class CustomState(PositionState):
    static_objects = [Lane(175, 550, 350, 100, angle=-180),
                      Lane(175, 650, 350, 100, angle=-180),
                      Lane(175, 750, 350, 100),
                      Lane(175, 850, 350, 100),
                      Lane(825, 550, 350, 100, angle=-180),
                      Lane(825, 650, 350, 100, angle=-180),
                      Lane(825, 750, 350, 100),
                      Lane(825, 850, 350, 100),
                      Street(500, 700, 300, 400),
                      Lane(450, 250, 500, 100, angle=-90),
                      Lane(550, 250, 500, 100, angle=90),
                      Sidewalk(200, 475, 400, 50),
                      Sidewalk(800, 475, 400, 50),
                      Terrain(200, 225, 400, 450),
                      Terrain(800, 225, 400, 450),
                      Terrain(500, 950, 1000, 100)]

    def randomize(self):
        self.dynamic_objects = []
        lane_objs = [obj for obj in self.static_objects if type(obj) == Lane]
        sidewalk_objs = [obj for obj in self.static_objects if type(obj) == Sidewalk]

        for i in range(3):
            car = random.choice(lane_objs).generate_car()
            if not any([car.collides(obj) for obj in self.static_objects + self.dynamic_objects]):
                self.dynamic_objects.append(car)
        for i in range(2):
            man = random.choice(sidewalk_objs).generate_man()
            if not any([man.collides(obj) for obj in self.static_objects + self.dynamic_objects]):
                self.dynamic_objects.append(man)
Example #2
0
class SimpleTIntersectionState(PositionState):
    static_objects = [
        Terrain(175, 175, 350, 350),
        Terrain(825, 175, 350, 350),
        Terrain(500, 825, 1000, 350),
        Lane(200, 450, 400, 100, angle=-180),
        Lane(200, 550, 400, 100),
        Lane(800, 450, 400, 100, angle=-180),
        Lane(800, 550, 400, 100),
        Lane(450, 200, 400, 100, angle=-90),
        Lane(550, 200, 400, 100, angle=90),
        Street(500, 500, 200, 200),
        Sidewalk(200, 375, 400, 50),
        Sidewalk(800, 375, 400, 50),
        Sidewalk(500, 625, 1000, 50),
        Sidewalk(375, 175, 50, 350),
        Sidewalk(625, 175, 50, 350),
    ]

    def __init__(self, ncars=4, nped=2):
        self.ncars = ncars
        self.nped = nped
        PositionState.__init__(self)
        self.randomize()

