def parse_seeyou_waypoints(lines): waypoint_list = WaypointList() first = True for line in lines: if first: first = False continue line = line.strip() if line == '' or line.startswith('*'): continue if line == '-----Related Tasks-----': break fields = [] line = __CSVLine(line) while line.has_next(): fields.append(line.next()) if len(fields) < 6: continue wp = Waypoint() wp.lat = __parse_coordinate(fields[3]); wp.lon = __parse_coordinate(fields[4]); wp.altitude = __parse_altitude(fields[5]); wp.name = fields[0].strip(); waypoint_list.append(wp) return waypoint_list
def parse_winpilot_waypoints(lines): waypoint_list = WaypointList() for line in lines: line = line.strip() if line == '' or line.startswith('*'): continue fields = line.split(',') if len(fields) < 6: continue wp = Waypoint() wp.lat = __parse_coordinate(fields[1]); wp.lon = __parse_coordinate(fields[2]); wp.altitude = __parse_altitude(fields[3]); wp.name = fields[5].strip(); waypoint_list.append(wp) return waypoint_list
def parse_seeyou_waypoints(lines): waypoint_list = WaypointList() first = True for line in lines: if first: first = False continue line = line.strip() if line == '' or line.startswith('*'): continue if line == '-----Related Tasks-----': break fields = [] line = __CSVLine(line) while line.has_next(): fields.append(line.next()) if len(fields) < 6: continue wp = Waypoint() wp.lat = __parse_coordinate(fields[3]) wp.lon = __parse_coordinate(fields[4]) wp.altitude = __parse_altitude(fields[5]) wp.name = fields[0].strip() waypoint_list.append(wp) return waypoint_list
def __parse_line(line, bounds = None): # Ignore comments if line.startswith('$'): return None # Parse latitude lat = line[45:52] lat_neg = lat.startswith('S') lat = float(lat[1:3]) + float(lat[3:5]) / 60. + float(lat[5:7]) / 3600. if lat_neg: lat = -lat if bounds and (lat > bounds.top or lat < bounds.bottom): return None # Parse longitude lon = line[52:60] lon_neg = lon.startswith('W') lon = float(lon[1:4]) + float(lon[4:6]) / 60. + float(lon[6:8]) / 3600. if lon_neg: lon = -lon if bounds and (lon > bounds.right or lon < bounds.left): return None # Create waypoint instance wp = Waypoint() wp.lat = lat wp.lon = lon # Parse elevation elev = line[41:45].strip() if elev != '': wp.altitude = float(elev) else: wp.altitude = 0.0 # Extract short name wp.short_name = line[:6].strip() # Parse and strip optional type identifier from short name if wp.short_name.endswith('1'): wp.type = 'airport' wp.short_name = wp.short_name[:5] elif wp.short_name.endswith('2'): wp.type = 'outlanding' wp.short_name = wp.short_name[:5] # Extract waypoint name wp.name = line[7:41].strip() # Check for extra data indicator if '*' in wp.name or '#' in wp.name: # Split data from waypoint name data = wp.name[17:] wp.name = wp.name[:16].strip() # Check waypoint name for glider site indicator if wp.name.endswith('GLD'): wp.name = wp.name[:-3].strip() wp.type = 'glider_site' # Extract ICAO code if possible icao = data[:4].strip('!? ') # Check icao code field for glider site indicator if icao == 'GLD': wp.type = 'glider_site' # Check icao code field for ultra light indicator if icao == 'ULM' and not wp.type: wp.type = 'ulm' # Save ICAO code if len(icao) == 4: wp.icao = icao # Extract and parse surface character if data[4:5] == 'A': wp.surface = 'asphalt' elif data[4:5] == 'C': wp.surface = 'concrete' elif data[4:5] == 'L': wp.surface = 'loam' elif data[4:5] == 'S': wp.surface = 'sand' elif data[4:5] == 'Y': wp.surface = 'clay' elif data[4:5] == 'G': wp.surface = 'gras' elif data[4:5] == 'V': wp.surface = 'gravel' elif data[4:5] == 'D': wp.surface = 'dirt' # Extract and parse runway length and direction runway_len = data[5:8].strip() if runway_len != '': wp.runway_len = int(runway_len) * 10 runway_dir = data[8:10].strip() if runway_dir != '': wp.runway_dir = int(runway_dir) * 10 # Extract and parse radio frequency freq = data[12:17].strip() if len(freq) == 5: if