TFRs toggle, pounds fix, photo override fix
-TFRS toggle -Pounds fix -Photo override fix - Airport code on image fix -TFR above/below addition
This commit is contained in:
Jack Sweeney
parent
823d280965
commit
d39b404f62
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@ -40,6 +40,7 @@ URL = webhookurl
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[TFRS]
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URL = http://127.0.0.1:5000/detailed_all
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ENABLE = False
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[TWITTER]
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#GLOBAL TWITTER CONSUMER KEY AND CONSUMERS SECRET ONLY NEED TO BE HERE NOW
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10
defSS.py
10
defSS.py
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@ -80,16 +80,20 @@ def get_adsbx_screenshot(file_path, url_params, enable_labels=False, enable_trac
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photo_box = browser.find_element_by_id("airplanePhoto")
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finally:
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import requests, json
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photo_list = json.loads(requests.get("https://raw.githubusercontent.com/Jxck-S/aircraft-photos/main/photo-list.json").text)
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photo_list = json.loads(requests.get("https://raw.githubusercontent.com/Jxck-S/aircraft-photos/main/photo-list.json", timeout=20).text)
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if reg in photo_list.keys():
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browser.execute_script("arguments[0].id = 'airplanePhoto';", photo_box)
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browser.execute_script("arguments[0].removeAttribute('width')", photo_box)
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browser.execute_script("arguments[0].style.width = 'inherit';", photo_box)
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browser.execute_script("arguments[0].style.width = '200px';", photo_box)
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browser.execute_script("arguments[0].style.float = 'left';", photo_box)
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browser.execute_script(f"arguments[0].src = 'https://raw.githubusercontent.com/Jxck-S/aircraft-photos/main/images/{reg}.jpg';", photo_box)
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image_copy_right = browser.find_element_by_id("copyrightInfo")
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browser.execute_cdp_cmd('Emulation.setScriptExecutionDisabled', {'value': True})
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browser.execute_script(f"arguments[0].appendChild(document.createTextNode('Image © {photo_list[reg]['photographer']}'))", image_copy_right)
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copy_right_children = image_copy_right.find_elements(By.XPATH, "*")
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if len(copy_right_children) > 0:
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browser.execute_script(f"arguments[0].innerText = 'Image © {photo_list[reg]['photographer']}'", copy_right_children[0])
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else:
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browser.execute_script(f"arguments[0].appendChild(document.createTextNode('Image © {photo_list[reg]['photographer']}'))", image_copy_right)
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except Exception as e:
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print("Error on changing photo", e)
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if 'type' in overrides.keys():
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@ -31,7 +31,7 @@ def fuel_calculation(aircraft_icao_type, minutes):
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fuel_flight_info['fuel_used_kg'] = round(fuel_used_kg)
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fuel_flight_info["fuel_used_gal"] = round(fuel_used_gal)
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fuel_flight_info['fuel_used_lters'] = round(fuel_used_gal*3.78541)
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fuel_flight_info["fuel_used_pds"] = round(fuel_used_kg * 2.20462)
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fuel_flight_info["fuel_used_lbs"] = round(fuel_used_kg * 2.20462)
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fuel_flight_info["c02_tons"] = c02_tons
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print ("Fuel info", fuel_flight_info)
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return fuel_flight_info
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@ -43,10 +43,10 @@ def fuel_message(fuel_info):
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cost = "{:,}".format(fuel_info['fuel_price'])
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gallons = "{:,}".format(fuel_info['fuel_used_gal'])
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lters = "{:,}".format(fuel_info['fuel_used_lters'])
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pds = "{:,}".format(fuel_info['fuel_used_pds'])
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lbs = "{:, }".format(fuel_info['fuel_used_lbs'])
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kgs = "{:,}".format(fuel_info['fuel_used_kg'])
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fuel_message = f"~ {gallons} gallons ({lters} liters). \n~ {pds} pds ({kgs} kg) of jet fuel used. \n~ ${cost} cost of fuel. \n~ {fuel_info['c02_tons']} tons of CO2 emissions."
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fuel_message = f"~ {gallons} gallons ({lters} liters). \n~ {lbs} lbs ({kgs} kg) of jet fuel used. \n~ ${cost} cost of fuel. \n~ {fuel_info['c02_tons']} tons of CO2 emissions."
