kuukar-rpi/kuukar/kuukar_motion.py

137 lines
4.6 KiB
Python

from random import randint
from kuukar.kuukar_config import MOTOR_FL_F, MOTOR_FL_R, MOTOR_FR_F, MOTOR_FR_R, MOTOR_RL_F, MOTOR_RL_R, MOTOR_RR_F, MOTOR_RR_R, TURN_TIME_FS_90DEG_MS
import time
from kuukar.kuukar_leds import leds
from kuukar.kuukar_sensors import sensors
from telemetrix_rpi_pico import telemetrix_rpi_pico
import threading
class motion:
roaming = False
def __init__(self, mcu: telemetrix_rpi_pico.TelemetrixRpiPico, leds: leds, sensors: sensors) -> None:
self.mcu = mcu
self.leds = leds
self.sensors = sensors
self.roam_thread = threading.Thread(target=self.__roam_looper)
self.roam_thread.start()
drive_pins = [MOTOR_FL_F, MOTOR_FL_R, MOTOR_FR_F,
MOTOR_FR_R, MOTOR_RL_F, MOTOR_RL_R, MOTOR_RR_F, MOTOR_RR_R]
for drive_pin in drive_pins:
self.mcu.set_pin_mode_pwm_output(drive_pin)
def motor_write(self, forward_pin: int, reverse_pin: int, speed: int):
if speed < 0:
self.mcu.pwm_write(forward_pin, 0)
self.mcu.pwm_write(reverse_pin, -int(speed))
elif speed >= 0:
self.mcu.pwm_write(forward_pin, int(speed))
self.mcu.pwm_write(reverse_pin, 0)
def drive(self, speed: int):
self.motor_write(MOTOR_FL_F, MOTOR_FL_R, speed)
self.motor_write(MOTOR_FR_F, MOTOR_FR_R, speed)
self.motor_write(MOTOR_RL_F, MOTOR_RL_R, speed)
self.motor_write(MOTOR_RR_F, MOTOR_RR_R, speed)
def turn(self, speed: int, duration: float):
if speed > 0:
self.leds.set_left_signal_led(False)
self.leds.set_right_signal_led(True)
elif speed < 0:
self.leds.set_left_signal_led(True)
self.leds.set_right_signal_led(False)
self.motor_write(MOTOR_FL_F, MOTOR_FL_R, speed)
self.motor_write(MOTOR_FR_F, MOTOR_FR_R, -speed)
self.motor_write(MOTOR_RL_F, MOTOR_RL_R, speed)
self.motor_write(MOTOR_RR_F, MOTOR_RR_R, -speed)
time.sleep(duration/1000.0)
self.stop()
def turn_cont(self, speed: int):
if speed > 0:
self.leds.set_right_signal_led(True)
self.leds.set_left_signal_led(False)
elif speed < 0:
self.leds.set_right_signal_led(False)
self.leds.set_left_signal_led(True)
self.motor_write(MOTOR_FL_F, MOTOR_FL_R, speed)
self.motor_write(MOTOR_FR_F, MOTOR_FR_R, -speed)
self.motor_write(MOTOR_RL_F, MOTOR_RL_R, speed)
self.motor_write(MOTOR_RR_F, MOTOR_RR_R, -speed)
def drive_skew(self, speed: float, dir: float):
if dir > 0:
self.leds.set_right_signal_led(True)
self.leds.set_left_signal_led(False)
elif dir < 0:
self.leds.set_right_signal_led(False)
self.leds.set_left_signal_led(True)
lm_speed = (100+dir/2)*speed/100
if lm_speed>99:
lm_speed = 99
elif lm_speed<-99:
lm_speed = -99
rm_speed = (100-dir/2)*speed/100
if rm_speed > 99:
rm_speed = 99
elif rm_speed < -99:
rm_speed = -99;
self.motor_write(MOTOR_FL_F, MOTOR_FL_R, lm_speed)
self.motor_write(MOTOR_FR_F, MOTOR_FR_R, rm_speed)
self.motor_write(MOTOR_RL_F, MOTOR_RL_R, lm_speed)
self.motor_write(MOTOR_RR_F, MOTOR_RR_R, rm_speed)
def skt_drive(self, speed: float, turn: float, t=0):
speed *=100
turn *=100
leftSpeed = speed - turn
rightSpeed = speed + turn
if leftSpeed>990: leftSpeed=990
elif leftSpeed<-990: leftSpeed= -990
if rightSpeed>990: rightSpeed=990
elif rightSpeed<-990: rightSpeed= -990
if speed>990: speed=990
elif speed<-990: speed= -990
self.motor_write(MOTOR_FL_F, MOTOR_FL_R, abs(leftSpeed/10))
self.motor_write(MOTOR_FR_F, MOTOR_FR_R, abs(rightSpeed/10))
self.motor_write(MOTOR_RL_F, MOTOR_RL_R, speed/10)
self.motor_write(MOTOR_RR_F, MOTOR_RR_R, speed/10)
def stop(self):
self.leds.set_left_signal_led(False)
self.leds.set_right_signal_led(False)
self.leds.set_reverse_led(False)
self.drive(0)
def roam_start(self):
self.drive(25)
self.roaming = True
def roam_stop(self):
self.roaming = False
time.sleep(0.5)
self.stop()
def is_roaming(self) -> bool:
return self.roaming
def __roam_looper(self):
while True:
if self.roaming:
self.__roam_handle()
time.sleep(0.3)
def __roam_handle(self):
time.sleep(1)
if not self.roaming:
self.stop()