def __init__(
self,
parent=None,
name=None,
fl=0,
acq_params=None,
path_template=None,
layout="vertical",
):
"""
Loads ui file that defines the gui layout.
Initiates QLineEdits by adding limits, precision
Connects to qt signals to update acquisition parameters
:param parent:
:param name:
:param fl:
:param acq_params:
:param path_template:
:param layout:
"""
QtImport.QWidget.__init__(self, parent, QtImport.Qt.WindowFlags(fl))
if name is not None:
self.setObjectName(name)
# Internal variables --------------------------------------------------
self.value_changed_list = []
# Properties ----------------------------------------------------------
# Signals -------------------------------------------------------------
# Slots ---------------------------------------------------------------
# Graphic elements ----------------------------------------------------
if acq_params is None:
self._acquisition_parameters = queue_model_objects.AcquisitionParameters(
)
else:
self._acquisition_parameters = acq_params
if path_template is None:
self._path_template = queue_model_objects.PathTemplate()
else:
self._path_template = path_template
self._acquisition_mib = DataModelInputBinder(
self._acquisition_parameters)
self.acq_widget_layout = QtImport.load_ui_file(
"acquisition_widget_vertical_still_layout.ui")
# Layout --------------------------------------------------------------
__main_vlayout = QtImport.QVBoxLayout(self)
__main_vlayout.addWidget(self.acq_widget_layout)
__main_vlayout.setSpacing(0)
__main_vlayout.setContentsMargins(0, 0, 0, 0)
# SizePolicies --------------------------------------------------------
# Qt signal/slot connections ------------------------------------------
self.acq_widget_layout.num_triggers_ledit.textChanged.connect(
self.num_triggers_ledit_changed)
self.acq_widget_layout.num_images_per_trigger_ledit.textChanged.connect(
self.num_images_per_trigger_ledit_changed)
self.acq_widget_layout.exp_time_ledit.textChanged.connect(
self.exposure_time_ledit_changed)
self.acq_widget_layout.detector_roi_mode_combo.activated.connect(
self.detector_roi_mode_changed)
self.acq_widget_layout.energy_ledit.textEdited.connect(
self.energy_ledit_changed)
self.acq_widget_layout.transmission_ledit.textEdited.connect(
self.transmission_ledit_changed)
self.acq_widget_layout.resolution_ledit.textEdited.connect(
self.resolution_ledit_changed)
# Other ---------------------------------------------------------------
self.energy_validator = QtImport.QDoubleValidator(
4, 25, 4, self.acq_widget_layout.energy_ledit)
self.resolution_validator = QtImport.QDoubleValidator(
0, 15, 3, self.acq_widget_layout.resolution_ledit)
self.transmission_validator = QtImport.QDoubleValidator(
0, 100, 3, self.acq_widget_layout.transmission_ledit)
self.exp_time_validator = QtImport.QDoubleValidator(
0.0001, 10000, 7, self.acq_widget_layout.exp_time_ledit)
self.num_triggers_validator = QtImport.QIntValidator(
1, 9999999, self.acq_widget_layout.num_triggers_ledit)
self.num_images_per_trigger_validator = QtImport.QIntValidator(
1, 9999999, self.acq_widget_layout.num_images_per_trigger_ledit)
self.num_img_validator = QtImport.QIntValidator(
1, 9999999, self.acq_widget_layout.num_images_ledit)
self.hare_num_validator = QtImport.QIntValidator(
1, 9999999, self.acq_widget_layout.hare_num_ledit)
limits_dict = HWR.beamline.acquisition_limit_values
tpl = limits_dict.get("exposure_time")
if tpl:
self.exp_time_validator.setRange(tpl[0], tpl[1], 6)
self._acquisition_mib.bind_value_update(
"exp_time",
self.acq_widget_layout.exp_time_ledit,
float,
self.exp_time_validator,
)
self._acquisition_mib.bind_value_update(
"num_triggers",
self.acq_widget_layout.num_triggers_ledit,
int,
self.num_triggers_validator,
)
self._acquisition_mib.bind_value_update(
"num_images_per_trigger",
self.acq_widget_layout.num_images_per_trigger_ledit,
int,
self.num_images_per_trigger_validator,
)
self._acquisition_mib.bind_value_update(
"hare_num",
