Пример #1
0
    def getDistance(self):
        self.temp=self.a.getLocation()# stores current location in self.temp
        threshold=900.0000 #This is the threshold value in meter that user wants to have visual alarm before he/she enters into the Hazardous area.
        data = [500,600,700,800,900,1000]#Random numers describing the number of accident occured in listed 5 intersections accordingly

        if self.temp:
            self.distanceHB = Haversine(self.temp,Haversine.HomerBlock)#stores current distance from Homerwatson/Block line intersection
            self.distanceFW = Haversine(self.temp,Haversine.FairwayWilson)#stores current distance from Fairway/Wilson intersection
            self.distanceHBishop = Haversine(self.temp,Haversine.HasplarBishop)#stores current distance from Hasplar/Bishop intersectiomn
            self.distanceHM = Haversine(self.temp,Haversine.HasplarMaple)#stores current distance from haslpar/maple intersection
            self.distanceHQ = Haversine(self.temp,Haversine.HasplarQueen)#stores current distance from hasplar/Queen intersection
            '''
                Storing all the distance in one dictionary
            '''
            self.dict1= {"Homer Block":self.distanceHB.m(),"Fairview Wilson":self.distanceFW.m(),"Hasplar Bishop":self.distanceHBishop.m(),\
                    "Hasplar Maple":self.distanceHM.m(),"Hasplar Queen":self.distanceHQ.m()}
            print("_____________________________________________")


            '''
                conditioning for visual alarm 
            '''
            if self.distanceHB.m() < threshold or self.distanceFW.m() < threshold or self.distanceHBishop.m() < threshold or \
                    self.distanceHM.m() < threshold or self.distanceHQ.m() <threshold:
               print("\nHazardous Area Ahead\n")
               self.label.setPixmap(QtGui.QPixmap("warning.png"))
               if self.distanceHB.m() <  threshold:
                   self.msgBox.setText(str(data[0])+" "+"Accidents happend at the next intersection")
               elif self.distanceFW.m() <threshold:
                   self.msgBox.setText(str(data[1])+" "+"Accidents happend at the next intersection")
               elif self.distanceHBishop.m() < threshold:
                   self.msgBox.setText(str(data[2])+" "+"Accidents happend at the next intersection")
               elif self.distanceHM.m() <threshold:
                   self.msgBox.setText(str(data[3])+" "+"Accidents happend at the next intersection")
               elif self.distanceHQ.m() < threshold:
                   self.msgBox.setText(str(data[4])+" "+"Accidents happend at the next intersection") 
              
            else:
                print("\n you are safe\n")
                self.label.setPixmap(QtGui.QPixmap("normal.png"))
                self.msgBox.setText("You are good to go !!!")

            '''
                Printing all Keys and values from the disctionary on the shell
            '''
            for x in self.dict1:
                print(self.dict1,"\n")
                if self.dict1[x]<threshold:
                    print(x,"->",self.dict1[x])
    def find_k_nearest_neigh_by_place(self, objective_coor, k, database):
        dist_loc = []
        for i, line in database.iterrows():
            dist_loc.append(
                (i, Haversine(objective_coor,
                              (line['lat'], line['lon'])).meters))

        return sorted(dist_loc, key=lambda x: x[1])[:k]
Пример #3
0
def calculate_mean_offroute(route, points):
    offroute = []
    offroute_directional = []
    halfsize = len(points) / 2
    for i, point in enumerate(points):
        start_distance = Haversine((route['start_point']['latitude'],
                                    route['start_point']['longitude']),
                                   (point.latitude, point.longitude)).meters
        end_distance = Haversine((point.latitude, point.longitude),
                                 (route['end_point']['latitude'],
                                  route['end_point']['longitude'])).meters
        if i < halfsize:
            offroute_directional.append(start_distance)
        else:
            offroute_directional.append(end_distance)

        offroute.append(start_distance + end_distance)

    off_route = math.ceil(statistics.mean(offroute) - route['distance'])
    off_direction = math.ceil(statistics.mean(offroute_directional))
    return (off_route, off_direction)
Пример #4
0
def data_in_desc(input_str, points_gpx):
    # Straight Line Distance
    straight_distance_km = 0
    if len(points_gpx) > 1:
        straight_distance_km = Haversine(
            (points_gpx[0].latitude, points_gpx[0].longitude),
            (points_gpx[-1].latitude, points_gpx[-1].longitude)).km
    input_str = input_str.replace("#STRAIGHT_DISTANCE_KM#",
                                  "%.1f" % (straight_distance_km))

