.isdir(self.cache_dir): log.info("Removing cache dir: %s", self.cache_dir) try: shutil.rmtree(self.cache_dir) except OSError as e: log.error("Failed: %s", str(e)) def set_min_length(self, min_length: pint.quantity.Quantity) -> None: self._min_length = min_length def load_tracks(self, base_dir: str) -> typing.List[Track]: """Load tracks base_dir and return as a List of tracks""" file_names = list(self._list_gpx_files(base_dir)) log.info("GPX files: %d", len(file_names)) tracks: typing.List[Track] = [] # load track from cache cached_tracks: typing.Dict[str, Track] = {} if self.cache_dir: log.info("Trying to load %d track(s) from cache...", len(file_names)) cached_tracks = self._load_tracks_from_cache(file_names) log.info("Loaded tracks from cache: %d", len(cached_tracks)) tracks = list(cached_tracks.values()) # load remaining gpx files remaining_file_names = [ f for f in file_names if f not in cached_tracks ] if remaining_file_names: log.info( "Trying to load %d track(s) from GPX files; this may take a while...", len(remaining_file_names)) timezone_adjuster = TimezoneAdjuster() loaded_tracks = self._load_tracks(remaining_file_names, timezone_adjuster) tracks.extend(loaded_tracks.values()) log.info("Conventionally loaded tracks: %d", len(loaded_tracks)) self._store_tracks_to_cache(loaded_tracks) return self._filter_and_merge_tracks(tracks) def load_strava_tracks(self, strava_config: str) -> typing.List[Track]: tracks = [] tracks_names = [] if self.cache_dir: self.strava_cache_file = os.path.join(self.cache_dir, strava_config) if os.path.isfile(self.strava_cache_file): with open(self.strava_cache_file) as f: strava_cache_data = json.load(f) tracks = [ self._strava_cache_to_track(i) for i in strava_cache_data ] tracks_names = [track.file_names[0] for track in tracks] with open(strava_config) as f: strava_data = json.load(f) filter_type = strava_data.pop("activity_type", None) client = Client() response = client.refresh_access_token(**strava_data) client.access_token = response["access_token"] filter_dict = {"before": datetime.datetime.utcnow()} if tracks: max_time = max(track.start_time() for track in tracks) filter_dict = {"after": max_time - datetime.timedelta(days=2)} for activity in client.get_activities(**filter_dict): # tricky to pass the timezone if str(activity.id) in tracks_names: continue if filter_type and activity.type not in ([ filter_type ] if isinstance(filter_type, str) else filter_type): # pylint: disable=superfluous-parens continue t = Track() t.load_strava(activity) tracks.append(t) self._store_strava_tracks_to_cache(tracks) return self._filter_and_merge_tracks(tracks) def _filter_tracks(self, tracks: typing.List[Track]) -> typing.List[Track]: filtered_tracks = [] for t in tracks: file_name = t.file_names[0] if t.length().magnitude == 0: log.info("%s: skipping empty track", file_name) elif not t.has_time(): log.info("%s: skipping track without start or end time", file_name) elif not self.year_range.contains(t.start_time()): log.info("%s: skipping track with wrong year %d", file_name, t.start_time().year) else: t.special = file_name in self.special_file_names filtered_tracks.append(t) return filtered_tracks def _filter_and_merge_tracks( self, tracks: typing.List[Track]) -> typing.List[Track]: tracks = self._filter_tracks(tracks) # merge tracks that took place within one hour tracks = self._merge_tracks(tracks) # filter out tracks with length < min_length return [t for t in tracks if t.length() >= self._min_length] @staticmethod def _merge_tracks(tracks: typing.List[Track]) -> typing.List[Track]: log.info("Merging tracks...") tracks = sorted(tracks, key=lambda t1: t1.start_time()) merged_tracks = [] last_end_time = None for t in tracks: if last_end_time is None: merged_tracks.append(t) else: dt = (t.start_time() - last_end_time).total_seconds() if 0 < dt < 3600: merged_tracks[-1].append(t) else: merged_tracks.append(t) last_end_time = t.end_time() log.info("Merged %d track(s)", len(tracks) - len(merged_tracks)) return merged_tracks def _load_tracks( self, file_names: typing.List[str], timezone_adjuster: TimezoneAdjuster) -> typing.Dict[str, Track]: tracks = {} if self._workers is not None and self._workers <= 1: for file_name in file_names: try: t = load_gpx_file(file_name, timezone_adjuster) except TrackLoadError as e: log.error("Error while loading %s: %s", file_name, str(e)) else: tracks[file_name] = t return tracks with concurrent.futures.ProcessPoolExecutor( max_workers=self._workers) as executor: future_to_file_name = { executor.submit(load_gpx_file, file_name, timezone_adjuster): file_name for file_name in file_names } for future in concurrent.futures.as_completed(future_to_file_name): file_name = future_to_file_name[future] try: t = future.result() except TrackLoadError as e: log.error("Error while loading %s: %s", file_name, str(e)) else: tracks[file_name] = t return tracks def _load_tracks_from_cache( self, file_names: typing.List[str]) -> typing.Dict[str, Track]: tracks = {} if self._workers is not None and self._workers <= 1: for file_name in file_names: try: t = load_cached_track_file( self._get_cache_file_name(file_name), file_name) except Exception: # silently ignore failed cache load attempts pass else: tracks[file_name] = t return tracks with concurrent.futures.ProcessPoolExecutor( max_workers=self._workers) as executor: future_to_file_name = { executor.submit(load_cached_track_file, self._get_cache_file_name(file_name), file_name): file_name for file_name in file_names } for future in concurrent.futures.as_completed(future_to_file_name): file_name = future_to_file_name[future] try: t = future.result() except Exception: # silently ignore failed cache load attempts pass else: tracks[file_name] = t return tracks def _store_tracks_to_cache(self, tracks: typing.Dict[str, Track]) -> None: if (not tracks) or (not self.cache_dir): return log.info("Storing %d track(s) to cache...", len(tracks)) for (file_name, t) in tracks.items(): try: t.store_cache(self._get_cache_file_name(file_name)) except Exception as e: log.error("Failed to store track %s to cache: %s", file_name, str(e)) else: log.info("Stored track %s to cache", file_name) def _store_strava_tracks_to_cache(self, tracks: typing.List[Track]) -> None: if (not tracks) or (not self.cache_dir): return dirname = os.path.dirname(self.strava_cache_file) if not os.path.exists(dirname): os.makedirs(dirname) log.info("Storing %d track(s) to cache...", len(tracks)) to_cache_tracks = [ self._make_strava_cache_dict(track) for track in tracks ] with open(self.strava_cache_file, "w") as f: json.dump(to_cache_tracks, f) @staticmethod def _make_strava_cache_dict(track: Track) -> typing.Dict[str, Any]: lines_data = [] for line in track.polylines: lines_data.append([{ "lat": latlng.lat().degrees, "lng": latlng.lng().degrees } for latlng in line]) return { "name": track.file_names[0], # strava id "start": track.start_time().strftime("%Y-%m-%d %H:%M:%S"), "end": track.end_time().strftime("%Y-%m-%d %H:%M:%S"), "length": track.length_meters, "segments": lines_data, } @staticmethod def _strava_cache_to_track(data: typing.Dict[str, Any]) -> "Track": t = Track() t.file_names = [data["name"]] t.set_start_time( datetime.datetime.strptime(data["start"], "%Y-%m-%d %H:%M:%S")) t.set_end_time( datetime.datetime.strptime(data["end"], "%Y-%m-%d %H:%M:%S")) t.length_meters = float(data["length"]) t.polylines = [] for data_line in data["segments"]: t.polylines.append([ s2sphere.LatLng.from_degrees(float(d["lat"]), float(d["lng"])) for d in data_line ]) return t @staticmethod def _list_gpx_files(base_dir: str) -> typing.Generator[str, None, None]: base_dir = os.path.abspath(base_dir) if not os.path.isdir(base_dir): raise ParameterError(f"Not a directory: {base_dir}") for name in os.listdir(base_dir): path_name = os.path.join(base_dir, name) if name.endswith(".gpx") and os.path.isfile(path_name): yield path_name def _get_cache_file_name(self, file_name: str) -> str: assert self.cache_dir if file_name in self._cache_file_names: return self._cache_file_names[file_name] try: checksum = hashlib.sha256(open(file_name, "rb").read()).hexdigest() except PermissionError as e: raise TrackLoadError( "Failed to compute checksum (bad permissions).") from e except Exception as e: raise TrackLoadError("Failed to compute checksum.") from e cache_file_name = os.path.join(self.cache_dir, f"{checksum}.json") self._cache_file_names[file_name] = cache_file_name return cache_file_name
def __init__(self): self.min_length = 1000 self.special_file_names = [] self.year_range = YearRange() self.cache_dir = None self._cache_file_names = {}
class TrackLoader: """Handle the loading of tracks from cache and/or GPX files Attributes: min_length: All tracks shorter than this value are filtered out. special_file_names: Tracks marked as special in command line args year_range: All tracks outside of this range will be filtered out. cache_dir: Directory used to store cached tracks Methods: clear_cache: Remove cache directory load_tracks: Load all data from cache and GPX files """ def __init__(self): self.min_length = 1000 self.special_file_names = [] self.year_range = YearRange() self.cache_dir = None self._cache_file_names = {} def clear_cache(self): """Remove cache directory, if it exists""" if os.path.isdir(self.cache_dir): log.info(f"Removing cache dir: {self.cache_dir}") try: shutil.rmtree(self.cache_dir) except OSError as e: log.error(f"Failed: {e}") def load_tracks(self, base_dir: str) -> List[Track]: """Load tracks base_dir and return as a List of tracks""" file_names = [x for x in self._list_gpx_files(base_dir)] log.info(f"GPX files: {len(file_names)}") tracks = [] # type: List[Track] # load track from cache cached_tracks = {} # type: Dict[str, Track] if self.cache_dir: log.info( f"Trying to load {len(file_names)} track(s) from cache...") cached_tracks = self._load_tracks_from_cache(file_names) log.info(f"Loaded tracks from cache: {len(cached_tracks)}") tracks = list(cached_tracks.values()) # load remaining gpx files remaining_file_names = [ f for f in file_names if f not in cached_tracks ] if remaining_file_names: log.info( f"Trying to load {len(remaining_file_names)} track(s) from GPX files; this may take a while..." ) loaded_tracks = self._load_tracks(remaining_file_names) tracks.extend(loaded_tracks.values()) log.info(f"Conventionally loaded tracks: {len(loaded_tracks)}") self._store_tracks_to_cache(loaded_tracks) tracks = self._filter_tracks(tracks) # merge tracks that took place within one hour tracks = self._merge_tracks(tracks) # filter out tracks with length < min_length return [t for t in tracks if t.length >= self.min_length] def _filter_tracks(self, tracks: List[Track]) -> List[Track]: filtered_tracks = [] for t in tracks: file_name = t.file_names[0] if t.length == 0: log.info(f"{file_name}: skipping empty track") elif not t.start_time: log.info(f"{file_name}: skipping track without start time") elif not self.year_range.contains(t.start_time): log.info( f"{file_name}: skipping track with wrong year {t.start_time.year}" ) else: t.special = file_name in self.special_file_names filtered_tracks.append(t) return filtered_tracks @staticmethod def _merge_tracks(tracks: List[Track]) -> List[Track]: log.info("Merging tracks...") tracks = sorted(tracks, key=lambda t1: t1.start_time) merged_tracks = [] last_end_time = None for t in tracks: if last_end_time is None: merged_tracks.append(t) else: dt = (t.start_time - last_end_time).total_seconds() if 0 < dt < 3600: merged_tracks[-1].append(t) else: merged_tracks.append(t) last_end_time = t.end_time log.info(f"Merged {len(tracks) - len(merged_tracks)} track(s)") return merged_tracks @staticmethod def _load_tracks(file_names: List[str]) -> Dict[str, Track]: tracks = {} with concurrent.futures.ProcessPoolExecutor() as executor: future_to_file_name = { executor.submit(load_gpx_file, file_name): file_name for file_name in file_names } for future in concurrent.futures.as_completed(future_to_file_name): file_name = future_to_file_name[future] try: t = future.result() except TrackLoadError as e: log.error(f"Error while loading {file_name}: {e}") else: tracks[file_name] = t return tracks def _load_tracks_from_cache(self, file_names: List[str]) -> Dict[str, Track]: tracks = {} with concurrent.futures.ProcessPoolExecutor() as executor: future_to_file_name = { executor.submit( load_cached_track_file, self._get_cache_file_name(file_name), file_name, ): file_name for file_name in file_names } for future in concurrent.futures.as_completed(future_to_file_name): file_name = future_to_file_name[future] try: t = future.result() except Exception: # silently ignore failed cache load attempts pass else: tracks[file_name] = t return tracks def _store_tracks_to_cache(self, tracks: Dict[str, Track]): if (not tracks) or (not self.cache_dir): return log.info(f"Storing {len(tracks)} track(s) to cache...") for (file_name, t) in tracks.items(): try: t.store_cache(self._get_cache_file_name(file_name)) except Exception as e: log.error(f"Failed to store track {file_name} to cache: {e}") else: log.info(f"Stored track {file_name} to cache") @staticmethod def _list_gpx_files(base_dir: str) -> Generator[str, None, None]: base_dir = os.path.abspath(base_dir) if not os.path.isdir(base_dir): raise ParameterError(f"Not a directory: {base_dir}") for name in os.listdir(base_dir): path_name = os.path.join(base_dir, name) if name.endswith(".gpx") and os.path.isfile(path_name): yield path_name def _get_cache_file_name(self, file_name: str) -> str: assert self.cache_dir if file_name in self._cache_file_names: return self._cache_file_names[file_name] try: checksum = hashlib.sha256(open(file_name, "rb").read()).hexdigest() except PermissionError as e: raise TrackLoadError( "Failed to compute checksum (bad permissions).") from e except Exception as e: raise TrackLoadError("Failed to compute checksum.") from e cache_file_name = os.path.join(self.cache_dir, f"{checksum}.json") self._cache_file_names[file_name] = cache_file_name return cache_file_name