import threading
import time
import numpy as np
from bec_lib import bec_logger
from ophyd import Component as Cpt
from ophyd import Device, PositionerBase, Signal
from ophyd.status import wait as status_wait
from ophyd.utils import LimitError
from ophyd_devices.utils.controller import threadlocked
from ophyd_devices.utils.socket import SocketIO, raise_if_disconnected
from csaxs_bec.devices.omny.galil.galil_ophyd import (
BECConfigError,
GalilAxesReferenced,
GalilController,
GalilError,
GalilMotorIsMoving,
GalilMotorResolution,
GalilSetpointSignal,
GalilSignalRO,
retry_once,
)
logger = bec_logger.logger
[docs]
class FuprGalilController(GalilController):
_axes_per_controller = 1
def is_axis_moving(self, axis_Id, axis_Id_numeric) -> bool:
if axis_Id is None and axis_Id_numeric is not None:
axis_Id = self.axis_Id_numeric_to_alpha(axis_Id_numeric)
is_moving = bool(float(self.socket_put_and_receive(f"MG_BG{axis_Id}")) != 0)
return is_moving
def axis_is_referenced(self, axis_Id) -> bool:
return self.all_axes_referenced()
[docs]
def all_axes_referenced(self) -> bool:
return bool(float(self.socket_put_and_receive("MG axisref").strip()))
[docs]
def drive_axis_to_limit(self, axis_Id_numeric, direction: str) -> None:
raise NotImplementedError("This function is not implemented for the FuprGalilController.")
[docs]
class FuprGalilReadbackSignal(GalilSignalRO):
@retry_once
@threadlocked
def _socket_get(self) -> float:
"""Get command for the readback signal
Returns:
float: Readback value after adjusting for sign and motor resolution.
"""
current_pos = float(self.controller.socket_put_and_receive(f"TP{self.parent.axis_Id}"))
current_pos *= self.parent.sign
step_mm = self.parent.motor_resolution.get()
return current_pos / step_mm
[docs]
def read(self):
self._metadata["timestamp"] = time.time()
val = super().read()
if self.parent.axis_Id_numeric == 0:
try:
rt = self.parent.device_manager.devices[self.parent.rt]
if rt.enabled:
rt.obj.controller.set_rotation_angle(val[self.parent.name]["value"])
except KeyError:
logger.warning("Failed to set RT value during readback.")
return val
[docs]
class FuprGalilSetpointSignal(GalilSetpointSignal):
@retry_once
@threadlocked
def _socket_set(self, val: float) -> None:
"""Set a new target value / setpoint value. Before submission, the target value is adjusted for the axis' sign.
Furthermore, it is ensured that all axes are referenced before a new setpoint is submitted.
Args:
val (float): Target value / setpoint value
Raises:
GalilError: Raised if not all axes are referenced.
"""
target_val = val * self.parent.sign
self.setpoint = target_val
axes_referenced = self.controller.all_axes_referenced()
if axes_referenced:
self.controller.socket_put_confirmed(
f"PA{self.parent.axis_Id}={int(self.setpoint*self.parent.MOTOR_RESOLUTION)}"
)
self.controller.socket_put_confirmed(f"BG{self.parent.axis_Id}")
else:
raise GalilError("Not all axes are referenced.")
[docs]
class FuprGalilMotorResolution(GalilMotorResolution):
@retry_once
@threadlocked
def _socket_get(self):
return self.parent.MOTOR_RESOLUTION
[docs]
class FuprGalilMotorIsMoving(GalilMotorIsMoving):
pass
[docs]
class FuprGalilAxesReferenced(GalilAxesReferenced):
pass
[docs]
class FuprGalilMotor(Device, PositionerBase):
USER_ACCESS = ["controller"]
MOTOR_RESOLUTION = 25600
readback = Cpt(FuprGalilReadbackSignal, signal_name="readback", kind="hinted")
user_setpoint = Cpt(FuprGalilSetpointSignal, signal_name="setpoint")
motor_resolution = Cpt(FuprGalilMotorResolution, signal_name="resolution", kind="config")
motor_is_moving = Cpt(FuprGalilMotorIsMoving, signal_name="motor_is_moving", kind="normal")
all_axes_referenced = Cpt(
FuprGalilAxesReferenced, signal_name="all_axes_referenced", kind="config"
)
high_limit_travel = Cpt(Signal, value=0, kind="omitted")
low_limit_travel = Cpt(Signal, value=0, kind="omitted")
SUB_READBACK = "readback"
SUB_CONNECTION_CHANGE = "connection_change"
_default_sub = SUB_READBACK
def __init__(
self,
axis_Id,
prefix="",
*,
name,
kind=None,
read_attrs=None,
configuration_attrs=None,
parent=None,
host="mpc2680.psi.ch",
port=8081,
limits=None,
sign=1,
socket_cls=SocketIO,
device_manager=None,
**kwargs,
):
self.controller = FuprGalilController(
socket_cls=socket_cls, socket_host=host, socket_port=port, device_manager=device_manager
)
self.axis_Id = axis_Id
self.controller.set_axis(axis=self, axis_nr=self.axis_Id_numeric)
self.sign = sign
self.tolerance = kwargs.pop("tolerance", 0.5)
self.device_mapping = kwargs.pop("device_mapping", {})
self.device_manager = device_manager
if len(self.device_mapping) > 0 and self.device_manager is None:
raise BECConfigError(
"device_mapping has been specified but the device_manager cannot be accessed."
