def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
if isinstance(tree_item, queue_item.SampleQueueItem) or \
isinstance(tree_item, queue_item.DataCollectionGroupQueueItem):
self._processing_parameters = copy.deepcopy(self._processing_parameters)
self._processing_widget.update_data_model(self._processing_parameters)
self._acq_widget.disable_inverse_beam(False)
elif isinstance(tree_item, queue_item.DataCollectionQueueItem):
dc = tree_item.get_model()
if dc.experiment_type != queue_model_enumerables.EXPERIMENT_TYPE.HELICAL:
self.setDisabled(False)
self._acq_widget.disable_inverse_beam(True)
self._path_template = dc.get_path_template()
self._data_path_widget.update_data_model(self._path_template)
self._acquisition_parameters = dc.acquisitions[0].acquisition_parameters
self._acq_widget.update_data_model(self._acquisition_parameters,
self._path_template)
if len(dc.acquisitions) == 1:
self.select_shape_with_cpos(self._acquisition_parameters.\
centred_position)
self._processing_parameters = dc.processing_parameters
self._processing_widget.update_data_model(self._processing_parameters)
else:
self.setDisabled(True)
else:
self.setDisabled(True)
def __init__(self, parent=None, name=None, fl=0):
CreateTaskBase.__init__(self, parent, name, fl, 'Discrete')
if not name:
self.setName("create_discrete_widget")
self.previous_energy = None
self.init_models()
#
# Layout
#
v_layout = qt.QVBoxLayout(self, 2, 5, "v_layout")
self._acq_gbox = qt.QVGroupBox('Acquisition', self, 'acq_gbox')
self._acq_widget = \
AcquisitionWidget(self._acq_gbox,
"acquisition_widget",
layout='vertical',
acq_params=self._acquisition_parameters,
path_template=self._path_template)
self._data_path_gbox = qt.QVGroupBox('Data location',
self, 'data_path_gbox')
self._data_path_widget = \
DataPathWidget(self._data_path_gbox,
'create_dc_path_widget',
data_model=self._path_template,
layout=DataPathWidgetVerticalLayout)
self._processing_gbox = qt.QVGroupBox('Processing', self,
'processing_gbox')
self._processing_widget = \
ProcessingWidget(self._processing_gbox,
data_model=self._processing_parameters)
v_layout.addWidget(self._acq_gbox)
v_layout.addWidget(self._data_path_gbox)
v_layout.addWidget(self._processing_gbox)
v_layout.addStretch()
dp_layout = self._data_path_widget.data_path_widget_layout
self.connect(self._acq_widget, qt.PYSIGNAL('mad_energy_selected'),
self.mad_energy_selected)
self.connect(dp_layout.prefix_ledit,
qt.SIGNAL("textChanged(const QString &)"),
self._prefix_ledit_change)
self.connect(dp_layout.run_number_ledit,
qt.SIGNAL("textChanged(const QString &)"),
self._run_number_ledit_change)
self.connect(self._acq_widget,
qt.PYSIGNAL("path_template_changed"),
self.handle_path_conflict)
self.connect(self._data_path_widget,
qt.PYSIGNAL("path_template_changed"),
self.handle_path_conflict)
def __init__(self, parent=None, name=None, fl=0):
CreateTaskBase.__init__(self, parent, name, fl, 'Standard')
if not name:
self.setName("create_discrete_widget")
self.previous_energy = None
self.init_models()
#
# Layout
#
v_layout = qt.QVBoxLayout(self, 2, 5, "v_layout")
self._acq_gbox = qt.QVGroupBox('Acquisition', self, 'acq_gbox')
self._acq_widget = \
AcquisitionWidget(self._acq_gbox,
"acquisition_widget",
layout='vertical',
acq_params=self._acquisition_parameters,
path_template=self._path_template)
self._data_path_gbox = qt.QVGroupBox('Data location', self,
'data_path_gbox')
self._data_path_widget = \
DataPathWidget(self._data_path_gbox,
'create_dc_path_widget',
data_model=self._path_template,
layout='vertical')
self._processing_gbox = qt.QVGroupBox('Processing', self,
'processing_gbox')
self._processing_widget = \
ProcessingWidget(self._processing_gbox,
data_model=self._processing_parameters)
v_layout.addWidget(self._acq_gbox)
v_layout.addWidget(self._data_path_gbox)
v_layout.addWidget(self._processing_gbox)
v_layout.addStretch()
dp_layout = self._data_path_widget.data_path_widget_layout
self.connect(self._acq_widget, qt.PYSIGNAL('mad_energy_selected'),
self.mad_energy_selected)
self.connect(dp_layout.child('prefix_ledit'),
qt.SIGNAL("textChanged(const QString &)"),
self._prefix_ledit_change)
self.connect(dp_layout.child('run_number_ledit'),
qt.SIGNAL("textChanged(const QString &)"),
self._run_number_ledit_change)
self.connect(self._acq_widget,
qt.PYSIGNAL("path_template_changed"),
self.handle_path_conflict)
self.connect(self._data_path_widget,
qt.PYSIGNAL("path_template_changed"),
self.handle_path_conflict)
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
if isinstance(tree_item, queue_item.SampleQueueItem):
sample_model = tree_item.get_model()
self._processing_parameters = sample_model.processing_parameters
# self._processing_parameters = copy.deepcopy(self._processing_parameters)
self._processing_widget.update_data_model(self._processing_parameters)
elif isinstance(tree_item, queue_item.BasketQueueItem):
self.setDisabled(False)
elif isinstance(tree_item, queue_item.DataCollectionQueueItem):
data_collection = tree_item.get_model()
if data_collection.experiment_type == EXPERIMENT_TYPE.HELICAL:
if tree_item.get_model().is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
self._path_template = data_collection.get_path_template()
self._data_path_widget.update_data_model(self._path_template)
self._acquisition_parameters = data_collection.acquisitions[
0
].acquisition_parameters
if len(data_collection.acquisitions) == 2:
start_cpos = data_collection.acquisitions[
0
].acquisition_parameters.centred_position
end_cpos = data_collection.acquisitions[
1
].acquisition_parameters.centred_position
self.select_shape_with_cpos(start_cpos, end_cpos)
self._acq_widget.update_data_model(
self._acquisition_parameters, self._path_template
)
self.get_acquisition_widget().use_osc_start(True)
self._processing_parameters = data_collection.processing_parameters
self._processing_widget.update_data_model(self._processing_parameters)
else:
self.setDisabled(True)
else:
self.setDisabled(True)
if (
isinstance(tree_item, queue_item.SampleQueueItem)
or isinstance(tree_item, queue_item.DataCollectionGroupQueueItem)
or isinstance(tree_item, queue_item.DataCollectionQueueItem)
):
self._processing_widget.update_data_model(self._processing_parameters)
self._acq_widget.update_data_model(
self._acquisition_parameters, self._path_template
)
def __init__(self, parent=None, name=None, fl=0):
CreateTaskBase.__init__(self, parent, name, fl, "XRF-spectrum")
self.count_time = None
# Data attributes
self.init_models()
xrfspectrum_model = queue_model_objects.XRFSpectrum()
self.xrfspectrum_mib = DataModelInputBinder(xrfspectrum_model)
# Layout
v_layout = qt.QVBoxLayout(self, 2, 6, "main_v_layout")
self._data_path_gbox = qt.QVGroupBox("Data location", self, "data_path_gbox")
self._data_path_widget = DataPathWidget(
self._data_path_gbox, data_model=self._path_template, layout="vertical"
)
parameters_hor_gbox = qt.QHGroupBox("Parameters", self)
self.count_time_label = qt.QLabel("Count time", parameters_hor_gbox)
