class MemUsageDialog(QDialog):
def __init__(self, parent=None, update=True):
QDialog.__init__(self, parent=parent)
layout = QVBoxLayout()
self.tree = QTreeWidget()
layout.addWidget(self.tree)
self.setLayout(layout)
self._mgr = CacheMemoryManager()
self._tracked_caches = {}
# tree setup code
self.tree.setHeaderLabels(
["cache", "memory", "roi", "dtype", "type", "info", "id"])
self._idIndex = self.tree.columnCount() - 1
self.tree.setColumnHidden(self._idIndex, True)
self.tree.setSortingEnabled(True)
self.tree.clear()
self._root = TreeNode()
# refresh every x seconds (see showEvent())
self.timer = QTimer(self)
if update:
self.timer.timeout.connect(self._updateReport)
def _updateReport(self):
# we keep track of dirty reports so we just have to update the tree
# instead of reconstructing it
reports = []
for c in self._mgr.getFirstClassCaches():
r = MemInfoNode()
c.generateReport(r)
reports.append(r)
self._root.handleChildrenReports(
reports, root=self.tree.invisibleRootItem())
def hideEvent(self, event):
self.timer.stop()
def showEvent(self, show):
# update once so we don't have to wait for initial report
self._updateReport()
# update every 5 sec.
self.timer.start(5*1000)
class MemUsageDialog(QDialog):
def __init__(self, parent=None, update=True):
QDialog.__init__(self, parent=parent)
layout = QVBoxLayout()
self.tree = QTreeWidget()
layout.addWidget(self.tree)
self.setLayout(layout)
self._mgr = CacheMemoryManager()
self._tracked_caches = {}
# tree setup code
self.tree.setHeaderLabels(
["cache", "memory", "roi", "dtype", "type", "info", "id"])
self._idIndex = self.tree.columnCount() - 1
self.tree.setColumnHidden(self._idIndex, True)
self.tree.setSortingEnabled(True)
self.tree.clear()
self._root = TreeNode()
# refresh every x seconds (see showEvent())
self.timer = QTimer(self)
if update:
self.timer.timeout.connect(self._updateReport)
def _updateReport(self):
# we keep track of dirty reports so we just have to update the tree
# instead of reconstructing it
reports = []
for c in self._mgr.getFirstClassCaches():
r = MemInfoNode()
c.generateReport(r)
reports.append(r)
self._root.handleChildrenReports(reports,
root=self.tree.invisibleRootItem())
def hideEvent(self, event):
self.timer.stop()
def showEvent(self, show):
# update once so we don't have to wait for initial report
self._updateReport()
# update every 5 sec.
self.timer.start(5 * 1000)
class OWItemsets(widget.OWWidget):
name = 'Frequent Itemsets'
description = 'Explore sets of items that frequently appear together.'
icon = 'icons/FrequentItemsets.svg'
priority = 10
inputs = [("Data", Table, 'set_data')]
outputs = [(Output.DATA, Table)]
minSupport = settings.Setting(30)
maxItemsets = settings.Setting(10000)
filterSearch = settings.Setting(True)
autoFind = settings.Setting(False)
autoSend = settings.Setting(True)
filterKeywords = settings.Setting('')
filterMinItems = settings.Setting(1)
filterMaxItems = settings.Setting(10000)
UserAdviceMessages = [
widget.Message(
'Itemset are listed in item-sorted order, i.e. '
'an itemset containing A and B is only listed once, as '
'A > B (and not also B > A).', 'itemsets-order',
widget.Message.Warning),
widget.Message(
'To select all the itemsets that are descendants of '
'(include) some item X (i.e. the whole subtree), you '
'can fold the subtree at that item and then select it.',
'itemsets-order', widget.Message.Information)
]
def __init__(self):
self._is_running = False
self.isRegexMatch = lambda x: True
self.tree = QTreeWidget(self.mainArea,
columnCount=2,
allColumnsShowFocus=True,
alternatingRowColors=True,
selectionMode=QTreeWidget.ExtendedSelection,
uniformRowHeights=True)
self.tree.setHeaderLabels(["Itemsets", "Support", "%"])
self.tree.header().setStretchLastSection(True)
self.tree.itemSelectionChanged.connect(self.selectionChanged)
self.mainArea.layout().addWidget(self.tree)
box = gui.widgetBox(self.controlArea, "Info")
self.nItemsets = self.nSelectedExamples = self.nSelectedItemsets = ''
gui.label(box, self, "Number of itemsets: %(nItemsets)s")
gui.label(box, self, "Selected itemsets: %(nSelectedItemsets)s")
gui.label(box, self, "Selected examples: %(nSelectedExamples)s")
hbox = gui.widgetBox(box, orientation='horizontal')
gui.button(hbox, self, "Expand all", callback=self.tree.expandAll)
gui.button(hbox, self, "Collapse all", callback=self.tree.collapseAll)
box = gui.widgetBox(self.controlArea, 'Find itemsets')
gui.valueSlider(box,
self,
'minSupport',
values=[.0001, .0005, .001, .005, .01, .05, .1, .5] +
list(range(1, 101)),
label='Minimal support:',
labelFormat="%g%%",
callback=lambda: self.find_itemsets())
gui.hSlider(box,
self,
'maxItemsets',
minValue=10000,
maxValue=100000,
step=10000,
label='Max. number of itemsets:',
labelFormat="%d",
callback=lambda: self.find_itemsets())
self.button = gui.auto_commit(box,
self,
'autoFind',
'Find itemsets',
commit=self.find_itemsets)
box = gui.widgetBox(self.controlArea, 'Filter itemsets')
gui.lineEdit(box,
self,
'filterKeywords',
'Contains:',
callback=self.filter_change,
orientation='horizontal',
tooltip='A comma or space-separated list of regular '
'expressions.')
hbox = gui.widgetBox(box, orientation='horizontal')
gui.spin(hbox,
self,
'filterMinItems',
1,
998,
label='Min. items:',
callback=self.filter_change)
gui.spin(hbox,
self,
'filterMaxItems',
2,
999,
label='Max. items:',
callback=self.filter_change)
gui.checkBox(box,
self,
'filterSearch',
label='Apply these filters in search',
tooltip='If checked, the itemsets are filtered according '
'to these filter conditions already in the search '
'phase. \nIf unchecked, the only filters applied '
'during search are the ones above, '
'and the itemsets are \nfiltered afterwards only for '
'display, i.e. only the matching itemsets are shown.')
gui.rubber(hbox)
gui.rubber(self.controlArea)
gui.auto_commit(self.controlArea, self, 'autoSend', 'Send selection')
self.filter_change()
ITEM_DATA_ROLE = Qt.UserRole + 1
def selectionChanged(self):
X = self.X
mapping = self.onehot_mapping
instances = set()
where = np.where
def whole_subtree(node):
yield node
for i in range(node.childCount()):
yield from whole_subtree(node.child(i))
def itemset(node):
while node:
yield node.data(0, self.ITEM_DATA_ROLE)
node = node.parent()
def selection_ranges(node):
n_children = node.childCount()
if n_children:
yield (self.tree.indexFromItem(node.child(0)),
self.tree.indexFromItem(node.child(n_children - 1)))
for i in range(n_children):
yield from selection_ranges(node.child(i))
nSelectedItemsets = 0
item_selection = QItemSelection()
for node in self.tree.selectedItems():
nodes = (node, ) if node.isExpanded() else whole_subtree(node)
if not node.isExpanded():
for srange in selection_ranges(node):
item_selection.select(*srange)
for node in nodes:
nSelectedItemsets += 1
cols, vals = zip(*(mapping[i] for i in itemset(node)))
if issparse(X):
rows = (len(cols) == np.bincount(
(X[:, cols] != 0).indices,
minlength=X.shape[0])).nonzero()[0]
else:
rows = where((X[:, cols] == vals).all(axis=1))[0]
instances.update(rows)
self.tree.itemSelectionChanged.disconnect(self.selectionChanged)
self.tree.selectionModel().select(
item_selection,
QItemSelectionModel.Select | QItemSelectionModel.Rows)
self.tree.itemSelectionChanged.connect(self.selectionChanged)
self.nSelectedExamples = len(instances)
self.nSelectedItemsets = nSelectedItemsets
self.output = self.data[sorted(instances)] or None
self.commit()
def commit(self):
self.send(Output.DATA, self.output)
def filter_change(self):
self.warning(9)
try:
isRegexMatch = self.isRegexMatch = re.compile(
'|'.join(
i.strip()
for i in re.split('(,|\s)+', self.filterKeywords.strip())
if i.strip()), re.IGNORECASE).search
except Exception as e:
self.warning(9,
'Error in regular expression: {}'.format(e.args[0]))
isRegexMatch = self.isRegexMatch = lambda x: True
def hide(node, depth, has_kw):
if not has_kw:
has_kw = isRegexMatch(node.text(0))
hidden = (
sum(
hide(node.child(i), depth + 1, has_kw)
for i in range(node.childCount())) == node.childCount()
if node.childCount() else
(not has_kw
or not self.filterMinItems <= depth <= self.filterMaxItems))
node.setHidden(hidden)
return hidden
hide(self.tree.invisibleRootItem(), 0, False)
class TreeWidgetItem(QTreeWidgetItem):
def data(self, column, role):
"""Construct lazy tooltips"""
if role != Qt.ToolTipRole:
return super().data(column, role)
tooltip = []
while self:
tooltip.append(self.text(0))
self = self.parent()
return ' '.join(reversed(tooltip))
def find_itemsets(self):
if self.data is None:
return
if self._is_running:
return
self._is_running = True
data = self.data
self.tree.clear()
self.tree.setUpdatesEnabled(False)
self.tree.blockSignals(True)
class ItemDict(dict):
def __init__(self, item):
self.item = item
top = ItemDict(self.tree.invisibleRootItem())
X, mapping = OneHot.encode(data)
self.onehot_mapping = mapping
ITEM_FMT = '{}' if issparse(data.X) else '{}={}'
names = {
item: ITEM_FMT.format(var.name, val)
for item, var, val in OneHot.decode(mapping.keys(), data, mapping)
}
nItemsets = 0
filterSearch = self.filterSearch
filterMinItems, filterMaxItems = self.filterMinItems, self.filterMaxItems
isRegexMatch = self.isRegexMatch
# Find itemsets and populate the TreeView
with self.progressBar(self.maxItemsets + 1) as progress:
for itemset, support in frequent_itemsets(X,
self.minSupport / 100):
if filterSearch and not filterMinItems <= len(
itemset) <= filterMaxItems:
continue
parent = top
first_new_item = None
itemset_matches_filter = False
for item in sorted(itemset):
name = names[item]
if filterSearch and not itemset_matches_filter:
itemset_matches_filter = isRegexMatch(name)
child = parent.get(name)
if child is None:
try:
wi = self.TreeWidgetItem(parent.item, [
name,
str(support), '{:.4g}'.format(
100 * support / len(data))
])
except RuntimeError:
# FIXME: When autoFind was in effect and the support
# slider was moved, this line excepted with:
# RuntimeError: wrapped C/C++ object of type
# TreeWidgetItem has been deleted
return
wi.setData(0, self.ITEM_DATA_ROLE, item)
child = parent[name] = ItemDict(wi)
if first_new_item is None:
first_new_item = (parent, name)
parent = child
if filterSearch and not itemset_matches_filter:
parent, name = first_new_item
parent.item.removeChild(parent[name].item)
del parent[name].item
del parent[name]
else:
nItemsets += 1
progress.advance()
if nItemsets >= self.maxItemsets:
break
if not filterSearch:
self.filter_change()
self.nItemsets = nItemsets
self.nSelectedItemsets = 0
self.nSelectedExamples = 0
self.tree.expandAll()
for i in range(self.tree.columnCount()):
self.tree.resizeColumnToContents(i)
self.tree.setUpdatesEnabled(True)
self.tree.blockSignals(False)
self._is_running = False
def set_data(self, data):
self.data = data
is_error = False
if data is not None:
self.warning(0)
self.error(1)
self.button.setDisabled(False)
self.X = data.X
if issparse(data.X):
self.X = data.X.tocsc()
else:
if not data.domain.has_discrete_attributes():
self.error(
1, 'Discrete features required but data has none.')
is_error = True
self.button.setDisabled(True)
elif data.domain.has_continuous_attributes():
self.warning(
0,
'Data has continuous attributes which will be skipped.'
)
else:
self.output = None
self.commit()
if self.autoFind and not is_error:
self.find_itemsets()
class Shortcuts(preferences.Page):
def __init__(self, dialog):
super(Shortcuts, self).__init__(dialog)
layout = QVBoxLayout()
layout.setContentsMargins(0, 0, 0, 0)
self.setLayout(layout)
self.scheme = SchemeSelector(self)
layout.addWidget(self.scheme)
self.tree = QTreeWidget(self)
self.tree.setHeaderLabels([_("Command"), _("Shortcut")])
self.tree.setRootIsDecorated(False)
self.tree.setColumnCount(2)
self.tree.setAllColumnsShowFocus(True)
self.tree.setAnimated(True)
layout.addWidget(self.tree)
self.edit = QPushButton(
icons.get("preferences-desktop-keyboard-shortcuts"), '')
layout.addWidget(self.edit)
# signals
self.scheme.currentChanged.connect(self.slotSchemeChanged)
self.scheme.changed.connect(self.changed)
self.tree.currentItemChanged.connect(self.slotCurrentItemChanged)
self.tree.itemDoubleClicked.connect(self.editCurrentItem)
self.edit.clicked.connect(self.editCurrentItem)
# make a dict of all actions with the actions as key and the names as
# value, with the collection prepended (for loading/saving)
win = dialog.parent()
allactions = {}
for collection in actioncollectionmanager.manager(
win).actionCollections():
for name, action in collection.actions().items():
allactions[action] = (collection, name)
# keep a list of actions not in the menu structure
left = list(allactions.keys())
def add_actions(menuitem, actions):
"""Add actions to a QTreeWidgetItem."""
for a in actions:
if a.menu():
item = build_menu_item(a)
if item.childCount():
menuitem.addChild(item)
elif a in left:
left.remove(a)
menuitem.addChild(ShortcutItem(a, *allactions[a]))
menuitem.setFlags(Qt.ItemIsEnabled) # disable selection
def build_menu_item(action):
"""Return a QTreeWidgetItem with children for all the actions in the submenu."""
menuitem = QTreeWidgetItem()
text = qutil.removeAccelerator(action.text())
menuitem.setText(0, _("Menu {name}").format(name=text))
add_actions(menuitem, action.menu().actions())
return menuitem
# present the actions nicely ordered as in the menus
for a in win.menuBar().actions():
menuitem = build_menu_item(a)
if menuitem.childCount():
self.tree.addTopLevelItem(menuitem)
# sort leftover actions
left.sort(key=lambda i: i.text())
# show actions that are left, grouped by collection
titlegroups = {}
for a in left[:]: # copy
collection, name = allactions[a]
if collection.title():
titlegroups.setdefault(collection.title(), []).append(a)
left.remove(a)
for title in sorted(titlegroups):
item = QTreeWidgetItem(["{0}:".format(title)])
for a in titlegroups[title]:
item.addChild(ShortcutItem(a, *allactions[a]))
self.tree.addTopLevelItem(item)
item.setFlags(Qt.ItemIsEnabled) # disable selection
# show other actions that were not in the menus
item = QTreeWidgetItem([_("Other commands:")])
for a in left:
if a.text() and not a.menu():
item.addChild(ShortcutItem(a, *allactions[a]))
if item.childCount():
self.tree.addTopLevelItem(item)
item.setFlags(Qt.ItemIsEnabled) # disable selection
self.tree.expandAll()
item = self.tree.topLevelItem(0).child(0)
if _lastaction:
# find the previously selected item
for i in self.items():
if i.name == _lastaction:
item = i
break
self.tree.setCurrentItem(item)
self.tree.resizeColumnToContents(0)
def items(self):
"""Yield all the items in the actions tree."""
def children(item):
for i in range(item.childCount()):
c = item.child(i)
if c.childCount():
for c1 in children(c):
yield c1
else:
yield c
for c in children(self.tree.invisibleRootItem()):
yield c
def item(self, collection, name):
for item in self.items():
if item.collection.name == collection and item.name == name:
return item
def saveSettings(self):
self.scheme.saveSettings("shortcut_scheme", "shortcut_schemes",
"shortcuts")
for item in self.items():
for scheme in self.scheme.schemes():
item.save(scheme)
item.clearSettings()
item.switchScheme(self.scheme.currentScheme())
def loadSettings(self):
self.scheme.loadSettings("shortcut_scheme", "shortcut_schemes")
# clear the settings in all the items
for item in self.items():
item.clearSettings()
item.switchScheme(self.scheme.currentScheme())
def slotSchemeChanged(self):
"""Called when the Scheme combobox is changed by the user."""
for item in self.items():
item.switchScheme(self.scheme.currentScheme())
def slotCurrentItemChanged(self, item):
if isinstance(item, ShortcutItem):
self.edit.setText(
_("&Edit Shortcut for \"{name}\"").format(name=item.text(0)))
self.edit.setEnabled(True)
global _lastaction
_lastaction = item.name
else:
self.edit.setText(_("(no shortcut)"))
self.edit.setEnabled(False)
def import_(self, filename):
from . import import_export
import_export.importShortcut(filename, self, self.scheme)
def export(self, name, filename):
from . import import_export
try:
import_export.exportShortcut(self, self.scheme.currentScheme(),
name, filename)
except (IOError, OSError) as e:
QMessageBox.critical(
self, _("Error"),
_("Can't write to destination:\n\n{url}\n\n{error}").format(
url=filename, error=e.strerror))
def findShortcutConflict(self, shortcut):
"""Find the possible shortcut conflict and return the conflict name."""
