def _add_new_fqpr_from_proj(self, parent: QtGui.QStandardItem, line_data):
"""
Read from the kluster_main FqprProject (provided here is the line_data from that project) and add the lines
that are not currently in project tree. self.tree_data contains the record of the data in the tree.
Parameters
----------
parent: PySide2.QtGui.QStandardItem, the item that represents the 'Converted' entry in the tree. All fqpr
projects go underneath.
line_data: dict, a dictionary of project paths: multibeam lines.
ex: {'C:\\collab\\dasktest\\data_dir\\hassler_acceptance\\refsurf\\converted':
{'0015_20200304_070725_S250.all': [1583305645.423, 1583305889.905]}
"""
current_fq_proj = self.tree_data['Converted'][1:]
for fq_proj in line_data:
if fq_proj not in current_fq_proj:
proj_child = QtGui.QStandardItem(fq_proj)
parent.appendRow(proj_child)
for fq_line in line_data[fq_proj]:
line_child = QtGui.QStandardItem(fq_line)
proj_child.appendRow([line_child])
self.tree_data['Converted'].append(fq_proj)
else: # see if there are new lines to display
idx = self.tree_data['Converted'][1:].index(fq_proj)
proj_child = parent.child(idx)
tst = proj_child.rowCount()
tsttwo = len(line_data[fq_proj])
if proj_child.rowCount() != len(line_data[fq_proj]): # new lines
tree_lines = [proj_child.child(rw).text() for rw in range(proj_child.rowCount())]
for fq_line in line_data[fq_proj]:
if fq_line not in tree_lines:
line_child = QtGui.QStandardItem(fq_line)
proj_child.appendRow([line_child])
parent.sortChildren(0, order=QtCore.Qt.AscendingOrder)
def configure(self):
"""
Clears all data currently in the tree and repopulates with loaded actions
"""
self.model.clear()
self.model.setHorizontalHeaderLabels(['Actions'])
for cnt, c in enumerate(self.categories):
parent = QtGui.QStandardItem(c)
self.tree_data[c] = [parent]
self.model.appendRow(parent)
self.setFirstColumnSpanned(cnt, self.rootIndex(), True)
if c == 'Next Action':
proj_child = QtGui.QStandardItem(
'') # empty entry to overwrite with setIndexWidget
parent.appendRow(proj_child)
qindex_button = parent.child(0, 0).index()
self.setIndexWidget(qindex_button, self.start_button)
proj_child = QtGui.QStandardItem(
'') # empty entry to overwrite with setIndexWidget
parent.appendRow(proj_child)
qindex_progress = parent.child(1, 0).index()
self.setIndexWidget(qindex_progress, self.progress)
self.expand(parent.index())
def _setup_project(self, parent, proj_directory):
if len(self.tree_data['Project']) == 1:
proj_child = QtGui.QStandardItem(proj_directory)
parent.appendRow(proj_child)
self.tree_data['Project'].append(proj_directory)
else:
parent.removeRow(0)
proj_child = QtGui.QStandardItem(proj_directory)
parent.appendRow(proj_child)
self.tree_data['Project'][1] = proj_directory
def paintEvent(self, event: QtGui.QPaintEvent):
painter = QtGui.QPainter(self)
# Draw rule
self.opt.initFrom(self)
self.opt.rect = self.rect()
self.opt.sliderPosition = 0
self.opt.subControls = QtWidgets.QStyle.SC_SliderGroove | QtWidgets.QStyle.SC_SliderTickmarks
# Draw GROOVE
self.style().drawComplexControl(QtWidgets.QStyle.CC_Slider, self.opt,
painter)
# Draw INTERVAL
color = self.palette().color(QtGui.QPalette.Highlight)
color.setAlpha(160)
painter.setBrush(QtGui.QBrush(color))
painter.setPen(QtCore.Qt.NoPen)
self.opt.sliderPosition = self.first_position
x_left_handle = (self.style().subControlRect(
QtWidgets.QStyle.CC_Slider, self.opt,
QtWidgets.QStyle.SC_SliderHandle).right())
self.opt.sliderPosition = self.second_position
x_right_handle = (self.style().subControlRect(
QtWidgets.QStyle.CC_Slider, self.opt,
QtWidgets.QStyle.SC_SliderHandle).left())
groove_rect = self.style().subControlRect(
QtWidgets.QStyle.CC_Slider, self.opt,
QtWidgets.QStyle.SC_SliderGroove)
selection = QtCore.QRect(
x_left_handle,
groove_rect.y(),
x_right_handle - x_left_handle,
groove_rect.height(),
).adjusted(-1, 1, 1, -1)
painter.drawRect(selection)
# Draw first handle
self.opt.subControls = QtWidgets.QStyle.SC_SliderHandle
self.opt.sliderPosition = self.first_position
self.style().drawComplexControl(QtWidgets.QStyle.CC_Slider, self.opt,
painter)
# Draw second handle
self.opt.sliderPosition = self.second_position
self.style().drawComplexControl(QtWidgets.QStyle.CC_Slider, self.opt,
painter)
def _setup_vessel_file(self, parent, vessel_path):
if len(self.tree_data['Vessel File']) == 1:
if vessel_path:
proj_child = QtGui.QStandardItem(vessel_path)
parent.appendRow(proj_child)
self.tree_data['Vessel File'].append(vessel_path)
else:
parent.removeRow(0)
if vessel_path:
proj_child = QtGui.QStandardItem(vessel_path)
parent.appendRow(proj_child)
self.tree_data['Vessel File'][1] = vessel_path
def _update_next_action(self, parent: QtGui.QStandardItem, actions: list):
"""
Take the provided actions and populate the 'Next Action' Tree item
Parameters
----------
parent
The parent item we are adding to
actions
list of FqprActions sorted by priority, we are only interested in the first (the next one)
"""
parent.removeRows(1, parent.rowCount() - 1)
if actions:
next_action = actions[0]
action_text = next_action.text
if next_action.input_files:
input_files = ['Input Files:'] + ['- ' + f for f in next_action.input_files]
else:
input_files = ['Input Files: None']
data = [action_text] + input_files
for d in data:
proj_child = QtGui.QStandardItem(d)
ttip = self._build_action_tooltip(next_action)
proj_child.setToolTip(ttip)
parent.appendRow(proj_child)
self.tree_data['Next Action'].append(d)
self.start_button.setDisabled(False)
self.expand(parent.index())
def __init__(self, param=None):
"""Main Window for holding the Vispy Canvas and the parameter
control menu.