self.count_time_label.setFixedWidth(83)
self.count_time_ledit = qt.QLineEdit(
"1.0", parameters_hor_gbox, "count_time_ledit"
)
self.count_time_ledit.setFixedWidth(50)
self.xrfspectrum_mib.bind_value_update(
"count_time", self.count_time_ledit, float
) # ,
spacer = qt.QWidget(parameters_hor_gbox)
spacer.setSizePolicy(qt.QSizePolicy.Expanding, qt.QSizePolicy.Fixed)
v_layout.addWidget(self._data_path_gbox)
v_layout.addWidget(parameters_hor_gbox)
v_layout.addStretch()
self.connect(
self._data_path_widget.data_path_widget_layout.child("run_number_ledit"),
qt.SIGNAL("textChanged(const QString &)"),
self._run_number_ledit_change,
)
self.connect(
self._data_path_widget.data_path_widget_layout.child("prefix_ledit"),
qt.SIGNAL("textChanged(const QString &)"),
self._prefix_ledit_change,
)
self.connect(
self._data_path_widget,
qt.PYSIGNAL("path_template_changed"),
self.handle_path_conflict,
)
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
if isinstance(tree_item, queue_item.SampleQueueItem):
sample_model = tree_item.get_model()
self._processing_parameters = sample_model.processing_parameters
#self._processing_parameters = copy.deepcopy(self._processing_parameters)
self._processing_widget.update_data_model(
self._processing_parameters)
elif isinstance(tree_item, queue_item.BasketQueueItem):
self.setDisabled(False)
elif isinstance(tree_item, queue_item.DataCollectionQueueItem):
data_collection = tree_item.get_model()
if data_collection.experiment_type == EXPERIMENT_TYPE.HELICAL:
if tree_item.get_model().is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
self._path_template = data_collection.get_path_template()
self._data_path_widget.update_data_model(self._path_template)
self._acquisition_parameters = data_collection.acquisitions[0].\
acquisition_parameters
if len(data_collection.acquisitions) == 2:
start_cpos = data_collection.acquisitions[0].acquisition_parameters.\
centred_position
end_cpos = data_collection.acquisitions[1].acquisition_parameters.\
centred_position
self.select_shape_with_cpos(start_cpos, end_cpos)
self._acq_widget.update_data_model(
self._acquisition_parameters, self._path_template)
self.get_acquisition_widget().use_osc_start(True)
self._processing_parameters = data_collection.processing_parameters
self._processing_widget.update_data_model(
self._processing_parameters)
else:
self.setDisabled(True)
else:
self.setDisabled(True)
if isinstance(tree_item, queue_item.SampleQueueItem) or \
isinstance(tree_item, queue_item.DataCollectionGroupQueueItem) or \
isinstance(tree_item, queue_item.DataCollectionQueueItem):
self._processing_widget.update_data_model(
self._processing_parameters)
self._acq_widget.update_data_model(self._acquisition_parameters,
self._path_template)
def __init__(self, parent=None, name=None, fl=0):
CreateTaskBase.__init__(self, parent, name, fl, "Workflow")
# Data attributes
self.workflow_hwobj = None
self.workflows = {}
self.init_models()
# Layout
v_layout = qt.QVBoxLayout(self, 2, 5, "main_v_layout")
self._workflow_type_gbox = qt.QVGroupBox(
"Workflow type", self, "workflow_rtype"
)
self._workflow_cbox = qt.QComboBox(self._workflow_type_gbox)
self._data_path_gbox = qt.QVGroupBox("Data location", self, "data_path_gbox")
self._data_path_widget = DataPathWidget(
self._data_path_gbox, data_model=self._path_template, layout="vertical"
)
self._data_path_widget.data_path_widget_layout.child("file_name_label").setText(
""
)
self._data_path_widget.data_path_widget_layout.child(
"file_name_value_label"
).hide()
# self._grid_widget = MxLookupScanBrick.MxLookupScanBrick(self, 'grid_widget')
v_layout.addWidget(self._workflow_type_gbox)
v_layout.addWidget(self._data_path_gbox)
# v_layout.addWidget(self._grid_widget)
v_layout.addStretch()
self.connect(
self._data_path_widget.data_path_widget_layout.child("prefix_ledit"),
qt.SIGNAL("textChanged(const QString &)"),
self._prefix_ledit_change,
)
self.connect(
self._data_path_widget.data_path_widget_layout.child("run_number_ledit"),
qt.SIGNAL("textChanged(const QString &)"),
self._run_number_ledit_change,
)
self.connect(
self._data_path_widget,
qt.PYSIGNAL("path_template_changed"),
self.handle_path_conflict,
)
def __init__(self, parent=None, name=None, fl=0):
CreateTaskBase.__init__(self, parent, name, fl, "Workflow")
# Data attributes
self.workflow_hwobj = None
self.workflows = {}
self.init_models()
# Layout
v_layout = qt.QVBoxLayout(self, 2, 5, "main_v_layout")
self._workflow_type_gbox = qt.QVGroupBox("Workflow type", self,
"workflow_rtype")
self._workflow_cbox = qt.QComboBox(self._workflow_type_gbox)
self._data_path_gbox = qt.QVGroupBox("Data location", self,
"data_path_gbox")
self._data_path_widget = DataPathWidget(self._data_path_gbox,
data_model=self._path_template,
layout="vertical")
self._data_path_widget.data_path_widget_layout.child(
"file_name_label").setText("")
self._data_path_widget.data_path_widget_layout.child(
"file_name_value_label").hide()
# self._grid_widget = MxLookupScanBrick.MxLookupScanBrick(self, 'grid_widget')
v_layout.addWidget(self._workflow_type_gbox)
v_layout.addWidget(self._data_path_gbox)
# v_layout.addWidget(self._grid_widget)
v_layout.addStretch()
self.connect(
self._data_path_widget.data_path_widget_layout.child(
"prefix_ledit"),
qt.SIGNAL("textChanged(const QString &)"),
self._prefix_ledit_change,
)
self.connect(
self._data_path_widget.data_path_widget_layout.child(
"run_number_ledit"),
qt.SIGNAL("textChanged(const QString &)"),
self._run_number_ledit_change,
)
self.connect(
self._data_path_widget,
qt.PYSIGNAL("path_template_changed"),
self.handle_path_conflict,
)
def init_models(self):
CreateTaskBase.init_models(self)
self._energy_scan_result = qmo.EnergyScanResult()
self._processing_parameters = qmo.ProcessingParameters()
if self._beamline_setup_hwobj is not None:
has_shutter_less = self._beamline_setup_hwobj.detector_has_shutterless()
self._acquisition_parameters.shutterless = has_shutter_less
self._acquisition_parameters = self._beamline_setup_hwobj.get_default_acquisition_parameters()
else:
self._acquisition_parameters = qmo.AcquisitionParameters()
self._path_template = qmo.PathTemplate()
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
if isinstance(tree_item, queue_item.SampleQueueItem):
logging.info("no update, sample level")
"""JN 20140829, keep the values user set up
self._init_models()
self._set_space_group(self._char_params.space_group)
self._acq_widget.update_data_model(self._acquisition_parameters,
self._path_template)
self._char_params_mib.set_model(self._char_params)
"""
#self._char_params = copy.deepcopy(self._char_params)
#self._acquisition_parameters = copy.deepcopy(self._acquisition_parameters)
elif isinstance(tree_item, queue_item.CharacterisationQueueItem):
if tree_item.get_model().is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
self._char = tree_item.get_model()
if self._char.get_path_template():
self._path_template = self._char.get_path_template()