)
self.rt = self.device_mapping.get("rt", "rtx")
super().__init__(
prefix,
name=name,
kind=kind,
read_attrs=read_attrs,
configuration_attrs=configuration_attrs,
parent=parent,
**kwargs,
)
self.readback.name = self.name
self.controller.subscribe(
self._update_connection_state, event_type=self.SUB_CONNECTION_CHANGE
)
self._update_connection_state()
# self.readback.subscribe(self._forward_readback, event_type=self.readback.SUB_VALUE)
if limits is not None:
assert len(limits) == 2
self.low_limit_travel.put(limits[0])
self.high_limit_travel.put(limits[1])
[docs]
def wait_for_connection(self, timeout: float = 30.0) -> bool:
self.controller.on(timeout=timeout)
self._update_setpoint_from_readback()
def _update_setpoint_from_readback(self):
"""
The setpoint is only stored locally. After a restart,
we need to update it to match the current readback value.
"""
self.user_setpoint.setpoint = self.readback.get()
[docs]
def destroy(self):
"""Make sure to turn off the controller socket on destroy."""
self.controller.off(update_config=False)
return super().destroy()
@property
def limits(self):
return (self.low_limit_travel.get(), self.high_limit_travel.get())
@property
def low_limit(self):
return self.limits[0]
@property
def high_limit(self):
return self.limits[1]
[docs]
def check_value(self, pos):
"""Check that the position is within the soft limits"""
low_limit, high_limit = self.limits
if low_limit < high_limit and not (low_limit <= pos <= high_limit):
raise LimitError(f"position={pos} not within limits {self.limits}")
def _update_connection_state(self, **kwargs):
for walk in self.walk_signals():
walk.item._metadata["connected"] = self.controller.connected
def _forward_readback(self, **kwargs):
kwargs.pop("sub_type")
self._run_subs(sub_type="readback", **kwargs)
[docs]
@raise_if_disconnected
def move(self, position, wait=True, **kwargs):
"""Move to a specified position, optionally waiting for motion to
complete.
Parameters
----------
position
Position to move to
moved_cb : callable
Call this callback when movement has finished. This callback must
accept one keyword argument: 'obj' which will be set to this
positioner instance.
timeout : float, optional
Maximum time to wait for the motion. If None, the default timeout
for this positioner is used.
Returns
-------
status : MoveStatus
Raises
------
TimeoutError
When motion takes longer than `timeout`
ValueError
On invalid positions
RuntimeError
If motion fails other than timing out
"""
self._started_moving = False
timeout = kwargs.pop("timeout", 100)
status = super().move(position, timeout=timeout, **kwargs)
self.user_setpoint.put(position, wait=False)
def move_and_finish():
while self.motor_is_moving.get():
logger.info("motor is moving")
val = self.readback.read()
self._run_subs(sub_type=self.SUB_READBACK, value=val, timestamp=time.time())
time.sleep(0.1)
val = self.readback.read()
success = np.isclose(val[self.name]["value"], position, atol=self.tolerance)
if not success:
print(" stop")
self._done_moving(success=success)
logger.info("Move finished")
threading.Thread(target=move_and_finish, daemon=True).start()
try:
if wait:
status_wait(status)
except KeyboardInterrupt:
self.stop()
raise
return status
@property
def axis_Id(self):
return self._axis_Id_alpha
@axis_Id.setter
def axis_Id(self, val):
if isinstance(val, str):
if len(val) != 1:
raise ValueError(f"Only single-character axis_Ids are supported.")
self._axis_Id_alpha = val
self._axis_Id_numeric = ord(val.lower()) - 97
else:
raise TypeError(f"Expected value of type str but received {type(val)}")
@property
def axis_Id_numeric(self):
return self._axis_Id_numeric
@axis_Id_numeric.setter
def axis_Id_numeric(self, val):
if isinstance(val, int):
if val > 26:
raise ValueError(f"Numeric value exceeds supported range.")
self._axis_Id_alpha = val
self._axis_Id_numeric = (chr(val + 97)).capitalize()
else:
raise TypeError(f"Expected value of type int but received {type(val)}")
@property
def egu(self):
"""The engineering units (EGU) for positions"""
return "mm"
[docs]
def stage(self) -> list[object]:
return super().stage()
[docs]
def unstage(self) -> list[object]:
return super().unstage()
[docs]
def stop(self, *, success=False):
self.controller.stop_all_axes()
return super().stop(success=success)