mirror of
https://github.com/Klipper3d/klipper.git
synced 2025-10-31 18:36:09 +01:00
1bbcb51066
When doing serial file output debugging, write the config commands as they are often useful to inspect. Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
530 lines
22 KiB
Python
530 lines
22 KiB
Python
# Multi-processor safe interface to micro-controller
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#
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# Copyright (C) 2016 Kevin O'Connor <kevin@koconnor.net>
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#
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# This file may be distributed under the terms of the GNU GPLv3 license.
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import sys, zlib, logging, time, math
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import serialhdl, pins, chelper
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def parse_pin_extras(pin, can_pullup=False):
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pullup = invert = 0
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if can_pullup and pin.startswith('^'):
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pullup = invert = 1
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pin = pin[1:].strip()
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if pin.startswith('!'):
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invert = invert ^ 1
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pin = pin[1:].strip()
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return pin, pullup, invert
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class MCU_stepper:
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def __init__(self, mcu, step_pin, dir_pin, min_stop_interval, max_error):
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self._mcu = mcu
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self._oid = mcu.create_oid()
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step_pin, pullup, invert_step = parse_pin_extras(step_pin)
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dir_pin, pullup, self._invert_dir = parse_pin_extras(dir_pin)
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self._sdir = -1
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self._last_move_clock = -2**29
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self._mcu_freq = mcu.get_mcu_freq()
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min_stop_interval = int(min_stop_interval * self._mcu_freq)
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max_error = int(max_error * self._mcu_freq)
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mcu.add_config_cmd(
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"config_stepper oid=%d step_pin=%s dir_pin=%s"
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" min_stop_interval=%d invert_step=%d" % (
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self._oid, step_pin, dir_pin, min_stop_interval, invert_step))
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mcu.register_stepper(self)
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self._step_cmd = mcu.lookup_command(
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"queue_step oid=%c interval=%u count=%hu add=%hi")
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self._dir_cmd = mcu.lookup_command(
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"set_next_step_dir oid=%c dir=%c")
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self._reset_cmd = mcu.lookup_command(
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"reset_step_clock oid=%c clock=%u")
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ffi_main, self.ffi_lib = chelper.get_ffi()
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self._stepqueue = self.ffi_lib.stepcompress_alloc(
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max_error, self._step_cmd.msgid, self._oid)
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self.print_to_mcu_time = mcu.print_to_mcu_time
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def get_oid(self):
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return self._oid
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def get_invert_dir(self):
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return self._invert_dir
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def note_stepper_stop(self):
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self._sdir = -1
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self._last_move_clock = -2**29
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def _reset_step_clock(self, clock):
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self.ffi_lib.stepcompress_reset(self._stepqueue, clock)
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data = (self._reset_cmd.msgid, self._oid, clock & 0xffffffff)
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self.ffi_lib.stepcompress_queue_msg(self._stepqueue, data, len(data))
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def set_next_step_dir(self, mcu_time, sdir):
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clock = int(mcu_time * self._mcu_freq)
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if clock - self._last_move_clock >= 2**29:
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self._reset_step_clock(clock)
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self._last_move_clock = clock
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if self._sdir == sdir:
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return
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self._sdir = sdir
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data = (self._dir_cmd.msgid, self._oid, sdir ^ self._invert_dir)
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self.ffi_lib.stepcompress_queue_msg(self._stepqueue, data, len(data))
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def step(self, mcu_time):
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clock = mcu_time * self._mcu_freq
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self.ffi_lib.stepcompress_push(self._stepqueue, clock)
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def step_sqrt(self, mcu_time, steps, step_offset, sqrt_offset, factor):
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clock = mcu_time * self._mcu_freq
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mcu_freq2 = self._mcu_freq**2
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return self.ffi_lib.stepcompress_push_sqrt(
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self._stepqueue, steps, step_offset, clock
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, sqrt_offset * mcu_freq2, factor * mcu_freq2)
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def step_factor(self, mcu_time, steps, step_offset, factor):
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clock = mcu_time * self._mcu_freq
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return self.ffi_lib.stepcompress_push_factor(
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self._stepqueue, steps, step_offset, clock, factor * self._mcu_freq)
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def get_errors(self):
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return self.ffi_lib.stepcompress_get_errors(self._stepqueue)
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class MCU_endstop:
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RETRY_QUERY = 1.000
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def __init__(self, mcu, pin, stepper):
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self._mcu = mcu
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self._oid = mcu.create_oid()
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self._stepper = stepper
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stepper_oid = stepper.get_oid()
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pin, pullup, self._invert = parse_pin_extras(pin, can_pullup=True)
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self._cmd_queue = mcu.alloc_command_queue()
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mcu.add_config_cmd(
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"config_end_stop oid=%d pin=%s pull_up=%d stepper_oid=%d" % (
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self._oid, pin, pullup, stepper_oid))
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self._home_cmd = mcu.lookup_command(
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"end_stop_home oid=%c clock=%u rest_ticks=%u pin_value=%c")
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mcu.register_msg(self._handle_end_stop_state, "end_stop_state"
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, self._oid)
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self._query_cmd = mcu.lookup_command("end_stop_query oid=%c")
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self._homing = False
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self._last_position = 0