"""
QtWidgets.QMainWindow.__init__(self)
self.resize(1067, 800)
icon = load_data_file('wiggly_bar/spring.ico')
self.setWindowIcon(QtGui.QIcon(icon))
self.setWindowTitle('Nonlinear Physical Model Simulation')
self.parameter_object = SetupWidget(self)
self.parameter_object.param = (param if param is not None else
self.parameter_object.param)
self.parameter_object.changed_parameter_sig.connect(self.update_view)
self.view_box = WigglyBar(**self.parameter_object.param.props)
self.view_box.create_native()
self.view_box.native.setParent(self)
splitter = QtWidgets.QSplitter(QtCore.Qt.Horizontal)
splitter.addWidget(self.parameter_object)
splitter.addWidget(self.view_box.native)
self.setCentralWidget(splitter)
def __init__(self, parent=None):
super().__init__(parent)
self.setSelectionBehavior(QtWidgets.QAbstractItemView.SelectRows)
self.model = QtGui.QStandardItemModel()
self.setModel(self.model)
self.setUniformRowHeights(True)
# ExtendedSelection - allows multiselection with shift/ctrl
self.setSelectionMode(QtWidgets.QAbstractItemView.ExtendedSelection)
self.setSelectionBehavior(QtWidgets.QAbstractItemView.SelectRows)
self.setDragDropMode(QtWidgets.QAbstractItemView.NoDragDrop)
# makes it so no editing is possible with the table
self.setEditTriggers(QtWidgets.QAbstractItemView.NoEditTriggers)
# set up the context menu per item
self.setContextMenuPolicy(QtCore.Qt.CustomContextMenu)
self.right_click_menu_converted = None
self.right_click_menu_surfaces = None
self.setup_menu()
self.categories = ['Project', 'Vessel File', 'Converted', 'Surfaces']
self.tree_data = {}
self.shown_layers = []
self.clicked.connect(self.item_selected)
self.customContextMenuRequested.connect(self.show_context_menu)
self.configure()
def __init__(self, parent=None, settings=None):
super().__init__(parent)
self.external_settings = settings
self.parent = parent
self.setSelectionBehavior(QtWidgets.QAbstractItemView.SelectRows)
self.model = QtGui.QStandardItemModel() # row can be 0 even when there are more than 0 rows
self.setModel(self.model)
self.setUniformRowHeights(False)
self.setAcceptDrops(False)
self.viewport().setAcceptDrops(False) # viewport is the total rendered area, this is recommended from my reading
# ExtendedSelection - allows multiselection with shift/ctrl
self.setSelectionMode(QtWidgets.QAbstractItemView.ExtendedSelection)
self.setSelectionBehavior(QtWidgets.QAbstractItemView.SelectRows)
# set up the context menu per item
self.setContextMenuPolicy(QtCore.Qt.CustomContextMenu)
self.right_click_menu_files = None
self.setup_menu()
# makes it so no editing is possible with the table
self.setEditTriggers(QtWidgets.QAbstractItemView.NoEditTriggers)
self.categories = ['Next Action', 'All Actions', 'Queued Files', 'Unmatched Files']
self.tree_data = {}
self.actions = None
self.unmatched = None
self.exclude_buffer = []
self.start_button = QtWidgets.QPushButton('Start Process')
self.start_button.clicked.connect(self.start_process)
self.start_button.setDisabled(True)
self.auto_checkbox = QtWidgets.QCheckBox('Auto')
self.auto_checkbox.setCheckable(True)
self.auto_checkbox.clicked.connect(self.auto_process)
self.button_widget = QtWidgets.QWidget()
self.button_sizer = QtWidgets.QHBoxLayout()
self.button_sizer.addWidget(self.start_button)
self.button_sizer.addWidget(self.auto_checkbox)
self.button_sizer.setAlignment(QtCore.Qt.AlignLeft)
self.button_widget.setLayout(self.button_sizer)
self.button_widget.setToolTip('Start the action below by clicking "Start Process".\n' +
'If the "Start Process" button is greyed out, there is no viable action to run.\n\n' +
'If the "Auto" check box is checked, Kluster will automatically run all actions as they appear.\n' +
'You will not need to use the "Start Process" button with "Auto" enabled.')
self.stop_auto = Event()
self.stop_auto.set()
self.auto_thread = AutoThread(self.stop_auto, self.emit_auto_signal)
self.customContextMenuRequested.connect(self.show_context_menu)
self.configure()
self.read_settings()
def configure(self):
"""
Clears all data currently in the tree and repopulates with loaded datasets and surfaces.