    # Height Difference
    height_diff = 0
    if len(points_gpx) > 1:
        height_diff = points_gpx[-1].elevation - points_gpx[0].elevation
    input_str = input_str.replace("#HEIGHT_DIFFERENCE#",
                                  "%.1f" % (height_diff))

    return input_str
Пример #5
0
def get_routes(filename):
    data = None
    with open(filename, 'r') as json_file:
        data = json.load(json_file)
    for route in data['routes']:
        print("Setting up route '%s'" % (route["name"]), end=" ")
        route['start_point'] = data['points'][route['start']]
        route['end_point'] = data['points'][route['end']]
        route['distance'] = Haversine((route['start_point']['latitude'],
                                       route['start_point']['longitude']),
                                      (route['end_point']['latitude'],
                                       route['end_point']['longitude'])).meters
        check_radius = route['distance'] * data['proximity_limits']['ratio']
        check_radius = min(check_radius, data['proximity_limits']['max'])
        check_radius = max(check_radius, data['proximity_limits']['min'])
        route['check_radius'] = check_radius
        print(
            "with straight line distance of %.1fkm and a start/end check with a radius of %.1fm"
            % (route['distance'] / 1000.0, route['check_radius']))
    return data
Пример #6
0
    def calculate_fuel_price(self,
                             src_lat,
                             src_lng,
                             dst_lat,
                             dst_lng,
                             mpg=6.5,
                             interval=200):
        distance = Haversine((src_lat, src_lng), (dst_lat, dst_lng)).miles
        refuelTimes = int((distance / interval))
        latestpercent = interval / distance

        points = [(src_lat, src_lng)]
        while refuelTimes > 0:
            result = self.midpoint(src_lat, src_lng, dst_lat, dst_lng,
                                   latestpercent)
            points.append(result)
            latestpercent += interval / distance
            refuelTimes = refuelTimes - 1
        results = rg.search(points)

        state_names = []
        for state in results:
            state_names.append(state["admin1"])

        state_codes = []
        for state_name in state_names:
            state = us.states.lookup(state_name)
            nameState = state.abbr
            state_codes.append(nameState)

        gallonsPerInterval = interval / mpg
        totalCost = 0
        for state_code in state_codes:
            totalCost += gallonsPerInterval * self.savedOutput[str(state_code)]

        return totalCost
Пример #7
0
class Ui_MainWindow():

    def __init__(self):
        self.a=Gps()
        self.setupUi(MainWindow)
    '''
        Setting up UI
    '''
    def setupUi(self, MainWindow):
        MainWindow.setObjectName("MainWindow")
        MainWindow.resize(800, 480)
        self.centralwidget = QtWidgets.QWidget(MainWindow)
        self.centralwidget.setObjectName("centralwidget")
        self.label = QtWidgets.QLabel(self.centralwidget)
        self.label.setGeometry(QtCore.QRect(0, 0, 800, 480))
        self.label.setText("")
        self.label.setPixmap(QtGui.QPixmap("normal.png"))
        self.label.setScaledContents(True)
        self.label.setObjectName("label")
        self.msgBox = QtWidgets.QLabel(self.centralwidget)
        self.msgBox.setGeometry(QtCore.QRect(50,10,711,31))
        font= QtGui.QFont()
        font.setPointSize(20)
        self.msgBox.setFont(font)
        self.msgBox.setStyleSheet("color:rgb(255,255,255)")
        self.msgBox.setTextFormat(QtCore.Qt.AutoText)
        self.msgBox.setScaledContents(True)
        self.msgBox.setObjectName("msgBox")
        MainWindow.setCentralWidget(self.centralwidget)
        self.menubar = QtWidgets.QMenuBar(MainWindow)
        self.menubar.setGeometry(QtCore.QRect(0, 0, 800, 22))
        self.menubar.setObjectName("menubar")
        MainWindow.setMenuBar(self.menubar)
        self.statusbar = QtWidgets.QStatusBar(MainWindow)
        self.statusbar.setObjectName("statusbar")
        MainWindow.setStatusBar(self.statusbar)