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self._next_query_clock = 0
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self._mcu_freq = mcu.get_mcu_freq()
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self._retry_query_ticks = int(self._mcu_freq * self.RETRY_QUERY)
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self.print_to_mcu_time = mcu.print_to_mcu_time
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def home(self, mcu_time, rest_time):
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clock = int(mcu_time * self._mcu_freq)
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rest_ticks = int(rest_time * self._mcu_freq)
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self._homing = True
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self._next_query_clock = clock + self._retry_query_ticks
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msg = self._home_cmd.encode(
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self._oid, clock, rest_ticks, 1 ^ self._invert)
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self._mcu.send(msg, reqclock=clock, cq=self._cmd_queue)
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def home_finalize(self):
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# XXX - this flushes the serial port of messages ready to be
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# sent, but doesn't flush messages if they had an unmet minclock
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self._mcu.serial.send_flush()
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self._stepper.note_stepper_stop()
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def _handle_end_stop_state(self, params):
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logging.debug("end_stop_state %s" % (params,))
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self._last_position = params['pos']
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self._homing = params['homing'] != 0
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def is_homing(self):
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if not self._homing:
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return self._homing
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if self._mcu.output_file_mode:
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return False
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last_clock = self._mcu.get_last_clock()
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if last_clock >= self._next_query_clock:
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self._next_query_clock = last_clock + self._retry_query_ticks
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msg = self._query_cmd.encode(self._oid)
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self._mcu.send(msg, cq=self._cmd_queue)
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return self._homing
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def get_last_position(self):
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if self._stepper.get_invert_dir():
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return -self._last_position
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return self._last_position
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class MCU_digital_out:
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def __init__(self, mcu, pin, max_duration):
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self._mcu = mcu
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self._oid = mcu.create_oid()
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pin, pullup, self._invert = parse_pin_extras(pin)
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self._last_clock = 0
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self._last_value = None
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self._mcu_freq = mcu.get_mcu_freq()
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self._cmd_queue = mcu.alloc_command_queue()
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mcu.add_config_cmd(
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"config_digital_out oid=%d pin=%s default_value=%d"
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" max_duration=%d" % (self._oid, pin, self._invert, max_duration))
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self._set_cmd = mcu.lookup_command(
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"schedule_digital_out oid=%c clock=%u value=%c")
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self.print_to_mcu_time = mcu.print_to_mcu_time
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def set_digital(self, mcu_time, value):
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clock = int(mcu_time * self._mcu_freq)
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msg = self._set_cmd.encode(self._oid, clock, value ^ self._invert)
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self._mcu.send(msg, minclock=self._last_clock, reqclock=clock
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, cq=self._cmd_queue)
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self._last_clock = clock
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self._last_value = value
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def get_last_setting(self):
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return self._last_value
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def set_pwm(self, mcu_time, value):
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dval = 0
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if value > 127:
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dval = 1
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self.set_digital(mcu_time, dval)
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class MCU_pwm:
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def __init__(self, mcu, pin, cycle_ticks, max_duration, hard_pwm=True):
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self._mcu = mcu
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self._oid = mcu.create_oid()
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self._last_clock = 0
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self._mcu_freq = mcu.get_mcu_freq()
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self._cmd_queue = mcu.alloc_command_queue()
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if hard_pwm:
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mcu.add_config_cmd(
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"config_pwm_out oid=%d pin=%s cycle_ticks=%d default_value=0"
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" max_duration=%d" % (self._oid, pin, cycle_ticks, max_duration))
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self._set_cmd = mcu.lookup_command(
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"schedule_pwm_out oid=%c clock=%u value=%c")
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else:
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mcu.add_config_cmd(
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"config_soft_pwm_out oid=%d pin=%s cycle_ticks=%d"
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" default_value=0 max_duration=%d" % (
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self._oid, pin, cycle_ticks, max_duration))
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self._set_cmd = mcu.lookup_command(
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"schedule_soft_pwm_out oid=%c clock=%u value=%c")
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self.print_to_mcu_time = mcu.print_to_mcu_time
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def set_pwm(self, mcu_time, value):
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clock = int(mcu_time * self._mcu_freq)
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msg = self._set_cmd.encode(self._oid, clock, value)
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self._mcu.send(msg, minclock=self._last_clock, reqclock=clock
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, cq=self._cmd_queue)
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self._last_clock = clock
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class MCU_adc:
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ADC_MAX = 1024 # 10bit adc
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def __init__(self, mcu, pin):
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self._mcu = mcu
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self._oid = mcu.create_oid()
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self._min_sample = 0
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self._max_sample = 0xffff
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self._sample_ticks = 0
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self._sample_count = 1
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self._report_clock = 0
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self._callback = None
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self._inv_max_adc = 0.