    def randomize(self):
        self.dynamic_objects = []
        while len(self.dynamic_objects) < self.ncars:
            lane = [
                Lane(200, 550, 400, 100),
                Lane(800, 450, 400, 100, angle=-180),
                Lane(450, 200, 400, 100, angle=-90),
            ][np.random.random_integers(0, 2)]
            car = lane.generate_car()
            car.vel = 0
            if not any([
                    car.collides(obj)
                    for obj in self.static_objects + self.dynamic_objects
            ]):
                self.dynamic_objects.append(car)
        while len(self.dynamic_objects) < self.ncars + self.nped:
            sidewalk = [
                Sidewalk(200, 375, 400, 50),
                Sidewalk(200, 625, 400, 50),
                Sidewalk(800, 375, 400, 50),
                Sidewalk(800, 625, 400, 50),
                Sidewalk(375, 175, 50, 350),
                Sidewalk(625, 175, 50, 350),
                Sidewalk(375, 825, 50, 350),
                Sidewalk(625, 825, 50, 350),
            ][np.random.random_integers(0, 1)]
            man = sidewalk.generate_man()
            man.vel = 2
            if not any([
                    man.collides(obj)
                    for obj in self.static_objects + self.dynamic_objects
            ]):
                self.dynamic_objects.append(man)
Example #3
0
 def randomize(self):
     self.dynamic_objects = []
     while len(self.dynamic_objects) < self.ncars:
         lane = [Lane(150, 550, 300, 100),
                 Lane(850, 450, 300, 100, angle=-180),
                 Lane(450, 150, 300, 100, angle=-90),
                 Lane(550, 850, 300, 100, angle=90),
                 Lane(150, 650, 300, 100),
                 Lane(850, 350, 300, 100, angle=-180),
                 Lane(350, 150, 300, 100, angle=-90),
                 Lane(650, 850, 300, 100, angle=90),
         ][np.random.random_integers(0, 7)]
         car = lane.generate_car()
         car.vel = 0
         if not any([car.collides(obj) for obj in self.static_objects+self.dynamic_objects]):
             self.dynamic_objects.append(car)
     while len(self.dynamic_objects) < self.ncars+self.nped:
         sidewalk = [Sidewalk(200, 375, 400, 50),
                     Sidewalk(200, 625, 400, 50),
                     Sidewalk(800, 375, 400, 50),
                     Sidewalk(800, 625, 400, 50),
                     Sidewalk(375, 175, 50, 350),
                     Sidewalk(625, 175, 50, 350),
                     Sidewalk(375, 825, 50, 350),
                     Sidewalk(625, 825, 50, 350),
         ][np.random.random_integers(0, 1)]
         man = sidewalk.generate_man()
         man.vel = 2
         if not any([man.collides(obj) for obj in self.static_objects+self.dynamic_objects]):
             self.dynamic_objects.append(man)
 def randomize(self):
     """
     Randomly generates car and pedestrian positions
     """
     self.dynamic_objects = []
     while len(self.dynamic_objects) < self.ncars:
         i = np.random.random_integers(0, 3) if len(
             self.dynamic_objects) else np.random.random_integers(0, 2)
         lane = [
             Lane(200, 550, 400, 100),
             Lane(800, 450, 400, 100, angle=-180),
             Lane(450, 200, 400, 100, angle=-90),
             Lane(550, 800, 400, 100, angle=90)
         ][np.random.random_integers(0, 2)]
         car = lane.generate_car()
         car.vel = 0
         if not any([
                 car.collides(obj)
                 for obj in self.static_objects + self.dynamic_objects
         ]):
             self.dynamic_objects.append(car)
     while len(self.dynamic_objects) < self.ncars + self.nped:
         sidewalk = [
             Sidewalk(200, 375, 400, 50),
             Sidewalk(200, 625, 400, 50),
             Sidewalk(800, 375, 400, 50, angle=-180),
             Sidewalk(800, 625, 400, 50, angle=-180),
             Sidewalk(375, 175, 350, 50, angle=-90),
             Sidewalk(625, 175, 350, 50, angle=-90),
             Sidewalk(375, 825, 350, 50, angle=90),
             Sidewalk(625, 825, 350, 50, angle=90)
         ][np.random.random_integers(0, 7)]
         man = sidewalk.generate_man()
         man.vel = 2
         if not any([
                 man.collides(obj)
                 for obj in self.static_objects + self.dynamic_objects
         ]):
             self.dynamic_objects.append(man)
     if self.traffic_lights:
         self.dynamic_objects.append(TrafficLight(600, 440, 0))
         self.dynamic_objects.append(TrafficLight(400, 560, -180))
         self.dynamic_objects.append(
             TrafficLight(560, 600, -90, initial_color="red"))
         self.dynamic_objects.append(
             TrafficLight(440, 400, 90, initial_color="red"))
class SimpleIntersectionState(PositionState):
    """
    Instance of a :class:`PositionState` describing a four-way intersection
    
