236 lines
10 KiB
Python
236 lines
10 KiB
Python
# Diagnostic tool for reporting stepper and kinematic positions
|
|
#
|
|
# Copyright (C) 2021 Kevin O'Connor <kevin@koconnor.net>
|
|
#
|
|
# This file may be distributed under the terms of the GNU GPLv3 license.
|
|
import logging
|
|
import chelper
|
|
from . import bulk_sensor
|
|
|
|
# Extract stepper queue_step messages
|
|
class DumpStepper:
|
|
def __init__(self, printer, mcu_stepper):
|
|
self.printer = printer
|
|
self.mcu_stepper = mcu_stepper
|
|
self.last_batch_clock = 0
|
|
self.batch_bulk = bulk_sensor.BatchBulkHelper(printer,
|
|
self._process_batch)
|
|
api_resp = {'header': ('interval', 'count', 'add')}
|
|
self.batch_bulk.add_mux_endpoint("motion_report/dump_stepper", "name",
|
|
mcu_stepper.get_name(), api_resp)
|
|
def get_step_queue(self, start_clock, end_clock):
|
|
mcu_stepper = self.mcu_stepper
|
|
res = []
|
|
while 1:
|
|
data, count = mcu_stepper.dump_steps(128, start_clock, end_clock)
|
|
if not count:
|
|
break
|
|
res.append((data, count))
|
|
if count < len(data):
|
|
break
|
|
end_clock = data[count-1].first_clock
|
|
res.reverse()
|
|
return ([d[i] for d, cnt in res for i in range(cnt-1, -1, -1)], res)
|
|
def log_steps(self, data):
|
|
if not data:
|
|
return
|
|
out = []
|
|
out.append("Dumping stepper '%s' (%s) %d queue_step:"
|
|
% (self.mcu_stepper.get_name(),
|
|
self.mcu_stepper.get_mcu().get_name(), len(data)))
|
|
for i, s in enumerate(data):
|
|
out.append("queue_step %d: t=%d p=%d i=%d c=%d a=%d"
|
|
% (i, s.first_clock, s.start_position, s.interval,
|
|
s.step_count, s.add))
|
|
logging.info('\n'.join(out))
|
|
def _process_batch(self, eventtime):
|
|
data, cdata = self.get_step_queue(self.last_batch_clock, 1<<63)
|
|
if not data:
|
|
return {}
|
|
clock_to_print_time = self.mcu_stepper.get_mcu().clock_to_print_time
|
|
first = data[0]
|
|
first_clock = first.first_clock
|
|
first_time = clock_to_print_time(first_clock)
|
|
self.last_batch_clock = last_clock = data[-1].last_clock
|
|
last_time = clock_to_print_time(last_clock)
|
|
mcu_pos = first.start_position
|
|
start_position = self.mcu_stepper.mcu_to_commanded_position(mcu_pos)
|
|
step_dist = self.mcu_stepper.get_step_dist()
|
|
if self.mcu_stepper.get_dir_inverted()[0]:
|
|
step_dist = -step_dist
|
|
d = [(s.interval, s.step_count, s.add) for s in data]
|
|
return {"data": d, "start_position": start_position,
|
|
"start_mcu_position": mcu_pos, "step_distance": step_dist,
|
|
"first_clock": first_clock, "first_step_time": first_time,
|
|
"last_clock": last_clock, "last_step_time": last_time}
|
|
|
|
NEVER_TIME = 9999999999999999.
|
|
|
|
# Extract trapezoidal motion queue (trapq)
|
|
class DumpTrapQ:
|
|
def __init__(self, printer, name, trapq):
|
|
self.printer = printer
|
|
self.name = name
|
|
self.trapq = trapq
|
|
self.last_batch_msg = (0., 0.)