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print(fuel_message)
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return fuel_message
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#fuel_info = fuel_calculation("B738", 180)
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#fuel_info = fuel_calculation("GLF6", 548.1)
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#fuel_message(fuel_info)
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@ -44,8 +44,13 @@ def append_airport(filename, airport, text_credit=None):
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draw.text((x, y), text, fill=white, font=head_font)
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#ICAO | IATA
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(x, y) = (330, 765)
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text = iata + " / " + icao
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draw.text((x, y), text, fill=black, font=font)
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if airport['iata_code'] != '' and airport['icao'] != '':
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airport_codes = airport['iata_code'] + " / " + airport['icao']
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elif airport['icao'] != '':
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airport_codes = airport['icao']
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else:
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airport_codes = airport['ident']
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draw.text((x, y), airport_codes, fill=black, font=font)
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#Distance
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(x, y) = (460, 765)
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text = str(round(distance_mi, 2)) + "mi / " + str(round(distance_km, 2)) + "km away"
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234
planeClass.py
234
planeClass.py
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@ -485,7 +485,7 @@ class Plane:
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to_coord = (known_to_airport['latitude_deg'], known_to_airport['longitude_deg'])
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distance_mi = float(geodesic(from_coord, to_coord).mi)
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distance_nm = distance_mi / 1.150779448
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distance_message = f"{'{:,}'.format(round(distance_mi))} mile ({'{:,}'.format(round(distance_nm))} NM) flight from {nearest_from_airport['iata_code']} to {nearest_airport_dict['iata_code']}\n"
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distance_message = f"{'{:,}'.format(round(distance_mi))} mile ({'{:,}'.format(round(distance_nm))} NM) flight from {nearest_from_airport['iata_code'] if nearest_from_airport['iata_code'] != '' else nearest_from_airport['ident']} to {nearest_airport_dict['iata_code'] if nearest_airport_dict['iata_code'] != '' else nearest_airport_dict['ident']}\n"
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else:
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distance_message = ""
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if landed_time is not None and self.type is not None:
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@ -644,121 +644,124 @@ class Plane:
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from shapely.geometry.polygon import Polygon
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from shapely.geometry import Point
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import requests, json
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tfr_url = Plane.main_config.get("TFRS", "URL")
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response = requests.get(tfr_url, timeout=30)
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tfrs = json.loads(response.text)
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closest_tfr = None
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in_tfr = None
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for tfr in tfrs:
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if in_tfr is not None:
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break
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elif tfr['details'] is not None and 'shapes' in tfr['details'].keys():
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for index, shape in enumerate(tfr['details']['shapes']):
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if 'txtName' not in shape.keys():
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shape['txtName'] = 'shape_'+str(index)
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polygon = None
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if shape['type'] == "poly":
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points = shape['points']
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elif shape['type'] == "circle":
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from functools import partial
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import pyproj
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from shapely.ops import transform
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from shapely.geometry import Point
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proj_wgs84 = pyproj.Proj('+proj=longlat +datum=WGS84')
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def geodesic_point_buffer(lat, lon, km):
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# Azimuthal equidistant projection
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aeqd_proj = '+proj=aeqd +lat_0={lat} +lon_0={lon} +x_0=0 +y_0=0'
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project = partial(
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pyproj.transform,
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pyproj.Proj(aeqd_proj.format(lat=lat, lon=lon)),
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proj_wgs84)
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buf = Point(0, 0).buffer(km * 1000) # distance in metres
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return transform(project, buf).exterior.coords[:]
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radius_km = float(shape['radius']) * 1.852
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b = geodesic_point_buffer(shape['lat'], shape['lon'], radius_km)
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points = []
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for coordinate in b:
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points.append([coordinate[1], coordinate[0]])
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elif shape['type'] in ["polyarc", "polyexclude"]:
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points = shape['all_points']
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aircraft_location = Point(self.latitude, self.longitude)
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if polygon is None:
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polygon = Polygon(points)
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if polygon.contains(aircraft_location):
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in_tfr = {'info': tfr, 'closest_shape_name' : shape['txtName']}
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break
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else:
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point_dists = []
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for point in points:
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from geopy.distance import geodesic
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point = tuple(point)
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point_dists.append(float((geodesic((self.latitude, self.longitude), point).mi)))
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distance = min(point_dists)
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if closest_tfr is None:
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closest_tfr = {'info': tfr, 'closest_shape_name' : shape['txtName'], 'distance' : round(distance)}
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elif distance < closest_tfr['distance']:
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closest_tfr = {'info': tfr, 'closest_shape_name' : shape['txtName'], 'distance' : round(distance)}
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if in_tfr is not None:
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for shape in in_tfr['info']['details']['shapes']:
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if shape['txtName'] == in_tfr['closest_shape_name']:
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valDistVerUpper, valDistVerLower = int(shape['valDistVerUpper']), int(shape['valDistVerLower'])