if shortcut:
item = self.tree.currentItem()
if not isinstance(item, ShortcutItem):
return None
scheme = self.scheme.currentScheme()
for i in self.items():
a = i.action(scheme)
if i != item and a.shortcuts():
for s1 in a.shortcuts():
if s1.matches(shortcut) or shortcut.matches(s1):
return qutil.removeAccelerator(a.text())
return None
def editCurrentItem(self):
item = self.tree.currentItem()
if not isinstance(item, ShortcutItem):
return
dlg = ShortcutEditDialog(self, self.findShortcutConflict)
scheme = self.scheme.currentScheme()
action = item.action(scheme)
default = item.defaultShortcuts() or None
if dlg.editAction(action, default):
shortcuts = action.shortcuts()
# check for conflicts
conflicting = []
for i in self.items():
if i is not item:
for s1, s2 in itertools.product(i.shortcuts(scheme),
shortcuts):
if s1.matches(s2) or s2.matches(s1):
conflicting.append(i)
if conflicting:
for i in conflicting:
l = i.shortcuts(scheme)
for s1 in list(l): # copy
for s2 in shortcuts:
if s1.matches(s2) or s2.matches(s1):
l.remove(s1)
i.setShortcuts(l, scheme)
# store the shortcut
item.setShortcuts(shortcuts, scheme)
self.changed.emit()
class OWItemsets(widget.OWWidget):
name = 'Frequent Itemsets'
description = 'Explore sets of items that frequently appear together.'
icon = 'icons/FrequentItemsets.svg'
priority = 10
inputs = [("Data", Table, 'set_data')]
outputs = [(Output.DATA, Table)]
minSupport = settings.Setting(30)
maxItemsets = settings.Setting(10000)
filterSearch = settings.Setting(True)
autoFind = settings.Setting(False)
autoSend = settings.Setting(True)
filterKeywords = settings.Setting('')
filterMinItems = settings.Setting(1)
filterMaxItems = settings.Setting(10000)
UserAdviceMessages = [
widget.Message('Itemset are listed in item-sorted order, i.e. '
'an itemset containing A and B is only listed once, as '
'A > B (and not also B > A).',
'itemsets-order', widget.Message.Warning),
widget.Message('To select all the itemsets that are descendants of '
'(include) some item X (i.e. the whole subtree), you '
'can fold the subtree at that item and then select it.',
'itemsets-order', widget.Message.Information)
]
def __init__(self):
self.tree = QTreeWidget(self.mainArea,
columnCount=2,
allColumnsShowFocus=True,
alternatingRowColors=True,
selectionMode=QTreeWidget.ExtendedSelection,
uniformRowHeights=True)
self.tree.setHeaderLabels(["Itemsets", "Support", "%"])
self.tree.header().setStretchLastSection(True)
self.tree.itemSelectionChanged.connect(self.selectionChanged)
self.mainArea.layout().addWidget(self.tree)
box = gui.widgetBox(self.controlArea, "Info")
self.nItemsets = self.nSelectedExamples = self.nSelectedItemsets = ''
gui.label(box, self, "Number of itemsets: %(nItemsets)s")
gui.label(box, self, "Selected itemsets: %(nSelectedItemsets)s")
gui.label(box, self, "Selected examples: %(nSelectedExamples)s")
hbox = gui.widgetBox(box, orientation='horizontal')
gui.button(hbox, self, "Expand all", callback=self.tree.expandAll)
gui.button(hbox, self, "Collapse all", callback=self.tree.collapseAll)
box = gui.widgetBox(self.controlArea, 'Find itemsets')
gui.hSlider(box, self, 'minSupport', minValue=1, maxValue=100,
label='Minimal support:', labelFormat="%d%%",
callback=lambda: self.find_itemsets())
gui.hSlider(box, self, 'maxItemsets', minValue=10000, maxValue=100000, step=10000,
label='Max. number of itemsets:', labelFormat="%d",
callback=lambda: self.find_itemsets())
gui.checkBox(box, self, 'filterSearch',
label='Apply below filters in search',
tooltip='If checked, the itemsets are filtered according '
'to below filter conditions already in the search '
'phase. \nIf unchecked, the only filters applied '
'during search are the ones above, '
'and the itemsets are \nfiltered afterwards only for '
'display, i.e. only the matching itemsets are shown.')
self.button = gui.auto_commit(
box, self, 'autoFind', 'Find itemsets', commit=self.find_itemsets)
box = gui.widgetBox(self.controlArea, 'Filter itemsets')
gui.lineEdit(box, self, 'filterKeywords', 'Contains:',
callback=self.filter_change, orientation='horizontal',
tooltip='A comma or space-separated list of regular '
'expressions.')
hbox = gui.widgetBox(box, orientation='horizontal')
gui.spin(hbox, self, 'filterMinItems', 1, 998, label='Min. items:',
callback=self.filter_change)
gui.spin(hbox, self, 'filterMaxItems', 2, 999, label='Max. items:',
callback=self.filter_change)
gui.rubber(hbox)
gui.rubber(self.controlArea)
gui.auto_commit(self.controlArea, self, 'autoSend', 'Send selection')
self.filter_change()
def sendReport(self):
self.reportSettings("Itemset statistics",
[("Number of itemsets", self.nItemsets),
("Selected itemsets", self.nSelectedItemsets),
("Covered examples", self.nSelectedExamples),
])
self.reportSection("Itemsets")
self.reportRaw(OWReport.reportTree(self.tree))
ITEM_DATA_ROLE = Qt.UserRole + 1
def selectionChanged(self):
X = self.data.X
mapping = self.onehot_mapping
instances = set()
where = np.where
def whole_subtree(node):
yield node
for i in range(node.childCount()):
yield from whole_subtree(node.child(i))
def itemset(node):
while node:
yield node.data(0, self.ITEM_DATA_ROLE)
node = node.parent()
def selection_ranges(node):
n_children = node.childCount()
if n_children:
yield (self.tree.indexFromItem(node.child(0)),
self.tree.indexFromItem(node.child(n_children - 1)))
for i in range(n_children):
yield from selection_ranges(node.child(i))
nSelectedItemsets = 0
item_selection = QItemSelection()
for node in self.tree.selectedItems():
nodes = (node,) if node.isExpanded() else whole_subtree(node)
if not node.isExpanded():
for srange in selection_ranges(node):
item_selection.select(*srange)
for node in nodes:
nSelectedItemsets += 1
cols, vals = zip(*(mapping[i] for i in itemset(node)))
instances.update(where((X[:, cols] == vals).all(axis=1))[0])
self.tree.itemSelectionChanged.disconnect(self.selectionChanged)
self.tree.selectionModel().select(item_selection,
QItemSelectionModel.Select | QItemSelectionModel.Rows)
self.tree.itemSelectionChanged.connect(self.selectionChanged)
self.nSelectedExamples = len(instances)
self.nSelectedItemsets = nSelectedItemsets
self.output = self.data[sorted(instances)] or None
self.commit()
def commit(self):
self.send(Output.DATA, self.output)
def filter_change(self):
isRegexMatch = self.isRegexMatch = re.compile(
'|'.join(i.strip()
for i in re.split('(,|\s)+', self.filterKeywords.strip())
if i.strip())).search
def hide(node, depth, has_kw):
if not has_kw:
has_kw = isRegexMatch(node.text(0))
hidden = (sum(hide(node.child(i), depth + 1, has_kw)
for i in range(node.childCount())) == node.childCount()
if node.childCount() else
(not has_kw or
not self.filterMinItems <= depth <= self.filterMaxItems))
node.setHidden(hidden)
return hidden
hide(self.tree.invisibleRootItem(), 0, False)
class TreeWidgetItem(QTreeWidgetItem):
def data(self, column, role):
"""Construct lazy tooltips"""
if role != Qt.ToolTipRole:
return super().data(column, role)
tooltip = []
while self:
tooltip.append(self.text(0))
self = self.parent()
return ' '.join(reversed(tooltip))
def find_itemsets(self):
if self.data is None: return
data = self.data
self.tree.clear()
self.tree.setUpdatesEnabled(False)
self.tree.blockSignals(True)
class ItemDict(dict):
def __init__(self, item):
self.item = item
top = ItemDict(self.tree.invisibleRootItem())
X, mapping = OneHot.encode(data)
self.onehot_mapping = mapping
names = {item: '{}={}'.format(var.name, val)
for item, var, val in OneHot.decode(mapping.keys(), data, mapping)}
nItemsets = 0
filterSearch = self.filterSearch
filterMinItems, filterMaxItems = self.filterMinItems, self.filterMaxItems
isRegexMatch = self.isRegexMatch
# Find itemsets and populate the TreeView
progress = gui.ProgressBar(self, self.maxItemsets + 1)
for itemset, support in frequent_itemsets(X, self.minSupport / 100):
if filterSearch and not filterMinItems <= len(itemset) <= filterMaxItems:
continue
parent = top
first_new_item = None
itemset_matches_filter = False
for item in sorted(itemset):
name = names[item]
if filterSearch and not itemset_matches_filter:
itemset_matches_filter = isRegexMatch(name)
child = parent.get(name)
if child is None:
wi = self.TreeWidgetItem(parent.item, [name, str(support), '{:.1f}'.format(100 * support / len(data))])
wi.setData(0, self.ITEM_DATA_ROLE, item)
child = parent[name] = ItemDict(wi)
if first_new_item is None:
first_new_item = (parent, name)
parent = child
if filterSearch and not itemset_matches_filter:
parent, name = first_new_item
parent.item.removeChild(parent[name].item)
del parent[name].item
del parent[name]
else:
nItemsets += 1
progress.advance()
if nItemsets >= self.maxItemsets:
break
if not filterSearch:
self.filter_change()
self.nItemsets = nItemsets
self.nSelectedItemsets = 0
self.nSelectedExamples = 0
self.tree.expandAll()
for i in range(self.tree.columnCount()):
self.tree.resizeColumnToContents(i)
self.tree.setUpdatesEnabled(True)
self.tree.blockSignals(False)
progress.finish()
def set_data(self, data):
self.data = data
if data is not None:
self.warning(0, 'Data has continuous attributes which will be skipped.'
if data.domain.has_continuous_attributes() else None)
self.error(1, 'Discrete features required but data has none.'
if not data.domain.has_discrete_attributes() else None)
self.button.setDisabled(not data.domain.has_discrete_attributes())
if self.autoFind:
self.find_itemsets()
class OWGEODatasets(OWWidget):
name = "GEO Data Sets"
description = DESCRIPTION
icon = "../widgets/icons/GEODataSets.svg"
priority = PRIORITY
inputs = []
outputs = [("Expression Data", Orange.data.Table)]
settingsList = [
"outputRows", "mergeSpots", "gdsSelectionStates", "splitterSettings",
"currentGds", "autoCommit", "datasetNames"
]
outputRows = Setting(True)
mergeSpots = Setting(True)
gdsSelectionStates = Setting({})
currentGds = Setting(None)
datasetNames = Setting({})
splitterSettings = Setting((
b'\x00\x00\x00\xff\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x01\xea\x00\x00\x00\xd7\x01\x00\x00\x00\x07\x01\x00\x00\x00\x02',
b'\x00\x00\x00\xff\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x01\xb5\x00\x00\x02\x10\x01\x00\x00\x00\x07\x01\x00\x00\x00\x01'
))
autoCommit = Setting(False)
def __init__(self, parent=None, signalManager=None, name=" GEO Data Sets"):
OWWidget.__init__(self, parent, signalManager, name)
self.selectionChanged = False
self.filterString = ""
self.datasetName = ""
## GUI
box = gui.widgetBox(self.controlArea, "Info", addSpace=True)
self.infoBox = gui.widgetLabel(box, "Initializing\n\n")
box = gui.widgetBox(self.controlArea, "Output", addSpace=True)
gui.radioButtonsInBox(box,
self,
"outputRows",
["Genes in rows", "Samples in rows"],
"Rows",
callback=self.commitIf)
gui.checkBox(box,
self,
"mergeSpots",
"Merge spots of same gene",
callback=self.commitIf)
gui.separator(box)
self.nameEdit = gui.lineEdit(
box,
self,
"datasetName",
"Data set name",
tooltip="Override the default output data set name",
callback=self.onNameEdited)
self.nameEdit.setPlaceholderText("")
if sys.version_info < (3, ):
box = gui.widgetBox(self.controlArea, "Commit", addSpace=True)
self.commitButton = gui.button(box,
self,
"Commit",
callback=self.commit)
cb = gui.checkBox(box, self, "autoCommit", "Commit on any change")
gui.setStopper(self, self.commitButton, cb, "selectionChanged",
self.commit)
else:
gui.auto_commit(self.controlArea,
self,
"autoCommit",
"Commit",
box="Commit")
self.commitIf = self.commit
gui.rubber(self.controlArea)
gui.widgetLabel(self.mainArea, "Filter")
self.filterLineEdit = QLineEdit(textChanged=self.filter)
self.completer = TokenListCompleter(self,
caseSensitivity=Qt.CaseInsensitive)
self.filterLineEdit.setCompleter(self.completer)
self.mainArea.layout().addWidget(self.filterLineEdit)
splitter = QSplitter(Qt.Vertical, self.mainArea)
self.mainArea.layout().addWidget(splitter)
self.treeWidget = QTreeView(splitter)
self.treeWidget.setSelectionMode(QTreeView.SingleSelection)
self.treeWidget.setRootIsDecorated(False)
self.treeWidget.setSortingEnabled(True)
self.treeWidget.setAlternatingRowColors(True)
self.treeWidget.setUniformRowHeights(True)
self.treeWidget.setEditTriggers(QTreeView.NoEditTriggers)
linkdelegate = LinkStyledItemDelegate(self.treeWidget)
self.treeWidget.setItemDelegateForColumn(1, linkdelegate)
self.treeWidget.setItemDelegateForColumn(8, linkdelegate)
self.treeWidget.setItemDelegateForColumn(
0, gui.IndicatorItemDelegate(self.treeWidget, role=Qt.DisplayRole))
proxyModel = MySortFilterProxyModel(self.treeWidget)
self.treeWidget.setModel(proxyModel)
self.treeWidget.selectionModel().selectionChanged.connect(
self.updateSelection)
self.treeWidget.viewport().setMouseTracking(True)
splitterH = QSplitter(Qt.Horizontal, splitter)
box = gui.widgetBox(splitterH, "Description")
self.infoGDS = gui.widgetLabel(box, "")
self.infoGDS.setWordWrap(True)
gui.rubber(box)
box = gui.widgetBox(splitterH, "Sample Annotations")
self.annotationsTree = QTreeWidget(box)
self.annotationsTree.setHeaderLabels(
["Type (Sample annotations)", "Sample count"])
self.annotationsTree.setRootIsDecorated(True)
box.layout().addWidget(self.annotationsTree)
self.annotationsTree.itemChanged.connect(
self.annotationSelectionChanged)
self._annotationsUpdating = False
self.splitters = splitter, splitterH
for sp, setting in zip(self.splitters, self.splitterSettings):
sp.splitterMoved.connect(self.splitterMoved)
sp.restoreState(setting)
self.searchKeys = [
"dataset_id", "title", "platform_organism", "description"
]
self.gds = []
self.gds_info = None
self.resize(1000, 600)
self.setBlocking(True)
self.setEnabled(False)
self.progressBarInit()
self._executor = ThreadExecutor()
func = partial(get_gds_model,
methodinvoke(self, "_setProgress", (float, )))
self._inittask = Task(function=func)
self._inittask.finished.connect(self._initializemodel)
self._executor.submit(self._inittask)
self._datatask = None
@Slot(float)
def _setProgress(self, value):
self.progressBarValue = value
def _initializemodel(self):
assert self.thread() is QThread.currentThread()
model, self.gds_info, self.gds = self._inittask.result()
model.setParent(self)
proxy = self.treeWidget.model()
proxy.setFilterKeyColumn(0)
proxy.setFilterRole(TextFilterRole)
proxy.setFilterCaseSensitivity(False)
proxy.setFilterFixedString(self.filterString)
proxy.setSourceModel(model)
proxy.sort(0, Qt.DescendingOrder)
self.progressBarFinished()
self.setBlocking(False)
self.setEnabled(True)
filter_items = " ".join(gds[key] for gds in self.gds
for key in self.searchKeys)
tr_chars = ",.:;!?(){}[]_-+\\|/%#@$^&*<>~`"
tr_table = str.maketrans(tr_chars, " " * len(tr_chars))
filter_items = filter_items.translate(tr_table)
filter_items = sorted(set(filter_items.split(" ")))
filter_items = [item for item in filter_items if len(item) > 3]
self.completer.setTokenList(filter_items)
if self.currentGds:
current_id = self.currentGds["dataset_id"]
gdss = [(i, qunpack(proxy.data(proxy.index(i, 1), Qt.DisplayRole)))
for i in range(proxy.rowCount())]
current = [i for i, data in gdss if data and data == current_id]
if current:
current_index = proxy.index(current[0], 0)
self.treeWidget.selectionModel().select(
current_index,
QItemSelectionModel.Select | QItemSelectionModel.Rows)
self.treeWidget.scrollTo(current_index,
QTreeView.PositionAtCenter)
for i in range(8):
self.treeWidget.resizeColumnToContents(i)
self.treeWidget.setColumnWidth(
1, min(self.treeWidget.columnWidth(1), 300))
self.treeWidget.setColumnWidth(
2, min(self.treeWidget.columnWidth(2), 200))
self.updateInfo()
def updateInfo(self):
gds_info = self.gds_info
text = ("%i datasets\n%i datasets cached\n" %
(len(gds_info),
len(glob.glob(serverfiles.localpath("GEO") + "/GDS*"))))
filtered = self.treeWidget.model().rowCount()
if len(self.gds) != filtered:
text += ("%i after filtering") % filtered
self.infoBox.setText(text)
def updateSelection(self, *args):
current = self.treeWidget.selectedIndexes()
mapToSource = self.treeWidget.model().mapToSource
current = [mapToSource(index).row() for index in current]
if current:
self.currentGds = self.gds[current[0]]
self.setAnnotations(self.currentGds)
self.infoGDS.setText(self.currentGds.get("description", ""))
self.nameEdit.setPlaceholderText(self.currentGds["title"])
self.datasetName = \
self.datasetNames.get(self.currentGds["dataset_id"], "")
else:
self.currentGds = None
self.nameEdit.setPlaceholderText("")
self.datasetName = ""
self.commitIf()
def setAnnotations(self, gds):
self._annotationsUpdating = True
self.annotationsTree.clear()
annotations = defaultdict(set)
subsetscount = {}
for desc in gds["subsets"]:
annotations[desc["type"]].add(desc["description"])
subsetscount[desc["description"]] = str(len(desc["sample_id"]))
for type, subsets in annotations.items():
key = (gds["dataset_id"], type)
subsetItem = QTreeWidgetItem(self.annotationsTree, [type])
subsetItem.setFlags(subsetItem.flags() | Qt.ItemIsUserCheckable
| Qt.ItemIsTristate)
subsetItem.setCheckState(
0, self.gdsSelectionStates.get(key, Qt.Checked))
subsetItem.key = key
for subset in subsets:
key = (gds["dataset_id"], type, subset)
item = QTreeWidgetItem(
subsetItem, [subset, subsetscount.get(subset, "")])
item.setFlags(item.flags() | Qt.ItemIsUserCheckable)
item.setCheckState(
0, self.gdsSelectionStates.get(key, Qt.Checked))
item.key = key
self._annotationsUpdating = False
self.annotationsTree.expandAll()
for i in range(self.annotationsTree.columnCount()):
self.annotationsTree.resizeColumnToContents(i)
def annotationSelectionChanged(self, item, column):
if self._annotationsUpdating:
return
for i in range(self.annotationsTree.topLevelItemCount()):
item = self.annotationsTree.topLevelItem(i)
self.gdsSelectionStates[item.key] = item.checkState(0)
for j in range(item.childCount()):
child = item.child(j)
self.gdsSelectionStates[child.key] = child.checkState(0)
def filter(self):
filter_string = unicode(self.filterLineEdit.text())
proxyModel = self.treeWidget.model()
if proxyModel:
strings = filter_string.lower().strip().split()
proxyModel.setFilterFixedStrings(strings)
self.updateInfo()
def selectedSamples(self):
"""
Return the currently selected sample annotations.