freq.endswith('2') or freq.endswith('7'): freq += '5' else: freq += '0' wp.freq = float(freq) / 1000. # Strip uninvited characters from waypoint name wp.name = wp.name.rstrip('!?1 ') # Find waypoint type from waypoint name if not available yet if not wp.type: if re.search('(^|\s)BERG($|\s)', wp.name): wp.type = 'mountain top' if re.search('(^|\s)COL($|\s)', wp.name): wp.type = 'mountain pass' if re.search('(^|\s)PASS($|\s)', wp.name): wp.type = 'mountain pass' if re.search('(^|\s)TOP($|\s)', wp.name): wp.type = 'mountain top' if re.search('(\s)A(\d){0,3}($|\s)', wp.name): wp.type = 'highway exit' if re.search('(\s)AB(\d){0,3}($|\s)', wp.name): wp.type = 'highway exit' if re.search('(\s)BAB(\d){0,3}($|\s)', wp.name): wp.type = 'highway exit' if re.search('(\s)(\w){0,3}XA(\d){0,3}($|\s)', wp.name): wp.type = 'highway cross' if re.search('(\s)(\w){0,3}YA(\d){0,3}($|\s)', wp.name): wp.type = 'highway junction' if re.search('(\s)STR($|\s)', wp.name): wp.type = 'road' if re.search('(\s)SX($|\s)', wp.name): wp.type = 'road cross' if re.search('(\s)SY($|\s)', wp.name): wp.type = 'road junction' if re.search('(\s)EX($|\s)', wp.name): wp.type = 'railway cross' if re.search('(\s)EY($|\s)', wp.name): wp.type = 'railway junction' if re.search('(\s)TR($|\s)', wp.name): wp.type = 'gas station' if re.search('(\s)BF($|\s)', wp.name): wp.type = 'railway station' if re.search('(\s)RS($|\s)', wp.name): wp.type = 'railway station' if re.search('(\s)BR($|\s)', wp.name): wp.type = 'bridge' if re.search('(\s)TV($|\s)', wp.name): wp.type = 'tower' if re.search('(\s)KW($|\s)', wp.name): wp.type = 'powerplant' # Format waypoint name properly wp.name = wp.name.title() # Strip duplicate spaces from waypoint name while ' ' in wp.name: wp.name = wp.name.replace(' ', ' ') # Extract country code wp.country_code = line[60:62].strip(); return wp
def __parse_line(line, bounds = None): if line.startswith('$'): return None lat = line[45:52] lat_neg = lat.startswith('S') lat = float(lat[1:3]) + float(lat[3:5]) / 60. + float(lat[5:7]) / 3600. if lat_neg: lat = -lat if bounds and (lat > bounds.top or lat < bounds.bottom): return None lon = line[52:60] lon_neg = lon.startswith('W') lon = float(lon[1:4]) + float(lon[4:6]) / 60. + float(lon[6:8]) / 3600. if lon_neg: lon = -lon if bounds and (lon > bounds.right or lon < bounds.left): return None wp = Waypoint() wp.lat = lat wp.lon = lon elev = line[41:45].strip() if elev != '': wp.altitude = float(elev) else: wp.altitude = 0.0 wp.short_name = line[:6] if wp.short_name.endswith('1'): wp.type = 'airport' elif wp.short_name.endswith('2'): wp.type = 'outlanding' wp.short_name = wp.short_name.strip() wp.name = line[7:41].strip() if 'GLD' in wp.name: wp.type = 'glider_site' if 'ULM' in wp.name: wp.type = 'ulm' pos = -1 if '#' in wp.name: pos = wp.name.find('#') if '*' in wp.name: pos = wp.name.find('*') if pos > -1: data = wp.name[pos + 1:] wp.name = wp.name[:pos].strip() icao = data[:4] if not icao.startswith('GLD') and not icao.startswith('ULM'): wp.icao = icao if data[4:5] == 'A': wp.surface = 'asphalt' elif data[4:5] == 'C': wp.surface = 'concrete' elif data[4:5] == 'L': wp.surface = 'loam' elif data[4:5] == 'S': wp.surface = 'sand' elif data[4:5] == 'Y': wp.surface = 'clay' elif data[4:5] == 'G': wp.surface = 'gras' elif data[4:5] == 'V': wp.surface = 'gravel' elif data[4:5] == 'D': wp.surface = 'dirt' runway_len = data[5:8].strip() if runway_len != '': wp.runway_len = int(runway_len) * 10 runway_dir = data[8:10].strip() if runway_dir != '': wp.runway_dir = int(runway_dir) * 10 freq = data[12:17].strip() if len(freq) == 5: if freq.endswith('2') or freq.endswith('7'): freq += '5' else: freq += '0' wp.freq = float(freq) / 1000. if wp.name.endswith('GLD'): wp.name = wp.name[:-3].strip() else: wp.name = wp.name.rstrip('!?1 ') if re.search('(^|\s)BERG($|\s)', wp.name): wp.type = 'mountain top' if re.search('(^|\s)COL($|\s)', wp.name): wp.type = 'mountain pass' if