mcu: Move print_time to clock conversion code to clocksync.py
Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
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94bcd9735a
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@ -14,6 +14,7 @@ class ClockSync:
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self.queries_pending = 0
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self.queries_pending = 0
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self.status_timer = self.reactor.register_timer(self._status_event)
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self.status_timer = self.reactor.register_timer(self._status_event)
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self.status_cmd = None
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self.status_cmd = None
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self.mcu_freq = 0.
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self.lock = threading.Lock()
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self.lock = threading.Lock()
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self.last_clock = 0
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self.last_clock = 0
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self.last_clock_time = self.last_clock_time_min = 0.
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self.last_clock_time = self.last_clock_time_min = 0.
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@ -27,18 +28,19 @@ class ClockSync:
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self.last_clock = (params['high'] << 32) | params['clock']
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self.last_clock = (params['high'] << 32) | params['clock']
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self.last_clock_time = params['#receive_time']
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self.last_clock_time = params['#receive_time']
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self.last_clock_time_min = params['#sent_time']
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self.last_clock_time_min = params['#sent_time']
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clock_freq = msgparser.get_constant_float('CLOCK_FREQ')
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self.mcu_freq = msgparser.get_constant_float('CLOCK_FREQ')
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self.min_freq = clock_freq * (1. - MAX_CLOCK_DRIFT)
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self.min_freq = self.mcu_freq * (1. - MAX_CLOCK_DRIFT)
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self.max_freq = clock_freq * (1. + MAX_CLOCK_DRIFT)
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self.max_freq = self.mcu_freq * (1. + MAX_CLOCK_DRIFT)
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# Enable periodic get_status timer
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# Enable periodic get_status timer
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serial.register_callback(self._handle_status, 'status')
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serial.register_callback(self._handle_status, 'status')
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self.status_cmd = msgparser.create_command('get_status')
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self.status_cmd = msgparser.create_command('get_status')
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self.reactor.update_timer(self.status_timer, self.reactor.NOW)
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self.reactor.update_timer(self.status_timer, self.reactor.NOW)
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def connect_file(self, serial, pace=False):
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def connect_file(self, serial, pace=False):
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self.serial = serial
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self.serial = serial
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self.mcu_freq = serial.msgparser.get_constant_float('CLOCK_FREQ')
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est_freq = 1000000000000.
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est_freq = 1000000000000.
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if pace:
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if pace:
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est_freq = float(self.msgparser.config['CLOCK_FREQ'])
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est_freq = self.mcu_freq
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self.min_freq = self.max_freq = est_freq
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self.min_freq = self.max_freq = est_freq
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self.last_clock = 0
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self.last_clock = 0
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self.last_clock_time = self.reactor.monotonic()
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self.last_clock_time = self.reactor.monotonic()
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@ -55,13 +57,21 @@ class ClockSync:
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last_clock_time = self.last_clock_time
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last_clock_time = self.last_clock_time
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min_freq = self.min_freq
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min_freq = self.min_freq
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return int(last_clock + (eventtime - last_clock_time) * min_freq)
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return int(last_clock + (eventtime - last_clock_time) * min_freq)
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def translate_clock(self, raw_clock):
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def clock32_to_clock64(self, clock32):
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with self.lock:
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with self.lock:
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last_clock = self.last_clock
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last_clock = self.last_clock
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clock_diff = (last_clock - raw_clock) & 0xffffffff
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clock_diff = (last_clock - clock32) & 0xffffffff
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if clock_diff & 0x80000000:
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if clock_diff & 0x80000000:
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return last_clock + 0x100000000 - clock_diff
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return last_clock + 0x100000000 - clock_diff
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return last_clock - clock_diff
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return last_clock - clock_diff
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def print_time_to_clock(self, print_time):
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return int(print_time * self.mcu_freq)
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def clock_to_print_time(self, clock):
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return clock / self.mcu_freq
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def estimated_print_time(self, eventtime):
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return self.clock_to_print_time(self.get_clock(eventtime))
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def get_adjusted_freq(self):
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return self.mcu_freq
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def _status_event(self, eventtime):
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def _status_event(self, eventtime):