self.acq_widget_layout.hare_num_ledit,
int,
self.hare_num_validator,
)
tpl = limits_dict.get("number_of_images")
if tpl:
self.num_img_validator.setRange(tpl[0], tpl[1])
self._acquisition_mib.bind_value_update(
"num_images",
self.acq_widget_layout.num_images_ledit,
int,
self.num_img_validator,
)
self._acquisition_mib.bind_value_update(
"energy", self.acq_widget_layout.energy_ledit, float,
self.energy_validator)
self.update_energy_limits(
(self.energy_validator.bottom(), self.energy_validator.top()))
self._acquisition_mib.bind_value_update(
"transmission",
self.acq_widget_layout.transmission_ledit,
float,
self.transmission_validator,
)
self.update_transmission_limits((self.transmission_validator.bottom(),
self.transmission_validator.top()))
self._acquisition_mib.bind_value_update(
"resolution",
self.acq_widget_layout.resolution_ledit,
float,
self.resolution_validator,
)
self.init_detector_roi_modes()
self.acq_widget_layout.detector_roi_mode_label.setEnabled(False)
self.acq_widget_layout.detector_roi_mode_combo.setEnabled(False)
self.update_exp_time_limits()
def init_limits(self):
limits_dict = HWR.beamline.acquisition_limit_values
tpl = limits_dict.get("osc_range")
if tpl:
self.osc_start_validator.setRange(tpl[0], tpl[1], 4)
self.osc_range_per_frame_validator.setRange(tpl[0], tpl[1], 4)
self.osc_total_range_validator.setRange(tpl[0], tpl[1], 4)
self._acquisition_mib.bind_value_update(
"osc_start",
self.acq_widget_layout.osc_start_ledit,
float,
self.osc_start_validator,
)
self._acquisition_mib.bind_value_update(
"osc_range",
self.acq_widget_layout.osc_range_ledit,
float,
self.osc_range_per_frame_validator,
)
self._acquisition_mib.bind_value_update(
"osc_total_range",
self.acq_widget_layout.osc_total_range_ledit,
float,
self.osc_total_range_validator,
)
tpl = limits_dict.get("kappa")
if tpl:
self.kappa_validator.setRange(tpl[0], tpl[1], 4)
self._acquisition_mib.bind_value_update(
"kappa", self.acq_widget_layout.kappa_ledit, float, self.kappa_validator
)
tpl = limits_dict.get("kappa_phi")
if tpl:
self.kappa_phi_validator.setRange(tpl[0], tpl[1], 4)
self._acquisition_mib.bind_value_update(
"kappa_phi",
self.acq_widget_layout.kappa_phi_ledit,
float,
self.kappa_phi_validator,
)
tpl = limits_dict.get("exposure_time")
if tpl:
self.exp_time_validator.setRange(tpl[0], tpl[1], 6)
self._acquisition_mib.bind_value_update(
"exp_time",
self.acq_widget_layout.exp_time_ledit,
float,
self.exp_time_validator,
)
tpl = limits_dict.get("number_of_images")
if tpl:
self.num_img_validator.setRange(tpl[0], tpl[1])
self.first_img_validator.setRange(tpl[0], tpl[1])
self._acquisition_mib.bind_value_update(
"first_image",
self.acq_widget_layout.first_image_ledit,
int,
self.first_img_validator,
)
self._acquisition_mib.bind_value_update(
"num_images",
self.acq_widget_layout.num_images_ledit,
int,
self.num_img_validator,
)
num_passes = self.acq_widget_layout.findChild(
QtImport.QLineEdit, "num_passes_ledit"
)
if num_passes:
self._acquisition_mib.bind_value_update(
"num_passes", num_passes, int, QtImport.QIntValidator(1, 1000, self)
)
overlap_ledit = self.acq_widget_layout.findChild(
QtImport.QLineEdit, "overlap_ledit"
)
if overlap_ledit:
self._acquisition_mib.bind_value_update(
"overlap",
overlap_ledit,
float,
QtImport.QDoubleValidator(-1000, 1000, 2, self),
)
self._acquisition_mib.bind_value_update(
"energy", self.acq_widget_layout.energy_ledit, float, self.energy_validator
)
self.update_energy_limits(
(self.energy_validator.bottom(), self.energy_validator.top())
)
self._acquisition_mib.bind_value_update(
"transmission",
self.acq_widget_layout.transmission_ledit,
float,
self.transmission_validator,
)
self.update_transmission_limits(
(self.transmission_validator.bottom(), self.transmission_validator.top())
)
self._acquisition_mib.bind_value_update(
"resolution",
self.acq_widget_layout.resolution_ledit,
float,
self.resolution_validator,
)
# self.update_resolution_limits((self.resolution_validator.bottom(),
# self.resolution_validator.top()))
self._acquisition_mib.bind_value_update(
