pcdsdevices.ccm.CCMEnergyWithACRStatus
- class pcdsdevices.ccm.CCMEnergyWithACRStatus(prefix: str, hutch: str | None = None, acr_status_suffix='AO805', pv_index=2, **kwargs)
CCM energy motor and ACR beam energy request with status. Note that in this case vernier indicates any ways that ACR will act on the photon energy request. This includes the Vernier, but can also lead to motion of the undulators or the K.
- Parameters:
prefix (str) – The PV prefix of the Alio motor, e.g. XPP:MON:MPZ:07A
hutch (str, optional) – The hutch we’re in. This informs us as to which vernier PVs to write to. If omitted, we can guess this from the prefix.
acr_status_sufix (str) – Prefix to the SIOC PV that ACR uses to report the move status. For HXR this usually is ‘AO805’.
Attribute
Class
Suffix
Docs
Kind
Notes
theta0_deg (FCpt)
EpicsSignal
{_constants_prefix}:THETA0
Reference angle for the first crystal in deg.
config
Inherited from
CCMEnergyWithVernier
dspacing (FCpt)
EpicsSignal
{_constants_prefix}:DSPACING
Crystal lattice spacing.
config
Inherited from
CCMEnergyWithVernier
gr (FCpt)
EpicsSignal
{_constants_prefix}:GR
The radius of the sapphire ball connected to the Alio stage in mm.
config
Inherited from
CCMEnergyWithVernier
gd (FCpt)
EpicsSignal
{_constants_prefix}:GD
Distance between the rotation axis and the center of the sapphire sphere located on the Alio stage in mm.
config
Inherited from
CCMEnergyWithVernier
energy
PseudoSingle that moves the calculated CCM selected energy in keV.
hinted
Inherited from
CCMEnergyWithVernier
alio
The motor that rotates the CCM crystal.
normal
Inherited from
CCMEnergyWithVernier
theta_deg
The crystal angle in degrees.
normal
Inherited from
CCMEnergyWithVernier
wavelength
The wavelength picked by the CCM in Angstroms.
normal
Inherited from
CCMEnergyWithVernier
resolution
A measure of how finely we can control the ccm output at this position in eV/um.
normal
Inherited from
CCMEnergyWithVernier
acr_energy (FCpt)
{hutch}
Requests ACR to move the energy.
normal
Inherited from
CCMEnergyWithVernier
Methods
- alio_to_energy(alio: float) float
Converts alio to energy.
- Parameters:
alio (float) – The alio position in mm
- Returns:
energy (float) – The photon energy (color) in keV.
- camonitor()
Shows a live-updating motor position in the terminal.
This will be the value that is returned by the
position
attribute.This method ends cleanly at a ctrl+c or after a call to
end_monitor_thread()
, which may be useful when this is called in a background thread.
- check_single(pseudo_single, single_pos)
Check if a new position for a single pseudo positioner is valid
- configure(d: Dict[str, Any]) Tuple[Dict[str, Any], Dict[str, Any]]
Configure the device for something during a run
This default implementation allows the user to change any of the
configuration_attrs
. Subclasses might override this to perform additional input validation, cleanup, etc.- Parameters:
d (dict) – The configuration dictionary. To specify the order that the changes should be made, use an OrderedDict.
- Returns:
(old, new) tuple of dictionaries
Where old and new are pre- and post-configure configuration states.
- describe() OrderedDictType[str, Dict[str, Any]]
Provide schema and meta-data for
read()
.This keys in the
OrderedDict
this method returns must match the keys in theOrderedDict
return byread()
.This provides schema related information, (ex shape, dtype), the source (ex PV name), and if available, units, limits, precision etc.
- Returns:
data_keys (OrderedDict) – The keys must be strings and the values must be dict-like with the
event_model.event_descriptor.data_key
schema.
- end_monitor_thread()
Stop a
camonitor()
orwm_update()
that is running in another thread.
- energy_to_alio(energy: float) float
Converts energy to alio.
- Parameters:
energy (float) – The photon energy (color) in keV.
- Returns:
alio (float) – The alio position in mm
- forward(pseudo_pos: namedtuple) namedtuple
PseudoPositioner interface function for calculating the setpoint.
Converts the requested energy to the real position of the alio, and also converts that energy to eV and passes it along to the vernier.
- get(**kwargs)
Get the value of all components in the device
Keyword arguments are passed onto each signal.get(). Components beginning with an underscore will not be included.
- inverse(real_pos: namedtuple) namedtuple
PseudoPositioner interface function for calculating the readback.
Converts the real position of the alio to the calculated energy
- move(*args, kill=True, wait=True, **kwargs)
Overwrite the move method to add a PID kill at the end of each move.