self._data_path_widget.update_data_model(self._path_template)
data_collection = self._char.reference_image_collection
self._char_params = self._char.characterisation_parameters
self._char_params_mib.set_model(self._char_params)
self._acquisition_parameters = data_collection.acquisitions[0].\
acquisition_parameters
logging.info("resolution is set to %s",
str(self._acquisition_parameters.resolution))
self._acq_widget.update_data_model(self._acquisition_parameters,
self._path_template)
self.get_acquisition_widget().use_osc_start(True)
if len(data_collection.acquisitions) == 1:
self.select_shape_with_cpos(self._acquisition_parameters.\
centred_position)
self._processing_parameters = data_collection.processing_parameters
else:
self.setDisabled(True)
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
if isinstance(tree_item, queue_item.SampleQueueItem):
logging.info("no update, sample level")
"""JN 20140829, keep the values user set up
self._init_models()
self._set_space_group(self._char_params.space_group)
self._acq_widget.update_data_model(self._acquisition_parameters,
self._path_template)
self._char_params_mib.set_model(self._char_params)
"""
#self._char_params = copy.deepcopy(self._char_params)
#self._acquisition_parameters = copy.deepcopy(self._acquisition_parameters)
elif isinstance(tree_item, queue_item.CharacterisationQueueItem):
if tree_item.get_model().is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
self._char = tree_item.get_model()
if self._char.get_path_template():
self._path_template = self._char.get_path_template()
self._data_path_widget.update_data_model(self._path_template)
data_collection = self._char.reference_image_collection
self._char_params = self._char.characterisation_parameters
self._char_params_mib.set_model(self._char_params)
self._acquisition_parameters = data_collection.acquisitions[0].\
acquisition_parameters
logging.info("resolution is set to %s", str(self._acquisition_parameters.resolution))
self._acq_widget.update_data_model(self._acquisition_parameters,
self._path_template)
self.get_acquisition_widget().use_osc_start(True)
if len(data_collection.acquisitions) == 1:
self.select_shape_with_cpos(self._acquisition_parameters.\
centred_position)
self._processing_parameters = data_collection.processing_parameters
else:
self.setDisabled(True)
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
escan_model = tree_item.get_model()
if isinstance(tree_item, queue_item.EnergyScanQueueItem):
self.setDisabled(False)
if escan_model.get_path_template():
self._path_template = escan_model.get_path_template()
self._data_path_widget.update_data_model(self._path_template)
elif not(isinstance(tree_item, queue_item.SampleQueueItem) or \
isinstance(tree_item, queue_item.DataCollectionGroupQueueItem)):
self.setDisabled(True)
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
if isinstance(tree_item, queue_item.SampleQueueItem):
self._init_models()
self._set_space_group(self._char_params.space_group)
self._acq_widget.update_data_model(
self._acquisition_parameters, self._path_template
)
self._char_params_mib.set_model(self._char_params)
# self._char_params = copy.deepcopy(self._char_params)
# self._acquisition_parameters = copy.deepcopy(self._acquisition_parameters)
elif isinstance(tree_item, queue_item.BasketQueueItem):
self.setDisabled(False)
elif isinstance(tree_item, queue_item.CharacterisationQueueItem):
if tree_item.get_model().is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
self._char = tree_item.get_model()
if self._char.get_path_template():
self._path_template = self._char.get_path_template()
self._data_path_widget.update_data_model(self._path_template)
data_collection = self._char.reference_image_collection
self._char_params = self._char.characterisation_parameters
self._char_params_mib.set_model(self._char_params)
self._acquisition_parameters = data_collection.acquisitions[
0
].acquisition_parameters
self._acq_widget.update_data_model(
self._acquisition_parameters, self._path_template
)
self.get_acquisition_widget().use_osc_start(True)
if len(data_collection.acquisitions) == 1:
self.select_shape_with_cpos(
self._acquisition_parameters.centred_position
)
self._processing_parameters = data_collection.processing_parameters
else:
self.setDisabled(True)
def init_models(self):
CreateTaskBase.init_models(self)
self._energy_scan_result = qmo.EnergyScanResult()
self._processing_parameters = qmo.ProcessingParameters()
if self._beamline_setup_hwobj is not None:
has_shutter_less = self._beamline_setup_hwobj.\
detector_has_shutterless()
self._acquisition_parameters.shutterless = has_shutter_less
self._acquisition_parameters = self._beamline_setup_hwobj.\
get_default_acquisition_parameters("default_helical_values")
else:
self._acquisition_parameters = qmo.AcquisitionParameters()
self._path_template = qmo.PathTemplate()
def __init__(self, parent=None, name=None, fl=0):
CreateTaskBase.__init__(self, parent, name, fl, "Energy-scan")
# Data attributes
self.init_models()
# Layout
v_layout = qt.QVBoxLayout(self, 2, 5, "main_v_layout")
h_box = qt.QHGroupBox("Available elements", self)
self.periodic_table = PeriodicTableBrick(h_box)
font = self.periodic_table.font()
font.setPointSize(8)
self.periodic_table.setFont(font)
h_box.setMaximumWidth(470)
h_box.setMaximumHeight(310)
self._data_path_gbox = qt.QVGroupBox("Data location", self, "data_path_gbox")
self._data_path_widget = DataPathWidget(
self._data_path_gbox, data_model=self._path_template, layout="vertical"
)
v_layout.addWidget(h_box)
v_layout.addWidget(self._data_path_gbox)
v_layout.addStretch()
self.connect(
self._data_path_widget.data_path_widget_layout.child("prefix_ledit"),
qt.SIGNAL("textChanged(const QString &)"),
self._prefix_ledit_change,
)
self.connect(
self._data_path_widget.data_path_widget_layout.child("run_number_ledit"),
qt.SIGNAL("textChanged(const QString &)"),
self._run_number_ledit_change,
)
self.connect(
self._data_path_widget,
qt.PYSIGNAL("path_template_changed"),
self.handle_path_conflict,
)
qt.QObject.connect(
self.periodic_table, qt.PYSIGNAL("edgeSelected"), self.element_clicked
)
def __init__(self, parent = None, name = None, fl = 0):
CreateTaskBase.__init__(self, parent, name, fl, 'Workflow')
# Data attributes
self.workflow_hwobj = None
self.workflows = {}
self.init_models()
#Layout
v_layout = qt.QVBoxLayout(self, 2, 5, "main_v_layout")
self._workflow_type_gbox = qt.QVGroupBox('Workflow type', self,
'workflow_rtype')
self._workflow_cbox = qt.QComboBox(self._workflow_type_gbox)
self._data_path_gbox = qt.QVGroupBox('Data location', self,
'data_path_gbox')
self._data_path_widget = DataPathWidget(self._data_path_gbox,
data_model = self._path_template,
layout = DataPathWidgetVerticalLayout)
self._data_path_widget.data_path_widget_layout.file_name_label.setText('')
self._data_path_widget.data_path_widget_layout.file_name_value_label.hide()
self._grid_widget = MxLookupScanBrick.\
MxLookupScanBrick(self, 'grid_widget')