"""
self.model.clear()
self.model.setHorizontalHeaderLabels(['Project Tree'])
for cnt, c in enumerate(self.categories):
parent = QtGui.QStandardItem(c)
self.tree_data[c] = [parent]
self.model.appendRow(parent)
self.setFirstColumnSpanned(cnt, self.rootIndex(), True)
def _add_new_surf_from_proj(self, parent: QtGui.QStandardItem, surf_data):
"""
Read from the kluster_main FqprProject (provided here is the line_data from that project) and add the surfaces
that are not currently in project tree. self.tree_data contains the record of the data in the tree.
Parameters
----------
parent: PySide2.QtGui.QStandardItem, the item that represents the 'Surfaces' entry in the tree. All fqpr
projects go underneath.
surf_data: dict, a dictionary of surface paths: surface objects.
ex: {'C:/collab/dasktest/data_dir/hassler_acceptance/refsurf/refsurf.npz':
<HSTB.kluster.fqpr_surface.BaseSurface object at 0x0000019CFFF1A520>}
"""
current_surfs = self.tree_data['Surfaces'][1:]
for surf in surf_data:
if surf not in current_surfs:
surf_child = QtGui.QStandardItem(surf)
parent.appendRow(surf_child)
for lyr in surf_data[surf].return_layer_names():
lyr_child = QtGui.QStandardItem(lyr)
lyr_child.setCheckable(True)
surf_child.appendRow([lyr_child])
if lyr == 'depth': # add optional hillshade layer
lyr_child = QtGui.QStandardItem('hillshade')
lyr_child.setCheckable(True)
surf_child.appendRow([lyr_child])
try: # add the ability to draw the grid outline, new in bathygrid 1.1.2
surf_data[surf].get_tile_boundaries
lyr_child = QtGui.QStandardItem('tiles')
lyr_child.setCheckable(True)
surf_child.appendRow([lyr_child])
except AttributeError: # bathygrid does not support this method
pass
self.tree_data['Surfaces'].append(surf)
parent.sortChildren(0, order=QtCore.Qt.AscendingOrder)
def _add_new_surf_from_proj(self, parent, surf_data):
"""
Read from the kluster_main FqprProject (provided here is the line_data from that project) and add the surfaces
that are not currently in project tree. self.tree_data contains the record of the data in the tree.
Parameters
----------
parent: PySide2.QtGui.QStandardItem, the item that represents the 'Surfaces' entry in the tree. All fqpr
projects go underneath.
surf_data: dict, a dictionary of surface paths: surface objects.
ex: {'C:/collab/dasktest/data_dir/hassler_acceptance/refsurf/refsurf.npz':
<HSTB.kluster.fqpr_surface.BaseSurface object at 0x0000019CFFF1A520>}
"""
current_surfs = self.tree_data['Surfaces'][1:]
for surf in surf_data:
if surf not in current_surfs:
surf_child = QtGui.QStandardItem(surf)
parent.appendRow(surf_child)
for lyr in surf_data[surf].return_layer_names():
lyr_child = QtGui.QStandardItem(lyr)
lyr_child.setCheckable(True)
surf_child.appendRow([lyr_child])
self.tree_data['Surfaces'].append(surf)
def __init__(self, parent=None):
super().__init__(parent)
self.parent = parent
self.setSelectionBehavior(QtWidgets.QAbstractItemView.SelectRows)
self.model = QtGui.QStandardItemModel(
) # row can be 0 even when there are more than 0 rows
self.setModel(self.model)
self.setUniformRowHeights(False)
self.setAcceptDrops(False)
self.viewport().setAcceptDrops(
False
) # viewport is the total rendered area, this is recommended from my reading
# ExtendedSelection - allows multiselection with shift/ctrl
self.setSelectionMode(QtWidgets.QAbstractItemView.ExtendedSelection)
self.setSelectionBehavior(QtWidgets.QAbstractItemView.SelectRows)
# set up the context menu per item
self.setContextMenuPolicy(QtCore.Qt.CustomContextMenu)
self.right_click_menu_files = None
self.setup_menu()
# makes it so no editing is possible with the table
self.setEditTriggers(QtWidgets.QAbstractItemView.NoEditTriggers)
self.categories = [
'Next Action', 'All Actions', 'Queued Files', 'Unmatched Files'
]
self.tree_data = {}
self.actions = None
self.unmatched = None
self.exclude_buffer = []
self.start_button = QtWidgets.QPushButton('Start Process')
self.start_button.setMinimumWidth(120)
self.start_button.setMaximumWidth(150)
self.start_button.setMinimumHeight(30)
self.start_button.clicked.connect(self.start_process)
self.start_button.setDisabled(True)
self.progress = QtWidgets.QProgressBar(self)
self.progress.setMaximum(1)
self.progress.setMinimum(0)
self.customContextMenuRequested.connect(self.show_context_menu)
self.configure()
def __init__(self):
"""
Build out the dock widgets with the kluster widgets inside. Will use QSettings object to retain size and
position.