        self.retranslateUi(MainWindow)
        QtCore.QMetaObject.connectSlotsByName(MainWindow)
        
    def retranslateUi(self, MainWindow):
        _translate = QtCore.QCoreApplication.translate
        MainWindow.setWindowTitle(_translate("MainWindow", "MainWindow"))

    '''
        very 50ms this method will get the current distance from the Hazardous area/intersection
    '''
    def getDistance(self):
        self.temp=self.a.getLocation()# stores current location in self.temp
        threshold=900.0000 #This is the threshold value in meter that user wants to have visual alarm before he/she enters into the Hazardous area.
        data = [500,600,700,800,900,1000]#Random numers describing the number of accident occured in listed 5 intersections accordingly

        if self.temp:
            self.distanceHB = Haversine(self.temp,Haversine.HomerBlock)#stores current distance from Homerwatson/Block line intersection
            self.distanceFW = Haversine(self.temp,Haversine.FairwayWilson)#stores current distance from Fairway/Wilson intersection
            self.distanceHBishop = Haversine(self.temp,Haversine.HasplarBishop)#stores current distance from Hasplar/Bishop intersectiomn
            self.distanceHM = Haversine(self.temp,Haversine.HasplarMaple)#stores current distance from haslpar/maple intersection
            self.distanceHQ = Haversine(self.temp,Haversine.HasplarQueen)#stores current distance from hasplar/Queen intersection
            '''
                Storing all the distance in one dictionary
            '''
            self.dict1= {"Homer Block":self.distanceHB.m(),"Fairview Wilson":self.distanceFW.m(),"Hasplar Bishop":self.distanceHBishop.m(),\
                    "Hasplar Maple":self.distanceHM.m(),"Hasplar Queen":self.distanceHQ.m()}
            print("_____________________________________________")


            '''
                conditioning for visual alarm 
            '''
            if self.distanceHB.m() < threshold or self.distanceFW.m() < threshold or self.distanceHBishop.m() < threshold or \
                    self.distanceHM.m() < threshold or self.distanceHQ.m() <threshold:
               print("\nHazardous Area Ahead\n")
               self.label.setPixmap(QtGui.QPixmap("warning.png"))
               if self.distanceHB.m() <  threshold:
                   self.msgBox.setText(str(data[0])+" "+"Accidents happend at the next intersection")
               elif self.distanceFW.m() <threshold:
                   self.msgBox.setText(str(data[1])+" "+"Accidents happend at the next intersection")
               elif self.distanceHBishop.m() < threshold:
                   self.msgBox.setText(str(data[2])+" "+"Accidents happend at the next intersection")
               elif self.distanceHM.m() <threshold:
                   self.msgBox.setText(str(data[3])+" "+"Accidents happend at the next intersection")
               elif self.distanceHQ.m() < threshold:
                   self.msgBox.setText(str(data[4])+" "+"Accidents happend at the next intersection") 
              
            else:
                print("\n you are safe\n")
                self.label.setPixmap(QtGui.QPixmap("normal.png"))
                self.msgBox.setText("You are good to go !!!")

            '''
                Printing all Keys and values from the disctionary on the shell
            '''
            for x in self.dict1:
                print(self.dict1,"\n")
                if self.dict1[x]<threshold:
                    print(x,"->",self.dict1[x])
Пример #8
0
def is_closer_than(current_point, reference_point, meters):
    distance = Haversine(current_point, reference_point).meters
    if distance <= meters:
        return True
    return False