v_layout.addWidget(self._workflow_type_gbox)
v_layout.addWidget(self._data_path_gbox)
v_layout.addWidget(self._grid_widget)
v_layout.addStretch()
self.connect(self._data_path_widget.data_path_widget_layout.prefix_ledit,
qt.SIGNAL("textChanged(const QString &)"),
self._prefix_ledit_change)
self.connect(self._data_path_widget.data_path_widget_layout.run_number_ledit,
qt.SIGNAL("textChanged(const QString &)"),
self._run_number_ledit_change)
self.connect(self._data_path_widget,
qt.PYSIGNAL("path_template_changed"),
self.handle_path_conflict)
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
if isinstance(tree_item, queue_item.SampleQueueItem):
sample_model = tree_item.get_model()
#self._processing_parameters = copy.deepcopy(self._processing_parameters)
self._processing_parameters = sample_model.processing_parameters
self._processing_widget.update_data_model(
self._processing_parameters)
self._acq_widget.disable_inverse_beam(False)
elif isinstance(tree_item, queue_item.DataCollectionQueueItem):
dc = tree_item.get_model()
if dc.experiment_type != queue_model_enumerables.EXPERIMENT_TYPE.HELICAL:
if dc.is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
sample_data_model = self.get_sample_item(tree_item).get_model()
energy_scan_result = sample_data_model.crystals[
0].energy_scan_result
self._acq_widget.set_energies(energy_scan_result)
self._acq_widget.disable_inverse_beam(True)
self._path_template = dc.get_path_template()
self._data_path_widget.update_data_model(self._path_template)
self._acquisition_parameters = dc.acquisitions[
0].acquisition_parameters
self._acq_widget.update_data_model(
self._acquisition_parameters, self._path_template)
self.get_acquisition_widget().use_osc_start(True)
if len(dc.acquisitions) == 1:
self.select_shape_with_cpos(self._acquisition_parameters.\
centred_position)
self._processing_parameters = dc.processing_parameters
self._processing_widget.update_data_model(
self._processing_parameters)
else:
self.setDisabled(True)
else:
self.setDisabled(True)
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
if isinstance(tree_item, queue_item.SampleQueueItem):
self._init_models()
self._set_space_group(self._char_params.space_group)
self._acq_widget.update_data_model(self._acquisition_parameters,
self._path_template)
self._char_params_mib.set_model(self._char_params)
# self._char_params = copy.deepcopy(self._char_params)
# self._acquisition_parameters = copy.deepcopy(self._acquisition_parameters)
elif isinstance(tree_item, queue_item.BasketQueueItem):
self.setDisabled(False)
elif isinstance(tree_item, queue_item.CharacterisationQueueItem):
if tree_item.get_model().is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
self._char = tree_item.get_model()
if self._char.get_path_template():
self._path_template = self._char.get_path_template()
self._data_path_widget.update_data_model(self._path_template)
data_collection = self._char.reference_image_collection
self._char_params = self._char.characterisation_parameters
self._char_params_mib.set_model(self._char_params)
self._acquisition_parameters = data_collection.acquisitions[
0].acquisition_parameters
self._acq_widget.update_data_model(self._acquisition_parameters,
self._path_template)
self.get_acquisition_widget().use_osc_start(True)
if len(data_collection.acquisitions) == 1:
self.select_shape_with_cpos(
self._acquisition_parameters.centred_position)
self._processing_parameters = data_collection.processing_parameters
else:
self.setDisabled(True)
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
wf_model = tree_item.get_model()
if isinstance(tree_item, queue_item.GenericWorkflowQueueItem):
if tree_item.get_model().is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
if wf_model.get_path_template():
self._path_template = wf_model.get_path_template()
self._data_path_widget.update_data_model(self._path_template)
elif not(isinstance(tree_item, queue_item.SampleQueueItem) or \
isinstance(tree_item, queue_item.DataCollectionGroupQueueItem)):
self.setDisabled(True)
def approve_creation(self):
result = CreateTaskBase.approve_creation(self)
selected_shapes = self._shape_history.selected_shapes
for shape in selected_shapes:
if isinstance(shape, shape_history.Line):
result = False
return result
def approve_creation(self):
return CreateTaskBase.approve_creation(self)
selected_shapes = self._shape_history.selected_shapes
for shape in selected_shapes:
if isinstance(shape, shape_history.Line):
result = False
return result
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
wf_model = tree_item.get_model()
if isinstance(tree_item, queue_item.GenericWorkflowQueueItem):
if tree_item.get_model().is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
if wf_model.get_path_template():
self._path_template = wf_model.get_path_template()
self._data_path_widget.update_data_model(self._path_template)
elif not(isinstance(tree_item, queue_item.SampleQueueItem) or \
isinstance(tree_item, queue_item.DataCollectionGroupQueueItem)):
self.setDisabled(True)
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
if isinstance(tree_item, queue_item.SampleQueueItem) or \
isinstance(tree_item, queue_item.DataCollectionGroupQueueItem):
self._acquisition_parameters = copy.deepcopy(self._acquisition_parameters)
self._processing_parameters = copy.deepcopy(self._processing_parameters)
elif isinstance(tree_item, queue_item.DataCollectionQueueItem):
data_collection = tree_item.get_model()
if data_collection.experiment_type == EXPERIMENT_TYPE.HELICAL:
self.setDisabled(False)
self._path_template = data_collection.acquisitions[0].path_template
self._acquisition_parameters = data_collection.acquisitions[0].\
acquisition_parameters
if len(data_collection.acquisitions) == 2:
start_cpos = data_collection.acquisitions[0].acquisition_parameters.\
centred_position
end_cpos = data_collection.acquisitions[1].acquisition_parameters.\
centred_position
self.select_shape_with_cpos(start_cpos, end_cpos)
self._energy_scan_result = qmo.EnergyScanResult()
self._processing_parameters = data_collection.processing_parameters
self._energy_scan_result = data_collection.crystal.energy_scan_result
self._acq_widget.set_energies(self._energy_scan_result)
self._processing_widget.update_data_model(self._processing_parameters)
self._acq_widget.update_data_model(self._acquisition_parameters,
self._path_template)
else:
self.setDisabled(True)
else:
self.setDisabled(True)
if isinstance(tree_item, queue_item.SampleQueueItem) or \
isinstance(tree_item, queue_item.DataCollectionGroupQueueItem) or \
isinstance(tree_item, queue_item.DataCollectionQueueItem):
self._processing_widget.update_data_model(self._processing_parameters)
self._acq_widget.update_data_model(self._acquisition_parameters,
self._path_template)
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
if isinstance(tree_item, queue_item.SampleQueueItem):
sample_model = tree_item.get_model()
