128 lines
3.6 KiB
Python
128 lines
3.6 KiB
Python
"""
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pyboard interface
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This module provides the Pyboard class, used to communicate with and
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control the pyboard over a serial USB connection.
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Example usage:
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import pyboard
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pyb = pyboard.Pyboard('/dev/ttyACM0')
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pyb.enter_raw_repl()
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pyb.exec('pyb.Led(1).on()')
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pyb.exit_raw_repl()
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"""
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import time
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import serial
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class Pyboard:
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def __init__(self, serial_device):
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self.serial = serial.Serial(serial_device)
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def close(self):
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self.serial.close()
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def enter_raw_repl(self):
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self.serial.write(b'\r\x01') # ctrl-A: enter raw REPL
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self.serial.write(b'\x04') # ctrl-D: soft reset
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data = self.serial.read(1)
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while self.serial.inWaiting() > 0:
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data = data + self.serial.read(self.serial.inWaiting())
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time.sleep(0.1)
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if not data.endswith(b'raw REPL; CTRL-B to exit\r\n>'):
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print(data)
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raise Exception('could not enter raw repl')
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def exit_raw_repl(self):
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self.serial.write(b'\r\x02') # ctrl-B: enter friendly REPL
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def eval(self, expression):
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ret = self.exec('print({})'.format(expression))
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ret = ret.strip()
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return ret
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def exec(self, command):
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command_bytes = bytes(command, encoding='ascii')
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for i in range(0, len(command_bytes), 10):
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self.serial.write(command_bytes[i:min(i+10, len(command_bytes))])
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time.sleep(0.01)
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self.serial.write(b'\x04')
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data = self.serial.read(2)
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if data != b'OK':
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raise Exception('could not exec command')
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data = self.serial.read(2)
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while self.serial.inWaiting() > 0:
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data = data + self.serial.read(self.serial.inWaiting())
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time.sleep(0.1)
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if not data.endswith(b'\x04>'):
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print(data)
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raise Exception('could not exec command')
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if data.startswith(b'Traceback') or data.startswith(b' File '):
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print(data)
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raise Exception('command failed')
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return data[:-2]
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def get_time(self):
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t = str(self.exec('pyb.time()'), encoding='ascii').strip().split()[1].split(':')
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return int(t[0]) * 3600 + int(t[1]) * 60 + int(t[2])
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def run_test():
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device = '/dev/ttyACM0'
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pyb = Pyboard(device)
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pyb.enter_raw_repl()
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print('opened device {}'.format(device))
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print('seconds since boot:', pyb.get_time())
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pyb.exec('def apply(l, f):\r\n for item in l:\r\n f(item)\r\n')
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pyb.exec('leds=[pyb.Led(l) for l in range(1, 5)]')
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pyb.exec('apply(leds, lambda l:l.off())')
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## USR switch test
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if True:
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for i in range(2):
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print("press USR button")
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pyb.exec('while pyb.switch(): pyb.delay(10)')
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pyb.exec('while not pyb.switch(): pyb.delay(10)')
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print('USR switch passed')
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## accel test
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if True:
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print("hold level")
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pyb.exec('accel = pyb.Accel()')
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pyb.exec('while abs(accel.x()) > 10 or abs(accel.y()) > 10: pyb.delay(10)')
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print("tilt left")
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pyb.exec('while accel.x() > -10: pyb.delay(10)')
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pyb.exec('leds[0].on()')
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print("tilt forward")
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pyb.exec('while accel.y() < 10: pyb.delay(10)')
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pyb.exec('leds[1].on()')
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print("tilt right")
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pyb.exec('while accel.x() < 10: pyb.delay(10)')
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pyb.exec('leds[2].on()')
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print("tilt backward")
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pyb.exec('while accel.y() > -10: pyb.delay(10)')
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pyb.exec('leds[3].on()')
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print('accel passed')
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print('seconds since boot:', pyb.get_time())
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pyb.exec('apply(leds, lambda l:l.off())')
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pyb.exit_raw_repl()
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pyb.close()
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if __name__ == "__main__":
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run_test()
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