"""
super().__init__()
self.setWindowTitle('Kluster Intelligence')
self.setDockNestingEnabled(True)
self.iconpath = os.path.join(
os.path.dirname(os.path.dirname(__file__)), 'images',
'kluster_img.ico')
self.setWindowIcon(QtGui.QIcon(self.iconpath))
self.widget_obj_names = []
self.project = fqpr_project.FqprProject(
is_gui=False
) # is_gui controls the progress bar text, used to disable it for gui, no longer
# fqpr = fully qualified ping record, the term for the datastore in kluster
self.intelligence = fqpr_intelligence.FqprIntel(project=self.project)
self.action_tab = ActionTab(self)
self.monitor_dashboard = MonitorDashboard(self)
self.project_view = kluster_projectview.KlusterProjectView(self)
self.multibeam_intel = MultibeamIntel()
self.nav_intel = NavIntel()
self.naverror_intel = NavErrorIntel()
self.navlog_intel = NavLogIntel()
self.svp_intel = SvpIntel()
self.lyout = QtWidgets.QGridLayout()
self.top_widget = QtWidgets.QWidget()
self.intel_tab = IntelTab()
self.output_window = IntelOutput()
self.setup_widgets()
self.setup_signals()
self.seen_files = []
self.intelligence.bind_to_action_update(self.action_tab.update_actions)
def _update_unmatched(self, parent: QtGui.QStandardItem, unmatched: dict):
"""
Take the provided actions and populate the 'Queued Files' Tree item with the input_files attribute from each action
Parameters
----------
parent
The parent item we are adding to
unmatched
dict of 'filename: reason not matched' for each unmatched file
"""
parent.removeRows(0, parent.rowCount())
self.tree_data['Unmatched Files'] = [self.tree_data['Unmatched Files'][0]]
if unmatched:
for unmatched_file, reason in unmatched.items():
proj_child = QtGui.QStandardItem(unmatched_file)
proj_child.setToolTip(reason)
parent.appendRow(proj_child)
self.tree_data['Unmatched Files'].append(unmatched_file)
def _update_all_actions(self, parent: QtGui.QStandardItem, actions: list):
"""
Take the provided actions and populate the 'All Actions' Tree item with the text attribute from each action
Parameters
----------
parent
The parent item we are adding to
actions
list of FqprActions sorted by priority, we are only interested in the text attribute of each
"""
parent.removeRows(0, parent.rowCount())
self.tree_data['All Actions'] = [self.tree_data['All Actions'][0]]
if actions:
for act in actions:
proj_child = QtGui.QStandardItem(act.text)
ttip = self._build_action_tooltip(act)
proj_child.setToolTip(ttip)
parent.appendRow(proj_child)
self.tree_data['All Actions'].append(act.text)
def _update_queued_files(self, parent: QtGui.QStandardItem, actions: list):
"""
Take the provided actions and populate the 'Queued Files' Tree item with the input_files attribute from each action
Parameters
----------
parent
The parent item we are adding to
actions
list of FqprActions sorted by priority, we are only interested in the input_files attribute of each
"""
parent.removeRows(0, parent.rowCount())
self.tree_data['Queued Files'] = [self.tree_data['Queued Files'][0]]
fils = []
if actions:
for act in actions:
fils += act.input_files
for f in fils:
proj_child = QtGui.QStandardItem(f)
parent.appendRow(proj_child)
self.tree_data['Queued Files'].append(f)
def _update_all_actions(self, parent: QtGui.QStandardItem, actions: list):
"""
Take the provided actions and populate the 'All Actions' Tree item with the text attribute from each action
Parameters
----------
parent
The parent item we are adding to
actions
list of FqprActions sorted by priority, we are only interested in the text attribute of each
"""
parent.removeRows(0, parent.rowCount())
self.tree_data['All Actions'] = [self.tree_data['All Actions'][0]]
if actions:
for act in actions:
proj_child = QtGui.QStandardItem(act.text)
if act.input_files:
ttip = '{}\n\nPriority:{}\nInput Files:\n-{}'.format(
act.text, act.priority, '\n-'.join(act.input_files))
elif act.priority == 5: # process multibeam action
ttip = '{}\n\nPriority:{}\nRun Orientation:{}\nRun Correct Beam Vectors:{}\n'.format(
act.text, act.priority, act.kwargs['run_orientation'],
act.kwargs['run_beam_vec'])
ttip += 'Run Sound Velocity:{}\nRun Georeference/TPU:{}'.format(
act.kwargs['run_svcorr'], act.kwargs['run_georef'])
if act.kwargs['run_georef']:
if act.kwargs['use_epsg']:
ttip += '\nEPSG: {}\nVertical Reference: {}'.format(
act.kwargs['epsg'], act.kwargs['vert_ref'])
else:
ttip += '\nCoordinate System: {}\nVertical Reference: {}'.format(
act.kwargs['coord_system'],
act.kwargs['vert_ref'])
else:
ttip = '{}\n\nPriority:{}'.format(act.text, act.priority)
proj_child.setToolTip(ttip)
parent.appendRow(proj_child)
self.tree_data['All Actions'].append(act.text)
def __init__(self, parent=None, title='', settings=None):
super().__init__(parent, settings, widgetname='settings')
self.setWindowTitle('Settings')
layout = QtWidgets.QVBoxLayout()
self.tabwidget = QtWidgets.QTabWidget()
self.general_tab = QtWidgets.QWidget()
self.general_layout = QtWidgets.QVBoxLayout()
self.parallel_write = QtWidgets.QCheckBox('Enable Parallel Writes')
self.parallel_write.setChecked(True)
self.parallel_write.setToolTip('If checked, Kluster will write to the hard drive in parallel, disabling this ' +
'is a useful step in troubleshooting PermissionErrors.')