The return value is a list of selected (sample type, sample value)
tuples.
.. note:: if some Sample annotation type has no selected values.
this method will return all values for it.
"""
samples = []
unused_types = []
used_types = []
for stype in childiter(self.annotationsTree.invisibleRootItem()):
selected_values = []
all_values = []
for sval in childiter(stype):
value = (str(stype.text(0)), str(sval.text(0)))
if self.gdsSelectionStates.get(sval.key, True):
selected_values.append(value)
all_values.append(value)
if selected_values:
samples.extend(selected_values)
used_types.append(str(stype.text(0)))
else:
# If no sample of sample type is selected we don't filter
# on it.
samples.extend(all_values)
unused_types.append(str(stype.text(0)))
return samples, used_types
def commitIf(self):
if self.autoCommit:
self.commit()
else:
self.selectionChanged = True
@Slot(int, int)
def progressCompleted(self, value, total):
if total > 0:
self.progressBarSet(100. * value / total, processEvents=False)
else:
pass
# TODO: report 'indeterminate progress'
def commit(self):
if self.currentGds:
self.error(0)
sample_type = None
self.progressBarInit(processEvents=None)
_, groups = self.selectedSamples()
if len(groups) == 1 and self.outputRows:
sample_type = groups[0]
self.setEnabled(False)
self.setBlocking(True)
progress = methodinvoke(self, "progressCompleted", (int, int))
def get_data(gds_id, report_genes, transpose, sample_type, title):
gds_ensure_downloaded(gds_id, progress)
gds = geo.GDS(gds_id)
data = gds.getdata(report_genes=report_genes,
transpose=transpose,
sample_type=sample_type)
data.name = title
return data
get_data = partial(get_data,
self.currentGds["dataset_id"],
report_genes=self.mergeSpots,
transpose=self.outputRows,
sample_type=sample_type,
title=self.datasetName
or self.currentGds["title"])
self._datatask = Task(function=get_data)
self._datatask.finished.connect(self._on_dataready)
self._executor.submit(self._datatask)
def _on_dataready(self):
self.setEnabled(True)
self.setBlocking(False)
self.progressBarFinished(processEvents=False)
try:
data = self._datatask.result()
except urlrequest.URLError as error:
self.error(0, ("Error while connecting to the NCBI ftp server! "
"'%s'" % error))
sys.excepthook(type(error), error, getattr(error, "__traceback__"))
return
finally:
self._datatask = None
data_name = data.name
samples, _ = self.selectedSamples()
self.warning(0)
message = None
if self.outputRows:
def samplesinst(ex):
out = []
for meta in data.domain.metas:
out.append((meta.name, ex[meta].value))
if data.domain.class_var.name != 'class':
out.append((data.domain.class_var.name,
ex[data.domain.class_var].value))
return out
samples = set(samples)
mask = [samples.issuperset(samplesinst(ex)) for ex in data]
data = data[numpy.array(mask, dtype=bool)]
if len(data) == 0:
message = "No samples with selected sample annotations."
else:
samples = set(samples)
domain = Orange.data.Domain([
attr for attr in data.domain.attributes
if samples.issuperset(attr.attributes.items())
], data.domain.class_var, data.domain.metas)
# domain.addmetas(data.domain.getmetas())
if len(domain.attributes) == 0:
message = "No samples with selected sample annotations."
stypes = set(s[0] for s in samples)
for attr in domain.attributes:
attr.attributes = dict(
(key, value) for key, value in attr.attributes.items()
if key in stypes)
data = Orange.data.Table(domain, data)
if message is not None:
self.warning(0, message)
data_hints.set_hint(data, "taxid", self.currentGds.get("taxid", ""),
10.0)
data_hints.set_hint(data, "genesinrows", self.outputRows, 10.0)
data.name = data_name
self.send("Expression Data", data)
model = self.treeWidget.model().sourceModel()
row = self.gds.index(self.currentGds)
model.setData(model.index(row, 0), " ", Qt.DisplayRole)
self.updateInfo()
self.selectionChanged = False
def splitterMoved(self, *args):
self.splitterSettings = [
bytes(sp.saveState()) for sp in self.splitters
]
def send_report(self):
self.report_items("GEO Dataset",
[("ID", self.currentGds['dataset_id']),
("Title", self.currentGds['title']),
("Organism", self.currentGds['sample_organism'])])
self.report_items("Data",
[("Samples", self.currentGds['sample_count']),
("Features", self.currentGds['feature_count']),
("Genes", self.currentGds['gene_count'])])
self.report_name("Sample annotations")
subsets = defaultdict(list)
for subset in self.currentGds['subsets']:
subsets[subset['type']].append(
(subset['description'], len(subset['sample_id'])))
self.report_html += "<ul>"
for type in subsets:
self.report_html += "<b>" + type + ":</b></br>"
for desc, count in subsets[type]:
self.report_html += 9 * " " + "<b>{}:</b> {}</br>".format(
desc, count)
self.report_html += "</ul>"
def onDeleteWidget(self):
if self._inittask:
self._inittask.future().cancel()
self._inittask.finished.disconnect(self._initializemodel)
if self._datatask:
self._datatask.future().cancel()
self._datatask.finished.disconnect(self._on_dataready)
self._executor.shutdown(wait=False)
super(OWGEODatasets, self).onDeleteWidget()
def onNameEdited(self):
if self.currentGds:
gds_id = self.currentGds["dataset_id"]
self.datasetNames[gds_id] = unicode(self.nameEdit.text())
self.commitIf()
def __init__(self, context, parent=None):
"""
:type context: segyviewlib.SliceViewContext
:type parent: QObject
"""
QWidget.__init__(self, parent, Qt.WindowStaysOnTopHint | Qt.Window)
self.setVisible(False)
self._context = context
self._context.context_changed.connect(self._settings_changed)
self._context.data_changed.connect(self._settings_changed)
self._context.data_source_changed.connect(self._settings_changed)
f_layout = QFormLayout()
self._iline_count = QLabel("")
self._xline_count = QLabel("")
self._offset_count = QLabel("")
self._sample_count = QLabel("")
self._minimum_value = QLabel("")
self._maximum_value = QLabel("")
f_layout.addRow("Inline Count:", self._iline_count)
f_layout.addRow("Crossline Count:", self._xline_count)
f_layout.addRow("Offset Count:", self._offset_count)
f_layout.addRow("Sample Count:", self._sample_count)
f_layout.addRow("Minimum Value:", self._minimum_value)
f_layout.addRow("Maximum Value:", self._maximum_value)
# iline
self._il_ctrl = IndexController(
parent=self,
context=self._context,
slice_direction_index_source=SliceDirection.inline)
self._il_ctrl.index_changed.connect(
self._index_changed_fn(SliceDirection.inline))
self._il_ctrl.min_max_changed.connect(self.iline_limits_changed)
# xline
self._xl_ctrl = IndexController(
parent=self,
context=self._context,
slice_direction_index_source=SliceDirection.crossline)
self._xl_ctrl.index_changed.connect(
self._index_changed_fn(SliceDirection.crossline))
self._xl_ctrl.min_max_changed.connect(self.xline_limits_changed)
# depth
self._depth_ctrl = IndexController(
parent=self,
context=self._context,
slice_direction_index_source=SliceDirection.depth)
self._depth_ctrl.index_changed.connect(
self._index_changed_fn(SliceDirection.depth))
self._depth_ctrl.min_max_changed.connect(self.depth_limits_changed)
# sample
self._sample_ctrl = SampleScaleController(self)
self._sample_ctrl.min_max_changed.connect(self.sample_limits_changed)
self._symmetric_scale = QCheckBox()
self._symmetric_scale.toggled.connect(
self._context.set_symmetric_scale)
self._samples_unit = QComboBox()
self._samples_unit.addItems(['Time (ms)', 'Depth (m)'])
self._samples_unit.currentIndexChanged[str].connect(self.samples_unit)
# view
self._view_label = QLabel("")
self._view_label.setDisabled(True)
self._indicator_visibility = QCheckBox()
self._indicator_visibility.toggled.connect(
self._context.show_indicators)
self._indicator_visibility.toggled.connect(
lambda: self._set_view_label(self._indicator_visibility.isChecked(
)))
self._interpolation_combo = QComboBox()
self._interpolations_names = ['nearest', 'catrom', 'sinc']
self._interpolation_combo.addItems(self._interpolations_names)
self._interpolation_combo.currentIndexChanged.connect(
self._interpolation_changed)
# plot export settings
if self._context._has_data:
self._plt_settings_wdgt = PlotExportSettingsWidget(
self, parent._slice_view_widget, self._context)
# define tree layout
tree_def = {
"": [
{
"Inline": [{
"set_expanded": True
}, {
"":
self._align(self._il_ctrl.current_index_label)
}, {
"Inline:":
self._align(self._il_ctrl.index_widget)
}, {
"Minimum:":
self._align(self._il_ctrl.min_spinbox,
self._il_ctrl.min_checkbox)
}, {
"Maximum:":
self._align(self._il_ctrl.max_spinbox,
self._il_ctrl.max_checkbox)
}]
},
{
"Crossline": [{
"set_expanded": True
}, {
"":
self._align(self._xl_ctrl.current_index_label)
}, {
"Crossline:":
self._align(self._xl_ctrl.index_widget)
}, {
"Minimum:":
self._align(self._xl_ctrl.min_spinbox,
self._xl_ctrl.min_checkbox)
}, {
"Maximum:":
self._align(self._xl_ctrl.max_spinbox,
self._xl_ctrl.max_checkbox)
}]
},
{
"Depth": [{
"set_expanded": True
}, {
"":
self._align(self._depth_ctrl.current_index_label)
}, {
"Depth:":
self._align(self._depth_ctrl.index_widget)
}, {
"Minimum:":
self._align(self._depth_ctrl.min_spinbox,
self._depth_ctrl.min_checkbox)
}, {
"Maximum:":
self._align(self._depth_ctrl.max_spinbox,
self._depth_ctrl.max_checkbox)
}, {
"Type": self._align(self._samples_unit)
}]
},
{
"Sample": [{
"Custom min.:":
self._align(self._sample_ctrl.min_spinbox,
self._sample_ctrl.min_checkbox)
}, {
"Custom max.:":
self._align(self._sample_ctrl.max_spinbox,
self._sample_ctrl.max_checkbox)
}, {
"Symmetric scale:":
self._align(self._symmetric_scale)
}]
},
{
"View": [{
"": self._align(self._view_label)
}, {
"Show Indicators:":
self._align(self._indicator_visibility)
}, {
"Interpolation Type:":
self._align(self._interpolation_combo)
}]
},
]
}
if self._context._has_data:
tree_def[''].append({
"Plot export dimensions": [{
"":
self._align(self._plt_settings_wdgt.label)
}, {
"Fixed size":
self._align(self._plt_settings_wdgt.checkbox)
}, {
"Width:":
self._align(self._plt_settings_wdgt.width_spinbox)
}, {
"Height:":
self._align(self._plt_settings_wdgt.height_spinbox)
}, {
"Units:":
self._align(self._plt_settings_wdgt.units_combobox)
}]
})
# setup the menu/navigation tree widget
tre = QTreeWidget(self)
tre.setHeaderHidden(True)
tre.setColumnCount(2)
tre.setColumnWidth(0, 140)
tre.setColumnWidth(1, 180)
self._build_tree(tre, tree_def, tre.invisibleRootItem())
# layout
vertical_layout = QVBoxLayout()
button_layout = QHBoxLayout()
button_layout.setContentsMargins(0, 0, 0, 0)
close_button = QPushButton("Close")
close_button.clicked.connect(self.close)
button_layout.addStretch()
button_layout.addWidget(close_button)
vertical_layout.addLayout(f_layout, 0)
vertical_layout.addStretch()
vertical_layout.addWidget(tre, 1)
vertical_layout.addStretch()
vertical_layout.addLayout(button_layout, 0)
self.setLayout(vertical_layout)
self.setMinimumSize(390, 740)
class StepKwMultiClassifications(WizardStep, FORM_CLASS):
"""InaSAFE Wizard Step Multi Classifications."""
def __init__(self, parent=None):
"""Constructor for the tab.
:param parent: widget to use as parent (Wizard Dialog).
:type parent: QWidget
"""
WizardStep.__init__(self, parent)
self.exposures = []
self.exposure_labels = []
self.exposure_combo_boxes = []
self.exposure_edit_buttons = []
self.mode = CHOOSE_MODE
self.layer_purpose = None
self.layer_mode = None
# Store the current representative state of the UI.
# self.classifications = {}
self.value_maps = {}
self.thresholds = {}
# Temporary attributes
self.threshold_classes = OrderedDict()
self.active_exposure = None
self.list_unique_values = None
self.tree_mapping_widget = None
# GUI, good for testing
self.save_button = None
# Has default threshold
# Trick for EQ raster for population #3853
self.use_default_thresholds = False
# Index of the special case exposure classification
self.special_case_index = None
def is_ready_to_next_step(self):
"""Check if the step is complete.
:returns: True if new step may be enabled.
:rtype: bool
"""
# Still editing
if self.mode == EDIT_MODE:
return False
for combo_box in self.exposure_combo_boxes:
# Enable if there is one that has classification
if combo_box.currentIndex() > 0:
return True
# Trick for EQ raster for population #3853
if self.use_default_thresholds:
return True
return False
def get_next_step(self):
"""Find the proper step when user clicks the Next button.
:returns: The step to be switched to.
:rtype: WizardStep instance or None
"""
if self.layer_purpose != layer_purpose_aggregation:
subcategory = self.parent.step_kw_subcategory.\
selected_subcategory()
else:
subcategory = {'key': None}
if is_raster_layer(self.parent.layer):
return self.parent.step_kw_source
# Check if it can go to inasafe field step
inasafe_fields = get_non_compulsory_fields(
self.layer_purpose['key'], subcategory['key'])
if not skip_inasafe_field(self.parent.layer, inasafe_fields):
return self.parent.step_kw_inasafe_fields
# Check if it can go to inasafe default field step
default_inasafe_fields = get_fields(
self.layer_purpose['key'],
subcategory['key'],
replace_null=True,
in_group=False
)
if default_inasafe_fields:
return self.parent.step_kw_default_inasafe_fields
# Any other case
return self.parent.step_kw_source
def set_wizard_step_description(self):
"""Set the text for description."""
subcategory = self.parent.step_kw_subcategory.selected_subcategory()
field = self.parent.step_kw_field.selected_fields()
is_raster = is_raster_layer(self.parent.layer)
if is_raster:
if self.layer_mode == layer_mode_continuous:
text_label = multiple_continuous_hazard_classifications_raster
else:
text_label = multiple_classified_hazard_classifications_raster
# noinspection PyAugmentAssignment
text_label = text_label % (
subcategory['name'], self.layer_purpose['name'])
else:
if self.layer_mode == layer_mode_continuous:
text_label = multiple_continuous_hazard_classifications_vector
else:
text_label = multiple_classified_hazard_classifications_vector
# noinspection PyAugmentAssignment
text_label = text_label % (
subcategory['name'], self.layer_purpose['name'], field)
self.multi_classifications_label.setText(text_label)
def setup_left_panel(self):
"""Setup the UI for left panel.
Generate all exposure, combobox, and edit button.