    Parameters
    ----------
    ncars : int
        Number of cars to generate
    nped : int
        Number of pedestrians to generate
    traffic_lights : bool
        Whether or not to generate traffic lights
    """
    static_objects = [
        Terrain(175, 175, 350, 350),
        Terrain(825, 175, 350, 350),
        Terrain(175, 825, 350, 350),
        Terrain(825, 825, 350, 350),
        Lane(200, 450, 400, 100, angle=-180),
        Lane(200, 550, 400, 100),
        Lane(800, 450, 400, 100, angle=-180),
        Lane(800, 550, 400, 100),
        Lane(450, 200, 400, 100, angle=-90),
        Lane(550, 200, 400, 100, angle=90),
        Lane(450, 800, 400, 100, angle=-90),
        Lane(550, 800, 400, 100, angle=90),
        Street(500, 500, 200, 200),
        Sidewalk(200, 375, 400, 50),
        Sidewalk(200, 625, 400, 50),
        Sidewalk(800, 375, 400, 50, angle=-180),
        Sidewalk(800, 625, 400, 50, angle=-180),
        Sidewalk(375, 175, 350, 50, angle=-90),
        Sidewalk(625, 175, 350, 50, angle=-90),
        Sidewalk(375, 825, 350, 50, angle=90),
        Sidewalk(625, 825, 350, 50, angle=90)
    ]

    def __init__(self, ncars=4, nped=2, traffic_lights=False):
        self.ncars = ncars
        self.nped = nped
        self.traffic_lights = traffic_lights
        PositionState.__init__(self)
        self.randomize()

    def randomize(self):
        """
        Randomly generates car and pedestrian positions
        """
        self.dynamic_objects = []
        while len(self.dynamic_objects) < self.ncars:
            i = np.random.random_integers(0, 3) if len(
                self.dynamic_objects) else np.random.random_integers(0, 2)
            lane = [
                Lane(200, 550, 400, 100),
                Lane(800, 450, 400, 100, angle=-180),
                Lane(450, 200, 400, 100, angle=-90),
                Lane(550, 800, 400, 100, angle=90)
            ][np.random.random_integers(0, 2)]
            car = lane.generate_car()
            car.vel = 0
            if not any([
                    car.collides(obj)
                    for obj in self.static_objects + self.dynamic_objects
            ]):
                self.dynamic_objects.append(car)
        while len(self.dynamic_objects) < self.ncars + self.nped:
            sidewalk = [
                Sidewalk(200, 375, 400, 50),
                Sidewalk(200, 625, 400, 50),
                Sidewalk(800, 375, 400, 50, angle=-180),
                Sidewalk(800, 625, 400, 50, angle=-180),
                Sidewalk(375, 175, 350, 50, angle=-90),
                Sidewalk(625, 175, 350, 50, angle=-90),
                Sidewalk(375, 825, 350, 50, angle=90),
                Sidewalk(625, 825, 350, 50, angle=90)
            ][np.random.random_integers(0, 7)]
            man = sidewalk.generate_man()
            man.vel = 2
            if not any([
                    man.collides(obj)
                    for obj in self.static_objects + self.dynamic_objects
            ]):
                self.dynamic_objects.append(man)
        if self.traffic_lights:
            self.dynamic_objects.append(TrafficLight(600, 440, 0))
            self.dynamic_objects.append(TrafficLight(400, 560, -180))
            self.dynamic_objects.append(
                TrafficLight(560, 600, -90, initial_color="red"))
            self.dynamic_objects.append(
                TrafficLight(440, 400, 90, initial_color="red"))
Example #6
0
class WideIntersectionState(PositionState):
    static_objects = [
        Terrain(125, 125, 250, 250),
        Terrain(875, 125, 250, 250),
        Terrain(125, 875, 250, 250),
        Terrain(875, 875, 250, 250),
        Lane(150, 450, 300, 100, angle=-np.pi),
        Lane(150, 550, 300, 100),
        Lane(850, 450, 300, 100, angle=-np.pi),
        Lane(850, 550, 300, 100),
        Lane(450, 150, 300, 100, angle=-(np.pi / 2)),
        Lane(550, 150, 300, 100, angle=(np.pi / 2)),
        Lane(450, 850, 300, 100, angle=-(np.pi / 2)),
        Lane(550, 850, 300, 100, angle=(np.pi / 2)),
        Lane(150, 350, 300, 100, angle=-np.pi),
        Lane(150, 650, 300, 100),
        Lane(850, 350, 300, 100, angle=-np.pi),
        Lane(850, 650, 300, 100),
        Lane(350, 150, 300, 100, angle=-(np.pi / 2)),
        Lane(650, 150, 300, 100, angle=(np.pi / 2)),
        Lane(350, 850, 300, 100, angle=-(np.pi / 2)),
        Lane(650, 850, 300, 100, angle=(np.pi / 2)),
        Street(500, 500, 400, 400),
        Sidewalk(150, 275, 300, 50),
        Sidewalk(150, 725, 300, 50),
        Sidewalk(850, 275, 300, 50),
        Sidewalk(850, 725, 300, 50),
        Sidewalk(275, 125, 50, 250),
        Sidewalk(725, 125, 50, 250),
        Sidewalk(275, 875, 50, 250),
        Sidewalk(725, 875, 50, 250),
    ]