re.search('(^|\s)PASS($|\s)', wp.name): wp.type = 'mountain pass' if re.search('(^|\s)TOP($|\s)', wp.name): wp.type = 'mountain top' if re.search('(\s)A(\d){0,3}($|\s)', wp.name): wp.type = 'highway exit' if re.search('(\s)AB(\d){0,3}($|\s)', wp.name): wp.type = 'highway exit' if re.search('(\s)BAB(\d){0,3}($|\s)', wp.name): wp.type = 'highway exit' if re.search('(\s)(\w){0,3}XA(\d){0,3}($|\s)', wp.name): wp.type = 'highway cross' if re.search('(\s)(\w){0,3}YA(\d){0,3}($|\s)', wp.name): wp.type = 'highway junction' if re.search('(\s)STR($|\s)', wp.name): wp.type = 'road' if re.search('(\s)SX($|\s)', wp.name): wp.type = 'road cross' if re.search('(\s)SY($|\s)', wp.name): wp.type = 'road junction' if re.search('(\s)EX($|\s)', wp.name): wp.type = 'railway cross' if re.search('(\s)EY($|\s)', wp.name): wp.type = 'railway junction' if re.search('(\s)TR($|\s)', wp.name): wp.type = 'gas station' if re.search('(\s)BF($|\s)', wp.name): wp.type = 'railway station' if re.search('(\s)RS($|\s)', wp.name): wp.type = 'railway station' if re.search('(\s)BR($|\s)', wp.name): wp.type = 'bridge' if re.search('(\s)TV($|\s)', wp.name): wp.type = 'tower' if re.search('(\s)KW($|\s)', wp.name): wp.type = 'powerplant' wp.name = wp.name.title() while ' ' in wp.name: wp.name = wp.name.replace(' ', ' ') wp.country_code = line[60:62].strip(); return wp
def parse_seeyou_waypoints(lines, bounds = None): waypoint_list = WaypointList() first = True for line in lines: if first: first = False continue line = line.strip() if line == '' or line.startswith('*'): continue if line == '-----Related Tasks-----': break fields = [] line = __CSVLine(line) while line.has_next(): fields.append(line.next()) if len(fields) < 6: continue lat = __parse_coordinate(fields[3]); if bounds and (lat > bounds.top or lat < bounds.bottom): continue lon = __parse_coordinate(fields[4]); if bounds and (lon > bounds.right or lon < bounds.left): continue wp = Waypoint() wp.lat = lat; wp.lon = lon; wp.altitude = __parse_altitude(fields[5]); wp.name = fields[0].strip(); wp.country_code = fields[2].strip(); if len(fields) > 6 and len(fields[6]) > 0: wp.cup_type = int(fields[6]) if len(fields) > 7 and len(fields[7]) > 0: wp.runway_dir = int(fields[7]); if len(fields) > 8 and len(fields[8]) > 0: wp.runway_len = __parse_length(fields[8]); if len(fields) > 9 and len(fields[9]) > 0: wp.freq = float(fields[9]); if len(fields) > 10 and len(fields[10]) > 0: wp.comment = fields[10].strip(); waypoint_list.append(wp) return waypoint_list
def parse_seeyou_waypoints(lines, bounds=None): waypoint_list = WaypointList() first = True for line in lines: if first: first = False continue line = line.strip() if line == '' or line.startswith('*'): continue if line == '-----Related Tasks-----': break fields = [] line = __CSVLine(line) while line.has_next(): fields.append(line.next()) if len(fields) < 6: continue lat = __parse_coordinate(fields[3]) if bounds and (lat > bounds.top or lat < bounds.bottom): continue lon = __parse_coordinate(fields[4]) if bounds and (lon > bounds.right or lon < bounds.left): continue wp = Waypoint() wp.lat = lat wp.lon = lon wp.altitude = __parse_altitude(fields[5]) wp.name = fields[0].strip() wp.country_code = fields[2].strip() if len(fields) > 6 and len(fields[6]) > 0: wp.cup_type = int(fields[6]) if len(fields) > 7 and len(fields[7]) > 0: wp.runway_dir = int(fields[7]) if len(fields) > 8 and len(fields[8]) > 0: wp.runway_len = __parse_length(fields[8]) if len(fields) > 9 and len(fields[9]) > 0: wp.freq = float(fields[9]) if len(fields) > 10 and len(fields[10]) > 0: wp.comment = fields[10].strip() waypoint_list.append(wp) return waypoint_list
