345 lines
12 KiB
Python
Executable File
345 lines
12 KiB
Python
Executable File
#!/usr/bin/env python3
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# Copyright (c) 2017 Computer Vision Center (CVC) at the Universitat Autonoma de
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# Barcelona (UAB), and the INTEL Visual Computing Lab.
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#
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# This work is licensed under the terms of the MIT license.
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# For a copy, see <https://opensource.org/licenses/MIT>.
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# Keyboard controlling for carla. Please refer to client_example for a simpler
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# and more documented example.
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"""
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Welcome to CARLA manual control.
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Use ARROWS or WASD keys for control.
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W : throttle
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S : brake
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AD : steer
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Q : toggle reverse
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Space : hand-brake
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R : restart level
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STARTING in a moment...
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"""
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from __future__ import print_function
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import argparse
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import logging
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import random
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import sys
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import time
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try:
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import pygame
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from pygame.locals import *
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except ImportError:
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raise RuntimeError('cannot import pygame, make sure pygame package is installed')
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try:
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import numpy as np
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except ImportError:
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raise RuntimeError('cannot import numpy, make sure numpy package is installed')
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from carla import image_converter
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from carla import sensor
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from carla.client import make_carla_client, VehicleControl
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from carla.planner.map import CarlaMap
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from carla.settings import CarlaSettings
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from carla.tcp import TCPConnectionError
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from carla.util import print_over_same_line
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WINDOW_WIDTH = 800
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WINDOW_HEIGHT = 600
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MINI_WINDOW_WIDTH = 320
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MINI_WINDOW_HEIGHT = 180
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def make_carla_settings():
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"""Make a CarlaSettings object with the settings we need."""
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settings = CarlaSettings()
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settings.set(
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SynchronousMode=False,
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NumberOfVehicles=15,
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NumberOfPedestrians=30,
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WeatherId=random.choice([1, 3, 7, 8, 14]))
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settings.randomize_seeds()
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camera0 = sensor.Camera('CameraRGB')
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camera0.set_image_size(WINDOW_WIDTH, WINDOW_HEIGHT)
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camera0.set_position(200, 0, 140)
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camera0.set_rotation(0.0, 0.0, 0.0)
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settings.add_sensor(camera0)
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camera1 = sensor.Camera('CameraDepth', PostProcessing='Depth')
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camera1.set_image_size(MINI_WINDOW_WIDTH, MINI_WINDOW_HEIGHT)
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camera1.set_position(200, 0, 140)
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camera1.set_rotation(0.0, 0.0, 0.0)
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settings.add_sensor(camera1)
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camera2 = sensor.Camera('CameraSemSeg', PostProcessing='SemanticSegmentation')
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camera2.set_image_size(MINI_WINDOW_WIDTH, MINI_WINDOW_HEIGHT)
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camera2.set_position(200, 0, 140)
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camera2.set_rotation(0.0, 0.0, 0.0)
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settings.add_sensor(camera2)
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return settings
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class Timer(object):
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def __init__(self):
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self.step = 0
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self._lap_step = 0
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self._lap_time = time.time()
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def tick(self):
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self.step += 1
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def lap(self):
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self._lap_step = self.step
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self._lap_time = time.time()
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def ticks_per_second(self):
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return float(self.step - self._lap_step) / self.elapsed_seconds_since_lap()
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def elapsed_seconds_since_lap(self):
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return time.time() - self._lap_time
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class CarlaGame(object):
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def __init__(self, carla_client, city_name=None):
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self.client = carla_client
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self._timer = None
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self._display = None
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self._main_image = None
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self._mini_view_image1 = None
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self._mini_view_image2 = None
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self._map_view = None
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self._is_on_reverse = False
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self._city_name = city_name
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self._map = CarlaMap(city_name) if city_name is not None else None
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def execute(self):
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"""Launch the PyGame."""
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pygame.init()
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self._initialize_game()
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try:
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while True:
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for event in pygame.event.get():
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if event.type == pygame.QUIT:
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return
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self._on_loop()
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self._on_render()
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finally:
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pygame.quit()
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def _initialize_game(self):
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if self._city_name is not None:
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self._display = pygame.display.set_mode(
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(WINDOW_WIDTH * 2, WINDOW_HEIGHT),
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pygame.HWSURFACE | pygame.DOUBLEBUF)
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else:
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self._display = pygame.display.set_mode(
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(WINDOW_WIDTH, WINDOW_HEIGHT),
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pygame.HWSURFACE | pygame.DOUBLEBUF)
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logging.debug('pygame started')
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self._on_new_episode()
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def _on_new_episode(self):
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scene = self.client.load_settings(make_carla_settings())
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number_of_player_starts = len(scene.player_start_spots)
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player_start = np.random.randint(number_of_player_starts)
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print('Starting new episode...')
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self.client.start_episode(player_start)
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self._timer = Timer()
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self._is_on_reverse = False
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def _on_loop(self):
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self._timer.tick()
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measurements, sensor_data = self.client.read_data()
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self._main_image = sensor_data['CameraRGB']
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self._mini_view_image1 = sensor_data['CameraDepth']
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self._mini_view_image2 = sensor_data['CameraSemSeg']
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# Print measurements every second.
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if self._timer.elapsed_seconds_since_lap() > 1.0:
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if self._city_name is not None:
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# Function to get car position on map.
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map_position = self._map.get_position_on_map([
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measurements.player_measurements.transform.location.x,
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measurements.player_measurements.transform.location.y,
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measurements.player_measurements.transform.location.z])
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# Function to get orientation of the road car is in.