    def randomize(self):
        self.dynamic_objects = []
        while len(self.dynamic_objects) < self.ncars:
            lane = [
                Lane(150, 550, 300, 100),
                Lane(850, 450, 300, 100, angle=-np.pi),
                Lane(450, 150, 300, 100, angle=-(np.pi / 2)),
                Lane(550, 850, 300, 100, angle=(np.pi / 2)),
                Lane(150, 650, 300, 100),
                Lane(850, 350, 300, 100, angle=-np.pi),
                Lane(350, 150, 300, 100, angle=-(np.pi / 2)),
                Lane(650, 850, 300, 100, angle=(np.pi / 2)),
            ][np.random.random_integers(0, 7)]
            car = lane.generate_car()
            car.vel = 0
            if not any([
                    car.collides(obj)
                    for obj in self.static_objects + self.dynamic_objects
            ]):
                self.dynamic_objects.append(car)
        while len(self.dynamic_objects) < self.ncars + self.nped:
            sidewalk = [
                Sidewalk(200, 375, 400, 50),
                Sidewalk(200, 625, 400, 50),
                Sidewalk(800, 375, 400, 50),
                Sidewalk(800, 625, 400, 50),
                Sidewalk(375, 175, 50, 350),
                Sidewalk(625, 175, 50, 350),
                Sidewalk(375, 825, 50, 350),
                Sidewalk(625, 825, 50, 350),
            ][np.random.random_integers(0, 1)]
            man = sidewalk.generate_man()
            man.vel = 2
            if not any([
                    man.collides(obj)
                    for obj in self.static_objects + self.dynamic_objects
            ]):
                self.dynamic_objects.append(man)

        if self.traffic_lights:
            self.dynamic_objects.append(TrafficLight(700, 450, 0))
            self.dynamic_objects.append(TrafficLight(700, 350, 0))
            self.dynamic_objects.append(TrafficLight(300, 550, -np.pi))
            self.dynamic_objects.append(TrafficLight(300, 650, -np.pi))

            self.dynamic_objects.append(
                TrafficLight(550, 700, -(np.pi / 2), initial_color="red"))
            self.dynamic_objects.append(
                TrafficLight(650, 700, -(np.pi / 2), initial_color="red"))
            self.dynamic_objects.append(
                TrafficLight(450, 300, (np.pi / 2), initial_color="red"))
            self.dynamic_objects.append(
                TrafficLight(350, 300, (np.pi / 2), initial_color="red"))

