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Update qspace.py

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ueda_h
2022-04-13 13:20:00 +00:00
parent 8e8e5de83e
commit a98728b924
1 changed files with 38 additions and 17 deletions
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55
qspace.py
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@ -20,15 +20,16 @@ INDICES = {
class QSpace3D(Device): class QSpace3D(Device):
def __init__(self, ID, eta, chi, phi, wavelength, **kwargs): # if the diffcalc objects need some initial parameters, add them here and fill them in below... def __init__(self, ID, mu, chi, phi, nu, wavelength, **kwargs): # if the diffcalc objects need some initial parameters, add them here and fill them in below...
super().__init__(ID, **kwargs) super().__init__(ID, **kwargs)
# collect the motors in a device for nicer printing # collect the motors in a device for nicer printing
self.motors = motors = SimpleDevice( self.motors = motors = SimpleDevice(
ID, ID,
eta = eta, mu = mu,
chi = chi, chi = chi,
phi = phi phi = phi,
nu = nu
) )
self.wavelength = wavelength self.wavelength = wavelength
@ -54,7 +55,24 @@ class QSpace3D(Device):
# it might be nice (but optional) to add some shortcuts like this: # it might be nice (but optional) to add some shortcuts like this:
def set_lattice(self, *args, **kwargs): def set_lattice(self, *args, **kwargs):
self.dc.ub.set_lattice(*args, **kwargs) self.dc.ub.set_lattice(*args, **kwargs)
self.dc.ub.calc_ub() # not sure whether this needs to be called explicitly?
def add_orientation(self, *args, **kwargs):
self.dc.ub.add_orientation(*args, **kwargs)
def del_orientation(self, *args):
self.dc.ub.del_orientation(*args)
def add_reflection(self, *args, **kwargs):
self.dc.ub.add_reflection(*args, **kwargs)
def del_reflection(self, *args):
self.dc.ub.del_reflection(*args)
def calc_ub(self, *args):
self.dc.ub.calc_ub(*args) # not sure whether this needs to be called explicitly?
def fit_ub(self, *args, **kwargs):
self.dc.ub.fit_ub(*args, **kwargs)
# if I understand the examples/code correctly, then some more method calls are mandatory? # if I understand the examples/code correctly, then some more method calls are mandatory?
# those should probably all get shortcuts... # those should probably all get shortcuts...
@ -88,7 +106,7 @@ class QSpace1D(Adjustable):
def is_moving(self): def is_moving(self):
ms = self.motors ms = self.motors
return ms.eta.moving or ms.chi.moving or ms.phi.moving return ms.mu.moving or ms.chi.moving or ms.phi.moving
# some helpful things: # some helpful things:
@ -117,24 +135,26 @@ class QSpace1D(Adjustable):
def _get_angles(self): def _get_angles(self):
ms = self.motors ms = self.motors
eta = ms.eta.get_current_value() mu = ms.mu.get_current_value()
chi = ms.chi.get_current_value() chi = ms.chi.get_current_value()
phi = ms.phi.get_current_value() phi = ms.phi.get_current_value()
return eta, chi, phi nu = ms.nu.get_current_value()
return mu, chi, phi, nu
def _set_angles(self, eta, chi, phi): def _set_angles(self, mu, chi, phi, nu):
ms = self.motors ms = self.motors
t_eta = ms.eta.set_target_value(eta) t_mu = ms.mu.set_target_value(mu)
t_chi = ms.chi.set_target_value(chi) t_chi = ms.chi.set_target_value(chi)
t_phi = ms.phi.set_target_value(phi) t_phi = ms.phi.set_target_value(phi)
t_nu = ms.nu.set_target_value(nu)
# wait for all motors to arrive # wait for all motors to arrive
tasks = (t_eta, t_chi, t_phi) tasks = (t_mu, t_chi, t_phi, t_nu)
for t in tasks: for t in tasks:
t.wait() t.wait()
def _calc_hkl(self, eta, chi, phi): def _calc_hkl(self, mu, chi, phi, nu):
wl = self.get_wavelength() wl = self.get_wavelength()
pos = Position(eta=eta, chi=chi, phi=phi) pos = Position(mu=mu, chi=chi, phi=phi, nu=nu)
hkl = self.dc.hkl.get_hkl(pos, wl) hkl = self.dc.hkl.get_hkl(pos, wl)
return hkl return hkl
@ -143,22 +163,23 @@ class QSpace1D(Adjustable):
pos, _virtual_angles = next(iter( pos, _virtual_angles = next(iter(
self.dc.hkl.get_position(h, k, l, wl) self.dc.hkl.get_position(h, k, l, wl)
)) ))
return pos.eta, pos.chi, pos.phi return pos.mu, pos.chi, pos.phi, pos.nu
# these point to the different motors # these point to the different motors
eta = Motor("SOMETHING:ETA") mu = Motor("SATES30-RIXS:MOT_SRY.VAL")
chi = Motor("SOMETHING:CHI") chi = Motor("SATES30-RIXS:MOT_SRZ.VAL")
phi = Motor("SOMETHING:PHI") phi = Motor("SATES30-RIXS:MOT_SRX.VAL")
nu = Motor("SATES30-RIXS:MOT_DRY.VAL")
# and this to the machine wavelength (maybe this needs to be calculated from the energy? then we should add a Wavelength wrapper...) # and this to the machine wavelength (maybe this needs to be calculated from the energy? then we should add a Wavelength wrapper...)
wl = PVAdjustable("MACHINE:WAVELENGTH") wl = PVAdjustable("MACHINE:WAVELENGTH")
# put it all together: # put it all together:
q = QSpace3D("SOMETHING:Q", eta, chi, phi, wl) q = QSpace3D("SOMETHING:Q", mu, chi, phi, nu, wl)
## in ipython ## in ipython
#q.set_lattice("SiO2", 4.913, 5.405) #q.set_lattice("SiO2", 4.913, 5.405)