self.keep_waterline_changes = QtWidgets.QCheckBox('Retain Waterline Changes')
self.keep_waterline_changes.setChecked(True)
self.keep_waterline_changes.setToolTip('If checked (only applicable if you are using a Vessel File), Kluster will save all ' +
'waterline changes in later multibeam files to the vessel file. \nUncheck this if you ' +
'do not want changes in waterline to be new entries in the vessel file.')
self.force_coordinate_match = QtWidgets.QCheckBox('Force all days to have the same Coordinate System')
self.force_coordinate_match.setChecked(True)
self.force_coordinate_match.setToolTip('By default, Kluster will assign an automatic UTM zone number to each day of data. If you ' +
'have data that crosses UTM zones, you might find that a project \ncontains data with ' +
'different coordinate systems. Check this box if you want to force all days in a project ' +
'\nto have the same coordinate system by using the most prevalent coordinate system in the Project Tree list. use_epsg in project ' +
'settings will ignore this.')
self.gen_hlayout_one_one = QtWidgets.QHBoxLayout()
self.auto_processing_mode_label = QtWidgets.QLabel('Process Mode: ')
self.gen_hlayout_one_one.addWidget(self.auto_processing_mode_label)
self.auto_processing_mode = QtWidgets.QComboBox()
autooptions = ['normal', 'convert_only', 'concatenate']
self.auto_processing_mode.addItems(autooptions)
self.auto_processing_mode.setToolTip('Controls the processing actions that appear when new data is added or settings are changed.\n' +
'See the following mode explanations for the currently available options\n\n' +
'normal = data is converted and processed as it comes in, where each line added would reprocess the whole day\n' +
'convert only = data is only converted, data is never automatically processed\n' +
'concatenate = data is converted as lines are added and each line is processed individually. Similar to normal\n' +
' mode but more efficient if you are adding lines as they are acquired, normal mode would do a full reprocess of\n' +
' the day after each new line is added')
self.gen_hlayout_one_one.addWidget(self.auto_processing_mode)
self.gen_hlayout_one_one.addStretch()
self.gen_hlayout_one = QtWidgets.QHBoxLayout()
self.vdatum_label = QtWidgets.QLabel('VDatum Directory')
self.gen_hlayout_one.addWidget(self.vdatum_label)
self.vdatum_text = QtWidgets.QLineEdit('', self)
self.vdatum_text.setToolTip('Optional, this is required if you are using the "NOAA MLLW" or "NOAA MHW" vertical reference options.')
self.gen_hlayout_one.addWidget(self.vdatum_text)
self.browse_button = QtWidgets.QPushButton("Browse", self)
self.gen_hlayout_one.addWidget(self.browse_button)
self.gen_hlayout_two = QtWidgets.QHBoxLayout()
self.filter_label = QtWidgets.QLabel('External Filter Directory')
self.gen_hlayout_two.addWidget(self.filter_label)
self.filter_text = QtWidgets.QLineEdit('', self)
self.filter_text.setToolTip('Optional, set if you have a directory of custom Kluster filter .py files that you would like to include.')
self.gen_hlayout_two.addWidget(self.filter_text)
self.browse_filter_button = QtWidgets.QPushButton("Browse", self)
self.gen_hlayout_two.addWidget(self.browse_filter_button)
self.status_msg = QtWidgets.QLabel('')
self.status_msg.setStyleSheet("QLabel { color : " + kluster_variables.error_color + "; }")
self.hlayout_five = QtWidgets.QHBoxLayout()
self.hlayout_five.addStretch(1)
self.ok_button = QtWidgets.QPushButton('OK', self)
self.hlayout_five.addWidget(self.ok_button)
self.hlayout_five.addStretch(1)
self.cancel_button = QtWidgets.QPushButton('Cancel', self)
self.hlayout_five.addWidget(self.cancel_button)
self.hlayout_five.addStretch(1)
self.default_button = QtWidgets.QPushButton('Reset Tab', self)
self.hlayout_five.addWidget(self.default_button)
self.hlayout_five.addStretch(1)
self.general_layout.addWidget(self.parallel_write)
self.general_layout.addWidget(self.keep_waterline_changes)
self.general_layout.addWidget(self.force_coordinate_match)
self.general_layout.addLayout(self.gen_hlayout_one_one)
self.general_layout.addLayout(self.gen_hlayout_one)
self.general_layout.addLayout(self.gen_hlayout_two)
self.general_layout.addWidget(self.status_msg)
self.general_layout.addStretch()
self.general_tab.setLayout(self.general_layout)
self.tabwidget.addTab(self.general_tab, 'General')
self.display_tab = QtWidgets.QWidget()
self.display_layout = QtWidgets.QVBoxLayout()
# yes I know about color pickers, yes I know this is a dumb way to do this, get off my back already
possible_colors = ['black', 'white', 'red', 'magenta', 'purple', 'blue', 'cyan', 'pink', 'salmon', 'peru',
'orange', 'yellow', 'light green', 'green', 'teal']
colorone = QtWidgets.QHBoxLayout()
self.kvar_pass_color_lbl = QtWidgets.QLabel('Pass Color')
self.kvar_pass_color = QtWidgets.QComboBox()
self.kvar_pass_color.addItems(possible_colors)
self.kvar_pass_color.setCurrentText(kluster_variables.pass_color)
self.kvar_pass_color.setToolTip('Color of the graphical labels and text where a test passes')
self.kvar_error_color_lbl = QtWidgets.QLabel('Error Color')
self.kvar_error_color = QtWidgets.QComboBox()
self.kvar_error_color.addItems(possible_colors)