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print("In TFR based off location checking alt next", in_tfr)
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if Plane.main_config.getboolean("TFRS", "ENABLE"):
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tfr_url = Plane.main_config.get("TFRS", "URL")
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response = requests.get(tfr_url, timeout=30)
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tfrs = json.loads(response.text)
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for tfr in tfrs:
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if in_tfr is not None:
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break
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if not (self.alt_ft >= valDistVerLower and self.alt_ft <= valDistVerUpper):
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print("But not in alt of TFR")
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closest_tfr = in_tfr
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closest_tfr['distance'] = 0
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in_tfr = None
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if in_tfr is None:
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print("Closest TFR", closest_tfr)
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#Generate Map
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import staticmaps
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context = staticmaps.Context()
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context.set_tile_provider(staticmaps.tile_provider_OSM)
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if in_tfr is not None:
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shapes = in_tfr['info']['details']['shapes']
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else:
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shapes = closest_tfr['info']['details']['shapes']
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def draw_poly(context, pairs):
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pairs.append(pairs[0])
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context.add_object(
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staticmaps.Area(
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[staticmaps.create_latlng(lat, lng) for lat, lng in pairs],
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fill_color=staticmaps.parse_color("#FF000033"),
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width=2,
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color=staticmaps.parse_color("#8B0000"),
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elif tfr['details'] is not None and 'shapes' in tfr['details'].keys():
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for index, shape in enumerate(tfr['details']['shapes']):
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if 'txtName' not in shape.keys():
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shape['txtName'] = 'shape_'+str(index)
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polygon = None
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if shape['type'] == "poly":
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points = shape['points']
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elif shape['type'] == "circle":
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from functools import partial
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import pyproj
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from shapely.ops import transform
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from shapely.geometry import Point
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proj_wgs84 = pyproj.Proj('+proj=longlat +datum=WGS84')
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def geodesic_point_buffer(lat, lon, km):
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# Azimuthal equidistant projection
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aeqd_proj = '+proj=aeqd +lat_0={lat} +lon_0={lon} +x_0=0 +y_0=0'
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project = partial(
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pyproj.transform,
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pyproj.Proj(aeqd_proj.format(lat=lat, lon=lon)),
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proj_wgs84)
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buf = Point(0, 0).buffer(km * 1000) # distance in metres
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return transform(project, buf).exterior.coords[:]
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radius_km = float(shape['radius']) * 1.852
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b = geodesic_point_buffer(shape['lat'], shape['lon'], radius_km)
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points = []
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for coordinate in b:
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points.append([coordinate[1], coordinate[0]])
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elif shape['type'] in ["polyarc", "polyexclude"]:
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points = shape['all_points']
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aircraft_location = Point(self.latitude, self.longitude)
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if polygon is None:
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polygon = Polygon(points)
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if polygon.contains(aircraft_location):
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in_tfr = {'info': tfr, 'closest_shape_name' : shape['txtName']}
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break
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else:
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point_dists = []
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for point in points:
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from geopy.distance import geodesic
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point = tuple(point)
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point_dists.append(float((geodesic((self.latitude, self.longitude), point).mi)))
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distance = min(point_dists)
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if closest_tfr is None:
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closest_tfr = {'info': tfr, 'closest_shape_name' : shape['txtName'], 'distance' : round(distance)}
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elif distance < closest_tfr['distance']:
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closest_tfr = {'info': tfr, 'closest_shape_name' : shape['txtName'], 'distance' : round(distance)}
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if in_tfr is not None:
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for shape in in_tfr['info']['details']['shapes']:
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if shape['txtName'] == in_tfr['closest_shape_name']:
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valDistVerUpper, valDistVerLower = int(shape['valDistVerUpper']), int(shape['valDistVerLower'])
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print("In TFR based off location checking alt next", in_tfr)
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break
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if not (self.alt_ft >= valDistVerLower and self.alt_ft <= valDistVerUpper):
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if self.alt_ft > valDistVerUpper:
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in_tfr['context'] = "above"
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elif self.alt_ft < valDistVerLower:
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in_tfr['context'] = "below"
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print("But not in alt of TFR", in_tfr['context'])
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if in_tfr is None:
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print("Closest TFR", closest_tfr)
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#Generate Map
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import staticmaps
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context = staticmaps.Context()
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context.set_tile_provider(staticmaps.tile_provider_OSM)
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if in_tfr is not None:
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shapes = in_tfr['info']['details']['shapes']
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else:
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shapes = closest_tfr['info']['details']['shapes']