# self._processing_parameters = copy.deepcopy(self._processing_parameters)
self._processing_parameters = sample_model.processing_parameters
self._processing_widget.update_data_model(self._processing_parameters)
self._acq_widget.disable_inverse_beam(False)
elif isinstance(tree_item, queue_item.BasketQueueItem):
self.setDisabled(False)
elif isinstance(tree_item, queue_item.DataCollectionQueueItem):
dc = tree_item.get_model()
if dc.experiment_type != queue_model_enumerables.EXPERIMENT_TYPE.HELICAL:
if dc.is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
sample_data_model = self.get_sample_item(tree_item).get_model()
energy_scan_result = sample_data_model.crystals[0].energy_scan_result
self._acq_widget.set_energies(energy_scan_result)
self._acq_widget.disable_inverse_beam(True)
self._path_template = dc.get_path_template()
self._data_path_widget.update_data_model(self._path_template)
self._acquisition_parameters = dc.acquisitions[0].acquisition_parameters
self._acq_widget.update_data_model(
self._acquisition_parameters, self._path_template
)
self.get_acquisition_widget().use_osc_start(True)
if len(dc.acquisitions) == 1:
self.select_shape_with_cpos(
self._acquisition_parameters.centred_position
)
self._processing_parameters = dc.processing_parameters
self._processing_widget.update_data_model(self._processing_parameters)
else:
self.setDisabled(True)
else:
self.setDisabled(True)
def init_models(self):
CreateTaskBase.init_models(self)
self._char = queue_model_objects.Characterisation()
self._char_params = self._char.characterisation_parameters
self._char_params.experiment_type = queue_model_enumerables.EXPERIMENT_TYPE.OSC
self._processing_parameters = queue_model_objects.ProcessingParameters()
if self._beamline_setup_hwobj is not None:
self._acquisition_parameters = self._beamline_setup_hwobj.\
get_default_characterisation_parameters()
try:
transmission = self._beamline_setup_hwobj.transmission_hwobj.getAttFactor()
transmission = round(float(transmission), 1)
except AttributeError:
transmission = 0
try:
resolution = self._beamline_setup_hwobj.resolution_hwobj.getPosition()
resolution = round(float(resolution), 4)
except AttributeError:
resolution = 0
try:
energy = self._beamline_setup_hwobj.energy_hwobj.getCurrentEnergy()
energy = round(float(energy), 2)
except AttributeError:
energy = 0
self._acquisition_parameters.resolution = resolution
self._acquisition_parameters.energy = energy
self._acquisition_parameters.transmission = transmission
else:
self._acquisition_parameters = queue_model_objects.AcquisitionParameters()
self._path_template.reference_image_prefix = 'ref'
# The num images drop down default value is 1
# we would like it to be 2
self._acquisition_parameters.num_images = 2
self._char.characterisation_software =\
queue_model_enumerables.COLLECTION_ORIGIN.EDNA
self._path_template.num_files = 2
self._acquisition_parameters.shutterless = False
def approve_creation(self):
base_result = CreateTaskBase.approve_creation(self)
selected_lines = False
if self.selected_items():
selected_lines = True
else:
logging.getLogger("user_level_log").warning("No lines selected, please select one or more lines.")
return base_result and selected_lines
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
escan_model = tree_item.get_model()
if isinstance(tree_item, queue_item.EnergyScanQueueItem):
if tree_item.get_model().is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
if escan_model.get_path_template():
self._path_template = escan_model.get_path_template()
# JN,20140829, fix the bug-periodicTable not updated when selecting task
self._data_path_widget.update_data_model(self._path_template)
self.periodic_table.periodicTable.tableElementChanged(escan_model.element_symbol)
elif not(isinstance(tree_item, queue_item.SampleQueueItem) or \
isinstance(tree_item, queue_item.DataCollectionGroupQueueItem)):
self.setDisabled(True)
def init_models(self):
CreateTaskBase.init_models(self)
self._energy_scan_result = queue_model_objects.EnergyScanResult()
self._processing_parameters = queue_model_objects.ProcessingParameters()
if self._beamline_setup_hwobj is not None:
has_shutter_less = self._beamline_setup_hwobj.\
detector_has_shutterless()
self._acquisition_parameters.shutterless = has_shutter_less
self._acquisition_parameters = self._beamline_setup_hwobj.\
get_default_acquisition_parameters()
try:
transmission = self._beamline_setup_hwobj.transmission_hwobj.getAttFactor()
transmission = round(float(transmission), 2)
except AttributeError:
transmission = 0
try:
resolution = self._beamline_setup_hwobj.resolution_hwobj.getPosition()
resolution = round(float(resolution), 2)
except AttributeError:
resolution = 0
try:
energy = self._beamline_setup_hwobj.\
energy_hwobj.getCurrentEnergy()
if energy:
energy = round(float(energy), 4)
else:
energy = round(float(-1), 4)
except AttributeError:
energy = 0
self._acquisition_parameters.resolution = resolution
self._acquisition_parameters.energy = energy
self._acquisition_parameters.transmission = transmission
else:
self._acquisition_parameters = queue_model_objects.\
AcquisitionParameters()
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
escan_model = tree_item.get_model()
if isinstance(tree_item, queue_item.EnergyScanQueueItem):
if tree_item.get_model().is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
if escan_model.get_path_template():
self._path_template = escan_model.get_path_template()
# JN,20140829, fix the bug-periodicTable not updated when selecting task
self._data_path_widget.update_data_model(self._path_template)
self.periodic_table.periodicTable.tableElementChanged(
escan_model.element_symbol)
elif not(isinstance(tree_item, queue_item.SampleQueueItem) or \
isinstance(tree_item, queue_item.DataCollectionGroupQueueItem)):
self.setDisabled(True)
def approve_creation(self):
base_result = CreateTaskBase.approve_creation(self)
selected_lines = False
if self.selected_items():
selected_lines = True
else:
logging.getLogger("user_level_log").\
warning("No lines selected, please select one or more lines.")
return base_result and selected_lines
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
if isinstance(tree_item, queue_item.XRFScanQueueItem):
xrfscan_model = tree_item.get_model()
self.xrfscan_mib.set_model(xrfscan_model)
if xrfscan_model.is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
if xrfscan_model.get_path_template():
self._path_template = xrfscan_model.get_path_template()
self._data_path_widget.update_data_model(self._path_template)
elif isinstance(tree_item, queue_item.BasketQueueItem):
self.setDisabled(False)
elif not(isinstance(tree_item, queue_item.SampleQueueItem) or \
isinstance(tree_item, queue_item.DataCollectionGroupQueueItem)):
self.setDisabled(True)
def approve_creation(self):
base_result = CreateTaskBase.approve_creation(self)
selected_edge = False
if self.periodic_table.current_edge:
selected_edge = True
else:
logging.getLogger("user_level_log").\
info("No element selected, please select an element.")