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self._mcu_freq = mcu.get_mcu_freq()
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self._cmd_queue = mcu.alloc_command_queue()
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mcu.add_config_cmd("config_analog_in oid=%d pin=%s" % (self._oid, pin))
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mcu.register_msg(self._handle_analog_in_state, "analog_in_state"
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, self._oid)
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self._query_cmd = mcu.lookup_command(
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"query_analog_in oid=%c clock=%u sample_ticks=%u sample_count=%c"
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" rest_ticks=%u min_value=%hu max_value=%hu")
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def set_minmax(self, sample_time, sample_count, minval=None, maxval=None):
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self._sample_ticks = int(sample_time * self._mcu_freq)
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self._sample_count = sample_count
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if minval is None:
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minval = 0
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if maxval is None:
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maxval = 0xffff
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max_adc = sample_count * self.ADC_MAX
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self._min_sample = int(minval * max_adc)
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self._max_sample = min(0xffff, int(math.ceil(maxval * max_adc)))
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self._inv_max_adc = 1.0 / max_adc
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def query_analog_in(self, report_time):
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self._report_clock = int(report_time * self._mcu_freq)
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cur_clock = self._mcu.get_last_clock()
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clock = cur_clock + int(self._mcu_freq * (1.0 + self._oid * 0.01)) # XXX
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msg = self._query_cmd.encode(
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self._oid, clock, self._sample_ticks, self._sample_count
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, self._report_clock, self._min_sample, self._max_sample)
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self._mcu.send(msg, reqclock=clock, cq=self._cmd_queue)
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def _handle_analog_in_state(self, params):
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last_value = params['value'] * self._inv_max_adc
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next_clock = self._mcu.serial.translate_clock(params['next_clock'])
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last_read_time = (next_clock - self._report_clock) / self._mcu_freq
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if self._callback is not None:
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self._callback(last_read_time, last_value)
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def set_adc_callback(self, cb):
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self._callback = cb
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class MCU:
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def __init__(self, printer, config):
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self._printer = printer
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self._config = config
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# Serial port
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baud = config.getint('baud', 115200)
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serialport = config.get('serial', '/dev/ttyS0')
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self.serial = serialhdl.SerialReader(printer.reactor, serialport, baud)
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self.is_shutdown = False
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self.output_file_mode = False
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# Config building
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self._num_oids = 0
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self._config_cmds = []
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self._config_crc = None
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# Move command queuing
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ffi_main, self.ffi_lib = chelper.get_ffi()
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self._steppers = []
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self._steppersync = None
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# Print time to clock epoch calculations
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self._print_start_time = 0.
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self._mcu_freq = 0.
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# Stats
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self._mcu_tick_avg = 0.
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self._mcu_tick_stddev = 0.