def __parse_line(line, bounds=None): # Ignore comments if line.startswith('$'): return None # Parse latitude lat = line[45:52] lat_neg = lat.startswith('S') lat = float(lat[1:3]) + float(lat[3:5]) / 60. + float(lat[5:7]) / 3600. if lat_neg: lat = -lat if bounds and (lat > bounds.top or lat < bounds.bottom): return None # Parse longitude lon = line[52:60] lon_neg = lon.startswith('W') lon = float(lon[1:4]) + float(lon[4:6]) / 60. + float(lon[6:8]) / 3600. if lon_neg: lon = -lon if bounds and (lon > bounds.right or lon < bounds.left): return None # Create waypoint instance wp = Waypoint() wp.lat = lat wp.lon = lon # Parse elevation elev = line[41:45].strip() if elev != '': wp.altitude = float(elev) else: wp.altitude = 0.0 # Extract short name wp.short_name = line[:6].strip() # Parse and strip optional type identifier from short name if wp.short_name.endswith('1'): wp.type = 'airport' wp.short_name = wp.short_name[:5] elif wp.short_name.endswith('2'): wp.type = 'outlanding' wp.short_name = wp.short_name[:5] # Extract waypoint name wp.name = line[7:41].strip() # Check for extra data indicator if '*' in wp.name or '#' in wp.name: # Split data from waypoint name data = wp.name[17:] wp.name = wp.name[:16].strip() # Check waypoint name for glider site indicator if wp.name.endswith('GLD'): wp.name = wp.name[:-3].strip() wp.type = 'glider_site' # Extract ICAO code if possible icao = data[:4].strip('!? ') # Check icao code field for glider site indicator if icao == 'GLD': wp.type = 'glider_site' # Check icao code field for ultra light indicator if icao == 'ULM' and not wp.type: wp.type = 'ulm' # Save ICAO code if len(icao) == 4: wp.icao = icao # Extract and parse surface character if data[4:5] == 'A': wp.surface = 'asphalt' elif data[4:5] == 'C': wp.surface = 'concrete' elif data[4:5] == 'L': wp.surface = 'loam' elif data[4:5] == 'S': wp.surface = 'sand' elif data[4:5] == 'Y': wp.surface = 'clay' elif data[4:5] == 'G': wp.surface = 'gras' elif data[4:5] == 'V': wp.surface = 'gravel' elif data[4:5] == 'D': wp.surface = 'dirt' # Extract and parse runway length and direction runway_len = data[5:8].strip() if runway_len != '': wp.runway_len = int(runway_len) * 10 runway_dir = data[8:10].strip() if runway_dir != '': wp.runway_dir = int(runway_dir) * 10 # Extract and parse radio frequency freq = data[12:17].strip() if len(freq) == 5: if freq.endswith('2') or freq.endswith('7'): freq += '5' else: freq += '0' wp.freq = float(freq) / 1000. # Strip uninvited characters from waypoint name wp.name = wp.name.rstrip('!?1 ') # Find waypoint type from waypoint name if not available yet if not wp.type: if re.search('(^|\s)BERG($|\s)', wp.name): wp.type = 'mountain top' if re.search('(^|\s)COL($|\s)', wp.name): wp.type = 'mountain pass' if re.search('(^|\s)PASS($|\s)', wp.name): wp.type = 'mountain pass' if re.search('(^|\s)TOP($|\s)', wp.name): wp.type = 'mountain top' if re.search('(\s)A(\d){0,3}($|\s)', wp.name): wp.type = 'highway exit' if re.search('(\s)AB(\d){0,3}($|\s)', wp.name): wp.type = 'highway exit' if re.search('(\s)BAB(\d){0,3}($|\s)', wp.name): wp.type = 'highway exit' if re.search('(\s)(\w){0,3}XA(\d){0,3}($|\s)', wp.name): wp.type = 'highway cross' if re.search('(\s)(\w){0,3}YA(\d){0,3}($|\s)', wp.name): wp.type = 'highway junction' if re.search('(\s)STR($|\s)', wp.name): wp.type = 'road' if re.search('(\s)SX($|\s)', wp.name): wp.type = 'road cross' if re.search('(\s)SY($|\s)', wp.name): wp.type = 'road junction' if re.search('(\s)EX($|\s)', wp.name): wp.type = 'railway cross' if re.search('(\s)EY($|\s)', wp.name): wp.type = 'railway junction' if re.search('(\s)TR($|\s)', wp.name): wp.type = 'gas station' if re.search('(\s)BF($|\s)', wp.name): wp.type = 'railway station' if re.search('(\s)RS($|\s)', wp.name): wp.type = 'railway station' if re.search('(\s)BR($|\s)', wp.name): wp.type = 'bridge' if re.search('(\s)TV($|\s)', wp.name): wp.type = 'tower' if re.search('(\s)KW($|\s)', wp.name): wp.type = 'powerplant' # Format waypoint name properly wp.name = wp.name.title() # Strip duplicate spaces from waypoint name while ' ' in wp.name: wp.name = wp.name.replace(' ', ' ') # Extract country code wp.country_code = line[60:62].strip() return wp