self.kvar_error_color.setCurrentText(kluster_variables.error_color)
self.kvar_error_color.setToolTip('Color of the graphical labels and text where a test fails')
self.kvar_warning_color_lbl = QtWidgets.QLabel('Warning Color')
self.kvar_warning_color = QtWidgets.QComboBox()
self.kvar_warning_color.addItems(possible_colors)
self.kvar_warning_color.setCurrentText(kluster_variables.warning_color)
self.kvar_warning_color.setToolTip('Color of the graphical labels and text where a warning is raised')
colorone.addWidget(self.kvar_pass_color_lbl)
colorone.addWidget(self.kvar_pass_color)
colorone.addWidget(self.kvar_error_color_lbl)
colorone.addWidget(self.kvar_error_color)
colorone.addWidget(self.kvar_warning_color_lbl)
colorone.addWidget(self.kvar_warning_color)
colortwo = QtWidgets.QHBoxLayout()
self.kvar_amplitude_color_lbl = QtWidgets.QLabel('Amplitude Color')
self.kvar_amplitude_color = QtWidgets.QComboBox()
self.kvar_amplitude_color.addItems(possible_colors)
self.kvar_amplitude_color.setCurrentText(kluster_variables.amplitude_color)
self.kvar_amplitude_color.setToolTip('Color of the Amplitude status points in Points View')
self.kvar_phase_color_lbl = QtWidgets.QLabel('Phase Color')
self.kvar_phase_color = QtWidgets.QComboBox()
self.kvar_phase_color.addItems(possible_colors)
self.kvar_phase_color.setCurrentText(kluster_variables.phase_color)
self.kvar_phase_color.setToolTip('Color of the Phase status points in Points View')
self.kvar_reject_color_lbl = QtWidgets.QLabel('Reject Color')
self.kvar_reject_color = QtWidgets.QComboBox()
self.kvar_reject_color.addItems(possible_colors)
self.kvar_reject_color.setCurrentText(kluster_variables.reject_color)
self.kvar_reject_color.setToolTip('Color of the Reject status points in Points View')
self.kvar_reaccept_color_lbl = QtWidgets.QLabel('Reaccept Color')
self.kvar_reaccept_color = QtWidgets.QComboBox()
self.kvar_reaccept_color.addItems(possible_colors)
self.kvar_reaccept_color.setCurrentText(kluster_variables.reaccept_color)
self.kvar_reaccept_color.setToolTip('Color of the Reaccept status points in Points View')
colortwo.addWidget(self.kvar_amplitude_color_lbl)
colortwo.addWidget(self.kvar_amplitude_color)
colortwo.addWidget(self.kvar_phase_color_lbl)
colortwo.addWidget(self.kvar_phase_color)
colortwo.addWidget(self.kvar_reject_color_lbl)
colortwo.addWidget(self.kvar_reject_color)
colortwo.addWidget(self.kvar_reaccept_color_lbl)
colortwo.addWidget(self.kvar_reaccept_color)
self.display_layout.addLayout(colorone)
self.display_layout.addLayout(colortwo)
self.display_layout.addStretch()
self.display_tab.setLayout(self.display_layout)
self.tabwidget.addTab(self.display_tab, 'Display')
self.processing_tab = QtWidgets.QWidget()
self.processing_layout = QtWidgets.QVBoxLayout()
processingone = QtWidgets.QHBoxLayout()
self.kvar_convfiles_label = QtWidgets.QLabel('Files converted at once')
self.kvar_convfiles = QtWidgets.QSpinBox()
self.kvar_convfiles.setRange(1, 999)
self.kvar_convfiles.setValue(kluster_variables.converted_files_at_once)
self.kvar_convfiles.setToolTip('Conversion will convert this many files at once, raising this value can create memory issues in Kluster')
processingone.addWidget(self.kvar_convfiles_label)
processingone.addWidget(self.kvar_convfiles)
processingtwo = QtWidgets.QHBoxLayout()
self.kvar_pingslas_label = QtWidgets.QLabel('Pings per LAS File')
self.kvar_pingslas = QtWidgets.QSpinBox()
self.kvar_pingslas.setRange(1, 500000)
self.kvar_pingslas.setValue(kluster_variables.pings_per_las)
self.kvar_pingslas.setToolTip('LAS export will put this many pings in one file before starting a new file, raising this value can create overly large files')
processingtwo.addWidget(self.kvar_pingslas_label)
processingtwo.addWidget(self.kvar_pingslas)
processingthree = QtWidgets.QHBoxLayout()
self.kvar_pingscsv_label = QtWidgets.QLabel('Pings per CSV File')
self.kvar_pingscsv = QtWidgets.QSpinBox()
self.kvar_pingscsv.setRange(1, 500000)
self.kvar_pingscsv.setValue(kluster_variables.pings_per_csv)
self.kvar_pingscsv.setToolTip('CSV export will put this many pings in one file before starting a new file, raising this value can create overly large files')
processingthree.addWidget(self.kvar_pingscsv_label)
processingthree.addWidget(self.kvar_pingscsv)
self.processing_layout.addLayout(processingone)
self.processing_layout.addLayout(processingtwo)
self.processing_layout.addLayout(processingthree)
self.processing_layout.addStretch()
self.processing_tab.setLayout(self.processing_layout)
self.tabwidget.addTab(self.processing_tab, 'Processing')
self.uncertainty_tab = QtWidgets.QWidget()
self.uncertainty_layout = QtWidgets.QVBoxLayout()
validator = QtGui.QDoubleValidator(-999, 999, 3)
uncertaintyone = QtWidgets.QHBoxLayout()
self.kvar_heaveerror_label = QtWidgets.QLabel('Default Heave Error (meters)')
self.kvar_heaveerror = QtWidgets.QLineEdit('')
self.kvar_heaveerror.setValidator(validator)
self.kvar_heaveerror.setText(str(kluster_variables.default_heave_error))
self.kvar_heaveerror.editingFinished.connect(self.validate_numctrl)
self.kvar_heaveerror.setToolTip('Default 1 sigma standard deviation in the heave sensor, generally found in manufacturer specifications.')
