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sumorobot-firmware/hal.py

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Python
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import os
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import ujson
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from utime import sleep_us, sleep_ms
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from machine import Pin, PWM, ADC, time_pulse_us
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# LEDs
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STATUS = 0
OPPONENT = 1
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LEFT_LINE = 2
RIGHT_LINE = 3
# directions
STOP = 0
LEFT = 1
RIGHT = 2
FORWARD = 3
BACKWARD = 4
# open and parse the config file
config = None
with open("config.json", "r") as config_file:
config = ujson.load(config_file)
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class Sumorobot(object):
# ultrasonic distance sensor
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echo = Pin(14, Pin.IN)
trigger = Pin(27, Pin.OUT)
# Servo PWM-s
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pwm_left = PWM(Pin(15), freq=50, duty=0)
pwm_right = PWM(Pin(4), freq=50, duty=0)
# bottom LED
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bottom_led = Pin(22, Pin.OUT)
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# bottom LED is in reverse polarity
bottom_led.value(1)
# sensor LEDs
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opponent_led = Pin(16, Pin.OUT)
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left_line_led = Pin(17, Pin.OUT)
right_line_led = Pin(12, Pin.OUT)
# battery gauge
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adc_battery = ADC(Pin(32))
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# the pullups for the phototransistors
Pin(19, Pin.IN, Pin.PULL_UP)
Pin(23, Pin.IN, Pin.PULL_UP)
# the phototransistors
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adc_line_left = ADC(Pin(34))
adc_line_right = ADC(Pin(33))
# Set reference voltage to 3.3V
adc_battery.atten(ADC.ATTN_11DB)
adc_line_left.atten(ADC.ATTN_11DB)
adc_line_right.atten(ADC.ATTN_11DB)
# for highlighting blockly blocks
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highlight_block = None
# for terminating sleep
terminate = False
# to smooth out ultrasonic sensor value
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opponent_score = 0
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def __init__(self, highlight_block):
self.highlight_block = highlight_block
def set_led(self, led, state):
# set the given LED state
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if led == STATUS:
self.bottom_led.value(0 if state else 1)
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elif led == OPPONENT:
self.opponent_led.value(state)
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elif led == LEFT_LINE:
self.left_line_led.value(state)
elif led == RIGHT_LINE:
self.right_line_led.value(state)
def get_battery_voltage(self):
return round(config["battery_coeff"] * (self.adc_battery.read() * 3.3 / 4096), 2)
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def get_opponent_distance(self):
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# send a pulse
self.trigger.value(0)
sleep_us(5)
self.trigger.value(1)
sleep_us(10)
self.trigger.value(0)
# wait for the pulse and calculate the distance
return (time_pulse_us(self.echo, 1, 30000) / 2) / 29.1
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def is_opponent(self, block_id = None):
# if block_id given and blockly highlight is on
if block_id and config["blockly_highlight"]:
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self.highlight_block(block_id)
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# get the opponent distance
self.opponent_distance = self.get_opponent_distance()
# if the opponent is close and the ping actually returned
if self.opponent_distance < config["ultrasonic_distance"] and self.opponent_distance > 0:
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# if not maximum score
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if self.opponent_score < 5:
# increase the opponent score
self.opponent_score += 1
# if no opponent was detected
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else:
# if not lowest score
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if self.opponent_score > 0:
# decrease the opponent score
self.opponent_score -= 1
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# if the sensor saw something more than 2 times
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opponent = True if self.opponent_score > 2 else False
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# trigger opponent LED
self.set_led(OPPONENT, opponent)
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return opponent
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def calibrate_line(self):
# read the line sensor values
config["left_line_threshold"] = self.adc_line_left.read()
config["right_line_threshold"] = self.adc_line_right.read()
# update the config file
with open("config.part", "w") as config_file:
config_file.write(ujson.dumps(config))
os.rename("config.part", "config.json")
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def get_line(self, dir):
# check for valid direction
assert dir == LEFT or dir == RIGHT
# return the given line sensor value
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if dir == LEFT:
return self.adc_line_left.read()
elif dir == RIGHT:
return self.adc_line_right.read()
def is_line(self, dir, block_id = None):
# check for valid direction
assert dir == LEFT or dir == RIGHT
# if block_id given and blockly highlight is on
if block_id and config["blockly_highlight"]:
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self.highlight_block(block_id)
# return the given line sensor value
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if dir == LEFT:
line = abs(self.adc_line_left.read() - config["left_line_threshold"]) > 1000
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self.set_led(LEFT_LINE, line)
return line
elif dir == RIGHT:
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line = abs(self.adc_line_right.read() - config["right_line_threshold"]) > 1000
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self.set_led(RIGHT_LINE, line)
return line
def detach_servos(self):
self.set_servo(LEFT, 0)
self.set_servo(RIGHT, 0)
prev_speed = {LEFT: 0, RIGHT: 0}
def set_servo(self, dir, speed):
# check for valid direction
assert dir == LEFT or dir == RIGHT
# check for valid speed
assert speed <= 100 and speed >= -100
# when the speed didn't change
if speed == self.prev_speed[dir]:
return
# record the new speed
self.prev_speed[dir] = speed
# set the given servo speed
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if dir == LEFT:
if speed == 0:
self.pwm_left.duty(0)
else:
self.pwm_left.duty(int(33 + config["left_servo_tuning"] + speed * 33 / 100)) # -100 ... 100 to 33 .. 102
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elif dir == RIGHT:
if speed == 0:
self.pwm_right.duty(0)
else:
self.pwm_right.duty(int(33 + config["right_servo_tuning"] + speed * 33 / 100)) # -100 ... 100 to 33 .. 102
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def move(self, dir, block_id = None):
# check for valid direction
assert dir == STOP or dir == RIGHT or dir == LEFT or dir == BACKWARD or dir == FORWARD
# if block_id given and blockly highlight is on
if block_id and config["blockly_highlight"]:
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self.highlight_block(block_id)
# go to the given direction
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if dir == STOP:
self.set_servo(LEFT, 0)
self.set_servo(RIGHT, 0)
elif dir == LEFT:
self.set_servo(LEFT, -100)
self.set_servo(RIGHT, -100)
elif dir == RIGHT:
self.set_servo(LEFT, 100)
self.set_servo(RIGHT, 100)
elif dir == FORWARD:
self.set_servo(LEFT, 100)
self.set_servo(RIGHT, -100)
elif dir == BACKWARD:
self.set_servo(LEFT, -100)
self.set_servo(RIGHT, 100)
def sleep(self, delay, block_id = None):
# check for valid delay
assert delay > 0
# if block_id given and blockly highlight is on
if block_id and config["blockly_highlight"]:
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self.highlight_block(block_id)
# split the delay into 50ms chunks
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for j in range(0, delay, 50):
# check for forceful termination
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if self.terminate:
# terminate the delay
return
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else:
sleep_ms(50)