"""
hazard = self.parent.step_kw_subcategory.selected_subcategory()
left_panel_heading = QLabel(tr('Classifications'))
left_panel_heading.setFont(big_font)
self.left_layout.addWidget(left_panel_heading)
inner_left_layout = QGridLayout()
row = 0
for exposure in exposure_all:
special_case = False
# Filter out unsupported exposure for the hazard
if exposure in hazard['disabled_exposures']:
# Remove from the storage if the exposure is disabled
if self.layer_mode == layer_mode_continuous:
if exposure['key'] in self.thresholds:
self.thresholds.pop(exposure['key'])
else:
if exposure['key'] in self.value_maps:
self.value_maps.pop(exposure['key'])
continue
# Trick for EQ raster for population #3853
if exposure == exposure_population and hazard == hazard_earthquake:
if is_raster_layer(self.parent.layer):
if self.layer_mode == layer_mode_continuous:
self.use_default_thresholds = True
special_case = True
# Set classification for EQ Raster for Population
self.thresholds[exposure_population['key']] = {
earthquake_mmi_scale['key']: {
'classes': default_classification_thresholds(
earthquake_mmi_scale),
'active': True
}
}
# Add label
# Hazard on Exposure Classifications
label = tr(
'{hazard_name} on {exposure_name} Classifications').format(
hazard_name=hazard['name'],
exposure_name=exposure['name']
)
exposure_label = QLabel(label)
# Add combo box
exposure_combo_box = QComboBox()
hazard_classifications = hazard.get('classifications')
exposure_combo_box.addItem(tr('No classifications'))
exposure_combo_box.setItemData(
0, None, Qt.UserRole)
current_index = 0
i = 0
# Iterate through all available hazard classifications
for hazard_classification in hazard_classifications:
# Skip if the classification is not for the exposure
if 'exposures' in hazard_classification:
if exposure not in hazard_classification['exposures']:
continue
exposure_combo_box.addItem(hazard_classification['name'])
exposure_combo_box.setItemData(
i + 1, hazard_classification, Qt.UserRole)
if self.layer_mode == layer_mode_continuous:
current_hazard_classifications = self.thresholds.get(
exposure['key'])
else:
current_hazard_classifications = self.value_maps.get(
exposure['key'])
if current_hazard_classifications:
current_hazard_classification = \
current_hazard_classifications.get(
hazard_classification['key'])
if current_hazard_classification:
is_active = current_hazard_classification.get('active')
if is_active:
current_index = i + 1
i += 1
# Set current classification
exposure_combo_box.setCurrentIndex(current_index)
# Add edit button
exposure_edit_button = QPushButton(tr('Edit'))
# For special case. Raster EQ on Population.
if special_case:
mmi_index = exposure_combo_box.findText(
earthquake_mmi_scale['name'])
exposure_combo_box.setCurrentIndex(mmi_index)
exposure_combo_box.setEnabled(False)
exposure_edit_button.setEnabled(False)
tool_tip_message = tr(
'InaSAFE use default classification for Raster Earthquake '
'hazard on population.')
exposure_label.setToolTip(tool_tip_message)
exposure_combo_box.setToolTip(tool_tip_message)
exposure_edit_button.setToolTip(tool_tip_message)
else:
if current_index == 0:
# Disable if there is no classification chosen.
exposure_edit_button.setEnabled(False)
exposure_edit_button.clicked.connect(
partial(self.edit_button_clicked,
edit_button=exposure_edit_button,
exposure_combo_box=exposure_combo_box,
exposure=exposure))
exposure_combo_box.currentIndexChanged.connect(
partial(
self.classifications_combo_box_changed,
exposure=exposure,
exposure_combo_box=exposure_combo_box,
edit_button=exposure_edit_button))
# Arrange in layout
inner_left_layout.addWidget(exposure_label, row, 0)
inner_left_layout.addWidget(exposure_combo_box, row, 1)
inner_left_layout.addWidget(exposure_edit_button, row, 2)
# Adding to step's attribute
self.exposures.append(exposure)
self.exposure_combo_boxes.append(exposure_combo_box)
self.exposure_edit_buttons.append(exposure_edit_button)
self.exposure_labels.append(label)
if special_case:
self.special_case_index = len(self.exposures) - 1
row += 1
self.left_layout.addLayout(inner_left_layout)
# To push the inner_left_layout up
self.left_layout.addStretch(1)
# noinspection PyUnusedLocal
def edit_button_clicked(self, edit_button, exposure_combo_box, exposure):
"""Method to handle when an edit button is clicked.
:param edit_button: The edit button.
:type edit_button: QPushButton
:param exposure_combo_box: The combo box of the exposure, contains
list of classifications.
:type exposure_combo_box: QComboBox
:param exposure: Exposure definition.
:type exposure: dict
"""
# Note(IS): Do not change the text of edit button for now until we
# have better behaviour.
classification = self.get_classification(exposure_combo_box)
if self.mode == CHOOSE_MODE:
# Change mode
self.mode = EDIT_MODE
# Set active exposure
self.active_exposure = exposure
# Disable all edit button
for exposure_edit_button in self.exposure_edit_buttons:
exposure_edit_button.setEnabled(False)
# Except one that was clicked
# edit_button.setEnabled(True)
# Disable all combo box
for exposure_combo_box in self.exposure_combo_boxes:
exposure_combo_box.setEnabled(False)
# Change the edit button to cancel
# edit_button.setText(tr('Cancel'))
# Clear right panel
clear_layout(self.right_layout)
# Show edit threshold or value mapping
if self.layer_mode == layer_mode_continuous:
self.setup_thresholds_panel(classification)
else:
self.setup_value_mapping_panels(classification)
self.add_buttons(classification)
elif self.mode == EDIT_MODE:
# Behave the same as cancel button clicked.
self.cancel_button_clicked()
self.parent.pbnNext.setEnabled(self.is_ready_to_next_step())
def show_current_state(self):
"""Setup the UI for QTextEdit to show the current state."""
right_panel_heading = QLabel(tr('Status'))
right_panel_heading.setFont(big_font)
right_panel_heading.setSizePolicy(
QSizePolicy.Maximum, QSizePolicy.Maximum)
self.right_layout.addWidget(right_panel_heading)
message = m.Message()
if self.layer_mode == layer_mode_continuous:
title = tr('Thresholds')
else:
title = tr('Value maps')
message.add(m.Heading(title, **INFO_STYLE))
for i in range(len(self.exposures)):
message.add(m.Text(self.exposure_labels[i]))
classification = self.get_classification(
self.exposure_combo_boxes[i])
if self.layer_mode == layer_mode_continuous:
thresholds = self.thresholds.get(self.exposures[i]['key'])
if not thresholds or not classification:
message.add(m.Paragraph(tr('No classifications set.')))
continue
table = m.Table(
style_class='table table-condensed table-striped')
header = m.Row()
header.add(m.Cell(tr('Class name')))
header.add(m.Cell(tr('Minimum')))
header.add(m.Cell(tr('Maximum')))
table.add(header)
classes = classification.get('classes')
# Sort by value, put the lowest first
classes = sorted(classes, key=lambda k: k['value'])
for the_class in classes:
threshold = thresholds[classification['key']]['classes'][
the_class['key']]
row = m.Row()
row.add(m.Cell(the_class['name']))
row.add(m.Cell(threshold[0]))
row.add(m.Cell(threshold[1]))
table.add(row)
else:
value_maps = self.value_maps.get(self.exposures[i]['key'])
if not value_maps or not classification:
message.add(m.Paragraph(tr('No classifications set.')))
continue
table = m.Table(
style_class='table table-condensed table-striped')
header = m.Row()
header.add(m.Cell(tr('Class name')))
header.add(m.Cell(tr('Value')))
table.add(header)
classes = classification.get('classes')
# Sort by value, put the lowest first
classes = sorted(classes, key=lambda k: k['value'])
for the_class in classes:
value_map = value_maps[classification['key']][
'classes'].get(the_class['key'], [])
row = m.Row()
row.add(m.Cell(the_class['name']))
row.add(m.Cell(', '.join([str(v) for v in value_map])))
table.add(row)
message.add(table)
# status_text_edit = QTextBrowser(None)
status_text_edit = QWebView(None)
status_text_edit.setSizePolicy(
QSizePolicy.Ignored,
QSizePolicy.Ignored)
status_text_edit.page().mainFrame().setScrollBarPolicy(
Qt.Horizontal,
Qt.ScrollBarAlwaysOff)
html_string = html_header() + message.to_html() + html_footer()
status_text_edit.setHtml(html_string)
self.right_layout.addWidget(status_text_edit)
def set_widgets(self):
"""Set widgets on the Multi classification step."""
self.clear()
self.layer_mode = self.parent.step_kw_layermode.selected_layermode()
self.layer_purpose = self.parent.step_kw_purpose.selected_purpose()
self.set_current_state()
# Set the step description
self.set_wizard_step_description()
# Set the left panel
self.setup_left_panel()
# Set the right panel, for the beginning show the viewer
self.show_current_state()
def clear(self):
"""Clear current state."""
self.exposures = []
self.exposure_labels = []
self.exposure_combo_boxes = []
self.exposure_edit_buttons = []
self.mode = CHOOSE_MODE
self.layer_purpose = None
self.layer_mode = None
self.special_case_index = None
self.value_maps = {}
self.thresholds = {}
# Temporary attributes
self.threshold_classes = OrderedDict()
self.active_exposure = None
self.list_unique_values = None
self.tree_mapping_widget = None
clear_layout(self.left_layout)
clear_layout(self.right_layout)
def get_current_state(self):
"""Obtain current classification and value map / threshold."""
def clean_state(dictionary):
"""Clean dictionary from bad value.
:param dictionary: Dictionary of value maps or thresholds.
:type dictionary: dict
:returns: Clean state.
:rtype: dict
"""
clean_dictionary = {
k: v for k, v in dictionary.items()
if isinstance(v, dict)}
return clean_dictionary
if self.layer_mode == layer_mode_continuous:
output = {'thresholds': clean_state(self.thresholds)}
key = 'thresholds'
else:
output = {'value_maps': clean_state(self.value_maps)}
key = 'value_maps'
# Clean non existing hazard class key
empty_exposure_classifications = []
for the_exposure, the_hazard_classifications in output[key].items():
for the_hazard_classification in the_hazard_classifications.\
keys():
invalid_classifications = []
if not definition(the_hazard_classification):
invalid_classifications.append(
the_hazard_classification)
for invalid_classification in invalid_classifications:
the_hazard_classifications.pop(invalid_classification)
if not the_hazard_classifications:
empty_exposure_classifications.append(the_exposure)
for empty_exposure_classification in empty_exposure_classifications:
output[key].pop(empty_exposure_classification)
return output
@staticmethod
def get_classification(combo_box):
"""Helper to obtain the classification from a combo box.
:param combo_box: A classification combo box.
:type combo_box: QComboBox.
:returns: Classification definitions.
:rtype: dict
"""
return combo_box.itemData(combo_box.currentIndex(), Qt.UserRole)
def setup_thresholds_panel(self, classification):
"""Setup threshold panel in the right panel.
:param classification: Classification definition.
:type classification: dict
"""
# Set text in the label
layer_purpose = self.parent.step_kw_purpose.selected_purpose()
layer_subcategory = self.parent.step_kw_subcategory.\
selected_subcategory()
if is_raster_layer(self.parent.layer):
statistics = self.parent.layer.dataProvider().bandStatistics(
1, QgsRasterBandStats.All, self.parent.layer.extent(), 0)
description_text = continuous_raster_question % (
layer_purpose['name'],
layer_subcategory['name'],
classification['name'],
statistics.minimumValue,
statistics.maximumValue)
else:
field_name = self.parent.step_kw_field.selected_fields()
field_index = self.parent.layer.fieldNameIndex(field_name)
min_value_layer = self.parent.layer.minimumValue(field_index)
max_value_layer = self.parent.layer.maximumValue(field_index)
description_text = continuous_vector_question % (
layer_purpose['name'],
layer_subcategory['name'],
field_name,
classification['name'],
min_value_layer,
max_value_layer)
# Set description
description_label = QLabel(description_text)
description_label.setWordWrap(True)
self.right_layout.addWidget(description_label)
if self.thresholds:
thresholds = self.thresholds
else:
thresholds = self.parent.get_existing_keyword('thresholds')
selected_unit = self.parent.step_kw_unit.selected_unit()['key']
self.threshold_classes = OrderedDict()
classes = classification.get('classes')
# Sort by value, put the lowest first
classes = sorted(classes, key=lambda the_key: the_key['value'])
grid_layout_thresholds = QGridLayout()
for i, the_class in enumerate(classes):
class_layout = QHBoxLayout()
# Class label
class_label = QLabel(the_class['name'])
# Min label
min_label = QLabel(tr('Min >'))
# Min value as double spin
min_value_input = QDoubleSpinBox()
# TODO(IS) We can set the min and max depends on the unit, later
min_value_input.setMinimum(0)
min_value_input.setMaximum(999999)
if thresholds.get(self.active_exposure['key']):
exposure_thresholds = thresholds.get(
self.active_exposure['key'])
if exposure_thresholds.get(classification['key']):
exposure_thresholds_classifications = exposure_thresholds\
.get(classification['key'])
min_value_input.setValue(
exposure_thresholds_classifications['classes'][
the_class['key']][0])
else:
default_min = the_class['numeric_default_min']
if isinstance(default_min, dict):
default_min = the_class[
'numeric_default_min'][selected_unit]
min_value_input.setValue(default_min)
else:
default_min = the_class['numeric_default_min']
if isinstance(default_min, dict):
default_min = the_class[
'numeric_default_min'][selected_unit]
min_value_input.setValue(default_min)
min_value_input.setSingleStep(0.1)
# Max label
max_label = QLabel(tr('Max <='))
# Max value as double spin
max_value_input = QDoubleSpinBox()
# TODO(IS) We can set the min and max depends on the unit, later
max_value_input.setMinimum(0)
max_value_input.setMaximum(999999)
if thresholds.get(self.active_exposure['key']):
exposure_thresholds = thresholds.get(
self.active_exposure['key'])
if exposure_thresholds.get(classification['key']):
exposure_thresholds_classifications = exposure_thresholds \
.get(classification['key'])
max_value_input.setValue(
exposure_thresholds_classifications['classes'][
the_class['key']][1])
else:
default_max = the_class['numeric_default_max']
if isinstance(default_max, dict):
default_max = the_class[
'numeric_default_max'][selected_unit]
max_value_input.setValue(default_max)
else:
default_max = the_class['numeric_default_max']
if isinstance(default_max, dict):
default_max = the_class[
'numeric_default_max'][selected_unit]
max_value_input.setValue(default_max)
max_value_input.setSingleStep(0.1)
# Add to class_layout
class_layout.addWidget(min_label)
class_layout.addWidget(min_value_input)
class_layout.addWidget(max_label)
class_layout.addWidget(max_value_input)
class_layout.setStretch(0, 1)
class_layout.setStretch(1, 2)
class_layout.setStretch(2, 1)
class_layout.setStretch(3, 2)
# Add to grid_layout
grid_layout_thresholds.addWidget(class_label, i, 0)
grid_layout_thresholds.addLayout(class_layout, i, 1)
self.threshold_classes[the_class['key']] = [
min_value_input, max_value_input]
grid_layout_thresholds.setColumnStretch(0, 1)
grid_layout_thresholds.setColumnStretch(0, 2)
def min_max_changed(double_spin_index, mode):
"""Slot when min or max value change.
:param double_spin_index: The index of the double spin.
:type double_spin_index: int
:param mode: The flag to indicate the min or max value.
:type mode: int
"""
if mode == MAX_VALUE_MODE:
current_max_value = self.threshold_classes.values()[
double_spin_index][1]
target_min_value = self.threshold_classes.values()[
double_spin_index + 1][0]
if current_max_value.value() != target_min_value.value():
target_min_value.setValue(current_max_value.value())
elif mode == MIN_VALUE_MODE:
current_min_value = self.threshold_classes.values()[
double_spin_index][0]
target_max_value = self.threshold_classes.values()[
double_spin_index - 1][1]
if current_min_value.value() != target_max_value.value():
target_max_value.setValue(current_min_value.value())
# Set behaviour
for k, v in self.threshold_classes.items():
index = self.threshold_classes.keys().index(k)
if index < len(self.threshold_classes) - 1:
# Max value changed
v[1].valueChanged.connect(partial(
min_max_changed,
double_spin_index=index,
mode=MAX_VALUE_MODE))
if index > 0:
# Min value
v[0].valueChanged.connect(partial(
min_max_changed,
double_spin_index=index,
mode=MIN_VALUE_MODE))
grid_layout_thresholds.setSpacing(0)
self.right_layout.addLayout(grid_layout_thresholds)
def add_buttons(self, classification):
"""Helper to setup 3 buttons.
:param classification: The current classification.
:type classification: dict
"""
# Note(IS): Until we have good behaviour, we will disable load
# default and cancel button.
# Add 3 buttons: Load default, Cancel, Save
# load_default_button = QPushButton(tr('Load Default'))
# cancel_button = QPushButton(tr('Cancel'))
self.save_button = QPushButton(tr('Save'))
# Action for buttons
# cancel_button.clicked.connect(self.cancel_button_clicked)
self.save_button.clicked.connect(
partial(self.save_button_clicked, classification=classification))
button_layout = QHBoxLayout()
# button_layout.addWidget(load_default_button)
button_layout.addStretch(1)
# button_layout.addWidget(cancel_button)
button_layout.addWidget(self.save_button)
button_layout.setStretch(0, 3)
button_layout.setStretch(1, 1)
# button_layout.setStretch(2, 1)
# button_layout.setStretch(3, 1)
self.right_layout.addLayout(button_layout)
def setup_value_mapping_panels(self, classification):
"""Setup value mapping panel in the right panel.
:param classification: Classification definition.