Context: the PID loop keeps looking for the final position forever. The motor thus runs at too high duty cycles, heats up and causes vacuum spikes in the chamber. This has led to MPS trips. In addition, there is serious potential to fry the motor itself, as it is run too intensively.
- move_single(pseudo, position, **kwargs)
Move one PseudoSingle axis to a position
All other positioners will use their current setpoint/target value, if available. Failing that, their current readback value will be used (see
PseudoSingle.sync
andPseudoSingle.target
).
- mv(position, timeout=None, wait=False, log=True)
Absolute move to a position.
- Parameters:
position – Desired end position.
timeout (float, optional) – If provided, the mover will throw an error if motion takes longer than timeout to complete. If omitted, the mover’s default timeout will be use.
wait (bool, optional) – If
True
, wait for motion completion before returning. Defaults toFalse
.log (bool, optional) – If
True
, logs the move at INFO level.
- mv_ginput(timeout=None)
Moves to a location the user clicks on.
If there are existing plots, this will be the position on the most recently active plot. If there are no existing plots, an empty plot will be created with the motor’s limits as the range.
- mvr(delta, timeout=None, wait=False, log=True)
Relative move from this position.
- Parameters:
delta (float) – Desired change in position.
timeout (float, optional) – If provided, the mover will throw an error if motion takes longer than timeout to complete. If omitted, the mover’s default timeout will be use.
wait (bool, optional) – If
True
, wait for motion completion before returning. Defaults toFalse
.log (bool, optional) – If
True
, logs the move at INFO level.
- post_elog_status()
Post device status to the primary elog, if possible.
- read() OrderedDictType[str, Dict[str, Any]]
Read data from the device.
This method is expected to be as instantaneous as possible, with any substantial acquisition time taken care of in
trigger()
.The
OrderedDict
returned by this method must have identical keys (in the same order) as theOrderedDict
returned bydescribe()
.By convention, the first key in the return is the ‘primary’ key and maybe used by heuristics in
bluesky
.The values in the ordered dictionary must be dict (-likes) with the keys
{'value', 'timestamp'}
. The'value'
may have any type, the timestamp must be a float UNIX epoch timestamp in UTC.- Returns:
data (OrderedDict) – The keys must be strings and the values must be dict-like with the keys
{'value', 'timestamp'}
- read_configuration() OrderedDictType[str, Dict[str, Any]]
Dictionary mapping names to value dicts with keys: value, timestamp
To control which fields are included, change the Component kinds on the device, or modify the
configuration_attrs
list.
- reset_calc_constant_defaults(confirm: bool = True) None
Put the default values into the ccm constants.
This can be useful if values were reset due to autosave errors or if they’ve otherwise accidentally been set to crazy values.
This relies on the default values in ccm.py being set up reasonably: theta0_deg = 15.1027 dspacing = 3.1356011499587773 gr = 3.175 gd = 231.303
- Parameters:
confirm (bool, optional) – If True, we’ll ask for confirmation from the user before doing the reset. This is because an accidental reset can cost some time as we scramble to figure out what the values should be restored to.
- screen()
Open a screen for controlling the device.
Default behavior is the typhos screen, but this method can be overridden for more specialized screens.
- set(position, **kwargs)
Move to a new position asynchronously
- Parameters:
position (PseudoPosition) – Position for the all of the pseudo axes
- Returns:
status (MoveStatus)
- set_current_position(energy: float) None
Adjust the offset to make input energy the current position.
This changes the value of the theta0 PV.
- set_position(position)
Alias for set_current_position.
Will fail if the motor does not have set_current_position.
- stop(success=False)
Stop the Device and all (instantiated) subdevices
- summary()
- to_pseudo_tuple(*args, **kwargs)
Convert arguments to a PseudoPosition namedtuple and kwargs
- to_real_tuple(*args, **kwargs)
Convert arguments to a RealPosition namedtuple and kwargs
- trigger() StatusBase
Trigger the device and return status object.
This method is responsible for implementing ‘trigger’ or ‘acquire’ functionality of this device.
If there is an appreciable time between triggering the device and it being able to be read (via the
read()
method) then this method is also responsible for arranging that theStatusBase
object returned by this method is notified when the device is ready to be read.If there is no delay between triggering and being readable, then this method must return a
StatusBase
object which is already completed.- Returns:
status (StatusBase) –
StatusBase
object which will be marked as complete when the device is ready to be read.
- tweak(scale=0.1)
Control this motor using the arrow keys.
Use left arrow to step negative and right arrow to step positive. Use up arrow to increase step size and down arrow to decrease step size. Press q or ctrl+c to quit.