"shutterless", self.acq_widget_layout.shutterless_cbx, bool, None
)
self.set_tunable_energy(HWR.beamline.tunable_wavelength)
has_shutter_less = HWR.beamline.detector.has_shutterless()
self.acq_widget_layout.shutterless_cbx.setEnabled(has_shutter_less)
self.acq_widget_layout.shutterless_cbx.setChecked(has_shutter_less)
if HWR.beamline.disable_num_passes:
num_passes = self.acq_widget_layout.findChild(
QtImport.QLineEdit, "num_passes_ledit"
)
if num_passes:
num_passes.setDisabled(True)
self.init_detector_roi_modes()
def __init__(
self,
parent=None,
name=None,
fl=0,
acq_params=None,
path_template=None,
layout="horizontal",
):
QtImport.QWidget.__init__(self, parent, QtImport.Qt.WindowFlags(fl))
if name is not None:
self.setObjectName(name)
# Hardware objects ----------------------------------------------------
# Internal variables --------------------------------------------------
self.previous_energy = 0
# If the acq. widget is used with grids then total osc range is not
# equal to num_images * osc_range, but num_images_per_line * osc_range
# For grids the osc total range is updated when a grid is selected
self.grid_mode = False
# Properties ----------------------------------------------------------
# Signals -------------------------------------------------------------
# Slots ---------------------------------------------------------------
# Graphic elements ----------------------------------------------------
if acq_params is None:
self._acquisition_parameters = queue_model_objects.AcquisitionParameters()
else:
self._acquisition_parameters = acq_params
if path_template is None:
self._path_template = queue_model_objects.PathTemplate()
else:
self._path_template = path_template
self._acquisition_mib = DataModelInputBinder(self._acquisition_parameters)
if layout == "horizontal":
self.acq_widget_layout = QtImport.load_ui_file(
"acquisition_widget_horizontal_layout.ui"
)
self.use_osc_start(False)
else:
self.acq_widget_layout = QtImport.load_ui_file(
"acquisition_widget_vertical_layout.ui"
)
# Layout --------------------------------------------------------------
__main_vlayout = QtImport.QVBoxLayout(self)
__main_vlayout.addWidget(self.acq_widget_layout)
__main_vlayout.setSpacing(0)
__main_vlayout.setContentsMargins(0, 0, 0, 0)
# SizePolicies --------------------------------------------------------
# Qt signal/slot connections ------------------------------------------
self.acq_widget_layout.osc_start_cbox.stateChanged.connect(self.fix_osc_start)
self.acq_widget_layout.exp_time_ledit.textChanged.connect(
self.exposure_time_ledit_changed
)
self.acq_widget_layout.exp_time_total_ledit.textEdited.connect(
self.exp_time_total_ledit_changed
)
self.acq_widget_layout.first_image_ledit.textChanged.connect(
self.first_image_ledit_change
)
self.acq_widget_layout.num_images_ledit.textChanged.connect(
self.num_images_ledit_change
)
self.acq_widget_layout.detector_roi_mode_combo.activated.connect(
self.detector_roi_mode_changed
)
self.acq_widget_layout.energies_combo.activated.connect(self.energy_selected)
self.acq_widget_layout.mad_cbox.toggled.connect(self.use_mad)
self.acq_widget_layout.osc_start_ledit.textEdited.connect(
self.osc_start_ledit_changed
)
self.acq_widget_layout.osc_range_ledit.textEdited.connect(
self.osc_range_per_frame_ledit_changed
)
self.acq_widget_layout.osc_total_range_ledit.textEdited.connect(
self.osc_total_range_ledit_changed
)
self.acq_widget_layout.energy_ledit.textEdited.connect(
self.energy_ledit_changed
)
self.acq_widget_layout.transmission_ledit.textEdited.connect(
self.transmission_ledit_changed
)
self.acq_widget_layout.resolution_ledit.textEdited.connect(
self.resolution_ledit_changed
)
self.acq_widget_layout.kappa_ledit.textEdited.connect(self.kappa_ledit_changed)
self.acq_widget_layout.kappa_phi_ledit.textEdited.connect(
self.kappa_phi_ledit_changed
)