self.kvar_rollerror_label = QtWidgets.QLabel('Default Roll Sensor Error (meters)')
self.kvar_rollerror = QtWidgets.QLineEdit('')
self.kvar_rollerror.setValidator(validator)
self.kvar_rollerror.setText(str(kluster_variables.default_roll_sensor_error))
self.kvar_rollerror.editingFinished.connect(self.validate_numctrl)
self.kvar_rollerror.setToolTip('Default 1 sigma standard deviation in the roll sensor, generally found in manufacturer specifications.')
uncertaintyone.addWidget(self.kvar_heaveerror_label)
uncertaintyone.addWidget(self.kvar_heaveerror)
uncertaintyone.addWidget(self.kvar_rollerror_label)
uncertaintyone.addWidget(self.kvar_rollerror)
uncertaintytwo = QtWidgets.QHBoxLayout()
self.kvar_pitcherror_label = QtWidgets.QLabel('Default Pitch Sensor Error (meters)')
self.kvar_pitcherror = QtWidgets.QLineEdit('')
self.kvar_pitcherror.setValidator(validator)
self.kvar_pitcherror.setText(str(kluster_variables.default_pitch_sensor_error))
self.kvar_pitcherror.editingFinished.connect(self.validate_numctrl)
self.kvar_pitcherror.setToolTip('Default 1 sigma standard deviation in the pitch sensor, generally found in manufacturer specifications')
self.kvar_yawerror_label = QtWidgets.QLabel('Default Yaw Sensor Error (meters)')
self.kvar_yawerror = QtWidgets.QLineEdit('')
self.kvar_yawerror.setValidator(validator)
self.kvar_yawerror.setText(str(kluster_variables.default_heading_sensor_error))
self.kvar_yawerror.editingFinished.connect(self.validate_numctrl)
self.kvar_yawerror.setToolTip('Default 1 sigma standard deviation in the heading sensor, generally found in manufacturer specifications')
uncertaintytwo.addWidget(self.kvar_pitcherror_label)
uncertaintytwo.addWidget(self.kvar_pitcherror)
uncertaintytwo.addWidget(self.kvar_yawerror_label)
uncertaintytwo.addWidget(self.kvar_yawerror)
uncertaintythree = QtWidgets.QHBoxLayout()
self.kvar_beamangle_label = QtWidgets.QLabel('Default Beam Opening Angle (degrees)')
self.kvar_beamangle = QtWidgets.QLineEdit('')
self.kvar_beamangle.setValidator(validator)
self.kvar_beamangle.setText(str(kluster_variables.default_beam_opening_angle))
self.kvar_beamangle.editingFinished.connect(self.validate_numctrl)
self.kvar_beamangle.setToolTip('Default Receiver beam opening angle, should auto populate from the multibeam data, this value is used otherwise')
self.kvar_sverror_label = QtWidgets.QLabel('Default Surface SV Error (meters/second)')
self.kvar_sverror = QtWidgets.QLineEdit('')
self.kvar_sverror.setValidator(validator)
self.kvar_sverror.setText(str(kluster_variables.default_surface_sv_error))
self.kvar_sverror.editingFinished.connect(self.validate_numctrl)
self.kvar_sverror.setToolTip('Default 1 sigma standard deviation in surface sv sensor, generally found in manufacturer specifications')
uncertaintythree.addWidget(self.kvar_beamangle_label)
uncertaintythree.addWidget(self.kvar_beamangle)
uncertaintythree.addWidget(self.kvar_sverror_label)
uncertaintythree.addWidget(self.kvar_sverror)
uncertaintyfour = QtWidgets.QHBoxLayout()
self.kvar_rollpatch_label = QtWidgets.QLabel('Default Roll Patch Error (degrees)')
self.kvar_rollpatch = QtWidgets.QLineEdit('')
self.kvar_rollpatch.setValidator(validator)
self.kvar_rollpatch.setText(str(kluster_variables.default_roll_patch_error))
self.kvar_rollpatch.editingFinished.connect(self.validate_numctrl)
self.kvar_rollpatch.setToolTip('Default 1 sigma standard deviation in your roll angle patch test procedure')
self.kvar_waterline_label = QtWidgets.QLabel('Default Waterline (meters)')
self.kvar_waterline = QtWidgets.QLineEdit('')
self.kvar_waterline.setValidator(validator)
self.kvar_waterline.setText(str(kluster_variables.default_waterline_error))
self.kvar_waterline.editingFinished.connect(self.validate_numctrl)
self.kvar_waterline.setToolTip('Default 1 sigma standard deviation of the waterline measurement, only used for waterline vertical reference')
uncertaintyfour.addWidget(self.kvar_rollpatch_label)
uncertaintyfour.addWidget(self.kvar_rollpatch)