|
|
self.batch_bulk = bulk_sensor.BatchBulkHelper(printer,
|
|
self._process_batch)
|
|
api_resp = {'header': ('time', 'duration', 'start_velocity',
|
|
'acceleration', 'start_position', 'direction')}
|
|
self.batch_bulk.add_mux_endpoint("motion_report/dump_trapq",
|
|
"name", name, api_resp)
|
|
def extract_trapq(self, start_time, end_time):
|
|
ffi_main, ffi_lib = chelper.get_ffi()
|
|
res = []
|
|
while 1:
|
|
data = ffi_main.new('struct pull_move[128]')
|
|
count = ffi_lib.trapq_extract_old(self.trapq, data, len(data),
|
|
start_time, end_time)
|
|
if not count:
|
|
break
|
|
res.append((data, count))
|
|
if count < len(data):
|
|
break
|
|
end_time = data[count-1].print_time
|
|
res.reverse()
|
|
return ([d[i] for d, cnt in res for i in range(cnt-1, -1, -1)], res)
|
|
def log_trapq(self, data):
|
|
if not data:
|
|
return
|
|
out = ["Dumping trapq '%s' %d moves:" % (self.name, len(data))]
|
|
for i, m in enumerate(data):
|
|
out.append("move %d: pt=%.6f mt=%.6f sv=%.6f a=%.6f"
|
|
" sp=(%.6f,%.6f,%.6f) ar=(%.6f,%.6f,%.6f)"
|
|
% (i, m.print_time, m.move_t, m.start_v, m.accel,
|
|
m.start_x, m.start_y, m.start_z, m.x_r, m.y_r, m.z_r))
|
|
logging.info('\n'.join(out))
|
|
def get_trapq_position(self, print_time):
|
|
ffi_main, ffi_lib = chelper.get_ffi()
|
|
data = ffi_main.new('struct pull_move[1]')
|
|
count = ffi_lib.trapq_extract_old(self.trapq, data, 1, 0., print_time)
|
|
if not count:
|
|
return None, None
|
|
move = data[0]
|
|
move_time = max(0., min(move.move_t, print_time - move.print_time))
|
|
dist = (move.start_v + .5 * move.accel * move_time) * move_time;
|
|
pos = (move.start_x + move.x_r * dist, move.start_y + move.y_r * dist,
|
|
move.start_z + move.z_r * dist)
|
|
velocity = move.start_v + move.accel * move_time
|
|
return pos, velocity
|
|
def _process_batch(self, eventtime):
|
|
qtime = self.last_batch_msg[0] + min(self.last_batch_msg[1], 0.100)
|
|
data, cdata = self.extract_trapq(qtime, NEVER_TIME)
|
|
d = [(m.print_time, m.move_t, m.start_v, m.accel,
|
|
(m.start_x, m.start_y, m.start_z), (m.x_r, m.y_r, m.z_r))
|
|
for m in data]
|
|
if d and d[0] == self.last_batch_msg:
|
|
d.pop(0)
|
|
if not d:
|
|
return {}
|
|
self.last_batch_msg = d[-1]
|
|
return {"data": d}
|
|
|
|
STATUS_REFRESH_TIME = 0.250
|
|
|
|
class PrinterMotionReport:
|
|
def __init__(self, config):
|
|
self.printer = config.get_printer()
|
|
self.steppers = {}
|
|
self.trapqs = {}
|
|
# get_status information
|
|
self.next_status_time = 0.
