path: root/klippy/stepper.py

# Printer stepper support
#
# Copyright (C) 2016-2019  Kevin O'Connor <kevin@koconnor.net>
#
# This file may be distributed under the terms of the GNU GPLv3 license.
import math, logging, collections
import homing, chelper

class error(Exception):
    pass


######################################################################
# Steppers
######################################################################

# Interface to low-level mcu and chelper code
class MCU_stepper:
    def __init__(self, name, step_pin_params, dir_pin_params, step_dist,
                 units_in_radians=False):
        self._name = name
        self._step_dist = step_dist
        self._units_in_radians = units_in_radians
        self._mcu = step_pin_params['chip']
        self._oid = oid = self._mcu.create_oid()
        self._mcu.register_config_callback(self._build_config)
        self._step_pin = step_pin_params['pin']
        self._invert_step = step_pin_params['invert']
        if dir_pin_params['chip'] is not self._mcu:
            raise self._mcu.get_printer().config_error(
                "Stepper dir pin must be on same mcu as step pin")
        self._dir_pin = dir_pin_params['pin']
        self._invert_dir = dir_pin_params['invert']
        self._mcu_position_offset = self._tag_position = 0.
        self._min_stop_interval = 0.
        self._reset_cmd_id = self._get_position_cmd = None
        self._active_callbacks = []
        ffi_main, self._ffi_lib = chelper.get_ffi()
        self._stepqueue = ffi_main.gc(self._ffi_lib.stepcompress_alloc(oid),
                                      self._ffi_lib.stepcompress_free)
        self._mcu.register_stepqueue(self._stepqueue)
        self._stepper_kinematics = None
        self._itersolve_generate_steps = self._ffi_lib.itersolve_generate_steps
        self._itersolve_check_active = self._ffi_lib.itersolve_check_active
        self._trapq = ffi_main.NULL
    def get_mcu(self):
        return self._mcu
    def get_name(self, short=False):
        if short and self._name.startswith('stepper_'):
            return self._name[8:]
        return self._name
    def units_in_radians(self):
        # Returns true if distances are in radians instead of millimeters
        return self._units_in_radians
    def _dist_to_time(self, dist, start_velocity, accel):
        # Calculate the time it takes to travel a distance with constant accel
        time_offset = start_velocity / accel
        return math.sqrt(2. * dist / accel + time_offset**2) - time_offset
    def set_max_jerk(self, max_halt_velocity, max_accel):
        # Calculate the firmware's maximum halt interval time
        last_step_time = self._dist_to_time(self._step_dist,
                                            max_halt_velocity, max_accel)
        second_last_step_time = self._dist_to_time(2. * self._step_dist,
                                                   max_halt_velocity, max_accel)
        self._min_stop_interval = second_last_step_time - last_step_time
    def setup_itersolve(self, alloc_func, *params):
        ffi_main, ffi_lib = chelper.get_ffi()
        sk = ffi_main.gc(getattr(ffi_lib, alloc_func)(*params), ffi_lib.free)
        self.set_stepper_kinematics(sk)
    def _build_config(self):
        max_error = self._mcu.get_max_stepper_error()
        min_stop_interval = max(0., self._min_stop_interval - max_error)
        self._mcu.add_config_cmd(
            "config_stepper oid=%d step_pin=%s dir_pin=%s"
            " min_stop_interval=%d invert_step=%d" % (
                self._oid, self._step_pin, self._dir_pin,
                self._mcu.seconds_to_clock(min_stop_interval),
                self._invert_step))
        self._mcu.add_config_cmd(
            "reset_step_clock oid=%d clock=0" % (self._oid,), is_init=True)
        step_cmd_id = self._mcu.lookup_command_id(
            "queue_step oid=%c interval=%u count=%hu add=%hi")
        dir_cmd_id = self._mcu.lookup_command_id(