:type classification: dict
"""
# Set text in the label
layer_purpose = self.parent.step_kw_purpose.selected_purpose()
layer_subcategory = self.parent.step_kw_subcategory. \
selected_subcategory()
if is_raster_layer(self.parent.layer):
description_text = classify_raster_question % (
layer_subcategory['name'],
layer_purpose['name'],
classification['name'])
dataset = gdal.Open(self.parent.layer.source(), GA_ReadOnly)
active_band = self.parent.step_kw_band_selector.selected_band()
unique_values = numpy.unique(numpy.array(
dataset.GetRasterBand(active_band).ReadAsArray()))
field_type = 0
# Convert datatype to a json serializable type
if numpy.issubdtype(unique_values.dtype, float):
unique_values = [float(i) for i in unique_values]
else:
unique_values = [int(i) for i in unique_values]
else:
field = self.parent.step_kw_field.selected_fields()
field_index = self.parent.layer.dataProvider().fields(). \
indexFromName(field)
field_type = self.parent.layer.dataProvider(). \
fields()[field_index].type()
description_text = classify_vector_question % (
layer_subcategory['name'],
layer_purpose['name'],
classification['name'],
field.upper())
unique_values = self.parent.layer.uniqueValues(field_index)
# Set description
description_label = QLabel(description_text)
description_label.setWordWrap(True)
self.right_layout.addWidget(description_label)
self.list_unique_values = QListWidget()
self.list_unique_values.setDragDropMode(QAbstractItemView.DragDrop)
self.list_unique_values.setDefaultDropAction(Qt.MoveAction)
self.tree_mapping_widget = QTreeWidget()
self.tree_mapping_widget.setDragDropMode(QAbstractItemView.DragDrop)
self.tree_mapping_widget.setDefaultDropAction(Qt.MoveAction)
self.tree_mapping_widget.header().hide()
self.tree_mapping_widget.itemChanged.connect(
self.update_dragged_item_flags)
value_mapping_layout = QHBoxLayout()
value_mapping_layout.addWidget(self.list_unique_values)
value_mapping_layout.addWidget(self.tree_mapping_widget)
self.right_layout.addLayout(value_mapping_layout)
default_classes = classification['classes']
# Assign unique values to classes (according to default)
unassigned_values = list()
assigned_values = dict()
for default_class in default_classes:
assigned_values[default_class['key']] = list()
for unique_value in unique_values:
if unique_value is None or isinstance(
unique_value, QPyNullVariant):
# Don't classify features with NULL value
continue
# Capitalization of the value and removing '_' (raw OSM data).
value_as_string = unicode(unique_value).upper().replace('_', ' ')
assigned = False
for default_class in default_classes:
if 'string_defaults' in default_class:
condition_1 = (
field_type > 9 and
value_as_string in [
c.upper() for c in
default_class['string_defaults']])
else:
condition_1 = False
condition_2 = (
field_type < 10 and
'numeric_default_min' in default_class and
'numeric_default_max' in default_class and (
default_class['numeric_default_min'] <= unique_value <
default_class['numeric_default_max']))
if condition_1 or condition_2:
assigned_values[default_class['key']] += [unique_value]
assigned = True
if not assigned:
# add to unassigned values list otherwise
unassigned_values += [unique_value]
self.populate_classified_values(
unassigned_values,
assigned_values,
default_classes,
self.list_unique_values,
self.tree_mapping_widget
)
# Current value map for exposure and classification
available_classifications = self.value_maps.get(
self.active_exposure['key'])
if not available_classifications:
return
# Get active one
current_classification = available_classifications.get(
classification['key'])
if not current_classification:
return
current_value_map = current_classification.get('classes')
if not current_value_map:
return
unassigned_values = list()
assigned_values = dict()
for default_class in default_classes:
assigned_values[default_class['key']] = list()
for unique_value in unique_values:
if unique_value is None or isinstance(
unique_value, QPyNullVariant):
# Don't classify features with NULL value
continue
# check in value map
assigned = False
for key, value_list in current_value_map.items():
if unique_value in value_list and key in assigned_values:
assigned_values[key] += [unique_value]
assigned = True
if not assigned:
unassigned_values += [unique_value]
self.populate_classified_values(
unassigned_values,
assigned_values,
default_classes,
self.list_unique_values,
self.tree_mapping_widget
)
# noinspection PyMethodMayBeStatic
def update_dragged_item_flags(self, item):
"""Fix the drop flag after the item is dropped.
Check if it looks like an item dragged from QListWidget
to QTreeWidget and disable the drop flag.
For some reasons the flag is set when dragging.
:param item: Item which is dragged.
:type item: QTreeWidgetItem
.. note:: This is a slot executed when the item change.
"""
if int(item.flags() & Qt.ItemIsDropEnabled) \
and int(item.flags() & Qt.ItemIsDragEnabled):
item.setFlags(item.flags() & ~Qt.ItemIsDropEnabled)
@staticmethod
def populate_classified_values(
unassigned_values, assigned_values, default_classes,
list_unique_values, tree_mapping_widget):
"""Populate lstUniqueValues and treeClasses.from the parameters.
:param unassigned_values: List of values that haven't been assigned
to a class. It will be put in list_unique_values.
:type unassigned_values: list
:param assigned_values: Dictionary with class as the key and list of
value as the value of the dictionary. It will be put in
tree_mapping_widget.
:type assigned_values: dict
:param default_classes: Default classes from unit.
:type default_classes: list
:param list_unique_values: List Widget for unique values
:type list_unique_values: QListWidget
:param tree_mapping_widget: Tree Widget for classifying.
:type tree_mapping_widget: QTreeWidget
"""
# Populate the unique values list
list_unique_values.clear()
list_unique_values.setSelectionMode(
QAbstractItemView.ExtendedSelection)
for value in unassigned_values:
value_as_string = value is not None and unicode(value) or 'NULL'
list_item = QListWidgetItem(list_unique_values)
list_item.setFlags(
Qt.ItemIsEnabled |
Qt.ItemIsSelectable |
Qt.ItemIsDragEnabled)
list_item.setData(Qt.UserRole, value)
list_item.setText(value_as_string)
list_unique_values.addItem(list_item)
# Populate assigned values tree
tree_mapping_widget.clear()
bold_font = QFont()
bold_font.setItalic(True)
bold_font.setBold(True)
bold_font.setWeight(75)
tree_mapping_widget.invisibleRootItem().setFlags(
Qt.ItemIsEnabled)
for default_class in default_classes:
# Create branch for class
tree_branch = QTreeWidgetItem(tree_mapping_widget)
tree_branch.setFlags(
Qt.ItemIsDropEnabled | Qt.ItemIsEnabled)
tree_branch.setExpanded(True)
tree_branch.setFont(0, bold_font)
if 'name' in default_class:
default_class_name = default_class['name']
else:
default_class_name = default_class['key']
tree_branch.setText(0, default_class_name)
tree_branch.setData(0, Qt.UserRole, default_class['key'])
if 'description' in default_class:
tree_branch.setToolTip(0, default_class['description'])
# Assign known values
for value in assigned_values[default_class['key']]:
string_value = value is not None and unicode(value) or 'NULL'
tree_leaf = QTreeWidgetItem(tree_branch)
tree_leaf.setFlags(
Qt.ItemIsEnabled |
Qt.ItemIsSelectable |
Qt.ItemIsDragEnabled)
tree_leaf.setData(0, Qt.UserRole, value)
tree_leaf.setText(0, string_value)
def cancel_button_clicked(self):
"""Action for cancel button clicked."""
# Change mode
self.mode = CHOOSE_MODE
# Enable all edit buttons and combo boxes
for i in range(len(self.exposures)):
if i == self.special_case_index:
self.exposure_edit_buttons[i].setEnabled(False)
self.exposure_combo_boxes[i].setEnabled(False)
continue
if self.get_classification(self.exposure_combo_boxes[i]):
self.exposure_edit_buttons[i].setEnabled(True)
else:
self.exposure_edit_buttons[i].setEnabled(False)
# self.exposure_edit_buttons[i].setText(tr('Edit'))
self.exposure_combo_boxes[i].setEnabled(True)
# Clear right panel
clear_layout(self.right_layout)
# Show current state
self.show_current_state()
# Unset active exposure
self.active_exposure = None
self.parent.pbnNext.setEnabled(self.is_ready_to_next_step())
def save_button_clicked(self, classification):
"""Action for save button clicked.
:param classification: The classification that being edited.
:type classification: dict
"""
# Save current edit
if self.layer_mode == layer_mode_continuous:
thresholds = self.get_threshold()
classification_class = {
'classes': thresholds,
'active': True
}
if self.thresholds.get(self.active_exposure['key']):
# Set other class to not active
for current_classification in self.thresholds.get(
self.active_exposure['key']).values():
current_classification['active'] = False
else:
self.thresholds[self.active_exposure['key']] = {}
self.thresholds[self.active_exposure['key']][
classification['key']] = classification_class
else:
value_maps = self.get_value_map()
classification_class = {
'classes': value_maps,
'active': True
}
if self.value_maps.get(self.active_exposure['key']):
# Set other class to not active
for current_classification in self.value_maps.get(
self.active_exposure['key']).values():
current_classification['active'] = False
else:
self.value_maps[self.active_exposure['key']] = {}
self.value_maps[self.active_exposure['key']][
classification['key']] = classification_class
# Back to choose mode
self.cancel_button_clicked()
def get_threshold(self):
"""Return threshold based on current state."""
value_map = dict()
for key, value in self.threshold_classes.items():
value_map[key] = [
value[0].value(),
value[1].value(),
]
return value_map
def get_value_map(self):
"""Obtain the value-to-class mapping set by user.
:returns: The complete mapping as a dict of lists.
:rtype: dict
"""
value_map = {}
tree_clone = self.tree_mapping_widget.invisibleRootItem().clone()
for tree_branch in tree_clone.takeChildren():
value_list = []
for tree_leaf in tree_branch.takeChildren():
value_list += [tree_leaf.data(0, Qt.UserRole)]
if value_list:
value_map[tree_branch.data(0, Qt.UserRole)] = value_list
return value_map
def set_current_state(self):
""""Helper to set the state of the step from current keywords."""
if not self.thresholds:
self.thresholds = self.parent.get_existing_keyword('thresholds')
if not self.value_maps:
self.value_maps = self.parent.get_existing_keyword('value_maps')
def classifications_combo_box_changed(
self, index, exposure, exposure_combo_box, edit_button):
"""Action when classification combo box changed.
:param index: The index of the combo box.
:type index: int
:param exposure: The exposure associated with the combo box.
:type exposure: dict
:param exposure_combo_box: Combo box for the classification.
:type exposure_combo_box: QComboBox
:param edit_button: The edit button associate with combo box.
:type edit_button: QPushButton
"""
# Disable button if it's no classification
edit_button.setEnabled(bool(index))
classification = self.get_classification(exposure_combo_box)
self.activate_classification(exposure, classification)
clear_layout(self.right_layout)
self.show_current_state()
self.parent.pbnNext.setEnabled(self.is_ready_to_next_step())
# Open edit panel directly
edit_button.click()
def activate_classification(self, exposure, classification=None):
"""Set active to True for classification for the exposure.
If classification = None, all classification set active = False.
:param exposure: Exposure definition.
:type exposure: dict
:param classification: Classification definition.
:type classification: dict
"""
if self.layer_mode == layer_mode_continuous:
selected_unit = self.parent.step_kw_unit.selected_unit()['key']
target = self.thresholds.get(exposure['key'])
if target is None:
self.thresholds[exposure['key']] = {}
target = self.thresholds.get(exposure['key'])
else:
selected_unit = None
target = self.value_maps.get(exposure['key'])
if target is None:
self.value_maps[exposure['key']] = {}
target = self.value_maps.get(exposure['key'])
if classification is not None:
if classification['key'] not in target:
if self.layer_mode == layer_mode_continuous:
default_classes = default_classification_thresholds(
classification, selected_unit)
target[classification['key']] = {
'classes': default_classes,
'active': True
}
else:
default_classes = default_classification_value_maps(
classification)
target[classification['key']] = {
'classes': default_classes,
'active': True
}
return
for classification_key, value in target.items():
if classification is None:
value['active'] = False
continue
if classification_key == classification['key']:
value['active'] = True
else:
value['active'] = False
@property
def step_name(self):
"""Get the human friendly name for the wizard step.
:returns: The name of the wizard step.
:rtype: str
"""
return tr('Multi Classification Step')
def help_content(self):
"""Return the content of help for this step wizard.
We only needs to re-implement this method in each wizard step.
:returns: A message object contains help.
:rtype: m.Message
"""
message = m.Message()
message.add(m.Paragraph(tr(
'In this wizard step: {step_name}, you will be able to set the '
'classification that you will use per exposure type. You can also '
'set the threshold or value map for each classification.'
).format(step_name=self.step_name)))
return message
class StepKwMultiClassifications(WizardStep, FORM_CLASS):
"""InaSAFE Wizard Step Multi Classifications."""
def __init__(self, parent=None):
"""Constructor for the tab.
:param parent: widget to use as parent (Wizard Dialog).
:type parent: QWidget
"""
WizardStep.__init__(self, parent)
self.exposures = []
self.exposure_labels = []
self.exposure_combo_boxes = []
self.exposure_edit_buttons = []
self.mode = CHOOSE_MODE
self.layer_purpose = None
self.layer_mode = None
# Store the current representative state of the UI.
# self.classifications = {}
self.value_maps = {}
self.thresholds = {}
# Temporary attributes
self.threshold_classes = OrderedDict()
self.active_exposure = None
self.list_unique_values = None
self.tree_mapping_widget = None
# GUI, good for testing
self.save_button = None
# Has default threshold
# Trick for EQ raster for population #3853
self.use_default_thresholds = False
# Index of the special case exposure classification
self.special_case_index = None
def is_ready_to_next_step(self):
"""Check if the step is complete.
:returns: True if new step may be enabled.
:rtype: bool
"""
# Still editing
if self.mode == EDIT_MODE:
return False
for combo_box in self.exposure_combo_boxes:
# Enable if there is one that has classification
if combo_box.currentIndex() > 0:
return True
# Trick for EQ raster for population #3853
if self.use_default_thresholds:
return True
return False
def get_next_step(self):
"""Find the proper step when user clicks the Next button.
:returns: The step to be switched to.
:rtype: WizardStep instance or None
"""
if self.layer_purpose != layer_purpose_aggregation:
subcategory = self.parent.step_kw_subcategory.\
selected_subcategory()
else:
subcategory = {'key': None}
if is_raster_layer(self.parent.layer):
return self.parent.step_kw_source
# Check if it can go to inasafe field step
inasafe_fields = get_non_compulsory_fields(
self.layer_purpose['key'], subcategory['key'])
if not skip_inasafe_field(self.parent.layer, inasafe_fields):
return self.parent.step_kw_inasafe_fields
# Check if it can go to inasafe default field step
default_inasafe_fields = get_fields(
self.layer_purpose['key'],
subcategory['key'],
replace_null=True,
in_group=False
)
if default_inasafe_fields:
return self.parent.step_kw_default_inasafe_fields
# Any other case
return self.parent.step_kw_source
def set_wizard_step_description(self):
"""Set the text for description."""
subcategory = self.parent.step_kw_subcategory.selected_subcategory()
field = self.parent.step_kw_field.selected_fields()
is_raster = is_raster_layer(self.parent.layer)
if is_raster:
if self.layer_mode == layer_mode_continuous:
text_label = multiple_continuous_hazard_classifications_raster
else:
text_label = multiple_classified_hazard_classifications_raster
# noinspection PyAugmentAssignment
text_label = text_label % (
subcategory['name'], self.layer_purpose['name'])
else:
if self.layer_mode == layer_mode_continuous:
text_label = multiple_continuous_hazard_classifications_vector
else:
text_label = multiple_classified_hazard_classifications_vector
# noinspection PyAugmentAssignment
text_label = text_label % (
subcategory['name'], self.layer_purpose['name'], field)
self.multi_classifications_label.setText(text_label)
def setup_left_panel(self):
"""Setup the UI for left panel.
Generate all exposure, combobox, and edit button.
"""
hazard = self.parent.step_kw_subcategory.selected_subcategory()
left_panel_heading = QLabel(tr('Classifications'))
left_panel_heading.setFont(big_font)
self.left_layout.addWidget(left_panel_heading)
inner_left_layout = QGridLayout()
row = 0
for exposure in exposure_all:
special_case = False
# Filter out unsupported exposure for the hazard
if exposure in hazard['disabled_exposures']:
# Remove from the storage if the exposure is disabled
if self.layer_mode == layer_mode_continuous:
if exposure['key'] in self.thresholds:
self.thresholds.pop(exposure['key'])
else:
if exposure['key'] in self.value_maps:
self.value_maps.pop(exposure['key'])
continue
# Trick for EQ raster for population #3853
if exposure == exposure_population and hazard == hazard_earthquake:
if is_raster_layer(self.parent.layer):
if self.layer_mode == layer_mode_continuous:
self.use_default_thresholds = True
special_case = True
# Set classification for EQ Raster for Population
self.thresholds[exposure_population['key']] = {
earthquake_mmi_scale['key']: {
'classes': default_classification_thresholds(
earthquake_mmi_scale),
'active': True
}
}
# Add label
# Hazard on Exposure Classifications
label = tr(
'{hazard_name} on {exposure_name} Classifications').format(
hazard_name=hazard['name'],
exposure_name=exposure['name']
)
exposure_label = QLabel(label)
# Add combo box
exposure_combo_box = QComboBox()
hazard_classifications = hazard.get('classifications')
exposure_combo_box.addItem(tr('No classifications'))
exposure_combo_box.setItemData(
0, None, Qt.UserRole)
current_index = 0
i = 0
# Iterate through all available hazard classifications
for hazard_classification in hazard_classifications:
# Skip if the classification is not for the exposure
if 'exposures' in hazard_classification:
if exposure not in hazard_classification['exposures']:
continue
exposure_combo_box.addItem(hazard_classification['name'])
exposure_combo_box.setItemData(
i + 1, hazard_classification, Qt.UserRole)
if self.layer_mode == layer_mode_continuous:
current_hazard_classifications = self.thresholds.get(
exposure['key'])
else:
current_hazard_classifications = self.value_maps.get(
exposure['key'])
if current_hazard_classifications:
current_hazard_classification = \
current_hazard_classifications.get(
hazard_classification['key'])
if current_hazard_classification:
is_active = current_hazard_classification.get('active')
if is_active:
current_index = i + 1
i += 1
# Set current classification
exposure_combo_box.setCurrentIndex(current_index)
# Add edit button
exposure_edit_button = QPushButton(tr('Edit'))
# For special case. Raster EQ on Population.
if special_case:
mmi_index = exposure_combo_box.findText(
earthquake_mmi_scale['name'])
exposure_combo_box.setCurrentIndex(mmi_index)
exposure_combo_box.setEnabled(False)
exposure_edit_button.setEnabled(False)
tool_tip_message = tr(
'InaSAFE use default classification for Raster Earthquake '
'hazard on population.')
exposure_label.setToolTip(tool_tip_message)
exposure_combo_box.setToolTip(tool_tip_message)
exposure_edit_button.setToolTip(tool_tip_message)
else:
if current_index == 0:
# Disable if there is no classification chosen.
exposure_edit_button.setEnabled(False)
exposure_edit_button.clicked.connect(
partial(self.edit_button_clicked,
edit_button=exposure_edit_button,
exposure_combo_box=exposure_combo_box,
exposure=exposure))
exposure_combo_box.currentIndexChanged.connect(
partial(
self.classifications_combo_box_changed,
exposure=exposure,
exposure_combo_box=exposure_combo_box,
edit_button=exposure_edit_button))
# Arrange in layout
inner_left_layout.addWidget(exposure_label, row, 0)
inner_left_layout.addWidget(exposure_combo_box, row, 1)
inner_left_layout.addWidget(exposure_edit_button, row, 2)
# Adding to step's attribute
self.exposures.append(exposure)
self.exposure_combo_boxes.append(exposure_combo_box)
self.exposure_edit_buttons.append(exposure_edit_button)
self.exposure_labels.append(label)
if special_case:
self.special_case_index = len(self.exposures) - 1
row += 1
self.left_layout.addLayout(inner_left_layout)
# To push the inner_left_layout up
self.left_layout.addStretch(1)
# noinspection PyUnusedLocal
def edit_button_clicked(self, edit_button, exposure_combo_box, exposure):
"""Method to handle when an edit button is clicked.
