コード例 #1
0
 def _startRaw(self, target):
     """Target is the raw value, i.e. a list of positions."""
     moveables = self._attached_moveables
     if not isinstance(target, (tuple, list)) or \
             len(target) < len(moveables):
         raise InvalidValueError(
             self, 'doStart needs a tuple of %d '
             'positions for this device!' % len(moveables))
     # only check and move the moveables, which are first in self.devices
     for d, t in zip(moveables, target):
         if not d.isAllowed(t):
             raise InvalidValueError(
                 self, 'target value %r not accepted '
                 'by device %s' % (t, d.name))
     # Move first in all needed blades into the beam to reduce the
     # activation of sample and/or save the detector and them move out the
     # not needed ones
     for d, t in zip(moveables, target):
         self.log.debug('moving %r to %r', d, t)
         if t == 'in':
             d.start(t)
     for d, t in zip(moveables, target):
         self.log.debug('moving %r to %r', d, t)
         if t == 'out':
             d.start(t)
     if self.blockingmove:
         multiWait(moveables)
コード例 #2
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    def _applyParams(self, number, parameters):
        Sample._applyParams(self, number, parameters)
        self._applyKwsParams(parameters)

        self.log.info('moving to position of sample %s (%s)...', number,
                      parameters['name'] or 'unnamed')
        waitdevs = []
        if self.aperture != (0, 0, 0, 0):
            ap = session.getDevice(self.apname)
            ap.opmode = 'offcentered'  # to be sure
            ap.move(self.aperture)
            waitdevs.append(ap)
        for devname, devpos in iteritems(self.position):
            dev = session.getDevice(devname)
            dev.move(devpos)
            waitdevs.append(dev)
        multiWait(waitdevs)
コード例 #3
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    def _move2start(self):
        self.log.info('Move %s for monochromator change',
                      ', '.join(sorted(self.changing_positions)))

        for dev, pos in self._changing_values.items():
            dev.start(pos)

        # multiWait(self._changing_values)
        multiWait(self._changing_values.keys())

        for dev, pos in self._changing_values.items():
            if abs(dev.read(0) - pos) > dev.precision:
                raise PositionError(
                    self, "'%s' did not reach target position "
                    "'%s'" % (dev, pos))

        for dev in self._changing_values:
            dev.fix('Monochromator change in progress')
コード例 #4
0
ファイル: switcher.py プロジェクト: ess-dmsc/nicos
 def _startRaw(self, target):
     """target is the raw value, i.e. a list of positions"""
     moveables = self._attached_moveables
     if not isinstance(target, (tuple, list)) or \
             len(target) < len(moveables):
         raise InvalidValueError(self, 'doStart needs a tuple of %d '
                                 'positions for this device!' %
                                 len(moveables))
     # only check and move the moveables, which are first in self.devices
     for d, t in zip(moveables, target):
         if not d.isAllowed(t):
             raise InvalidValueError(self, 'target value %r not accepted '
                                     'by device %s' % (t, d.name))
     for d, t in zip(moveables, target):
         self.log.debug('moving %r to %r', d, t)
         d.start(t)
     if self.blockingmove:
         multiWait(moveables)
コード例 #5
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    def _finalize(self):
        """Will be called after a successful monochromator change."""
        # test this!
        # self.log.debug('Enabling Powerstages for %s',
        #                ', '.join(sorted(self.changing_positions)))
        # for dev in self._changing_values:
        #     dev.power = 'on'

        self.log.info('releasing mono devices')
        # self._attached_monochromator.release()
        for dev in self._changing_values:
            dev.release()
        self.log.info('move mono devices to the nominal positions')
        for dev, pos in self._init_values.items():
            dev.start(pos)

        multiWait(self._init_values.keys())

        for dev, pos in self._init_values.items():
            if abs(dev.read(0) - pos) > dev.precision:
                raise PositionError(
                    self, "'%s' did not reach target position "
                    "'%s'" % (dev, pos))
コード例 #6
0
ファイル: distancedevice.py プロジェクト: ess-dmsc/nicos
 def doReset(self):
     multiReset(self._axes)
     multiWait(self._axes)
コード例 #7
0
ファイル: device.py プロジェクト: ISISComputingGroup/nicos
def _wait_hook(devs):
    """Default wait hook"""
    values = multiWait(devs)
    for dev in devs:
        dev.log.info('at %20s %s', dev.format(values[dev]), dev.unit)
コード例 #8
0
ファイル: commands.py プロジェクト: umithardal/nicos
def kwscount(**arguments):
    """Move sample and devices into place followed by a count.

    This takes KWS-specific circumstances such as sample time factor into
    account.

    Example:

    >>> kwscount(sample=1, selector='12A', resolution='2m', sample_pos='1.3m', time=3600)

    Keywords for standard instrument components are:

    * sample (sample number or name if unique, defaults to no sample change)
    * selector (must be present)
    * resolution (must be present)
    * sample_pos (must be present)
    * detector (must be present)
    * beamstop (defaults to out)
    * polarizer (defaults to out)
    * chopper (defaults to off)

    Any other keywords are interpreted as devices names and the target values.
    """
    def sort_key(kv):
        try:
            # main components move first, in selected order
            return (0, DEFAULT.index(kv[0]))
        except ValueError:
            # all other devices move last, sorted by devname
            return (1, kv[0])

    # check that all required components are present, and put defaults for
    # optional components
    if 'selector' not in arguments:
        raise UsageError('kwscount must have a value for the selector')
    if 'detector' not in arguments:
        raise UsageError('kwscount must have a value for the detector')
    if 'sample_pos' not in arguments:
        raise UsageError('kwscount must have a value for the sample_pos')
    if 'detector' not in arguments:
        raise UsageError('kwscount must have a value for the detector')
    if 'beamstop' not in arguments:
        arguments['beamstop'] = 'out'
    if 'polarizer' not in arguments:
        arguments['polarizer'] = 'out'
    if 'chopper' not in arguments:
        arguments['chopper'] = 'off'
    # leave space between kwscounts
    session.log.info('')
    # measurement time
    meastime = arguments.pop('time', 0)
    # select sample
    sample = arguments.pop('sample', None)
    # move devices
    waiters = []
    # the order is important!
    devs = listitems(arguments)
    devs.sort(key=sort_key)
    # add moved devices to sampleenv
    _fixupSampleenv(devs)
    # start devices
    for devname, value in devs:
        if devname == 'chopper':
            # currently a no-op
            continue
        dev = session.getDevice(devname, Moveable)
        dev.start(value)
        if devname == 'selector':
            dev2 = session.getDevice('sel_speed')
            session.log.info('%-12s --> %s (%s)', devname, dev.format(value),
                             dev2.format(dev2.target, unit=True))
        else:
            session.log.info('%-12s --> %s', devname,
                             dev.format(value, unit=True))
        waiters.append(dev)
    # select and wait for sample here
    if sample is not None:
        session.experiment.sample.select(sample)
    # now wait for everyone else
    multiWait(waiters)
    # count
    session.log.info('Now counting for %d seconds...', meastime)
    count(t=meastime)