215 lines
9.4 KiB
Python
215 lines
9.4 KiB
Python
# Code for handling printer nozzle extruders
|
|
#
|
|
# Copyright (C) 2016 Kevin O'Connor <kevin@koconnor.net>
|
|
#
|
|
# This file may be distributed under the terms of the GNU GPLv3 license.
|
|
import math, logging
|
|
import stepper, heater, homing
|
|
|
|
EXTRUDE_DIFF_IGNORE = 1.02
|
|
|
|
class PrinterExtruder:
|
|
def __init__(self, printer, config):
|
|
self.config = config
|
|
self.heater = heater.PrinterHeater(printer, config)
|
|
self.stepper = stepper.PrinterStepper(printer, config, 'extruder')
|
|
nozzle_diameter = config.getfloat('nozzle_diameter')
|
|
filament_diameter = config.getfloat('filament_diameter')
|
|
filament_area = math.pi * (filament_diameter * .5)**2
|
|
max_cross_section = config.getfloat(
|
|
'max_extrude_cross_section', 4. * nozzle_diameter**2)
|
|
self.max_extrude_ratio = max_cross_section / filament_area
|
|
self.max_e_dist = config.getfloat('max_extrude_only_distance', 50.)
|
|
self.max_e_velocity = self.max_e_accel = None
|
|
self.pressure_advance = config.getfloat('pressure_advance', 0.)
|
|
self.need_motor_enable = True
|
|
self.extrude_pos = 0.
|
|
def set_max_jerk(self, max_xy_halt_velocity, max_velocity, max_accel):
|
|
self.max_e_velocity = self.config.getfloat(
|
|
'max_extrude_only_velocity', max_velocity * self.max_extrude_ratio)
|
|
self.max_e_accel = self.config.getfloat(
|
|
'max_extrude_only_accel', max_accel * self.max_extrude_ratio)
|
|
def build_config(self):
|
|
self.heater.build_config()
|
|
self.stepper.set_max_jerk(9999999.9, 9999999.9)
|
|
self.stepper.build_config()
|
|
def motor_off(self, move_time):
|
|
self.stepper.motor_enable(move_time, 0)
|
|
self.need_motor_enable = True
|
|
def check_move(self, move):
|
|
move.extrude_r = move.axes_d[3] / move.move_d
|
|
move.extrude_max_corner_v = 0.
|
|
if not self.heater.can_extrude:
|
|
raise homing.EndstopMoveError(
|
|
move.end_pos, "Extrude below minimum temp")
|
|
if not move.is_kinematic_move:
|
|
# Extrude only move - limit accel and velocity
|
|
if move.axes_d[3] > self.max_e_dist:
|
|
raise homing.EndstopMoveError(
|
|
move.end_pos, "Extrude only move too long")
|
|
move.limit_speed(self.max_e_velocity, self.max_e_accel)
|
|
elif move.extrude_r > self.max_extrude_ratio:
|
|
logging.debug("%s vs %s" % (move.extrude_r, self.max_extrude_ratio))
|
|
raise homing.EndstopMoveError(
|
|
move.end_pos, "Move exceeds maximum extrusion cross section")
|
|
def calc_junction(self, prev_move, move):
|
|
if move.axes_d[3] or prev_move.axes_d[3]:
|
|
if (not move.axes_d[3] or not prev_move.axes_d[3]
|
|
or move.extrude_r > prev_move.extrude_r * EXTRUDE_DIFF_IGNORE
|
|
or prev_move.extrude_r > move.extrude_r * EXTRUDE_DIFF_IGNORE):
|
|
# Extrude ratio between moves is too different
|
|
return 0.
|
|
move.extrude_r = prev_move.extrude_r
|
|
return move.max_cruise_v2
|
|
def lookahead(self, moves, flush_count, lazy):
|
|
pressure_advance = self.pressure_advance
|
|
if not pressure_advance:
|
|
return flush_count
|
|
# Calculate max_corner_v - the speed the head will accelerate
|
|
# to after cornering.
|
|
for i in range(flush_count):
|
|
move = moves[i]
|
|
if not move.decel_t:
|
|
continue
|
|
cruise_v = move.cruise_v
|
|
max_corner_v = 0.
|
|
sum_t = pressure_advance
|
|
for j in range(i+1, flush_count):
|
|
fmove = moves[j]
|
|
if not fmove.max_start_v2:
|
|
break
|
|
max_corner_v = max(max_corner_v, fmove.cruise_v)
|
|
if max_corner_v >= cruise_v:
|
|
break
|
|
sum_t -= fmove.accel_t + fmove.cruise_t + fmove.decel_t
|
|
if sum_t <= 0.:
|
|
break
|
|
else:
|
|
if lazy:
|
|
return i
|
|
move.extrude_max_corner_v = max_corner_v
|
|
return flush_count
|
|
def move(self, move_time, move):
|
|
if self.need_motor_enable:
|
|
self.stepper.motor_enable(move_time, 1)
|
|
self.need_motor_enable = False
|
|
axis_d = move.axes_d[3]
|
|
extrude_r = abs(axis_d) / move.move_d
|
|
inv_accel = 1. / (move.accel * extrude_r)
|
|
|
|
start_v = move.start_v * extrude_r
|
|
cruise_v = move.cruise_v * extrude_r
|
|
end_v = move.end_v * extrude_r
|
|
accel_t, cruise_t, decel_t = move.accel_t, move.cruise_t, move.decel_t
|
|
accel_d = move.accel_r * axis_d
|
|
cruise_d = move.cruise_r * axis_d
|
|
decel_d = move.decel_r * axis_d
|
|
|
|
retract_t = retract_d = retract_v = 0.