:param edit_button: The edit button.
:type edit_button: QPushButton
:param exposure_combo_box: The combo box of the exposure, contains
list of classifications.
:type exposure_combo_box: QComboBox
:param exposure: Exposure definition.
:type exposure: dict
"""
# Note(IS): Do not change the text of edit button for now until we
# have better behaviour.
classification = self.get_classification(exposure_combo_box)
if self.mode == CHOOSE_MODE:
# Change mode
self.mode = EDIT_MODE
# Set active exposure
self.active_exposure = exposure
# Disable all edit button
for exposure_edit_button in self.exposure_edit_buttons:
exposure_edit_button.setEnabled(False)
# Except one that was clicked
# edit_button.setEnabled(True)
# Disable all combo box
for exposure_combo_box in self.exposure_combo_boxes:
exposure_combo_box.setEnabled(False)
# Change the edit button to cancel
# edit_button.setText(tr('Cancel'))
# Clear right panel
clear_layout(self.right_layout)
# Show edit threshold or value mapping
if self.layer_mode == layer_mode_continuous:
self.setup_thresholds_panel(classification)
else:
self.setup_value_mapping_panels(classification)
self.add_buttons(classification)
elif self.mode == EDIT_MODE:
# Behave the same as cancel button clicked.
self.cancel_button_clicked()
self.parent.pbnNext.setEnabled(self.is_ready_to_next_step())
def show_current_state(self):
"""Setup the UI for QTextEdit to show the current state."""
right_panel_heading = QLabel(tr('Status'))
right_panel_heading.setFont(big_font)
right_panel_heading.setSizePolicy(
QSizePolicy.Maximum, QSizePolicy.Maximum)
self.right_layout.addWidget(right_panel_heading)
message = m.Message()
if self.layer_mode == layer_mode_continuous:
title = tr('Thresholds')
else:
title = tr('Value maps')
message.add(m.Heading(title, **INFO_STYLE))
for i in range(len(self.exposures)):
message.add(m.Text(self.exposure_labels[i]))
classification = self.get_classification(
self.exposure_combo_boxes[i])
if self.layer_mode == layer_mode_continuous:
thresholds = self.thresholds.get(self.exposures[i]['key'])
if not thresholds or not classification:
message.add(m.Paragraph(tr('No classifications set.')))
continue
table = m.Table(
style_class='table table-condensed table-striped')
header = m.Row()
header.add(m.Cell(tr('Class name')))
header.add(m.Cell(tr('Minimum')))
header.add(m.Cell(tr('Maximum')))
table.add(header)
classes = classification.get('classes')
# Sort by value, put the lowest first
classes = sorted(classes, key=lambda k: k['value'])
for the_class in classes:
threshold = thresholds[classification['key']]['classes'][
the_class['key']]
row = m.Row()
row.add(m.Cell(the_class['name']))
row.add(m.Cell(threshold[0]))
row.add(m.Cell(threshold[1]))
table.add(row)
else:
value_maps = self.value_maps.get(self.exposures[i]['key'])
if not value_maps or not classification:
message.add(m.Paragraph(tr('No classifications set.')))
continue
table = m.Table(
style_class='table table-condensed table-striped')
header = m.Row()
header.add(m.Cell(tr('Class name')))
header.add(m.Cell(tr('Value')))
table.add(header)
classes = classification.get('classes')
# Sort by value, put the lowest first
classes = sorted(classes, key=lambda k: k['value'])
for the_class in classes:
value_map = value_maps[classification['key']][
'classes'].get(the_class['key'], [])
row = m.Row()
row.add(m.Cell(the_class['name']))
row.add(m.Cell(', '.join([str(v) for v in value_map])))
table.add(row)
message.add(table)
# status_text_edit = QTextBrowser(None)
status_text_edit = QWebView(None)
status_text_edit.setSizePolicy(
QSizePolicy.Ignored,
QSizePolicy.Ignored)
status_text_edit.page().mainFrame().setScrollBarPolicy(
Qt.Horizontal,
Qt.ScrollBarAlwaysOff)
html_string = html_header() + message.to_html() + html_footer()
status_text_edit.setHtml(html_string)
self.right_layout.addWidget(status_text_edit)
def set_widgets(self):
"""Set widgets on the Multi classification step."""
self.clear()
self.layer_mode = self.parent.step_kw_layermode.selected_layermode()
self.layer_purpose = self.parent.step_kw_purpose.selected_purpose()
self.set_current_state()
# Set the step description
self.set_wizard_step_description()
# Set the left panel
self.setup_left_panel()
# Set the right panel, for the beginning show the viewer
self.show_current_state()
def clear(self):
"""Clear current state."""
self.exposures = []
self.exposure_labels = []
self.exposure_combo_boxes = []
self.exposure_edit_buttons = []
self.mode = CHOOSE_MODE
self.layer_purpose = None
self.layer_mode = None
self.special_case_index = None
self.value_maps = {}
self.thresholds = {}
# Temporary attributes
self.threshold_classes = OrderedDict()
self.active_exposure = None
self.list_unique_values = None
self.tree_mapping_widget = None
clear_layout(self.left_layout)
clear_layout(self.right_layout)
def get_current_state(self):
"""Obtain current classification and value map / threshold."""
def clean_state(dictionary):
"""Clean dictionary from bad value.
:param dictionary: Dictionary of value maps or thresholds.
:type dictionary: dict
:returns: Clean state.
:rtype: dict
"""
clean_dictionary = {
k: v for k, v in dictionary.items()
if isinstance(v, dict)}
return clean_dictionary
if self.layer_mode == layer_mode_continuous:
output = {'thresholds': clean_state(self.thresholds)}
key = 'thresholds'
else:
output = {'value_maps': clean_state(self.value_maps)}
key = 'value_maps'
# Clean non existing hazard class key
empty_exposure_classifications = []
for the_exposure, the_hazard_classifications in output[key].items():
for the_hazard_classification in the_hazard_classifications.\
keys():
invalid_classifications = []
if not definition(the_hazard_classification):
invalid_classifications.append(
the_hazard_classification)
for invalid_classification in invalid_classifications:
the_hazard_classifications.pop(invalid_classification)
if not the_hazard_classifications:
empty_exposure_classifications.append(the_exposure)
for empty_exposure_classification in empty_exposure_classifications:
output[key].pop(empty_exposure_classification)
return output
@staticmethod
def get_classification(combo_box):
"""Helper to obtain the classification from a combo box.
:param combo_box: A classification combo box.
:type combo_box: QComboBox.
:returns: Classification definitions.
:rtype: dict
"""
return combo_box.itemData(combo_box.currentIndex(), Qt.UserRole)
def setup_thresholds_panel(self, classification):
"""Setup threshold panel in the right panel.
:param classification: Classification definition.
:type classification: dict
"""
# Set text in the label
layer_purpose = self.parent.step_kw_purpose.selected_purpose()
layer_subcategory = self.parent.step_kw_subcategory.\
selected_subcategory()
if is_raster_layer(self.parent.layer):
statistics = self.parent.layer.dataProvider().bandStatistics(
1, QgsRasterBandStats.All, self.parent.layer.extent(), 0)
description_text = continuous_raster_question % (
layer_purpose['name'],
layer_subcategory['name'],
classification['name'],
statistics.minimumValue,
statistics.maximumValue)
else:
field_name = self.parent.step_kw_field.selected_fields()
field_index = self.parent.layer.fieldNameIndex(field_name)
min_value_layer = self.parent.layer.minimumValue(field_index)
max_value_layer = self.parent.layer.maximumValue(field_index)
description_text = continuous_vector_question % (
layer_purpose['name'],
layer_subcategory['name'],
field_name,
classification['name'],
min_value_layer,
max_value_layer)
# Set description
description_label = QLabel(description_text)
description_label.setWordWrap(True)
self.right_layout.addWidget(description_label)
if self.thresholds:
thresholds = self.thresholds
else:
thresholds = self.parent.get_existing_keyword('thresholds')
selected_unit = self.parent.step_kw_unit.selected_unit()['key']
self.threshold_classes = OrderedDict()
classes = classification.get('classes')
# Sort by value, put the lowest first
classes = sorted(classes, key=lambda the_key: the_key['value'])
grid_layout_thresholds = QGridLayout()
for i, the_class in enumerate(classes):
class_layout = QHBoxLayout()
# Class label
class_label = QLabel(the_class['name'])
# Min label
min_label = QLabel(tr('Min >'))
# Min value as double spin
min_value_input = QDoubleSpinBox()
# TODO(IS) We can set the min and max depends on the unit, later
min_value_input.setMinimum(0)
min_value_input.setMaximum(999999)
if thresholds.get(self.active_exposure['key']):
exposure_thresholds = thresholds.get(
self.active_exposure['key'])
if exposure_thresholds.get(classification['key']):
exposure_thresholds_classifications = exposure_thresholds\
.get(classification['key'])
min_value_input.setValue(
exposure_thresholds_classifications['classes'][
the_class['key']][0])
else:
default_min = the_class['numeric_default_min']
if isinstance(default_min, dict):
default_min = the_class[
'numeric_default_min'][selected_unit]
min_value_input.setValue(default_min)
else:
default_min = the_class['numeric_default_min']
if isinstance(default_min, dict):
default_min = the_class[
'numeric_default_min'][selected_unit]
min_value_input.setValue(default_min)
min_value_input.setSingleStep(0.1)
# Max label
max_label = QLabel(tr('Max <='))
# Max value as double spin
max_value_input = QDoubleSpinBox()
# TODO(IS) We can set the min and max depends on the unit, later
max_value_input.setMinimum(0)
max_value_input.setMaximum(999999)
if thresholds.get(self.active_exposure['key']):
exposure_thresholds = thresholds.get(
self.active_exposure['key'])
if exposure_thresholds.get(classification['key']):
exposure_thresholds_classifications = exposure_thresholds \
.get(classification['key'])
max_value_input.setValue(
exposure_thresholds_classifications['classes'][
the_class['key']][1])
else:
default_max = the_class['numeric_default_max']
if isinstance(default_max, dict):
default_max = the_class[
'numeric_default_max'][selected_unit]
max_value_input.setValue(default_max)
else:
default_max = the_class['numeric_default_max']
if isinstance(default_max, dict):
default_max = the_class[
'numeric_default_max'][selected_unit]
max_value_input.setValue(default_max)
max_value_input.setSingleStep(0.1)
# Add to class_layout
class_layout.addWidget(min_label)
class_layout.addWidget(min_value_input)
class_layout.addWidget(max_label)
class_layout.addWidget(max_value_input)
class_layout.setStretch(0, 1)
class_layout.setStretch(1, 2)
class_layout.setStretch(2, 1)
class_layout.setStretch(3, 2)
# Add to grid_layout
grid_layout_thresholds.addWidget(class_label, i, 0)
grid_layout_thresholds.addLayout(class_layout, i, 1)
self.threshold_classes[the_class['key']] = [
min_value_input, max_value_input]
grid_layout_thresholds.setColumnStretch(0, 1)
grid_layout_thresholds.setColumnStretch(0, 2)
def min_max_changed(double_spin_index, mode):
"""Slot when min or max value change.
:param double_spin_index: The index of the double spin.
:type double_spin_index: int
:param mode: The flag to indicate the min or max value.
:type mode: int
"""
if mode == MAX_VALUE_MODE:
current_max_value = self.threshold_classes.values()[
double_spin_index][1]
target_min_value = self.threshold_classes.values()[
double_spin_index + 1][0]
if current_max_value.value() != target_min_value.value():
target_min_value.setValue(current_max_value.value())
elif mode == MIN_VALUE_MODE:
current_min_value = self.threshold_classes.values()[
double_spin_index][0]
target_max_value = self.threshold_classes.values()[
double_spin_index - 1][1]
if current_min_value.value() != target_max_value.value():
target_max_value.setValue(current_min_value.value())
# Set behaviour
for k, v in self.threshold_classes.items():
index = self.threshold_classes.keys().index(k)
if index < len(self.threshold_classes) - 1:
# Max value changed
v[1].valueChanged.connect(partial(
min_max_changed,
double_spin_index=index,
mode=MAX_VALUE_MODE))
if index > 0:
# Min value
v[0].valueChanged.connect(partial(
min_max_changed,
double_spin_index=index,
mode=MIN_VALUE_MODE))
grid_layout_thresholds.setSpacing(0)
self.right_layout.addLayout(grid_layout_thresholds)
def add_buttons(self, classification):
"""Helper to setup 3 buttons.
:param classification: The current classification.
:type classification: dict
"""
# Note(IS): Until we have good behaviour, we will disable load
# default and cancel button.
# Add 3 buttons: Load default, Cancel, Save
# load_default_button = QPushButton(tr('Load Default'))
# cancel_button = QPushButton(tr('Cancel'))
self.save_button = QPushButton(tr('Save'))
# Action for buttons
# cancel_button.clicked.connect(self.cancel_button_clicked)
self.save_button.clicked.connect(
partial(self.save_button_clicked, classification=classification))
button_layout = QHBoxLayout()
# button_layout.addWidget(load_default_button)
button_layout.addStretch(1)
# button_layout.addWidget(cancel_button)
button_layout.addWidget(self.save_button)
button_layout.setStretch(0, 3)
button_layout.setStretch(1, 1)
# button_layout.setStretch(2, 1)
# button_layout.setStretch(3, 1)
self.right_layout.addLayout(button_layout)
def setup_value_mapping_panels(self, classification):
"""Setup value mapping panel in the right panel.
:param classification: Classification definition.
:type classification: dict
"""
# Set text in the label
layer_purpose = self.parent.step_kw_purpose.selected_purpose()
layer_subcategory = self.parent.step_kw_subcategory. \
selected_subcategory()
if is_raster_layer(self.parent.layer):
description_text = classify_raster_question % (
layer_subcategory['name'],
layer_purpose['name'],
classification['name'])
dataset = gdal.Open(self.parent.layer.source(), GA_ReadOnly)
active_band = self.parent.step_kw_band_selector.selected_band()
unique_values = numpy.unique(numpy.array(
dataset.GetRasterBand(active_band).ReadAsArray()))
field_type = 0
# Convert datatype to a json serializable type
if numpy.issubdtype(unique_values.dtype, float):
unique_values = [float(i) for i in unique_values]
else:
unique_values = [int(i) for i in unique_values]
else:
field = self.parent.step_kw_field.selected_fields()
field_index = self.parent.layer.dataProvider().fields(). \
indexFromName(field)
field_type = self.parent.layer.dataProvider(). \
fields()[field_index].type()
description_text = classify_vector_question % (
layer_subcategory['name'],
layer_purpose['name'],
classification['name'],
field.upper())
unique_values = self.parent.layer.uniqueValues(field_index)
# Set description
description_label = QLabel(description_text)
description_label.setWordWrap(True)
self.right_layout.addWidget(description_label)
self.list_unique_values = QListWidget()
self.list_unique_values.setDragDropMode(QAbstractItemView.DragDrop)
self.list_unique_values.setDefaultDropAction(Qt.MoveAction)
self.tree_mapping_widget = QTreeWidget()
self.tree_mapping_widget.setDragDropMode(QAbstractItemView.DragDrop)
self.tree_mapping_widget.setDefaultDropAction(Qt.MoveAction)
self.tree_mapping_widget.header().hide()
self.tree_mapping_widget.itemChanged.connect(
self.update_dragged_item_flags)
value_mapping_layout = QHBoxLayout()
value_mapping_layout.addWidget(self.list_unique_values)
value_mapping_layout.addWidget(self.tree_mapping_widget)
self.right_layout.addLayout(value_mapping_layout)
default_classes = classification['classes']
# Assign unique values to classes (according to default)
unassigned_values = list()
assigned_values = dict()
for default_class in default_classes:
assigned_values[default_class['key']] = list()
for unique_value in unique_values:
if unique_value is None or isinstance(
unique_value, QPyNullVariant):
# Don't classify features with NULL value
continue
# Capitalization of the value and removing '_' (raw OSM data).
value_as_string = unicode(unique_value).upper().replace('_', ' ')
assigned = False
for default_class in default_classes:
if 'string_defaults' in default_class:
condition_1 = (
field_type > 9 and
value_as_string in [
c.upper() for c in
default_class['string_defaults']])
else:
condition_1 = False
condition_2 = (
field_type < 10 and
'numeric_default_min' in default_class and
'numeric_default_max' in default_class and (
default_class['numeric_default_min'] <= unique_value <
default_class['numeric_default_max']))
if condition_1 or condition_2:
assigned_values[default_class['key']] += [unique_value]
assigned = True
if not assigned:
# add to unassigned values list otherwise
unassigned_values += [unique_value]
self.populate_classified_values(
unassigned_values,
assigned_values,
default_classes,
self.list_unique_values,
self.tree_mapping_widget
)
# Current value map for exposure and classification
available_classifications = self.value_maps.get(
self.active_exposure['key'])
if not available_classifications:
return
# Get active one
current_classification = available_classifications.get(
classification['key'])
if not current_classification:
return
current_value_map = current_classification.get('classes')
if not current_value_map:
return
unassigned_values = list()
assigned_values = dict()
for default_class in default_classes:
assigned_values[default_class['key']] = list()
for unique_value in unique_values:
if unique_value is None or isinstance(
unique_value, QPyNullVariant):
# Don't classify features with NULL value
continue
# check in value map
assigned = False
for key, value_list in current_value_map.items():
if unique_value in value_list and key in assigned_values:
assigned_values[key] += [unique_value]
assigned = True
if not assigned:
unassigned_values += [unique_value]
self.populate_classified_values(
unassigned_values,
assigned_values,
default_classes,
self.list_unique_values,
self.tree_mapping_widget
)
# noinspection PyMethodMayBeStatic
def update_dragged_item_flags(self, item):
"""Fix the drop flag after the item is dropped.
Check if it looks like an item dragged from QListWidget
to QTreeWidget and disable the drop flag.
For some reasons the flag is set when dragging.
:param item: Item which is dragged.
:type item: QTreeWidgetItem
.. note:: This is a slot executed when the item change.