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self.queries_pending += 1
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self.queries_pending += 1
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self.serial.send(self.status_cmd)
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self.serial.send(self.status_cmd)
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@ -162,7 +162,7 @@ class MCU_endstop:
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, self._oid)
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, self._oid)
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def home_start(self, print_time, rest_time):
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def home_start(self, print_time, rest_time):
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clock = self._mcu.print_time_to_clock(print_time)
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clock = self._mcu.print_time_to_clock(print_time)
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rest_ticks = self._mcu.seconds_to_clock(rest_time)
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rest_ticks = int(rest_time * self._mcu.get_adjusted_freq())
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self._homing = True
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self._homing = True
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self._min_query_time = self._mcu.monotonic()
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self._min_query_time = self._mcu.monotonic()
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self._next_query_time = print_time + self.RETRY_QUERY
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self._next_query_time = print_time + self.RETRY_QUERY
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@ -382,7 +382,7 @@ class MCU_adc:
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, self._oid)
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, self._oid)
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def _handle_analog_in_state(self, params):
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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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last_value = params['value'] * self._inv_max_adc
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next_clock = self._mcu.translate_clock(params['next_clock'])
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next_clock = self._mcu.clock32_to_clock64(params['next_clock'])
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last_read_clock = next_clock - self._report_clock
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last_read_clock = next_clock - self._report_clock
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last_read_time = self._mcu.clock_to_print_time(last_read_clock)
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last_read_time = self._mcu.clock_to_print_time(last_read_clock)
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if self._callback is not None:
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if self._callback is not None:
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@ -674,17 +674,17 @@ class MCU:
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return self._serial.msgparser.get_constant_float(name)
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return self._serial.msgparser.get_constant_float(name)
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# Clock syncing
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# Clock syncing
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def print_time_to_clock(self, print_time):
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def print_time_to_clock(self, print_time):
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return int(print_time * self._mcu_freq)
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return self._clocksync.print_time_to_clock(print_time)
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def clock_to_print_time(self, clock):
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def clock_to_print_time(self, clock):
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return clock / self._mcu_freq
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return self._clocksync.clock_to_print_time(clock)
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def estimated_print_time(self, eventtime):
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def estimated_print_time(self, eventtime):
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return self.clock_to_print_time(self._clocksync.get_clock(eventtime))
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return self._clocksync.estimated_print_time(eventtime)
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def get_mcu_freq(self):
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def get_adjusted_freq(self):
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return self._mcu_freq
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return self._clocksync.get_adjusted_freq()
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def clock32_to_clock64(self, clock32):
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return self._clocksync.clock32_to_clock64(clock32)
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def seconds_to_clock(self, time):
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def seconds_to_clock(self, time):
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return int(time * self._mcu_freq)
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return int(time * self._mcu_freq)
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def translate_clock(self, clock):
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return self._clocksync.translate_clock(clock)
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def get_max_stepper_error(self):
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def get_max_stepper_error(self):
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return self._max_stepper_error
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return self._max_stepper_error
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# Move command queuing
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# Move command queuing
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@ -98,7 +98,8 @@ class PrinterHomingStepper(PrinterStepper):
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def get_homing_speed(self):
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def get_homing_speed(self):
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# Round the configured homing speed so that it is an even
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# Round the configured homing speed so that it is an even
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# number of ticks per step.
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# number of ticks per step.
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dist_ticks = self.mcu_stepper.get_mcu().get_mcu_freq() * self.step_dist
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adjusted_freq = self.mcu_stepper.get_mcu().get_adjusted_freq()
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dist_ticks = adjusted_freq * self.step_dist
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ticks_per_step = round(dist_ticks / self.homing_speed)
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ticks_per_step = round(dist_ticks / self.homing_speed)
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return dist_ticks / ticks_per_step
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return dist_ticks / ticks_per_step
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def get_homed_offset(self):
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def get_homed_offset(self):
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