return base_result and selected_edge
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
if isinstance(tree_item, queue_item.XRFSpectrumQueueItem):
xrfspectrum_model = tree_item.get_model()
self.xrfspectrum_mib.set_model(xrfspectrum_model)
if xrfspectrum_model.is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
if xrfspectrum_model.get_path_template():
self._path_template = xrfspectrum_model.get_path_template()
self._data_path_widget.update_data_model(self._path_template)
elif isinstance(tree_item, queue_item.BasketQueueItem):
self.setDisabled(False)
elif not(isinstance(tree_item, queue_item.SampleQueueItem) or \
isinstance(tree_item, queue_item.DataCollectionGroupQueueItem)):
self.setDisabled(True)
def approve_creation(self):
base_result = CreateTaskBase.approve_creation(self)
selected_edge = False
if self.periodic_table.current_edge:
selected_edge = True
else:
logging.getLogger("user_level_log").\
info("No element selected, please select an element.")
return base_result and selected_edge
def __init__(self, parent = None, name = None, fl = 0):
CreateTaskBase.__init__(self, parent, name, fl, 'Energy-scan')
# Data attributes
self.init_models()
#Layout
v_layout = qt.QVBoxLayout(self, 2, 5, "main_v_layout")
h_box = qt.QHGroupBox('Available elements', self)
self.periodic_table = PeriodicTableBrick(h_box)
font = self.periodic_table.font()
font.setPointSize(8)
self.periodic_table.setFont(font)
h_box.setMaximumWidth(454)
h_box.setMaximumHeight(300)
self._data_path_gbox = qt.QVGroupBox('Data location', self, 'data_path_gbox')
self._data_path_widget = DataPathWidget(self._data_path_gbox,
data_model = self._path_template,
layout = DataPathWidgetVerticalLayout)
v_layout.addWidget(h_box)
v_layout.addWidget(self._data_path_gbox)
v_layout.addStretch()
self.connect(self._data_path_widget.data_path_widget_layout.prefix_ledit,
qt.SIGNAL("textChanged(const QString &)"),
self._prefix_ledit_change)
self.connect(self._data_path_widget.data_path_widget_layout.run_number_ledit,
qt.SIGNAL("textChanged(const QString &)"),
self._run_number_ledit_change)
self.connect(self._data_path_widget,
qt.PYSIGNAL("path_template_changed"),
self.handle_path_conflict)
def single_item_selection(self, tree_item):
CreateTaskBase.single_item_selection(self, tree_item)
escan_model = tree_item.get_model()
if isinstance(tree_item, queue_item.EnergyScanQueueItem):
if tree_item.get_model().is_executed():
self.setDisabled(True)
else:
self.setDisabled(False)
if escan_model.get_path_template():
self._path_template = escan_model.get_path_template()
symbol, edge = escan_model.element_symbol, escan_model.edge
self.periodic_table.setTableElement(symbol, edge)
self._data_path_widget.update_data_model(self._path_template)
elif isinstance(tree_item, queue_item.BasketQueueItem):
self.setDisabled(False)
elif not(isinstance(tree_item, queue_item.SampleQueueItem) or \
isinstance(tree_item, queue_item.DataCollectionGroupQueueItem)):
self.setDisabled(True)
def approve_creation(self):
result = CreateTaskBase.approve_creation(self)
selected_shapes = self._shape_history.selected_shapes
for shape in selected_shapes:
if isinstance(shape, shape_history.Line) or isinstance(shape, shape_history.CanvasGrid):
result = False
self.count_time = None
try:
self.count_time = float(str(self.count_time_ledit.text()))
except:
logging.getLogger("user_level_log").info("Incorrect count time value.")
return result and self.count_time
def approve_creation(self):
result = CreateTaskBase.approve_creation(self)
selected_shapes = self._shape_history.selected_shapes
for shape in selected_shapes:
if (isinstance(shape, shape_history.Line)
or isinstance(shape, shape_history.CanvasGrid)):
result = False
self.count_time = None
try:
self.count_time = float(str(self.count_time_ledit.text()))
except:
logging.getLogger("user_level_log").\
info("Incorrect count time value.")
return result and self.count_time
def approve_creation(self):
base_result = CreateTaskBase.approve_creation(self)
selected_shapes = self._shape_history.selected_shapes
for shape in selected_shapes:
if isinstance(shape, shape_history.Line):
base_result = False
selected_edge = False
if self.periodic_table.current_edge:
selected_edge = True
else:
logging.getLogger("user_level_log").\
info("No element selected, please select an element.")
return base_result and selected_edge
def approve_creation(self):
return CreateTaskBase.approve_creation(self)
def init_models(self):
CreateTaskBase.init_models(self)
self._energy_scan_result = qmo.EnergyScanResult()
self._processing_parameters = qmo.ProcessingParameters()
def __init__(self, parent=None, name=None, fl=0):
CreateTaskBase.__init__(self, parent, name, fl, "Characterisation")
if not name:
self.setName("create_char_widget")
#
# Data attributes
#
self._current_selected_item = None
self.init_models()
self._char_params_mib = DataModelInputBinder(self._char_params)
#
# Layout
#
v_layout = qt.QVBoxLayout(self, 2, 6, "v_layout")
self._acq_widget = AcquisitionWidgetSimple(
self,
acq_params=self._acquisition_parameters,
path_template=self._path_template,
)
# self._acq_widget.setFixedHeight(170)
current_dir = os.path.dirname(__file__)
ui_file = "ui_files/vertical_crystal_dimension_widget_layout.ui"
widget = qtui.QWidgetFactory.create(os.path.join(current_dir, ui_file))
widget.reparent(self, qt.QPoint(0, 0))
self._vertical_dimension_widget = widget
ui_file = "ui_files/characterise_simple_widget_vertical_layout.ui"
widget = qtui.QWidgetFactory.create(os.path.join(current_dir, ui_file))
widget.reparent(self, qt.QPoint(0, 0))
self._char_widget = widget
self._data_path_gbox = qt.QVGroupBox("Data location", self, "data_path_gbox")
self._data_path_widget = DataPathWidget(
self._data_path_gbox, data_model=self._path_template, layout="vertical"
)
v_layout.addWidget(self._acq_widget)
v_layout.addWidget(self._data_path_gbox)
v_layout.addWidget(self._char_widget)
v_layout.addWidget(self._vertical_dimension_widget)
v_layout.addStretch(100)
#
# Logic
#
optimised_sad_cbx = self._char_widget.child("optimised_sad_cbx")
account_rad_dmg_cbx = self._char_widget.child("account_rad_dmg_cbx")
start_comp_cbox = self._char_widget.child("start_comp_cbox")
# induced_burn_cbx = self._char_widget.child('induced_burn_cbx')
max_vdim_ledit = self._vertical_dimension_widget.child("max_vdim_ledit")
min_vdim_ledit = self._vertical_dimension_widget.child("min_vdim_ledit")