|
|
decel_v = cruise_v
|
|
|
|
# Update for pressure advance
|
|
start_pos = self.extrude_pos
|
|
if (axis_d >= 0. and (move.axes_d[0] or move.axes_d[1])
|
|
and self.pressure_advance):
|
|
# Increase accel_d and start_v when accelerating
|
|
pressure_advance = self.pressure_advance * move.extrude_r
|
|
prev_pressure_d = start_pos - move.start_pos[3]
|
|
if accel_d:
|
|
npd = move.cruise_v * pressure_advance
|
|
extra_accel_d = npd - prev_pressure_d
|
|
if extra_accel_d > 0.:
|
|
accel_d += extra_accel_d
|
|
start_v += extra_accel_d / accel_t
|
|
prev_pressure_d += extra_accel_d
|
|
# Update decel and retract parameters when decelerating
|
|
emcv = move.extrude_max_corner_v
|
|
if decel_d and emcv < move.cruise_v:
|
|
npd = max(emcv, move.end_v) * pressure_advance
|
|
extra_decel_d = prev_pressure_d - npd
|
|
if extra_decel_d > 0.:
|
|
extra_decel_v = extra_decel_d / decel_t
|
|
decel_v -= extra_decel_v
|
|
end_v -= extra_decel_v
|
|
if decel_v <= 0.:
|
|
# The entire decel phase is replaced with retraction
|
|
retract_t = decel_t
|
|
retract_d = -(end_v + decel_v) * 0.5 * decel_t
|
|
retract_v = -decel_v
|
|
decel_t = decel_d = 0.
|
|
elif end_v < 0.:
|
|
# Split decel phase into decel and retraction
|
|
retract_t = -end_v * inv_accel
|
|
retract_d = -end_v * 0.5 * retract_t
|
|
decel_t -= retract_t
|
|
decel_d = decel_v * 0.5 * decel_t
|
|
else:
|
|
# There is still only a decel phase (no retraction)
|
|
decel_d -= extra_decel_d
|
|
|
|
# Prepare for steps
|
|
inv_step_dist = self.stepper.inv_step_dist
|
|
step_dist = self.stepper.step_dist
|
|
mcu_stepper = self.stepper.mcu_stepper
|
|
mcu_time = mcu_stepper.print_to_mcu_time(move_time)
|
|
step_pos = mcu_stepper.commanded_position
|
|
step_offset = step_pos - start_pos * inv_step_dist
|
|
|
|
# Acceleration steps
|
|
accel_multiplier = 2.0 * step_dist * inv_accel
|
|
if accel_d:
|
|
#t = sqrt(2*pos/accel + (start_v/accel)**2) - start_v/accel
|
|
accel_time_offset = start_v * inv_accel
|
|
accel_sqrt_offset = accel_time_offset**2
|
|
accel_steps = accel_d * inv_step_dist
|
|
count = mcu_stepper.step_sqrt(
|
|
mcu_time - accel_time_offset, accel_steps, step_offset
|
|
, accel_sqrt_offset, accel_multiplier)
|
|
step_offset += count - accel_steps
|
|
mcu_time += accel_t
|
|
# Cruising steps
|
|
if cruise_d:
|
|
#t = pos/cruise_v
|
|
cruise_multiplier = step_dist / cruise_v
|
|
cruise_steps = cruise_d * inv_step_dist
|
|
count = mcu_stepper.step_factor(
|
|
mcu_time, cruise_steps, step_offset, cruise_multiplier)
|
|
step_offset += count - cruise_steps
|
|
mcu_time += cruise_t
|
|
# Deceleration steps
|
|
if decel_d:
|
|
#t = cruise_v/accel - sqrt((cruise_v/accel)**2 - 2*pos/accel)
|
|
decel_time_offset = decel_v * inv_accel
|
|
decel_sqrt_offset = decel_time_offset**2
|
|
decel_steps = decel_d * inv_step_dist
|
|
count = mcu_stepper.step_sqrt(
|
|
mcu_time + decel_time_offset, decel_steps, step_offset
|
|
, decel_sqrt_offset, -accel_multiplier)
|
|
step_offset += count - decel_steps
|
|
mcu_time += decel_t
|
|
# Retraction steps
|
|
if retract_d:
|
|
#t = sqrt(2*pos/accel + (start_v/accel)**2) - start_v/accel
|
|
accel_time_offset = retract_v * inv_accel
|
|
accel_sqrt_offset = accel_time_offset**2
|
|
accel_steps = -retract_d * inv_step_dist
|
|
count = mcu_stepper.step_sqrt(
|
|
mcu_time - accel_time_offset, accel_steps, step_offset
|
|
, accel_sqrt_offset, accel_multiplier)
|
|
|
|
self.extrude_pos = start_pos + accel_d + cruise_d + decel_d - retract_d
|
|
|
|
# Dummy extruder class used when a printer has no extruder at all
|
|
class DummyExtruder:
|
|
def set_max_jerk(self, max_xy_halt_velocity, max_velocity, max_accel):
|
|
pass
|
|
def motor_off(self, move_time):
|
|
pass
|
|
def check_move(self, move):
|
|
raise homing.EndstopMoveError(
|
|
move.end_pos, "Extrude when no extruder present")
|
|
def calc_junction(self, prev_move, move):
|
|
return move.max_cruise_v2
|
|
def lookahead(self, moves, flush_count, lazy):
|
|
return flush_count
|