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def handle_mcu_stats(self, params):
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logging.debug("mcu stats: %s" % (params,))
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count = params['count']
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tick_sum = params['sum']
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c = 1.0 / (count * self._mcu_freq)
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self._mcu_tick_avg = tick_sum * c
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tick_sumsq = params['sumsq']
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tick_sumavgsq = ((tick_sum // (256*count)) * count)**2
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self._mcu_tick_stddev = c * 256. * math.sqrt(
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count * tick_sumsq - tick_sumavgsq)
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def handle_shutdown(self, params):
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if self.is_shutdown:
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return
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self.is_shutdown = True
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logging.info("%s: %s" % (params['#name'], params['#msg']))
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self.serial.dump_debug()
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self._printer.shutdown()
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# Connection phase
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def _init_steppersync(self, count):
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stepqueues = tuple(s._stepqueue for s in self._steppers)
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self._steppersync = self.ffi_lib.steppersync_alloc(
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self.serial.serialqueue, stepqueues, len(stepqueues), count)
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def connect(self):
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def handle_serial_state(params):
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if params['#state'] == 'connected':
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self._printer.reactor.end()
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self.serial.register_callback(handle_serial_state, '#state')
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self.serial.connect()
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self._printer.reactor.run()
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self.serial.unregister_callback('#state')
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logging.info("serial connected")
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self._mcu_freq = float(self.serial.msgparser.config['CLOCK_FREQ'])
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self.register_msg(self.handle_shutdown, 'shutdown')
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self.register_msg(self.handle_shutdown, 'is_shutdown')
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self.register_msg(self.handle_mcu_stats, 'stats')
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def connect_file(self, debugoutput, dictionary, pace=False):
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self.output_file_mode = True
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self.serial.connect_file(debugoutput, dictionary)
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self._mcu_freq = float(self.serial.msgparser.config['CLOCK_FREQ'])
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def dummy_send_config():
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for c in self._config_cmds:
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self.send(self.create_command(c))
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self._init_steppersync(500)
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self._send_config = dummy_send_config
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if not pace:
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def dummy_set_print_start_time(eventtime):
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pass
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def dummy_get_print_buffer_time(eventtime, last_move_end):
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return 0.250
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self.set_print_start_time = dummy_set_print_start_time
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self.get_print_buffer_time = dummy_get_print_buffer_time
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def disconnect(self):
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self.serial.disconnect()
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def stats(self, eventtime):
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stats = self.serial.stats(eventtime)
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stats += " mcu_task_avg=%.06f mcu_task_stddev=%.06f" % (
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self._mcu_tick_avg, self._mcu_tick_stddev)
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err = 0
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for s in self._steppers:
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err += s.get_errors()
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if err:
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stats += " step_errors=%d" % (err,)
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return stats
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# Configuration phase
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def _add_custom(self):
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data = self._config.get('custom', '')
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for line in data.split('\n'):
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line = line.strip()
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cpos = line.find('#')
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if cpos >= 0:
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line = line[:cpos].strip()
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if not line:
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continue
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self.add_config_cmd(line)
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def build_config(self):
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# Build config commands
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self._add_custom()
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self._config_cmds.insert(0, "allocate_oids count=%d" % (
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self._num_oids,))
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# Resolve pin names
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mcu = self.serial.msgparser.config['MCU']
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pin_map = self._config.get('pin_map')
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if pin_map is None:
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pnames = pins.mcu_to_pins(mcu)
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else:
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pnames = pins.map_pins(pin_map, mcu)
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self._config_cmds = [pins.update_command(c, pnames)
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for c in self._config_cmds]
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# Calculate config CRC
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self._config_crc = zlib.crc32('\n'.join(self._config_cmds)) & 0xffffffff
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self.add_config_cmd("finalize_config crc=%d" % (self._config_crc,))
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self._send_config()
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def _send_config(self):
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msg = self.create_command("get_config")
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config_params = {}
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sent_config = False
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def handle_get_config(params):
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config_params.update(params)
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done = not sent_config or params['is_config']
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if done:
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self._printer.reactor.end()
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return done
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while 1:
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self.serial.send_with_response(msg, handle_get_config, 'config')
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self._printer.reactor.run()
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if not config_params['is_config']:
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# Send config commands
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for c in self._config_cmds:
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self.send(self.create_command(c))
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config_params.clear()
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sent_config = True
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continue
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if self._config_crc != config_params['crc']:
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logging.error("Printer CRC does not match config")
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sys.exit(1)
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break
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logging.info("Configured")
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self._init_steppersync(config_params['move_count'])
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# Config creation helpers
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def create_oid(self):
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oid = self._num_oids
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self._num_oids += 1
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return oid
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def add_config_cmd(self, cmd):
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self._config_cmds.append(cmd)
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def register_msg(self, cb, msg, oid=None):
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self.serial.register_callback(cb, msg, oid)
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def register_stepper(self, stepper):
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self._steppers.append(stepper)
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def alloc_command_queue(self):
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return self.serial.alloc_command_queue()
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def lookup_command(self, msgformat):
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return self.serial.msgparser.lookup_command(msgformat)
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def create_command(self, msg):
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return self.serial.msgparser.create_command(msg)
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# Wrappers for mcu object creation
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def create_stepper(self, step_pin, dir_pin, min_stop_interval, max_error):
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return MCU_stepper(self, step_pin, dir_pin, min_stop_interval, max_error)
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def create_endstop(self, pin, stepper):
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return MCU_endstop(self, pin, stepper)
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def create_digital_out(self, pin, max_duration=2.):
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max_duration = int(max_duration * self._mcu_freq)
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return MCU_digital_out(self, pin, max_duration)
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def create_pwm(self, pin, hard_cycle_ticks, max_duration=2.):
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max_duration = int(max_duration * self._mcu_freq)
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if hard_cycle_ticks:
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return MCU_pwm(self, pin, hard_cycle_ticks, max_duration)
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if hard_cycle_ticks < 0:
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return MCU_digital_out(self, pin, max_duration)
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cycle_ticks = int(self._mcu_freq / 10.)