            "set_next_step_dir oid=%c dir=%c")
        self._reset_cmd_id = self._mcu.lookup_command_id(
            "reset_step_clock oid=%c clock=%u")
        self._get_position_cmd = self._mcu.lookup_query_command(
            "stepper_get_position oid=%c",
            "stepper_position oid=%c pos=%i", oid=self._oid)
        self._ffi_lib.stepcompress_fill(
            self._stepqueue, self._mcu.seconds_to_clock(max_error),
            self._invert_dir, step_cmd_id, dir_cmd_id)
    def get_oid(self):
        return self._oid
    def get_step_dist(self):
        return self._step_dist
    def set_step_dist(self, dist):
        self._step_dist = dist
        self.set_stepper_kinematics(self._stepper_kinematics)
    def is_dir_inverted(self):
        return self._invert_dir
    def calc_position_from_coord(self, coord):
        return self._ffi_lib.itersolve_calc_position_from_coord(
            self._stepper_kinematics, coord[0], coord[1], coord[2])
    def set_position(self, coord):
        opos = self.get_commanded_position()
        sk = self._stepper_kinematics
        self._ffi_lib.itersolve_set_position(sk, coord[0], coord[1], coord[2])
        self._mcu_position_offset += opos - self.get_commanded_position()
    def get_commanded_position(self):
        sk = self._stepper_kinematics
        return self._ffi_lib.itersolve_get_commanded_pos(sk)
    def get_mcu_position(self):
        mcu_pos_dist = self.get_commanded_position() + self._mcu_position_offset
        mcu_pos = mcu_pos_dist / self._step_dist
        if mcu_pos >= 0.:
            return int(mcu_pos + 0.5)
        return int(mcu_pos - 0.5)
    def get_tag_position(self):
        return self._tag_position
    def set_tag_position(self, position):
        self._tag_position = position
    def set_stepper_kinematics(self, sk):
        old_sk = self._stepper_kinematics
        self._stepper_kinematics = sk
        if sk is not None:
            self._ffi_lib.itersolve_set_stepcompress(
                sk, self._stepqueue, self._step_dist)
        return old_sk
    def note_homing_end(self, did_trigger=False):
        ret = self._ffi_lib.stepcompress_reset(self._stepqueue, 0)
        if ret:
            raise error("Internal error in stepcompress")
        data = (self._reset_cmd_id, self._oid, 0)
        ret = self._ffi_lib.stepcompress_queue_msg(
            self._stepqueue, data, len(data))
        if ret:
            raise error("Internal error in stepcompress")
        if not did_trigger or self._mcu.is_fileoutput():
            return
        params = self._get_position_cmd.send([self._oid])
        mcu_pos_dist = params['pos'] * self._step_dist
        if self._invert_dir:
            mcu_pos_dist = -mcu_pos_dist
        self._mcu_position_offset = mcu_pos_dist - self.get_commanded_position()
    def set_trapq(self, tq):
        if tq is None:
            ffi_main, self._ffi_lib = chelper.get_ffi()
            tq = ffi_main.NULL
        self._ffi_lib.itersolve_set_trapq(self._stepper_kinematics, tq)
        old_tq = self._trapq
        self._trapq = tq
        return old_tq
    def add_active_callback(self, cb):
        self._active_callbacks.append(cb)
    def generate_steps(self, flush_time):
        # Check for activity if necessary
        if self._active_callbacks:
            ret = self._itersolve_check_active(self._stepper_kinematics,
                                               flush_time)
            if ret:
                cbs = self._active_callbacks
                self._active_callbacks = []
                for cb in cbs:
                    cb(ret)
        # Generate steps
        ret = self._itersolve_generate_steps(self._stepper_kinematics,
                                             flush_time)
        if ret:
            raise error("Internal error in stepcompress")
    def is_active_axis(self, axis):
        return self._ffi_lib.itersolve_is_active_axis(
            self._stepper_kinematics, axis)