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lane_orientation = self._map.get_lane_orientation([
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measurements.player_measurements.transform.location.x,
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measurements.player_measurements.transform.location.y,
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measurements.player_measurements.transform.location.z])
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self._print_player_measurements_map(
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measurements.player_measurements,
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map_position,
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lane_orientation)
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else:
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self._print_player_measurements(measurements.player_measurements)
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# Plot position on the map as well.
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if self._city_name is not None:
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self._map.draw_position_on_map(
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measurements.player_measurements.transform.location,
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[255, 0, 0, 255])
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self._map_view = self._map.get_map([WINDOW_WIDTH, WINDOW_HEIGHT])
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self._timer.lap()
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control = self._get_keyboard_control(pygame.key.get_pressed())
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if control is None:
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self._on_new_episode()
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else:
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self.client.send_control(control)
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def _get_keyboard_control(self, keys):
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"""
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Return a VehicleControl message based on the pressed keys. Return None
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if a new episode was requested.
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"""
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if keys[K_r]:
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return None
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control = VehicleControl()
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if keys[K_LEFT] or keys[K_a]:
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control.steer = -1.0
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if keys[K_RIGHT] or keys[K_d]:
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control.steer = 1.0
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if keys[K_UP] or keys[K_w]:
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control.throttle = 1.0
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if keys[K_DOWN] or keys[K_s]:
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control.brake = 1.0
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if keys[K_SPACE]:
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control.hand_brake = True
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if keys[K_q]:
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self._is_on_reverse = not self._is_on_reverse
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control.reverse = self._is_on_reverse
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return control
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def _print_player_measurements_map(
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self,
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player_measurements,
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map_position,
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lane_orientation):
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message = 'Step {step} ({fps:.1f} FPS): '
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message += 'Map Position ({map_x:.1f},{map_y:.1f}) Lane Orientation ({ori_x:.1f},{ori_y:.1f}) '
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message += '{speed:.2f} km/h, '
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message += '{other_lane:.0f}% other lane, {offroad:.0f}% off-road'
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message = message.format(
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map_x=map_position[0],
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map_y=map_position[1],
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ori_x=lane_orientation[0],
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ori_y=lane_orientation[1],
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step=self._timer.step,
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fps=self._timer.ticks_per_second(),
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speed=player_measurements.forward_speed,
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other_lane=100 * player_measurements.intersection_otherlane,
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offroad=100 * player_measurements.intersection_offroad)
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print_over_same_line(message)
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def _print_player_measurements(self, player_measurements):
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message = 'Step {step} ({fps:.1f} FPS): '
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message += '{speed:.2f} km/h, '
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message += '{other_lane:.0f}% other lane, {offroad:.0f}% off-road'
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message = message.format(
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step=self._timer.step,
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fps=self._timer.ticks_per_second(),
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speed=player_measurements.forward_speed,
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other_lane=100 * player_measurements.intersection_otherlane,
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offroad=100 * player_measurements.intersection_offroad)
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print_over_same_line(message)
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def _on_render(self):
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gap_x = (WINDOW_WIDTH - 2 * MINI_WINDOW_WIDTH) / 3
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mini_image_y = WINDOW_HEIGHT - MINI_WINDOW_HEIGHT - gap_x
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if self._main_image is not None:
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array = image_converter.to_rgb_array(self._main_image)
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surface = pygame.surfarray.make_surface(array.swapaxes(0, 1))
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self._display.blit(surface, (0, 0))
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if self._mini_view_image1 is not None:
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array = image_converter.depth_to_logarithmic_grayscale(self._mini_view_image1)
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surface = pygame.surfarray.make_surface(array.swapaxes(0, 1))
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self._display.blit(surface, (gap_x, mini_image_y))
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if self._mini_view_image2 is not None:
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array = image_converter.labels_to_cityscapes_palette(
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self._mini_view_image2)
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surface = pygame.surfarray.make_surface(array.swapaxes(0, 1))
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self._display.blit(
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surface, (2 * gap_x + MINI_WINDOW_WIDTH, mini_image_y))
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if self._map_view is not None:
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array = self._map_view
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array = array[:, :, :3]
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surface = pygame.surfarray.make_surface(array)
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self._display.blit(surface, (WINDOW_WIDTH, 0))
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pygame.display.flip()
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def main():
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argparser = argparse.ArgumentParser(
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description='CARLA Manual Control Client')
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argparser.add_argument(
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'-v', '--verbose',
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action='store_true',
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dest='debug',
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help='print debug information')
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argparser.add_argument(
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'--host',
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metavar='H',
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default='localhost',
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help='IP of the host server (default: localhost)')
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argparser.add_argument(
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'-p', '--port',
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metavar='P',
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default=2000,
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type=int,
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help='TCP port to listen to (default: 2000)')
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argparser.add_argument(
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'-m', '--map-name',
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metavar='M',
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default=None,
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help='plot the map of the current city (needs to match active map in server, options: Town01 or Town02)')
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args = argparser.parse_args()
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log_level = logging.DEBUG if args.debug else logging.INFO
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logging.basicConfig(format='%(levelname)s: %(message)s', level=log_level)
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logging.info('listening to server %s:%s', args.host, args.port)
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print(__doc__)
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while True:
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try:
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with make_carla_client(args.host, args.port) as client:
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game = CarlaGame(client, args.map_name)
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game.execute()
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break
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except TCPConnectionError as error:
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logging.error(error)
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time.sleep(1)
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except Exception as exception:
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logging.exception(exception)
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sys.exit(1)
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if __name__ == '__main__':
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try:
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main()
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except KeyboardInterrupt:
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print('\nCancelled by user. Bye!')
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