            self.dynamic_objects.append(
                CrosswalkLight(275,
                               290,
                               -np.pi / 2,
                               initial_color="red",
                               time_in_color=80))
            self.dynamic_objects.append(
                CrosswalkLight(290, 275, 0, initial_color="white"))
            self.dynamic_objects.append(
                CrosswalkLight(710, 725, -np.pi, initial_color="white"))
            self.dynamic_objects.append(
                CrosswalkLight(725,
                               710,
                               np.pi / 2,
                               initial_color="red",
                               time_in_color=80))
            self.dynamic_objects.append(
                CrosswalkLight(275,
                               710,
                               np.pi / 2,
                               initial_color="red",
                               time_in_color=80))
            self.dynamic_objects.append(
                CrosswalkLight(290, 725, 0, initial_color="white"))
            self.dynamic_objects.append(
                CrosswalkLight(725,
                               290,
                               -np.pi / 2,
                               initial_color="red",
                               time_in_color=80))
            self.dynamic_objects.append(
                CrosswalkLight(710, 275, -np.pi, initial_color="white"))
class AngledIntersectionState(PositionState):
    static_objects = [
        Terrain(0, 0, 0, 0, points=[(0, 0), (200, 0), (400, 400), (0, 400)]),
        Terrain(0,
                0,
                0,
                0,
                points=[(200 + 400 / np.sqrt(3), 0), (1000, 0), (1000, 400),
                        (400 + 400 / np.sqrt(3), 400)]),
        Terrain(0,
                0,
                0,
                0,
                points=[(0, 600), (750 - 400 / np.sqrt(3), 600),
                        (950 - 400 / np.sqrt(3), 1000), (0, 1000)]),
        Terrain(0,
                0,
                0,
                0,
                points=[(750, 600), (1000, 600), (1000, 1000), (950, 1000)]),
        Lane(200, 450, 400, 100, angle=-np.pi),
        Lane(200, 550, 400, 100),
        Lane(875, 450, 250, 100, angle=-np.pi),
        Lane(875, 550, 250, 100),
        Lane(0,
             0,
             0,
             0,
             angle=-np.radians(60),
             points=[(200, 0), (200 + 200 / np.sqrt(3), 0),
                     (400 + 200 / np.sqrt(3), 400), (400, 400)]),
        Lane(0,
             0,
             0,
             0,
             angle=np.radians(120),
             points=[(200 + 200 / np.sqrt(3), 0), (200 + 400 / np.sqrt(3), 0),
                     (400 + 400 / np.sqrt(3), 400),
                     (400 + 200 / np.sqrt(3), 400)]),
        Lane(0,
             0,
             0,
             0,
             angle=-np.radians(60),
             points=[(750 - 400 / np.sqrt(3), 600),
                     (750 - 200 / np.sqrt(3), 600),
                     (950 - 200 / np.sqrt(3), 1000),
                     (950 - 400 / np.sqrt(3), 1000)]),
        Lane(0,
             0,
             0,
             0,
             angle=np.radians(120),
             points=[(750 - 200 / np.sqrt(3), 600), (750, 600), (950, 1000),
                     (950 - 200 / np.sqrt(3), 1000)]),
        Street(575, 500, 350, 200),

