from datetime import timedelta from typing import Any, Dict, List, Optional, Tuple import gpxpy.gpx from .exceptions import WorkoutGPXException from .utils_weather import get_weather def open_gpx_file(gpx_file: str) -> Optional[gpxpy.gpx.GPX]: gpx_file = open(gpx_file, 'r') # type: ignore gpx = gpxpy.parse(gpx_file) if len(gpx.tracks) == 0: return None return gpx def get_gpx_data( parsed_gpx: gpxpy.gpx, max_speed: float, start: int, stopped_time_between_seg: timedelta, ) -> Dict: """ Returns data from parsed gpx file """ gpx_data: Dict[str, Any] = { 'max_speed': (max_speed / 1000) * 3600, 'start': start, } duration = parsed_gpx.get_duration() gpx_data['duration'] = ( timedelta(seconds=duration) + stopped_time_between_seg ) ele = parsed_gpx.get_elevation_extremes() gpx_data['elevation_max'] = ele.maximum gpx_data['elevation_min'] = ele.minimum hill = parsed_gpx.get_uphill_downhill() gpx_data['uphill'] = hill.uphill gpx_data['downhill'] = hill.downhill mv = parsed_gpx.get_moving_data(stopped_speed_threshold=0.1) gpx_data['moving_time'] = timedelta(seconds=mv.moving_time) gpx_data['stop_time'] = ( timedelta(seconds=mv.stopped_time) + stopped_time_between_seg ) distance = mv.moving_distance + mv.stopped_distance gpx_data['distance'] = distance / 1000 average_speed = distance / mv.moving_time if mv.moving_time > 0 else 0 gpx_data['average_speed'] = (average_speed / 1000) * 3600 return gpx_data def get_gpx_info( gpx_file: str, update_map_data: Optional[bool] = True, update_weather_data: Optional[bool] = True, ) -> Tuple: """ Parse and return gpx, map and weather data from gpx file """ gpx = open_gpx_file(gpx_file) if gpx is None: raise WorkoutGPXException('not found', 'No gpx file') gpx_data = {'name': gpx.tracks[0].name, 'segments': []} max_speed = 0 start = 0 map_data = [] weather_data = [] segments_nb = len(gpx.tracks[0].segments) prev_seg_last_point = None no_stopped_time = timedelta(seconds=0) stopped_time_between_seg = no_stopped_time for segment_idx, segment in enumerate(gpx.tracks[0].segments): segment_start = 0 segment_points_nb = len(segment.points) for point_idx, point in enumerate(segment.points): if point_idx == 0: # first gpx point => get weather if start == 0: start = point.time if update_weather_data: weather_data.append(get_weather(point)) # if a previous segment exists, calculate stopped time between # the two segments if prev_seg_last_point: stopped_time_between_seg = point.time - prev_seg_last_point # last segment point if point_idx == (segment_points_nb - 1): prev_seg_last_point = point.time # last gpx point => get weather if segment_idx == (segments_nb - 1) and update_weather_data: weather_data.append(get_weather(point)) if update_map_data: map_data.append([point.longitude, point.latitude]) segment_max_speed = ( segment.get_moving_data(stopped_speed_threshold=0.1).max_speed if segment.get_moving_data(stopped_speed_threshold=0.1).max_speed else 0 ) if segment_max_speed > max_speed: max_speed = segment_max_speed segment_data = get_gpx_data( segment, segment_max_speed, segment_start, no_stopped_time ) segment_data['idx'] = segment_idx gpx_data['segments'].append(segment_data) full_gpx_data = get_gpx_data( gpx, max_speed, start, stopped_time_between_seg ) gpx_data = {**gpx_data, **full_gpx_data} if update_map_data: bounds = gpx.get_bounds() gpx_data['bounds'] = [ bounds.min_latitude, bounds.min_longitude, bounds.max_latitude, bounds.max_longitude, ] return gpx_data, map_data, weather_data def get_gpx_segments( track_segments: List, segment_id: Optional[int] = None ) -> List: """ Return list of segments, filtered on segment id if provided """ if segment_id is not None: segment_index = segment_id - 1 if segment_index > (len(track_segments) - 1): raise WorkoutGPXException( 'not found', f'No segment with id \'{segment_id}\'', None ) if segment_index < 0: raise WorkoutGPXException('error', 'Incorrect segment id', None) segments = [track_segments[segment_index]] else: segments = track_segments return segments def get_chart_data( gpx_file: str, segment_id: Optional[int] = None ) -> Optional[List]: """ Return data needed to generate chart with speed and elevation """ gpx = open_gpx_file(gpx_file) if gpx is None: return None chart_data = [] first_point = None previous_point = None previous_distance = 0 track_segments = gpx.tracks[0].segments segments = get_gpx_segments(track_segments, segment_id) for segment_idx, segment in enumerate(segments): for point_idx, point in enumerate(segment.points): if segment_idx == 0 and point_idx == 0: first_point = point distance = ( point.distance_3d(previous_point) if ( point.elevation and previous_point and previous_point.elevation ) else point.distance_2d(previous_point) ) distance = 0 if distance is None else distance distance += previous_distance speed = ( round((segment.get_speed(point_idx) / 1000) * 3600, 2) if segment.get_speed(point_idx) is not None else 0 ) chart_data.append( { 'distance': ( round(distance / 1000, 2) if distance is not None else 0 ), 'duration': point.time_difference(first_point), 'elevation': ( round(point.elevation, 1) if point.elevation is not None else 0 ), 'latitude': point.latitude, 'longitude': point.longitude, 'speed': speed, 'time': point.time, } ) previous_point = point previous_distance = distance return chart_data def extract_segment_from_gpx_file( content: str, segment_id: int ) -> Optional[str]: """ Returns segments in xml format from a gpx file content """ gpx_content = gpxpy.parse(content) if len(gpx_content.tracks) == 0: return None track_segment = get_gpx_segments( gpx_content.tracks[0].segments, segment_id ) gpx = gpxpy.gpx.GPX() gpx_track = gpxpy.gpx.GPXTrack() gpx.tracks.append(gpx_track) gpx_segment = gpxpy.gpx.GPXTrackSegment() gpx_track.segments.append(gpx_segment) for point_idx, point in enumerate(track_segment[0].points): gpx_segment.points.append( gpxpy.gpx.GPXTrackPoint( point.latitude, point.longitude, elevation=point.elevation ) ) return gpx.to_xml()