"""
if int(item.flags() & Qt.ItemIsDropEnabled) \
and int(item.flags() & Qt.ItemIsDragEnabled):
item.setFlags(item.flags() & ~Qt.ItemIsDropEnabled)
@staticmethod
def populate_classified_values(
unassigned_values, assigned_values, default_classes,
list_unique_values, tree_mapping_widget):
"""Populate lstUniqueValues and treeClasses.from the parameters.
:param unassigned_values: List of values that haven't been assigned
to a class. It will be put in list_unique_values.
:type unassigned_values: list
:param assigned_values: Dictionary with class as the key and list of
value as the value of the dictionary. It will be put in
tree_mapping_widget.
:type assigned_values: dict
:param default_classes: Default classes from unit.
:type default_classes: list
:param list_unique_values: List Widget for unique values
:type list_unique_values: QListWidget
:param tree_mapping_widget: Tree Widget for classifying.
:type tree_mapping_widget: QTreeWidget
"""
# Populate the unique values list
list_unique_values.clear()
list_unique_values.setSelectionMode(
QAbstractItemView.ExtendedSelection)
for value in unassigned_values:
value_as_string = value is not None and unicode(value) or 'NULL'
list_item = QListWidgetItem(list_unique_values)
list_item.setFlags(
Qt.ItemIsEnabled |
Qt.ItemIsSelectable |
Qt.ItemIsDragEnabled)
list_item.setData(Qt.UserRole, value)
list_item.setText(value_as_string)
list_unique_values.addItem(list_item)
# Populate assigned values tree
tree_mapping_widget.clear()
bold_font = QFont()
bold_font.setItalic(True)
bold_font.setBold(True)
bold_font.setWeight(75)
tree_mapping_widget.invisibleRootItem().setFlags(
Qt.ItemIsEnabled)
for default_class in default_classes:
# Create branch for class
tree_branch = QTreeWidgetItem(tree_mapping_widget)
tree_branch.setFlags(
Qt.ItemIsDropEnabled | Qt.ItemIsEnabled)
tree_branch.setExpanded(True)
tree_branch.setFont(0, bold_font)
if 'name' in default_class:
default_class_name = default_class['name']
else:
default_class_name = default_class['key']
tree_branch.setText(0, default_class_name)
tree_branch.setData(0, Qt.UserRole, default_class['key'])
if 'description' in default_class:
tree_branch.setToolTip(0, default_class['description'])
# Assign known values
for value in assigned_values[default_class['key']]:
string_value = value is not None and unicode(value) or 'NULL'
tree_leaf = QTreeWidgetItem(tree_branch)
tree_leaf.setFlags(
Qt.ItemIsEnabled |
Qt.ItemIsSelectable |
Qt.ItemIsDragEnabled)
tree_leaf.setData(0, Qt.UserRole, value)
tree_leaf.setText(0, string_value)
def cancel_button_clicked(self):
"""Action for cancel button clicked."""
# Change mode
self.mode = CHOOSE_MODE
# Enable all edit buttons and combo boxes
for i in range(len(self.exposures)):
if i == self.special_case_index:
self.exposure_edit_buttons[i].setEnabled(False)
self.exposure_combo_boxes[i].setEnabled(False)
continue
if self.get_classification(self.exposure_combo_boxes[i]):
self.exposure_edit_buttons[i].setEnabled(True)
else:
self.exposure_edit_buttons[i].setEnabled(False)
# self.exposure_edit_buttons[i].setText(tr('Edit'))
self.exposure_combo_boxes[i].setEnabled(True)
# Clear right panel
clear_layout(self.right_layout)
# Show current state
self.show_current_state()
# Unset active exposure
self.active_exposure = None
self.parent.pbnNext.setEnabled(self.is_ready_to_next_step())
def save_button_clicked(self, classification):
"""Action for save button clicked.
:param classification: The classification that being edited.
:type classification: dict
"""
# Save current edit
if self.layer_mode == layer_mode_continuous:
thresholds = self.get_threshold()
classification_class = {
'classes': thresholds,
'active': True
}
if self.thresholds.get(self.active_exposure['key']):
# Set other class to not active
for current_classification in self.thresholds.get(
self.active_exposure['key']).values():
current_classification['active'] = False
else:
self.thresholds[self.active_exposure['key']] = {}
self.thresholds[self.active_exposure['key']][
classification['key']] = classification_class
else:
value_maps = self.get_value_map()
classification_class = {
'classes': value_maps,
'active': True
}
if self.value_maps.get(self.active_exposure['key']):
# Set other class to not active
for current_classification in self.value_maps.get(
self.active_exposure['key']).values():
current_classification['active'] = False
else:
self.value_maps[self.active_exposure['key']] = {}
self.value_maps[self.active_exposure['key']][
classification['key']] = classification_class
# Back to choose mode
self.cancel_button_clicked()
def get_threshold(self):
"""Return threshold based on current state."""
value_map = dict()
for key, value in self.threshold_classes.items():
value_map[key] = [
value[0].value(),
value[1].value(),
]
return value_map
def get_value_map(self):
"""Obtain the value-to-class mapping set by user.
:returns: The complete mapping as a dict of lists.
:rtype: dict
"""
value_map = {}
tree_clone = self.tree_mapping_widget.invisibleRootItem().clone()
for tree_branch in tree_clone.takeChildren():
value_list = []
for tree_leaf in tree_branch.takeChildren():
value_list += [tree_leaf.data(0, Qt.UserRole)]
if value_list:
value_map[tree_branch.data(0, Qt.UserRole)] = value_list
return value_map
def set_current_state(self):
""""Helper to set the state of the step from current keywords."""
if not self.thresholds:
self.thresholds = self.parent.get_existing_keyword('thresholds')
if not self.value_maps:
self.value_maps = self.parent.get_existing_keyword('value_maps')
def classifications_combo_box_changed(
self, index, exposure, exposure_combo_box, edit_button):
"""Action when classification combo box changed.
:param index: The index of the combo box.
:type index: int
:param exposure: The exposure associated with the combo box.
:type exposure: dict
:param exposure_combo_box: Combo box for the classification.
:type exposure_combo_box: QComboBox
:param edit_button: The edit button associate with combo box.
:type edit_button: QPushButton
"""
# Disable button if it's no classification
edit_button.setEnabled(bool(index))
classification = self.get_classification(exposure_combo_box)
self.activate_classification(exposure, classification)
clear_layout(self.right_layout)
self.show_current_state()
self.parent.pbnNext.setEnabled(self.is_ready_to_next_step())
# Open edit panel directly
edit_button.click()
def activate_classification(self, exposure, classification=None):
"""Set active to True for classification for the exposure.
If classification = None, all classification set active = False.
:param exposure: Exposure definition.
:type exposure: dict
:param classification: Classification definition.
:type classification: dict
"""
if self.layer_mode == layer_mode_continuous:
selected_unit = self.parent.step_kw_unit.selected_unit()['key']
target = self.thresholds.get(exposure['key'])
if target is None:
self.thresholds[exposure['key']] = {}
target = self.thresholds.get(exposure['key'])
else:
selected_unit = None
target = self.value_maps.get(exposure['key'])
if target is None:
self.value_maps[exposure['key']] = {}
target = self.value_maps.get(exposure['key'])
if classification is not None:
if classification['key'] not in target:
if self.layer_mode == layer_mode_continuous:
default_classes = default_classification_thresholds(
classification, selected_unit)
target[classification['key']] = {
'classes': default_classes,
'active': True
}
else:
default_classes = default_classification_value_maps(
classification)
target[classification['key']] = {
'classes': default_classes,
'active': True
}
return
for classification_key, value in target.items():
if classification is None:
value['active'] = False
continue
if classification_key == classification['key']:
value['active'] = True
else:
value['active'] = False
@property
def step_name(self):
"""Get the human friendly name for the wizard step.
:returns: The name of the wizard step.
:rtype: str
"""
return tr('Multi Classification Step')
def help_content(self):
"""Return the content of help for this step wizard.
We only needs to re-implement this method in each wizard step.
:returns: A message object contains help.
:rtype: m.Message
"""
message = m.Message()
message.add(m.Paragraph(tr(
'In this wizard step: {step_name}, you will be able to set the '
'classification that you will use per exposure type. You can also '
'set the threshold or value map for each classification.'
).format(step_name=self.step_name)))
return message
class ChangedDocumentsListDialog(widgets.dialog.Dialog):
def __init__(self):
super(ChangedDocumentsListDialog, self).__init__(buttons=('close', ))
self.setWindowModality(Qt.NonModal)
self.setAttribute(Qt.WA_QuitOnClose, False)
layout = QGridLayout(margin=0)
self.mainWidget().setLayout(layout)
self.tree = QTreeWidget(headerHidden=True,
rootIsDecorated=False,
columnCount=2,
itemsExpandable=False)
self.tree.setSelectionMode(QTreeWidget.ExtendedSelection)
self.buttonReload = QPushButton()
self.buttonReloadAll = QPushButton()
self.buttonSave = QPushButton()
self.buttonSaveAll = QPushButton()
self.buttonShowDiff = QPushButton()
self.checkWatchingEnabled = QCheckBox(checked=enabled())
layout.addWidget(self.tree, 0, 0, 6, 1)
layout.addWidget(self.buttonReload, 0, 1)
layout.addWidget(self.buttonReloadAll, 1, 1)
layout.addWidget(self.buttonSave, 2, 1)
layout.addWidget(self.buttonSaveAll, 3, 1)
layout.addWidget(self.buttonShowDiff, 4, 1)
layout.addWidget(self.checkWatchingEnabled, 6, 0, 1, 2)
layout.setRowStretch(5, 10)
app.documentClosed.connect(self.removeDocument)
app.documentSaved.connect(self.removeDocument)
app.documentUrlChanged.connect(self.removeDocument)
app.documentLoaded.connect(self.removeDocument)
self.tree.itemSelectionChanged.connect(self.updateButtons)
self.buttonReload.clicked.connect(self.slotButtonReload)
self.buttonReloadAll.clicked.connect(self.slotButtonReloadAll)
self.buttonSave.clicked.connect(self.slotButtonSave)
self.buttonSaveAll.clicked.connect(self.slotButtonSaveAll)
self.buttonShowDiff.clicked.connect(self.slotButtonShowDiff)
self.checkWatchingEnabled.toggled.connect(setEnabled)
app.translateUI(self)
qutil.saveDialogSize(self, 'externalchanges/dialog/size',
QSize(400, 200))
userguide.addButton(self.buttonBox(), "externalchanges")
self.button('close').setFocus()
def translateUI(self):
self.setWindowTitle(app.caption(_("Modified Files")))
self.setMessage(
_("The following files were modified or deleted by other "
"applications:"))
self.buttonReload.setText(_("Reload"))
self.buttonReload.setToolTip(
_("Reloads the selected documents from disk. "
"(You can still reach the previous state of the document "
"using the Undo command.)"))
self.buttonReloadAll.setText(_("Reload All"))
self.buttonReloadAll.setToolTip(
_("Reloads all externally modified documents from disk. "
"(You can still reach the previous state of the document "
"using the Undo command.)"))
self.buttonSave.setText(_("Save"))
self.buttonSave.setToolTip(
_("Saves the selected documents to disk, overwriting the "
"modifications by another program."))
self.buttonSaveAll.setText(_("Save All"))
self.buttonSaveAll.setToolTip(
_("Saves all documents to disk, overwriting the modifications by "
"another program."))
self.buttonShowDiff.setText(_("Show Difference..."))
self.buttonShowDiff.setToolTip(
_("Shows the differences between the current document "
"and the file on disk."))
self.checkWatchingEnabled.setText(
_("Enable watching documents for external changes"))
self.checkWatchingEnabled.setToolTip(
_("If checked, Frescobaldi will warn you when opened files are "
"modified or deleted by other applications."))
def setDocuments(self, documents):
"""Display the specified documents in the list."""
# clear the treewidget
for d in self.tree.invisibleRootItem().takeChildren():
for i in d.takeChildren():
i.doc = None
# group the documents by directory
dirs = {}
for d in documents:
path = d.url().toLocalFile()
if path:
dirname, filename = os.path.split(path)
dirs.setdefault(dirname, []).append((filename, d))
for dirname in sorted(dirs, key=util.naturalsort):
diritem = QTreeWidgetItem()
diritem.setText(0, util.homify(dirname))
self.tree.addTopLevelItem(diritem)
diritem.setExpanded(True)
diritem.setFlags(Qt.ItemIsEnabled)
diritem.setIcon(0, icons.get('folder-open'))
for filename, document in sorted(
dirs[dirname], key=lambda item: util.naturalsort(item[0])):
fileitem = QTreeWidgetItem()
diritem.addChild(fileitem)
if documentwatcher.DocumentWatcher.instance(
document).isdeleted():
itemtext = _("[deleted]")
icon = "dialog-error"
else:
itemtext = _("[modified]")
icon = "document-edit"
fileitem.setIcon(0, icons.get(icon))
fileitem.setText(0, filename)
fileitem.setText(1, itemtext)
fileitem.doc = document
# select the item if there is only one
if len(dirs) == 1 and len(list(dirs.values())[0]) == 1:
fileitem.setSelected(True)
self.tree.resizeColumnToContents(0)
self.tree.resizeColumnToContents(1)
self.updateButtons()
def removeDocument(self, document):
"""Remove the specified document from our list."""
for d in range(self.tree.topLevelItemCount()):
diritem = self.tree.topLevelItem(d)
for f in range(diritem.childCount()):
if diritem.child(f).doc is document:
i = diritem.takeChild(f)
i.doc = None
if diritem.childCount() == 0:
self.tree.takeTopLevelItem(d)
break
else:
continue
break
self.updateButtons()
# hide if no documents are left
if self.tree.topLevelItemCount() == 0:
self.hide()
def selectedDocuments(self):
"""Return the selected documents."""
return [i.doc for i in self.tree.selectedItems()]
def allDocuments(self):
"""Return all shown documents."""
return [
self.tree.topLevelItem(d).child(f).doc
for d in range(self.tree.topLevelItemCount())
for f in range(self.tree.topLevelItem(d).childCount())
]
def updateButtons(self):
"""Updates the buttons regarding the selection."""
docs_sel = self.selectedDocuments()
docs_all = self.allDocuments()
all_deleted_sel = all(
documentwatcher.DocumentWatcher.instance(d).isdeleted()
for d in docs_sel)
all_deleted_all = all(
documentwatcher.DocumentWatcher.instance(d).isdeleted()
for d in docs_all)
self.buttonSave.setEnabled(len(docs_sel) > 0)
self.buttonSaveAll.setEnabled(len(docs_all) > 0)
self.buttonReload.setEnabled(not all_deleted_sel)
self.buttonReloadAll.setEnabled(not all_deleted_all)
self.buttonShowDiff.setEnabled(
len(docs_sel) == 1 and not all_deleted_sel)
def slotButtonReload(self):
"""Called when the user clicks Reload."""
self.reloadDocuments(self.selectedDocuments())
def slotButtonReloadAll(self):
"""Called when the user clicks Reload All."""
self.reloadDocuments(self.allDocuments())
def slotButtonSave(self):
"""Called when the user clicks Save."""
self.saveDocuments(self.selectedDocuments())
def slotButtonSaveAll(self):
"""Called when the user clicks Save All."""
self.saveDocuments(self.allDocuments())
def reloadDocuments(self, documents):
"""Used by slotButtonReload and slotButtonReloadAll."""
failures = []
for d in documents:
try:
d.load(keepUndo=True)
except IOError as e:
failures.append((d, e))
if failures:
msg = _("Could not reload:") + "\n\n" + "\n".join(
"{url}: {strerror} ({errno})".format(url=d.url().toLocalFile(),
strerror=e.strerror,
errno=e.errno)
for d, e in failures)
QMessageBox.critical(self, app.caption(_("Error")), msg)
def saveDocuments(self, documents):
"""Used by slotButtonSave and slotButtonSaveAll."""
failures = []
for d in documents:
try:
d.save()
except IOError as e:
failures.append((d, e))
if failures:
msg = _("Could not save:") + "\n\n" + "\n".join(
"{url}: {strerror} ({errno})".format(
url = d.url().toLocalFile(),
strerror = e.strerror,
errno = e.errno) for d, e in failures) + "\n\n" + \
_("Please save the document using the \"Save As...\" dialog.",
"Please save the documents using the \"Save As...\" dialog.",
len(failures))
QMessageBox.critical(self, app.caption(_("Error")), msg)
def slotButtonShowDiff(self):
"""Called when the user clicks Show Difference."""
docs = self.selectedDocuments() or self.allDocuments()
if not docs:
return
d = docs[0]
if documentwatcher.DocumentWatcher.instance(d).isdeleted():
return
filename = d.url().toLocalFile()
try:
with open(filename, 'rb') as f:
disktext = util.decode(f.read())
except (IOError, OSError):
return
currenttext = d.toPlainText()
html = htmldiff.htmldiff(currenttext,
disktext,
_("Current Document"),
_("Document on Disk"),
numlines=5)
dlg = widgets.dialog.Dialog(self, buttons=('close', ))
view = QTextBrowser(lineWrapMode=QTextBrowser.NoWrap)
view.setHtml(html)
dlg.setMainWidget(view)
dlg.setWindowTitle(app.caption("Differences"))
dlg.setMessage(
_("Document: {url}\n"
"Difference between the current document and the file on disk:").
format(url=filename))
dlg.setWindowModality(Qt.NonModal)
dlg.setAttribute(Qt.WA_QuitOnClose, False)
dlg.setAttribute(Qt.WA_DeleteOnClose)
qutil.saveDialogSize(dlg, "externalchanges/diff/dialog/size",
QSize(600, 300))
dlg.show()
class DictParameterWidget(GenericParameterWidget):
"""Widget class for DictParameter."""
def __init__(self, parameter, parent=None):
"""Constructor
.. versionadded:: 3.1
:param parameter: A DictParameter object.