min_vphi_ledit = self._vertical_dimension_widget.child("min_vphi_ledit")
max_vphi_ledit = self._vertical_dimension_widget.child("max_vphi_ledit")
space_group_ledit = self._vertical_dimension_widget.child("space_group_ledit")
self._char_params_mib.bind_value_update(
"opt_sad", optimised_sad_cbx, bool, None
)
self._char_params_mib.bind_value_update(
"account_rad_damage", account_rad_dmg_cbx, bool, None
)
# self._char_params_mib.bind_value_update('determine_rad_params',
# induced_burn_cbx,
# bool, None)
self._char_params_mib.bind_value_update(
"strategy_complexity", start_comp_cbox, int, None
)
self._char_params_mib.bind_value_update(
"max_crystal_vdim",
max_vdim_ledit,
float,
qt.QDoubleValidator(0.0, 1000, 2, self),
)
self._char_params_mib.bind_value_update(
"min_crystal_vdim",
min_vdim_ledit,
float,
qt.QDoubleValidator(0.0, 1000, 2, self),
)
self._char_params_mib.bind_value_update(
"min_crystal_vphi",
min_vphi_ledit,
float,
qt.QDoubleValidator(0.0, 1000, 2, self),
)
self._char_params_mib.bind_value_update(
"max_crystal_vphi",
max_vphi_ledit,
float,
qt.QDoubleValidator(0.0, 1000, 2, self),
)
space_group_ledit.insertStrList(queue_model_enumerables.XTAL_SPACEGROUPS)
prefix_ledit = self._data_path_widget.data_path_widget_layout.child(
"prefix_ledit"
)
run_number_ledit = self._data_path_widget.data_path_widget_layout.child(
"run_number_ledit"
)
self.connect(
prefix_ledit,
qt.SIGNAL("textChanged(const QString &)"),
self._prefix_ledit_change,
)
self.connect(
run_number_ledit,
qt.SIGNAL("textChanged(const QString &)"),
self._run_number_ledit_change,
)
self.connect(
space_group_ledit, qt.SIGNAL("activated(int)"), self._space_group_change
)
self.connect(
self._data_path_widget,
qt.PYSIGNAL("path_template_changed"),
self.handle_path_conflict,
)
def init_models(self):
CreateTaskBase.init_models(self)
self._path_template.start_num = 1
self._path_template.num_files = 1
self._path_template.suffix = 'raw'
def init_models(self):
CreateTaskBase.init_models(self)
self.enery_scan = queue_model_objects.EnergyScan()
self._path_template.start_num = 1
self._path_template.num_files = 1
self._path_template.suffix = 'raw'
def __init__(self, parent=None, name=None, fl=0):
CreateTaskBase.__init__(self, parent, name, fl, 'Helical')
if not name:
self.setName("create_helical_widget")
#
# Data attributes
#
self.init_models()
self._prev_pos = None
self._current_pos = None
self._list_item_map = {}
self.init_models()
#
# Layout
#
v_layout = qt.QVBoxLayout(self, 2, 5, "v_layout")
self._lines_gbox = qt.QGroupBox('Lines', self, "lines_gbox")
self._lines_gbox.setColumnLayout(0, qt.Qt.Vertical)
self._lines_gbox.layout().setSpacing(6)
self._lines_gbox.layout().setMargin(11)
lines_gbox_layout = qt.QHBoxLayout(self._lines_gbox.layout())
lines_gbox_layout.setAlignment(qt.Qt.AlignTop)
self._list_box = qt.QListBox(self._lines_gbox, "helical_page")
self._list_box.setSelectionMode(qt.QListBox.Extended)
self._list_box.setFixedWidth(200)
self._list_box.setFixedHeight(75)
list_box_tool_tip = "Select the line(s) to perfrom helical scan on"
qt.QToolTip.add(self._list_box, list_box_tool_tip)
lines_gbox_layout.addWidget(self._list_box)
button_layout = qt.QVBoxLayout(None, 0, 6, "button_layout")
button_layout.setSpacing(5)
add_button = qt.QPushButton("+", self._lines_gbox, "add_button")
add_button.setFixedWidth(20)
add_button.setFixedHeight(20)
remove_button = qt.QPushButton("-", self._lines_gbox, "add_button")
remove_button.setFixedWidth(20)
remove_button.setFixedHeight(20)
button_layout.addWidget(add_button)
button_layout.addWidget(remove_button)
lines_gbox_layout.addLayout(button_layout)
add_button_tool_tip = "Add a line between two saved positions, " \
"CTRL click to select more than one position"
qt.QToolTip.add(add_button, add_button_tool_tip)
remove_button_tool_tip = "Remove selected line(s)"
qt.QToolTip.add(remove_button, remove_button_tool_tip)
self._acq_gbox = qt.QVGroupBox('Acquisition', self, 'acq_gbox')
self._acq_widget = \
AcquisitionWidget(self._acq_gbox,
"acquisition_widget", layout='vertical',
acq_params=self._acquisition_parameters,
path_template=self._path_template)
self._acq_widget.disable_inverse_beam(True)
self._data_path_gbox = qt.QVGroupBox('Data location', self,
'data_path_gbox')
self._data_path_widget = \
DataPathWidget(self._data_path_gbox,
data_model = self._path_template,
layout = 'vertical')
self._processing_gbox = qt.QVGroupBox('Processing', self,
'processing_gbox')
self._processing_widget = \
ProcessingWidget(self._processing_gbox,
data_model = self._processing_parameters)
v_layout.addWidget(self._lines_gbox)
v_layout.addWidget(self._acq_gbox)
v_layout.addWidget(self._data_path_gbox)
v_layout.addWidget(self._processing_gbox)
qt.QObject.connect(add_button, qt.SIGNAL("clicked()"),
self.add_clicked)
qt.QObject.connect(remove_button, qt.SIGNAL("clicked()"),
self.remove_clicked)
qt.QObject.connect(self._list_box, qt.SIGNAL("selectionChanged()"),
self.list_box_selection_changed)
prefix_ledit = self._data_path_widget.\
data_path_widget_layout.child('prefix_ledit')
run_number_ledit = self._data_path_widget.\
data_path_widget_layout.child('run_number_ledit')
self.connect(prefix_ledit, qt.SIGNAL("textChanged(const QString &)"),
self._prefix_ledit_change)
self.connect(run_number_ledit,
qt.SIGNAL("textChanged(const QString &)"),
self._run_number_ledit_change)
self.connect(self._data_path_widget,
qt.PYSIGNAL("path_template_changed"),
self.handle_path_conflict)
def __init__(self, parent = None,name = None, fl = 0):
CreateTaskBase.__init__(self, parent, name, fl, 'Helical')
if not name:
self.setName("create_helical_widget")
#
# Data attributes
#
self.init_models()
self._prev_pos = None
self._current_pos = None
self._list_item_map = {}
self.init_models()
#
# Layout
#
v_layout = qt.QVBoxLayout(self, 2, 5, "v_layout")
self._lines_gbox = qt.QGroupBox('Lines', self, "lines_gbox")
self._lines_gbox.setColumnLayout(0, qt.Qt.Vertical)
self._lines_gbox.layout().setSpacing(6)
self._lines_gbox.layout().setMargin(11)
lines_gbox_layout = qt.QHBoxLayout(self._lines_gbox.layout())
lines_gbox_layout.setAlignment(qt.Qt.AlignTop)
self._list_box = qt.QListBox(self._lines_gbox, "helical_page")
self._list_box.setSelectionMode(qt.QListBox.Extended)
self._list_box.setFixedWidth(200)
self._list_box.setFixedHeight(75)
list_box_tool_tip = "Select the line(s) to perfrom helical scan on"