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def draw_poly(context, pairs):
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pairs.append(pairs[0])
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context.add_object(
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staticmaps.Area(
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[staticmaps.create_latlng(lat, lng) for lat, lng in pairs],
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fill_color=staticmaps.parse_color("#FF000033"),
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width=2,
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color=staticmaps.parse_color("#8B0000"),
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)
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)
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)
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return context
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for shape in shapes:
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if shape['type'] == "poly":
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pairs = shape['points']
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context = draw_poly(context, pairs)
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elif shape['type'] == "polyarc" or shape['type'] == "polyexclude":
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pairs = shape['all_points']
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context = draw_poly(context, pairs)
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elif shape['type'] =="circle":
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center = [shape['lat'], shape['lon']]
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center1 = staticmaps.create_latlng(center[0], center[1])
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context.add_object(staticmaps.Circle(center1, (float(shape['radius']) * 1.852), fill_color=staticmaps.parse_color("#FF000033"), color=staticmaps.parse_color("#8B0000"), width=2))
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context.add_object(staticmaps.Marker(center1, color=staticmaps.RED))
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def tfr_image(context, aircraft_coords):
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from PIL import Image
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heading = self.track
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heading *= -1
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im = Image.open('./dependencies/ac.png')
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im_rotate = im.rotate(heading, resample=Image.BICUBIC)
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import tempfile
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rotated_file = f"{tempfile.gettempdir()}/rotated_ac.png"
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im_rotate.save(rotated_file)
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pos = staticmaps.create_latlng(aircraft_coords[0], aircraft_coords[1])
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marker = staticmaps.ImageMarker(pos, rotated_file, origin_x=35, origin_y=35)
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context.add_object(marker)
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image = context.render_cairo(1000, 1000)
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os.remove(rotated_file)
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tfr_map_filename = f"{tempfile.gettempdir()}/{self.icao}_TFR_.png"
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image.write_to_png(tfr_map_filename)
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return tfr_map_filename
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return context
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for shape in shapes:
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if shape['type'] == "poly":
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pairs = shape['points']
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context = draw_poly(context, pairs)
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elif shape['type'] == "polyarc" or shape['type'] == "polyexclude":
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pairs = shape['all_points']
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context = draw_poly(context, pairs)
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elif shape['type'] =="circle":
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center = [shape['lat'], shape['lon']]
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center1 = staticmaps.create_latlng(center[0], center[1])
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context.add_object(staticmaps.Circle(center1, (float(shape['radius']) * 1.852), fill_color=staticmaps.parse_color("#FF000033"), color=staticmaps.parse_color("#8B0000"), width=2))
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context.add_object(staticmaps.Marker(center1, color=staticmaps.RED))
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def tfr_image(context, aircraft_coords):
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from PIL import Image
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heading = self.track
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heading *= -1
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im = Image.open('./dependencies/ac.png')
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im_rotate = im.rotate(heading, resample=Image.BICUBIC)
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import tempfile
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rotated_file = f"{tempfile.gettempdir()}/rotated_ac.png"
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im_rotate.save(rotated_file)
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pos = staticmaps.create_latlng(aircraft_coords[0], aircraft_coords[1])
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marker = staticmaps.ImageMarker(pos, rotated_file, origin_x=35, origin_y=35)
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context.add_object(marker)
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image = context.render_cairo(1000, 1000)
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os.remove(rotated_file)
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tfr_map_filename = f"{tempfile.gettempdir()}/{self.icao}_TFR_.png"
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image.write_to_png(tfr_map_filename)
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return tfr_map_filename
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from defSS import get_adsbx_screenshot
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@ -773,12 +776,13 @@ class Plane:
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message = f"Circling {round(nearest_airport_dict['distance_mi'], 2)}mi {cardinal} of {nearest_airport_dict['icao']}, {nearest_airport_dict['name']} at {self.alt_ft}ft. "
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tfr_map_filename = None
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if in_tfr is not None:
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message += f" Inside TFR {in_tfr['info']['NOTAM']}, a TFR for {in_tfr['info']['Type'].title()}"
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context = "Inside" if 'context' not in in_tfr.keys() else "Above" if in_tfr['context'] == 'above' else "Below"
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message += f" {context} TFR {in_tfr['info']['NOTAM']}, a TFR for {in_tfr['info']['Type'].title()}"
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tfr_map_filename = tfr_image(context, (self.latitude, self.longitude))
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elif in_tfr is None and "distance" in closest_tfr.keys() and closest_tfr["distance"] <= 20:
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elif in_tfr is None and closest_tfr is not None and "distance" in closest_tfr.keys() and closest_tfr["distance"] <= 20:
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message += f" {closest_tfr['distance']} miles from TFR {closest_tfr['info']['NOTAM']}, a TFR for {closest_tfr['info']['Type']}"
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tfr_map_filename = tfr_image(context, (self.latitude, self.longitude))
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elif in_tfr is None and "distance" not in closest_tfr.keys():
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elif in_tfr is None and closest_tfr is not None and "distance" not in closest_tfr.keys():
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message += f" near TFR {closest_tfr['info']['NOTAM']}, a TFR for {closest_tfr['info']['Type']}"
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raise Exception(message)
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Reference in New Issue