if self.acq_widget_layout.findChild(QtImport.QLineEdit, "overlap_ledit"):
self.acq_widget_layout.overlap_ledit.textChanged.connect(
self.overlap_changed
)
if self.acq_widget_layout.findChild(QtImport.QCheckBox, "max_osc_range_cbx"):
self.acq_widget_layout.max_osc_range_cbx.toggled.connect(
self.max_osc_range_toggled
)
# Other ---------------------------------------------------------------
self.value_changed_list = []
self.acq_widget_layout.energies_combo.setDisabled(True)
self.acq_widget_layout.energies_combo.addItems(
["ip: -", "pk: -", "rm1: -", "rm2: -"]
)
self.osc_start_validator = QtImport.QDoubleValidator(
-10000, 10000, 4, self.acq_widget_layout.osc_start_ledit
)
self.osc_range_per_frame_validator = QtImport.QDoubleValidator(
0, 10000, 4, self.acq_widget_layout.osc_range_ledit
)
self.osc_total_range_validator = QtImport.QDoubleValidator(
0, 10000, 4, self.acq_widget_layout.osc_total_range_ledit
)
self.kappa_validator = QtImport.QDoubleValidator(
-0.01, 360, 4, self.acq_widget_layout.kappa_ledit
)
self.kappa_phi_validator = QtImport.QDoubleValidator(
-360, 360, 4, self.acq_widget_layout.kappa_phi_ledit
)
self.energy_validator = QtImport.QDoubleValidator(
4, 25, 5, self.acq_widget_layout.energy_ledit
)
self.resolution_validator = QtImport.QDoubleValidator(
0, 15, 3, self.acq_widget_layout.resolution_ledit
)
self.transmission_validator = QtImport.QDoubleValidator(
0, 100, 3, self.acq_widget_layout.transmission_ledit
)
self.exp_time_validator = QtImport.QDoubleValidator(
0.0001, 10000, 7, self.acq_widget_layout.exp_time_ledit
)
self.first_img_validator = QtImport.QIntValidator(
0, 99999, self.acq_widget_layout.first_image_ledit
)
self.num_img_validator = QtImport.QIntValidator(
1, 9999999, self.acq_widget_layout.num_images_ledit
)
self.acq_widget_layout.detector_roi_mode_label.setEnabled(False)
self.acq_widget_layout.detector_roi_mode_combo.setEnabled(False)
self.init_limits()
def __init__(self,
parent=None,
name="",
fl=0,
data_model=None,
layout=None):
QtImport.QWidget.__init__(self, parent, QtImport.Qt.WindowFlags(fl))
if name is not None:
self.setObjectName(name)
self.parent = parent
# Hardware objects ----------------------------------------------------
# Internal variables --------------------------------------------------
self._base_image_dir = ""
self._base_process_dir = ""
self.path_conflict_state = False
self.enable_macros = False
if data_model is None:
self._data_model = queue_model_objects.PathTemplate()
else:
self._data_model = data_model
self._data_model_pm = DataModelInputBinder(self._data_model)
# Graphic elements ----------------------------------------------------
if layout == "vertical":
self.data_path_layout = QtImport.load_ui_file(
"data_path_widget_vertical_layout.ui")
else:
self.data_path_layout = QtImport.load_ui_file(
"data_path_widget_horizontal_layout.ui")
# Layout --------------------------------------------------------------
_main_vlayout = QtImport.QVBoxLayout(self)
_main_vlayout.addWidget(self.data_path_layout)
_main_vlayout.setSpacing(0)
_main_vlayout.setContentsMargins(0, 0, 0, 0)
# Qt signal/slot connections ------------------------------------------
self.data_path_layout.prefix_ledit.textChanged.connect(
self._prefix_ledit_change)
self.data_path_layout.run_number_ledit.textChanged.connect(
self._run_number_ledit_change)
self.data_path_layout.browse_button.clicked.connect(
self._browse_clicked)
self.data_path_layout.folder_ledit.textChanged.connect(
self._folder_ledit_change)
self.data_path_layout.compression_cbox.clicked.connect(
self._compression_toggled)
# Other ---------------------------------------------------------------
self._data_model_pm.bind_value_update(
"base_prefix", self.data_path_layout.prefix_ledit, str, None)
self._data_model_pm.bind_value_update(
"run_number",
self.data_path_layout.run_number_ledit,
int,
QtImport.QIntValidator(0, 1000, self),
)
self._data_model_pm.bind_value_update(
"compression", self.data_path_layout.compression_cbox, bool, None)