uncertaintyfour.addWidget(self.kvar_waterline_label)
uncertaintyfour.addWidget(self.kvar_waterline)
uncertaintyfive = QtWidgets.QHBoxLayout()
self.kvar_horizontalerror_label = QtWidgets.QLabel('Default Horizontal Positioning Error (meters)')
self.kvar_horizontalerror = QtWidgets.QLineEdit('')
self.kvar_horizontalerror.setValidator(validator)
self.kvar_horizontalerror.setText(str(kluster_variables.default_horizontal_positioning_error))
self.kvar_horizontalerror.editingFinished.connect(self.validate_numctrl)
self.kvar_horizontalerror.setToolTip('Default 1 sigma standard deviation of the horizontal positioning system, only used if SBET is not provided')
self.kvar_verticalerror_label = QtWidgets.QLabel('Default Vertical Positioning Error (meters)')
self.kvar_verticalerror = QtWidgets.QLineEdit('')
self.kvar_verticalerror.setValidator(validator)
self.kvar_verticalerror.setText(str(kluster_variables.default_vertical_positioning_error))
self.kvar_verticalerror.editingFinished.connect(self.validate_numctrl)
self.kvar_verticalerror.setToolTip('Default 1 sigma standard deviation of the vertical positioning system, only used if SBET is not provided')
uncertaintyfive.addWidget(self.kvar_horizontalerror_label)
uncertaintyfive.addWidget(self.kvar_horizontalerror)
uncertaintyfive.addWidget(self.kvar_verticalerror_label)
uncertaintyfive.addWidget(self.kvar_verticalerror)
self.uncertainty_layout.addLayout(uncertaintyone)
self.uncertainty_layout.addLayout(uncertaintytwo)
self.uncertainty_layout.addLayout(uncertaintythree)
self.uncertainty_layout.addLayout(uncertaintyfour)
self.uncertainty_layout.addLayout(uncertaintyfive)
self.uncertainty_layout.addStretch()
self.uncertainty_tab.setLayout(self.uncertainty_layout)
self.tabwidget.addTab(self.uncertainty_tab, 'Uncertainty')
layout.addWidget(self.tabwidget)
layout.addLayout(self.hlayout_five)
self.setLayout(layout)
self.vdatum_pth = None
self.filter_pth = None
self.canceled = False
self.browse_button.clicked.connect(self.vdatum_browse)
self.vdatum_text.textChanged.connect(self.vdatum_changed)
self.browse_filter_button.clicked.connect(self.filter_browse)
self.filter_text.textChanged.connect(self.filter_changed)
self.ok_button.clicked.connect(self.start)
self.cancel_button.clicked.connect(self.cancel)
self.default_button.clicked.connect(self.set_to_default)
self.text_controls = [['vdatum_directory', self.vdatum_text], ['auto_processing_mode', self.auto_processing_mode],
['filter_text', self.filter_text]]
self.checkbox_controls = [['enable_parallel_writes', self.parallel_write], ['keep_waterline_changes', self.keep_waterline_changes],
['force_coordinate_match', self.force_coordinate_match]]
self.read_settings()
self.resize(600, 150)
if filepath is not None:
os.startfile(os.path.dirname(filepath))
else:
print("Can't locate row by uniqueid {}".format(unique_id))
if __name__ == '__main__':
try: # pyside2
app = QtWidgets.QApplication()
except TypeError: # pyqt5
app = QtWidgets.QApplication([])
# Force the style to be the same on all OSs:
app.setStyle("Fusion")
# Now use a palette to switch to dark colors:
palette = QtGui.QPalette()
palette.setColor(QtGui.QPalette.Window, QtGui.QColor(53, 53, 53))
palette.setColor(QtGui.QPalette.WindowText, QtCore.Qt.gray)
palette.setColor(QtGui.QPalette.Base, QtGui.QColor(25, 25, 25))
palette.setColor(QtGui.QPalette.AlternateBase, QtGui.QColor(53, 53, 53))
palette.setColor(QtGui.QPalette.ToolTipBase, QtCore.Qt.black)
palette.setColor(QtGui.QPalette.ToolTipText, QtCore.Qt.gray)
palette.setColor(QtGui.QPalette.Text, QtCore.Qt.gray)
palette.setColor(QtGui.QPalette.Button, QtGui.QColor(53, 53, 53))
palette.setColor(QtGui.QPalette.ButtonText, QtCore.Qt.gray)
palette.setColor(QtGui.QPalette.BrightText, QtCore.Qt.red)
palette.setColor(QtGui.QPalette.Link, QtGui.QColor(42, 130, 218))
palette.setColor(QtGui.QPalette.Highlight, QtGui.QColor(42, 130, 218))
palette.setColor(QtGui.QPalette.HighlightedText, QtCore.Qt.black)
app.setPalette(palette)