- Parameters:
scale (float) – starting step size, default = 0.1
- umv(position, timeout=None, log=True, newline=True)
Move to a position, wait, and update with a progress bar.
- Parameters:
position (float) – Desired end position.
timeout (float, optional) – If provided, the mover will throw an error if motion takes longer than timeout to complete. If omitted, the mover’s default timeout will be use.
log (bool, optional) – If True, logs the move at INFO level.
newline (bool, optional) – If True, inserts a newline after the updates.
- umvr(delta, timeout=None, log=True, newline=True)
Relative move from this position, wait, and update with a progress bar.
- Parameters:
delta (float) – Desired change in position.
timeout (float, optional) – If provided, the mover will throw an error if motion takes longer than timeout to complete. If omitted, the mover’s default timeout will be use.
log (bool, optional) – If True, logs the move at INFO level.
newline (bool, optional) – If True, inserts a newline after the updates.
- wait(timeout=None)
- warn_invalid_constants(only_new: bool = False) None
Warn if we have invalid values for our calculation constants.
The motivation here is twofold: 1. It should be easy for the user to know what is wrong and
why. The calculations should not be opaque.
The user should still be able to do “something” if there is an issue here.
For values to be valid, the PVs need to be connected and all but theta0 must be nonzero. Theta0 should also not be zero, but it doesn’t break the math and someone could conceivably set it to zero during debug.
If this isn’t satisfied, we will show an appropriate warning message when this method is called. The intention is for this to pop up whenever we run the forward/inverse calculations.
For more detail, consider the following failure modes: 1. The constant PVs don’t connect and never connect
In this case, we must warn that the constants IOC is off
We should use the default values in calculations
The constant PVs connect, but their values are zero
In this case, we must warn that the constant values were lost
We should use the default values in calculations
The constant PVs connect, but disconnect later
In this case, we should warn that the IOC died
We should continue using the last known good values
- Parameters:
only_new (bool, optional) – If False, the default, always show us the warnings. If True, do not show warnings if they have not changed.
- wm()
Get the mover’s current positon (where motor).
- wm_update()
Shows a live-updating motor position in the terminal.
This will be the value that is returned by the
position
attribute.This method ends cleanly at a ctrl+c or after a call to
end_monitor_thread()
, which may be useful when this is called in a background thread.
Attributes
- composite_egu
The composite engineering units (EGU) from all PseudoSingles
- concurrent
If concurrent is set, motors will move concurrently (in parallel)
- configuration_attrs
- connected
- dspacing_val
The dspacing value currently used in calculations.
This is the crystal lattice spacing.
This will be the value from the PV if things are working properly, otherwise it will fall back to the default value.
This is necessary because a value of 0 is nonphysical and in the case of a disconnected value the show must go on.
- egu
The engineering units (EGU) for positions
- gd_val
The gd value currently used in calculations.
This is the distance between the rotation axis and the center of the sapphire sphere located on the Alio stage in mm.
This will be the value from the PV if things are working properly, otherwise it will fall back to the default value.
This is necessary because a value of 0 is nonphysical and in the case of a disconnected value the show must go on.
- gr_val
The gr value currently used in calculations.
This is the radius of the sapphire ball connected to the Alio stage in mm.
This will be the value from the PV if things are working properly, otherwise it will fall back to the default value.
This is necessary because a value of 0 is nonphysical and in the case of a disconnected value the show must go on.
- high_limit
All PseudoSingle high limits as a namedtuple
- hints
- kind
- limits
All PseudoSingle limits as a namedtuple
- low_limit
All PseudoSingle low limits as a namedtuple
- moving
- position
Pseudo motor position namedtuple
- pseudo_positioners
Pseudo positioners instances in a namedtuple
- Returns:
positioner_instances (PseudoPosition)
- real_position
Real motor position namedtuple
- real_positioners
Real positioners instances in a namedtuple
- Returns:
positioner_instances (RealPosition)
- sequential
If sequential is set, motors will move in the sequence they were defined in (i.e., in series)
- settle_time
Amount of time to wait after moves to report status completion
- subscriptions: ClassVar[FrozenSet[str]] = frozenset({'_req_done', 'acq_done', 'done_moving', 'readback', 'start_moving'})
- target
Last commanded target positions
- theta0_deg_val
The theta0 value currently used in calculations.
This is the reference angle for the first crystal in deg.
This will be the value from the PV if things are working properly, otherwise it will fall back to the default value.
- theta0_rad_val
The theta0 value currently used in calculations.
This is the reference angle for the first crystal in rad.
This will be the value from the PV if things are working properly, otherwise it will fall back to the default value.
- timeout
Amount of time to wait before to considering a motion as failed