# Helper code to build a stepper object from a config section
def PrinterStepper(config, units_in_radians=False):
    printer = config.get_printer()
    name = config.get_name()
    # Stepper definition
    ppins = printer.lookup_object('pins')
    step_pin = config.get('step_pin')
    step_pin_params = ppins.lookup_pin(step_pin, can_invert=True)
    dir_pin = config.get('dir_pin')
    dir_pin_params = ppins.lookup_pin(dir_pin, can_invert=True)
    step_dist = config.getfloat('step_distance', above=0.)
    mcu_stepper = MCU_stepper(name, step_pin_params, dir_pin_params, step_dist,
                              units_in_radians)
    # Support for stepper enable pin handling
    stepper_enable = printer.try_load_module(config, 'stepper_enable')
    stepper_enable.register_stepper(mcu_stepper, config.get('enable_pin', None))
    # Register STEPPER_BUZZ command
    force_move = printer.try_load_module(config, 'force_move')
    force_move.register_stepper(mcu_stepper)
    return mcu_stepper


######################################################################
# Stepper controlled rails
######################################################################

# A motor control "rail" with one (or more) steppers and one (or more)
# endstops.
class PrinterRail:
    def __init__(self, config, need_position_minmax=True,
                 default_position_endstop=None, units_in_radians=False):
        # Primary stepper and endstop
        self.stepper_units_in_radians = units_in_radians
        self.steppers = []
        self.endstops = []
        self.add_extra_stepper(config)
        mcu_stepper = self.steppers[0]
        self.get_commanded_position = mcu_stepper.get_commanded_position
        self.get_tag_position = mcu_stepper.get_tag_position
        self.set_tag_position = mcu_stepper.set_tag_position
        self.calc_position_from_coord = mcu_stepper.calc_position_from_coord
        # Primary endstop position
        mcu_endstop = self.endstops[0][0]
        if hasattr(mcu_endstop, "get_position_endstop"):
            self.position_endstop = mcu_endstop.get_position_endstop()
        elif default_position_endstop is None:
            self.position_endstop = config.getfloat('position_endstop')
        else:
            self.position_endstop = config.getfloat(
                'position_endstop', default_position_endstop)
        # Axis range
        if need_position_minmax:
            self.position_min = config.getfloat('position_min', 0.)
            self.position_max = config.getfloat(
                'position_max', above=self.position_min)
        else:
            self.position_min = 0.
            self.position_max = self.position_endstop
        if (self.position_endstop < self.position_min
            or self.position_endstop > self.position_max):
            raise config.error(
                "position_endstop in section '%s' must be between"
                " position_min and position_max" % config.get_name())
        # Homing mechanics
        self.homing_speed = config.getfloat('homing_speed', 5.0, above=0.)
        self.second_homing_speed = config.getfloat(
            'second_homing_speed', self.homing_speed/2., above=0.)
        self.homing_retract_speed = config.getfloat(
            'homing_retract_speed', self.homing_speed, above=0.)
        self.homing_retract_dist = config.getfloat(
            'homing_retract_dist', 5., minval=0.)
        self.homing_positive_dir = config.getboolean(
            'homing_positive_dir', None)
        if self.homing_positive_dir is None:
            axis_len = self.position_max - self.position_min
            if self.position_endstop <= self.position_min + axis_len / 4.:
                self.homing_positive_dir = False
            elif self.position_endstop >= self.position_max - axis_len / 4.:
                self.homing_positive_dir = True
            else:
                raise config.error(
                    "Unable to infer homing_positive_dir in section '%s'" % (
                        config.get_name(),))
        elif ((self.homing_positive_dir
               and self.position_endstop == self.position_min)
              or (not self.homing_positive_dir
                  and self.position_endstop == self.position_max)):
            raise config.error(
                "Invalid homing_positive_dir / position_endstop in '%s'"
                % (config.get_name(),))
    def get_range(self):
        return self.position_min, self.position_max
    def get_homing_info(self):
        homing_info = collections.namedtuple('homing_info', [
            'speed', 'position_endstop', 'retract_speed', 'retract_dist',
            'positive_dir', 'second_homing_speed'])(
                self.homing_speed, self.position_endstop,
                self.homing_retract_speed, self.homing_retract_dist,
                self.homing_positive_dir, self.second_homing_speed)
        return homing_info
    def get_steppers(self):
        return list(self.steppers)
    def get_endstops(self):
        return list(self.endstops)
    def add_extra_stepper(self, config):
        stepper = PrinterStepper(config, self.stepper_units_in_radians)
        self.steppers.append(stepper)
        if self.endstops and config.get('endstop_pin', None) is None:
            # No endstop defined - use primary endstop
            self.endstops[0][0].add_stepper(stepper)
            return
        printer = config.get_printer()
        ppins = printer.lookup_object('pins')
        mcu_endstop = ppins.setup_pin('endstop', config.get('endstop_pin'))
        mcu_endstop.add_stepper(stepper)
        name = stepper.get_name(short=True)
        self.endstops.append((mcu_endstop, name))
        query_endstops = printer.try_load_module(config, 'query_endstops')
        query_endstops.register_endstop(mcu_endstop, name)
    def setup_itersolve(self, alloc_func, *params):
        for stepper in self.steppers:
            stepper.setup_itersolve(alloc_func, *params)
    def generate_steps(self, flush_time):
        for stepper in self.steppers:
            stepper.generate_steps(flush_time)
    def set_trapq(self, trapq):
        for stepper in self.steppers:
            stepper.set_trapq(trapq)
    def set_max_jerk(self, max_halt_velocity, max_accel):
        for stepper in self.steppers:
            stepper.set_max_jerk(max_halt_velocity, max_accel)
    def set_position(self, coord):
        for stepper in self.steppers:
            stepper.set_position(coord)

# Wrapper for dual stepper motor support
def LookupMultiRail(config):
    rail = PrinterRail(config)
    for i in range(1, 99):
        if not config.has_section(config.get_name() + str(i)):
            break
        rail.add_extra_stepper(config.getsection(config.get_name() + str(i)))
    return rail