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return MCU_pwm(self, pin, cycle_ticks, max_duration, hard_pwm=False)
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def create_adc(self, pin):
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return MCU_adc(self, pin)
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# Clock syncing
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def set_print_start_time(self, eventtime):
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est_mcu_time = self.serial.get_clock(eventtime) / self._mcu_freq
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self._print_start_time = est_mcu_time
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def get_print_buffer_time(self, eventtime, print_time):
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mcu_time = print_time + self._print_start_time
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est_mcu_time = self.serial.get_clock(eventtime) / self._mcu_freq
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return mcu_time - est_mcu_time
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def print_to_mcu_time(self, print_time):
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return print_time + self._print_start_time
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def get_mcu_freq(self):
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return self._mcu_freq
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def get_last_clock(self):
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return self.serial.get_last_clock()
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# Move command queuing
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def send(self, cmd, minclock=0, reqclock=0, cq=None):
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self.serial.send(cmd, minclock, reqclock, cq=cq)
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def flush_moves(self, print_time):
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mcu_time = print_time + self._print_start_time
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clock = int(mcu_time * self._mcu_freq)
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self.ffi_lib.steppersync_flush(self._steppersync, clock)
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######################################################################
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# MCU Unit testing
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######################################################################
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class Dummy_MCU_stepper:
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def __init__(self, mcu, stepid):
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self._mcu = mcu
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self._stepid = stepid
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self._sdir = None
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def queue_step(self, interval, count, add, clock):
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dirstr = countstr = addstr = ""
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if self._sdir is not None:
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dirstr = "D%d" % (self._sdir+1,)
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self._sdir = None
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if count != 1:
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countstr = "C%d" % (count,)
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if add:
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addstr = "A%d" % (add,)
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self._mcu.outfile.write("G5S%d%s%s%sT%d\n" % (
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self._stepid, dirstr, countstr, addstr, interval))
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def set_next_step_dir(self, dir):
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self._sdir = dir
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def _reset_step_clock(self, clock):
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self._mcu.outfile.write("G6S%dT%d\n" % (self._stepid, clock))
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def print_to_mcu_time(self, print_time):
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return self._mcu.print_to_mcu_time(print_time)
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class Dummy_MCU_obj:
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def __init__(self, mcu):
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self._mcu = mcu
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def home(self, clock, rest_ticks):
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pass
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def is_homing(self):
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return False
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def home_finalize(self):
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pass
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def set_pwm(self, mcu_time, value):
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pass
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def set_minmax(self, sample_time, sample_count, minval=None, maxval=None):
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pass
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def query_analog_in(self, report_time):
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pass
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def set_adc_callback(self, cb):
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pass
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def print_to_mcu_time(self, print_time):
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return self._mcu.print_to_mcu_time(print_time)
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|
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class DummyMCU:
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def __init__(self, outfile):
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self.outfile = outfile
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self._stepid = -1
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self._print_start_time = 0.
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self._mcu_freq = 16000000.
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logging.debug('Translated by klippy')
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def connect(self):
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pass
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def disconnect(self):
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pass
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def stats(self, eventtime):
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return ""
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def build_config(self):
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pass
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def create_stepper(self, step_pin, dir_pin, min_stop_interval, max_error):
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self._stepid += 1
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return Dummy_MCU_stepper(self, self._stepid)
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def create_endstop(self, pin, stepper):
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return Dummy_MCU_obj(self)
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def create_digital_out(self, pin, max_duration=2.):
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return None
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def create_pwm(self, pin, hard_cycle_ticks, max_duration=2.):
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return Dummy_MCU_obj(self)
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def create_adc(self, pin):
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return Dummy_MCU_obj(self)
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def set_print_start_time(self, eventtime):
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pass
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def get_print_buffer_time(self, eventtime, last_move_end):
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return 0.250
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def print_to_mcu_time(self, print_time):
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return print_time + self._print_start_time
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def get_mcu_freq(self):
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return self._mcu_freq
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def flush_moves(self, print_time):
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pass
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