        #Sidewalk(200, 400, 400, 50, angle=-np.pi),
        #Sidewalk(200, 650, 400, 50),
        #Sidewalk(875, 400, 250, 50, angle=-np.pi),
        Sidewalk(0,
                 0,
                 0,
                 0,
                 angle=-np.radians(60),
                 points=[(200 - 100 / np.sqrt(3), 0), (200, 0), (400, 400),
                         (400 - 100 / np.sqrt(3), 400)]),
        Sidewalk(0,
                 0,
                 0,
                 0,
                 angle=-np.pi,
                 points=[(0, 350), (400 - 50 / np.sqrt(3), 400 - 50),
                         (400, 400), (0, 400)]),
        Sidewalk(0,
                 0,
                 0,
                 0,
                 angle=np.radians(120),
                 points=[(200 + 400 / np.sqrt(3), 0),
                         (200 + 500 / np.sqrt(3), 0),
                         (400 + 500 / np.sqrt(3), 400),
                         (400 + 400 / np.sqrt(3), 400)]),
        Sidewalk(0,
                 0,
                 0,
                 0,
                 points=[(400 + 350 / np.sqrt(3), 400 - 50), (1000, 350),
                         (1000, 400), (400 + 400 / np.sqrt(3), 400)]),
        Sidewalk(0,
                 0,
                 0,
                 0,
                 angle=-np.radians(60),
                 points=[(750 - 500 / np.sqrt(3), 600),
                         (750 - 400 / np.sqrt(3), 600),
                         (950 - 400 / np.sqrt(3), 1000),
                         (950 - 500 / np.sqrt(3), 1000)]),
        Sidewalk(0,
                 0,
                 0,
                 0,
                 points=[(0, 600), (750 - 400 / np.sqrt(3), 600),
                         (750 - 350 / np.sqrt(3), 650), (0, 650)]),
        Sidewalk(0,
                 0,
                 0,
                 0,
                 angle=np.radians(120),
                 points=[(750, 600), (750 + 100 / np.sqrt(3), 600),
                         (950 + 100 / np.sqrt(3), 1000), (950, 1000)]),
        Sidewalk(0,
                 0,
                 0,
                 0,
                 angle=-np.pi,
                 points=[(750, 600), (1000, 600), (1000, 650),
                         (750 + 50 / np.sqrt(3), 650)])
    ]

    def randomize(self):

        self.dynamic_objects = []
        while len(self.dynamic_objects) < self.ncars:
            lane = [
                Lane(200, 550, 400, 100),
                Lane(875, 450, 250, 100, angle=-np.pi),
                Lane(0,
                     0,
                     0,
                     0,
                     angle=-np.radians(60),
                     points=[(200, 0), (200 + 200 / np.sqrt(3), 0),
                             (400 + 200 / np.sqrt(3), 400), (400, 400)]),
                Lane(0,
                     0,
                     0,
                     0,
                     angle=np.radians(120),
                     points=[(750 - 200 / np.sqrt(3), 600), (750, 600),
                             (950, 1000), (950 - 200 / np.sqrt(3), 1000)]),
            ][np.random.random_integers(0, 3)]
            car = lane.generate_car()
            car.vel = 0
            if not any([
                    car.collides(obj)
                    for obj in self.static_objects + self.dynamic_objects
            ]):
                self.dynamic_objects.append(car)

        if self.traffic_lights:
            self.dynamic_objects.append(TrafficLight(750, 440, 0))
            self.dynamic_objects.append(TrafficLight(400, 560, -np.pi))
            self.dynamic_objects.append(
                TrafficLight(580, 600, -(np.pi / 2), initial_color="red"))
            self.dynamic_objects.append(
                TrafficLight(460, 400, (np.pi / 2), initial_color="red"))

            self.dynamic_objects.append(
                CrosswalkLight(365,
                               395,
                               -np.pi / 2,
                               initial_color="red",
                               time_in_color=80))
            self.dynamic_objects.append(
                CrosswalkLight(375, 375, 0, initial_color="white"))
            self.dynamic_objects.append(
                CrosswalkLight(770, 625, -np.pi, initial_color="white"))
            self.dynamic_objects.append(
                CrosswalkLight(790,
                               610,
                               np.pi / 2,
                               initial_color="red",
                               time_in_color=80))
            self.dynamic_objects.append(
                CrosswalkLight(495,
                               610,
                               np.pi / 2,
                               initial_color="red",
                               time_in_color=80))
            self.dynamic_objects.append(
                CrosswalkLight(520, 625, 0, initial_color="white"))
            self.dynamic_objects.append(
                CrosswalkLight(660,
                               395,
                               -np.pi / 2,
                               initial_color="red",
                               time_in_color=80))
            self.dynamic_objects.append(
                CrosswalkLight(625, 375, -np.pi, initial_color="white"))