qt.QToolTip.add(self._list_box, list_box_tool_tip)
lines_gbox_layout.addWidget(self._list_box)
button_layout = qt.QVBoxLayout(None, 0, 6, "button_layout")
button_layout.setSpacing(5)
add_button = qt.QPushButton("+", self._lines_gbox, "add_button")
add_button.setFixedWidth(20)
add_button.setFixedHeight(20)
remove_button = qt.QPushButton("-", self._lines_gbox, "add_button")
remove_button.setFixedWidth(20)
remove_button.setFixedHeight(20)
button_layout.addWidget(add_button)
button_layout.addWidget(remove_button)
lines_gbox_layout.addLayout(button_layout)
add_button_tool_tip = "Add a line between two saved positions, " \
"CTRL click to select more than one position"
qt.QToolTip.add(add_button, add_button_tool_tip)
remove_button_tool_tip = "Remove selected line(s)"
qt.QToolTip.add(remove_button, remove_button_tool_tip)
self._acq_gbox = qt.QVGroupBox('Acquisition', self, 'acq_gbox')
self._acq_widget = \
AcquisitionWidget(self._acq_gbox,
"acquisition_widget", layout='vertical',
acq_params=self._acquisition_parameters,
path_template=self._path_template)
self._acq_widget.disable_inverse_beam(True)
self._data_path_gbox = qt.QVGroupBox('Data location', self,
'data_path_gbox')
self._data_path_widget = \
DataPathWidget(self._data_path_gbox,
data_model = self._path_template,
layout = 'vertical')
self._processing_gbox = qt.QVGroupBox('Processing', self,
'processing_gbox')
self._processing_widget = \
ProcessingWidget(self._processing_gbox,
data_model = self._processing_parameters)
v_layout.addWidget(self._lines_gbox)
v_layout.addWidget(self._acq_gbox)
v_layout.addWidget(self._data_path_gbox)
v_layout.addWidget(self._processing_gbox)
qt.QObject.connect(add_button, qt.SIGNAL("clicked()"),
self.add_clicked)
qt.QObject.connect(remove_button, qt.SIGNAL("clicked()"),
self.remove_clicked)
qt.QObject.connect(self._list_box, qt.SIGNAL("selectionChanged()"),
self.list_box_selection_changed)
prefix_ledit = self._data_path_widget.\
data_path_widget_layout.child('prefix_ledit')
run_number_ledit = self._data_path_widget.\
data_path_widget_layout.child('run_number_ledit')
self.connect(prefix_ledit,
qt.SIGNAL("textChanged(const QString &)"),
self._prefix_ledit_change)
self.connect(run_number_ledit,
qt.SIGNAL("textChanged(const QString &)"),
self._run_number_ledit_change)
self.connect(self._data_path_widget,
qt.PYSIGNAL("path_template_changed"),
self.handle_path_conflict)
def approve_creation(self):
return CreateTaskBase.approve_creation(self)
def __init__(self, parent=None, name=None, fl=0):
CreateTaskBase.__init__(self, parent, name, fl, 'Characterisation')
if not name:
self.setName("create_char_widget")
#
# Data attributes
#
self._current_selected_item = None
self.init_models()
self._char_params_mib = DataModelInputBinder(self._char_params)
#
# Layout
#
v_layout = qt.QVBoxLayout(self, 2, 6, "v_layout")
self._acq_widget = \
AcquisitionWidgetSimple(self, acq_params = self._acquisition_parameters,
path_template = self._path_template)
#self._acq_widget.setFixedHeight(170)
current_dir = os.path.dirname(__file__)
ui_file = 'ui_files/vertical_crystal_dimension_widget_layout.ui'
widget = qtui.QWidgetFactory.create(os.path.join(current_dir, ui_file))
widget.reparent(self, qt.QPoint(0, 0))
self._vertical_dimension_widget = widget
ui_file = 'ui_files/characterise_simple_widget_vertical_layout.ui'
widget = qtui.QWidgetFactory.\
create(os.path.join(current_dir, ui_file))
widget.reparent(self, qt.QPoint(0, 0))
self._char_widget = widget
self._data_path_gbox = \
qt.QVGroupBox('Data location', self, 'data_path_gbox')
self._data_path_widget = \
DataPathWidget(self._data_path_gbox,
data_model = self._path_template,
layout = 'vertical')
v_layout.addWidget(self._acq_widget)
v_layout.addWidget(self._data_path_gbox)
v_layout.addWidget(self._char_widget)
v_layout.addWidget(self._vertical_dimension_widget)
v_layout.addStretch(100)
#
# Logic
#
optimised_sad_cbx = self._char_widget.\
child('optimised_sad_cbx')
account_rad_dmg_cbx = self._char_widget.\
child('account_rad_dmg_cbx')
start_comp_cbox = self._char_widget.child('start_comp_cbox')
#induced_burn_cbx = self._char_widget.child('induced_burn_cbx')
max_vdim_ledit = self._vertical_dimension_widget.\
child('max_vdim_ledit')
min_vdim_ledit = self._vertical_dimension_widget.\
child('min_vdim_ledit')
min_vphi_ledit = self._vertical_dimension_widget.\
child('min_vphi_ledit')
max_vphi_ledit = self._vertical_dimension_widget.\
child('max_vphi_ledit')
space_group_ledit = self._vertical_dimension_widget.\
child('space_group_ledit')
self._char_params_mib.bind_value_update('opt_sad', optimised_sad_cbx,
bool, None)
self._char_params_mib.bind_value_update('account_rad_damage',
account_rad_dmg_cbx, bool,
None)
#self._char_params_mib.bind_value_update('determine_rad_params',
# induced_burn_cbx,
# bool, None)
self._char_params_mib.bind_value_update('strategy_complexity',
start_comp_cbox, int, None)
self._char_params_mib.\
bind_value_update('max_crystal_vdim',
max_vdim_ledit, float,
qt.QDoubleValidator(0.0, 1000, 2, self))
self._char_params_mib.\
bind_value_update('min_crystal_vdim',
min_vdim_ledit, float,
qt.QDoubleValidator(0.0, 1000, 2, self))
self._char_params_mib.\
bind_value_update('min_crystal_vphi',
min_vphi_ledit, float,
qt.QDoubleValidator(0.0, 1000, 2, self))
self._char_params_mib.\
bind_value_update('max_crystal_vphi',
max_vphi_ledit, float,
qt.QDoubleValidator(0.0, 1000, 2, self))
space_group_ledit.insertStrList(XTAL_SPACEGROUPS)
prefix_ledit = self._data_path_widget.\
data_path_widget_layout.child('prefix_ledit')
run_number_ledit = self._data_path_widget.\
data_path_widget_layout.child('run_number_ledit')
self.connect(prefix_ledit, qt.SIGNAL("textChanged(const QString &)"),
self._prefix_ledit_change)
self.connect(run_number_ledit,
qt.SIGNAL("textChanged(const QString &)"),
self._run_number_ledit_change)
self.connect(space_group_ledit, qt.SIGNAL("activated(int)"),
self._space_group_change)
self.connect(self._data_path_widget,
qt.PYSIGNAL("path_template_changed"),
self.handle_path_conflict)
def init_models(self):
CreateTaskBase.init_models(self)
def init_models(self):
CreateTaskBase.init_models(self)
def init_models(self):
CreateTaskBase.init_models(self)
self.energy_scan = queue_model_objects.EnergyScan()
self._path_template.start_num = 1
self._path_template.num_files = 1
self._path_template.suffix = "raw"