|
|
gcode = self.printer.lookup_object('gcode')
|
|
self.last_status = {
|
|
'live_position': gcode.Coord(0., 0., 0., 0.),
|
|
'live_velocity': 0., 'live_extruder_velocity': 0.,
|
|
'steppers': [], 'trapq': [],
|
|
}
|
|
# Register handlers
|
|
self.printer.register_event_handler("klippy:connect", self._connect)
|
|
self.printer.register_event_handler("klippy:shutdown", self._shutdown)
|
|
def register_stepper(self, config, mcu_stepper):
|
|
ds = DumpStepper(self.printer, mcu_stepper)
|
|
self.steppers[mcu_stepper.get_name()] = ds
|
|
def _connect(self):
|
|
# Lookup toolhead trapq
|
|
toolhead = self.printer.lookup_object("toolhead")
|
|
trapq = toolhead.get_trapq()
|
|
self.trapqs['toolhead'] = DumpTrapQ(self.printer, 'toolhead', trapq)
|
|
# Lookup extruder trapqs
|
|
for i in range(99):
|
|
ename = "extruder%d" % (i,)
|
|
if ename == "extruder0":
|
|
ename = "extruder"
|
|
extruder = self.printer.lookup_object(ename, None)
|
|
if extruder is None:
|
|
break
|
|
etrapq = extruder.get_trapq()
|
|
self.trapqs[ename] = DumpTrapQ(self.printer, ename, etrapq)
|
|
# Populate 'trapq' and 'steppers' in get_status result
|
|
self.last_status['steppers'] = list(sorted(self.steppers.keys()))
|
|
self.last_status['trapq'] = list(sorted(self.trapqs.keys()))
|
|
# Shutdown handling
|
|
def _dump_shutdown(self, eventtime):
|
|
# Log stepper queue_steps on mcu that started shutdown (if any)
|
|
shutdown_time = NEVER_TIME
|
|
for dstepper in self.steppers.values():
|
|
mcu = dstepper.mcu_stepper.get_mcu()
|
|
sc = mcu.get_shutdown_clock()
|
|
if not sc:
|
|
continue
|
|
shutdown_time = min(shutdown_time, mcu.clock_to_print_time(sc))
|
|
clock_100ms = mcu.seconds_to_clock(0.100)
|
|
start_clock = max(0, sc - clock_100ms)
|
|
end_clock = sc + clock_100ms
|
|
data, cdata = dstepper.get_step_queue(start_clock, end_clock)
|
|
dstepper.log_steps(data)
|
|
if shutdown_time >= NEVER_TIME:
|
|
return
|
|
# Log trapqs around time of shutdown
|
|
for dtrapq in self.trapqs.values():
|
|
data, cdata = dtrapq.extract_trapq(shutdown_time - .100,
|
|
shutdown_time + .100)
|
|
dtrapq.log_trapq(data)
|
|
# Log estimated toolhead position at time of shutdown
|
|
dtrapq = self.trapqs.get('toolhead')
|
|
if dtrapq is None:
|
|
return
|
|
pos, velocity = dtrapq.get_trapq_position(shutdown_time)
|
|
if pos is not None:
|
|
logging.info("Requested toolhead position at shutdown time %.6f: %s"
|
|
, shutdown_time, pos)
|
|
def _shutdown(self):
|
|
self.printer.get_reactor().register_callback(self._dump_shutdown)
|
|
# Status reporting
|
|
def get_status(self, eventtime):
|
|
if eventtime < self.next_status_time or not self.trapqs:
|
|
return self.last_status
|
|
self.next_status_time = eventtime + STATUS_REFRESH_TIME
|
|
xyzpos = (0., 0., 0.)
|
|
epos = (0.,)
|
|
xyzvelocity = evelocity = 0.
|
|
# Calculate current requested toolhead position
|
|
mcu = self.printer.lookup_object('mcu')
|
|
print_time = mcu.estimated_print_time(eventtime)
|
|
pos, velocity = self.trapqs['toolhead'].get_trapq_position(print_time)
|
|
if pos is not None:
|
|
xyzpos = pos[:3]
|
|
xyzvelocity = velocity
|
|
# Calculate requested position of currently active extruder
|
|
toolhead = self.printer.lookup_object('toolhead')
|
|
ehandler = self.trapqs.get(toolhead.get_extruder().get_name())
|
|
if ehandler is not None:
|
|
pos, velocity = ehandler.get_trapq_position(print_time)
|
|
if pos is not None:
|
|
epos = (pos[0],)
|
|
evelocity = velocity
|
|
# Report status
|
|
self.last_status = dict(self.last_status)
|
|
self.last_status['live_position'] = toolhead.Coord(*(xyzpos + epos))
|
|
self.last_status['live_velocity'] = xyzvelocity
|
|
self.last_status['live_extruder_velocity'] = evelocity
|
|
return self.last_status
|
|
|
|
def load_config(config):
|
|
return PrinterMotionReport(config)
|