:type parameter: DictParameter
"""
# pylint: disable=E1002
super(DictParameterWidget, self).__init__(parameter, parent)
# pylint: enable=E1002
self.input = QTreeWidget()
# generate tree model
widget_items = self.generate_tree_model(self._parameter.value)
self.input.addTopLevelItems(widget_items)
# set header
self.input.headerItem().setText(0, 'Keys')
self.input.headerItem().setText(1, 'Values')
self.inner_input_layout.addWidget(self.input)
# override self._input_layout arrangement to make the label at the top
# reset the layout
self.input_layout.setParent(None)
self.help_layout.setParent(None)
self.label.setParent(None)
self.inner_input_layout.setParent(None)
self.input_layout = QVBoxLayout()
self.input_layout.setSpacing(0)
# put element into layout
self.input_layout.addWidget(self.label)
self.input_layout.addLayout(self.inner_input_layout)
self.main_layout.addLayout(self.input_layout)
self.main_layout.addLayout(self.help_layout)
def generate_tree_model(self, data_dict):
"""Generate a tree model for specified dictionary
:param data_dict: A dictionary
:type data_dict: dict
:return: list of QTreeWidgetItem
:rtype list:
"""
widget_items = []
font = QFont()
font.setBold(True)
for key in data_dict.keys():
entry = data_dict[key]
key_item = QTreeWidgetItem()
key_item.setText(0, str(key))
key_item.setFont(0, font)
if isinstance(entry, dict):
items = self.generate_tree_model(entry)
key_item.addChildren(items)
else:
# value_item = QTreeWidgetItem()
key_item.setText(1, str(entry))
key_item.setFlags(key_item.flags() | Qt.ItemIsEditable)
# key_item.addChild(key_item)
widget_items.append(key_item)
return widget_items
def extract_dict(self, widget_items):
"""Extract dictionary key and values from QTreeWidgetItems
:param widget_items: List of QTreeWidgetItems
:type widget_items: list
:return: hierarchical dictionary extracted from widget_items
:rtype dict:
"""
data_dict = {}
element_type = self._parameter.element_type
if element_type == object:
def object_cast(obj):
return obj
element_type = object_cast
for key_item in widget_items:
key = str(key_item.text(0))
value = None
if key_item.childCount() == 0:
# value_item = key_item.child(0)
value = element_type(key_item.text(1))
elif key_item.childCount() > 1:
value_items = [key_item.child(i)
for i in range(key_item.childCount())]
value = self.extract_dict(value_items)
data_dict[key] = value
return data_dict
def get_parameter(self):
"""Obtain the parameter object from the current widget state.
:returns: A DictParameter from the current state of widget
"""
root_widget_item = self.input.invisibleRootItem()
widget_items = [root_widget_item.child(i)
for i in range(root_widget_item.childCount())]
data_dict = self.extract_dict(widget_items)
self._parameter.value = data_dict
return self._parameter
class NetworkArgs(QtHelper.EnhancedQDialog, Logger.ClassLogger):
"""
Network arguments dialog
"""
def __init__(self, dataArgs, parent=None):
"""
Dialog to fill arguments for the network probe
@param dataArgs:
@type dataArgs:
@param parent:
@type parent:
"""
super(NetworkArgs, self).__init__(parent)
self.dataArgs = dataArgs
self.createDialog()
self.createConnections()
self.loadDefaultData()
def createDialog (self):
"""
Create qt dialog
"""
mainLayout = QHBoxLayout()
paramLayout = QHBoxLayout()
paramLayout.addWidget( QLabel("Interface:") )
self.intComboBox = QComboBox()
self.intComboBox.setEditable(1)
self.intComboBox.addItems( [ 'any', 'eth0', 'eth1', 'eth2', 'eth3', 'eth4', 'lo0' ] )
paramLayout.addWidget( self.intComboBox )
paramLayout.addWidget( QLabel("Filter:") )
self.filterEdit = QLineEdit()
paramLayout.addWidget( self.filterEdit )
dataLayout = QVBoxLayout()
self.labelHelp = QLabel("Network interface to dump:\nIf the interface name does not exist in the list\nplease to edit the combox list to change it.")
self.listBox = QTreeWidget(self)
self.listBox.setIndentation(0)
self.labels = [ self.tr("Interface"), self.tr("Filter") ]
self.listBox.setHeaderLabels(self.labels)
dataLayout.addWidget( self.labelHelp )
dataLayout.addLayout( paramLayout )
dataLayout.addWidget( self.listBox )
buttonLayout = QVBoxLayout()
self.addButton = QPushButton("Add", self)
self.delButton = QPushButton("Remove", self)
self.delButton.setEnabled(False)
self.editButton = QPushButton("Edit", self)
self.editButton.setEnabled(False)
self.clearButton = QPushButton("Clear", self)
self.okButton = QPushButton("Ok", self)
self.cancelButton = QPushButton("Cancel", self)
buttonLayout.addWidget( self.addButton )
buttonLayout.addWidget( self.delButton )
buttonLayout.addWidget( self.editButton )
buttonLayout.addWidget( self.clearButton )
buttonLayout.addWidget( self.okButton )
buttonLayout.addWidget( self.cancelButton )
mainLayout.addLayout( dataLayout )
mainLayout.addLayout( buttonLayout )
self.setLayout(mainLayout)
self.setWindowTitle("Network Probe > Arguments")
def createConnections (self):
"""
Create qt connections
"""
self.okButton.clicked.connect(self.accept)
self.cancelButton.clicked.connect(self.reject)
self.addButton.clicked.connect(self.addItem)
self.delButton.clicked.connect(self.delItem)
self.editButton.clicked.connect(self.editItem)
self.clearButton.clicked.connect(self.clearList)
self.listBox.itemClicked.connect(self.onItemSelected)
def clearList(self):
"""
Clear the list
"""
self.listBox.clear()
def onItemSelected(self, itm, row):
"""
Called when an item is selected
"""
self.delButton.setEnabled(True)
self.editButton.setEnabled(True)
def editItem(self):
"""
Edit item
"""
self.delButton.setEnabled(False)
self.editButton.setEnabled(False)
# retrieve value to put it in the line edit and then remove item
model = self.listBox.model()
for selectedItem in self.listBox.selectedItems():
qIndex = self.listBox.indexFromItem(selectedItem)
eth = selectedItem.dataNet['interface']
flt = selectedItem.dataNet['filter']
self.filterEdit.setText( flt )
self.intComboBox.setEditText( eth )
model.removeRow(qIndex.row())
def delItem(self):
"""
Delete item
"""
self.delButton.setEnabled(False)
self.editButton.setEnabled(False)
# remove item
model = self.listBox.model()
for selectedItem in self.listBox.selectedItems():
qIndex = self.listBox.indexFromItem(selectedItem)
model.removeRow(qIndex.row())
def addItem(self):
"""
Add item
"""
eth = self.intComboBox.currentText()
if eth != '':
flt = self.filterEdit.text()
tpl = {'interface': str(eth), 'filter': str(flt) }
newParam = NetItem( data=tpl, parent=self.listBox)
self.listBox.resizeColumnToContents(0)
def loadDefaultData(self):
"""
Load the default data
"""
try:
if len(self.dataArgs) ==0:
return
datObj = eval(str(self.dataArgs))
if 'interfaces' in datObj:
for eth in datObj['interfaces']:
newParam = NetItem( data=eth, parent=self.listBox)
except Exception as e:
self.error( "unable to load the default data: %s" % e )
def getArgs(self):
"""
Returns arguments
Example list of files: {'interfaces': [ {'interface':'any', 'filter':''} ] }
"""
listEth = []
# iterate all items in a QListWidget
root = self.listBox.invisibleRootItem()
child_count = root.childCount()
for i in xrange(child_count):
itm = root.child(i)
listEth.append( eval(str(itm.dataNet)) )
ret = {'interfaces': listEth }
if len(listEth) == 0:
ret = ''
return str(ret)
class DictParameterWidget(GenericParameterWidget):
"""Widget class for DictParameter."""
def __init__(self, parameter, parent=None):
"""Constructor
.. versionadded:: 3.1
:param parameter: A DictParameter object.
:type parameter: DictParameter
"""
# pylint: disable=E1002
super(DictParameterWidget, self).__init__(parameter, parent)
# pylint: enable=E1002
self._input = QTreeWidget()
# generate tree model
widget_items = self.generate_tree_model(self._parameter.value)
self._input.addTopLevelItems(widget_items)
# set header
self._input.headerItem().setText(0, 'Keys')
self._input.headerItem().setText(1, 'Values')
self._inner_input_layout.addWidget(self._input)
# override self._input_layout arrangement to make the label at the top
# reset the layout
self._input_layout.setParent(None)
self._help_layout.setParent(None)
self._label.setParent(None)
self._inner_input_layout.setParent(None)
self._input_layout = QVBoxLayout()
self._input_layout.setSpacing(0)
# put element into layout
self._input_layout.addWidget(self._label)
self._input_layout.addLayout(self._inner_input_layout)
self._main_layout.addLayout(self._input_layout)
self._main_layout.addLayout(self._help_layout)
def generate_tree_model(self, data_dict):
"""Generate a tree model for specified dictionary
:param data_dict: A dictionary
:type data_dict: dict
:return: list of QTreeWidgetItem
:rtype list:
"""
widget_items = []
font = QFont()
font.setBold(True)
for key in data_dict.keys():
entry = data_dict[key]
key_item = QTreeWidgetItem()
key_item.setText(0, str(key))
key_item.setFont(0, font)
if isinstance(entry, dict):
items = self.generate_tree_model(entry)
key_item.addChildren(items)
else:
# value_item = QTreeWidgetItem()
key_item.setText(1, str(entry))
key_item.setFlags(key_item.flags() | Qt.ItemIsEditable)
# key_item.addChild(key_item)
widget_items.append(key_item)
return widget_items
def extract_dict(self, widget_items):
"""Extract dictionary key and values from QTreeWidgetItems
:param widget_items: List of QTreeWidgetItems
:type widget_items: list
:return: hierarchical dictionary extracted from widget_items
:rtype dict:
"""
data_dict = {}
element_type = self._parameter.element_type
if element_type == object:
def object_cast(obj):
return obj
element_type = object_cast
for key_item in widget_items:
key = str(key_item.text(0))
value = None
if key_item.childCount() == 0:
# value_item = key_item.child(0)
value = element_type(key_item.text(1))
elif key_item.childCount() > 1:
value_items = [key_item.child(i)
for i in range(key_item.childCount())]
value = self.extract_dict(value_items)
data_dict[key] = value
return data_dict
def get_parameter(self):
"""Obtain the parameter object from the current widget state.
:returns: A DictParameter from the current state of widget
"""
root_widget_item = self._input.invisibleRootItem()
widget_items = [root_widget_item.child(i)
for i in range(root_widget_item.childCount())]
data_dict = self.extract_dict(widget_items)
self._parameter.value = data_dict
return self._parameter
class OWGEODatasets(OWWidget):
name = "GEO Data Sets"
description = DESCRIPTION
icon = "../widgets/icons/GEODataSets.svg"
priority = PRIORITY
inputs = []
outputs = [("Expression Data", Orange.data.Table)]
settingsList = ["outputRows", "mergeSpots", "gdsSelectionStates",
"splitterSettings", "currentGds", "autoCommit",
"datasetNames"]
outputRows = Setting(False)
mergeSpots = Setting(True)
gdsSelectionStates = Setting({})
currentGds = Setting(None)
datasetNames = Setting({})
splitterSettings = Setting(
(b'\x00\x00\x00\xff\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x01\xea\x00\x00\x00\xd7\x01\x00\x00\x00\x07\x01\x00\x00\x00\x02',
b'\x00\x00\x00\xff\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x01\xb5\x00\x00\x02\x10\x01\x00\x00\x00\x07\x01\x00\x00\x00\x01')
)
autoCommit = Setting(True)
def __init__(self, parent=None, signalManager=None, name=" GEO Data Sets"):
OWWidget.__init__(self, parent, signalManager, name)
self.selectionChanged = False
self.filterString = ""
self.datasetName = ""
## GUI
box = gui.widgetBox(self.controlArea, "Info", addSpace=True)
self.infoBox = gui.widgetLabel(box, "Initializing\n\n")
box = gui.widgetBox(self.controlArea, "Output", addSpace=True)
gui.radioButtonsInBox(box, self, "outputRows",
["Genes or spots", "Samples"], "Rows",
callback=self.commitIf)
gui.checkBox(box, self, "mergeSpots", "Merge spots of same gene",
callback=self.commitIf)
gui.separator(box)
self.nameEdit = gui.lineEdit(
box, self, "datasetName", "Data set name",
tooltip="Override the default output data set name",
callback=self.onNameEdited
)
self.nameEdit.setPlaceholderText("")
if sys.version_info < (3, ):
box = gui.widgetBox(self.controlArea, "Commit", addSpace=True)
self.commitButton = gui.button(
box, self, "Commit", callback=self.commit)
cb = gui.checkBox(box, self, "autoCommit", "Commit on any change")
gui.setStopper(self, self.commitButton, cb, "selectionChanged",
self.commit)
else:
gui.auto_commit(self.controlArea, self, "autoCommit", "Commit",
box="Commit")
gui.rubber(self.controlArea)
# self.filterLineEdit = OWGUIEx.lineEditHint(
# self.mainArea, self, "filterString", "Filter",
# caseSensitive=False, matchAnywhere=True,
# callback=self.filter, delimiters=" ")
gui.widgetLabel(self.mainArea, "Filter")
self.filterLineEdit = QLineEdit(
textChanged=self.filter
)
self.completer = QCompleter(
caseSensitivity=Qt.CaseInsensitive
)
self.completer.setModel(QStringListModel(self))
self.filterLineEdit.setCompleter(self.completer)
self.mainArea.layout().addWidget(self.filterLineEdit)
splitter = QSplitter(Qt.Vertical, self.mainArea)
self.mainArea.layout().addWidget(splitter)
self.treeWidget = QTreeView(splitter)
self.treeWidget.setSelectionMode(QTreeView.SingleSelection)
self.treeWidget.setRootIsDecorated(False)
self.treeWidget.setSortingEnabled(True)
self.treeWidget.setAlternatingRowColors(True)
self.treeWidget.setUniformRowHeights(True)
self.treeWidget.setEditTriggers(QTreeView.NoEditTriggers)
linkdelegate = LinkStyledItemDelegate(self.treeWidget)
self.treeWidget.setItemDelegateForColumn(1, linkdelegate)
self.treeWidget.setItemDelegateForColumn(8, linkdelegate)
self.treeWidget.setItemDelegateForColumn(
0, gui.IndicatorItemDelegate(self.treeWidget,
role=Qt.DisplayRole))
proxyModel = MySortFilterProxyModel(self.treeWidget)
self.treeWidget.setModel(proxyModel)
self.treeWidget.selectionModel().selectionChanged.connect(
self.updateSelection
)
self.treeWidget.viewport().setMouseTracking(True)
splitterH = QSplitter(Qt.Horizontal, splitter)
box = gui.widgetBox(splitterH, "Description")
self.infoGDS = gui.widgetLabel(box, "")
self.infoGDS.setWordWrap(True)
gui.rubber(box)
box = gui.widgetBox(splitterH, "Sample Annotations")
self.annotationsTree = QTreeWidget(box)
self.annotationsTree.setHeaderLabels(
["Type (Sample annotations)", "Sample count"]
)
self.annotationsTree.setRootIsDecorated(True)
box.layout().addWidget(self.annotationsTree)
self.annotationsTree.itemChanged.connect(
self.annotationSelectionChanged
)
self._annotationsUpdating = False
self.splitters = splitter, splitterH
for sp, setting in zip(self.splitters, self.splitterSettings):
sp.splitterMoved.connect(self.splitterMoved)
sp.restoreState(setting)
self.searchKeys = ["dataset_id", "title", "platform_organism",
"description"]
self.gds = []
self.gds_info = None
self.resize(1000, 600)
self.setBlocking(True)
self.setEnabled(False)
self.progressBarInit()
self._executor = ThreadExecutor()
func = partial(get_gds_model,
methodinvoke(self, "_setProgress", (float,)))
self._inittask = Task(function=func)
self._inittask.finished.connect(self._initializemodel)
self._executor.submit(self._inittask)
self._datatask = None
@Slot(float)
def _setProgress(self, value):
self.progressBarValue = value
def _initializemodel(self):
assert self.thread() is QThread.currentThread()
model, self.gds_info, self.gds = self._inittask.result()
model.setParent(self)
proxy = self.treeWidget.model()
proxy.setFilterKeyColumn(0)
proxy.setFilterRole(TextFilterRole)
proxy.setFilterCaseSensitivity(False)
proxy.setFilterFixedString(self.filterString)
proxy.setSourceModel(model)
proxy.sort(0, Qt.DescendingOrder)
self.progressBarFinished()
self.setBlocking(False)
self.setEnabled(True)
filter_items = " ".join(
gds[key] for gds in self.gds for key in self.searchKeys
)
tr_chars = ",.:;!?(){}[]_-+\\|/%#@$^&*<>~`"
tr_table = str.maketrans(tr_chars, " " * len(tr_chars))
filter_items = filter_items.translate(tr_table)
filter_items = sorted(set(filter_items.split(" ")))
filter_items = [item for item in filter_items if len(item) > 3]
self.completer.model().setStringList(filter_items)
# self.filterLineEdit.setItems(filter_items)
if self.currentGds:
current_id = self.currentGds["dataset_id"]
gdss = [(i, qunpack(proxy.data(proxy.index(i, 1), Qt.DisplayRole)))
for i in range(proxy.rowCount())]
current = [i for i, data in gdss if data and data == current_id]
if current:
current_index = proxy.index(current[0], 0)
self.treeWidget.selectionModel().select(
current_index,
QItemSelectionModel.Select | QItemSelectionModel.Rows
)
self.treeWidget.scrollTo(
current_index, QTreeView.PositionAtCenter)
for i in range(8):
self.treeWidget.resizeColumnToContents(i)
self.treeWidget.setColumnWidth(
1, min(self.treeWidget.columnWidth(1), 300))
self.treeWidget.setColumnWidth(
2, min(self.treeWidget.columnWidth(2), 200))
self.updateInfo()
def updateInfo(self):
gds_info = self.gds_info
text = ("%i datasets\n%i datasets cached\n" %
(len(gds_info),
len(glob.glob(serverfiles.localpath("GEO") + "/GDS*"))))
filtered = self.treeWidget.model().rowCount()
if len(self.gds) != filtered:
text += ("%i after filtering") % filtered
self.infoBox.setText(text)
def updateSelection(self, *args):
current = self.treeWidget.selectedIndexes()
mapToSource = self.treeWidget.model().mapToSource
current = [mapToSource(index).row() for index in current]
if current:
self.currentGds = self.gds[current[0]]
self.setAnnotations(self.currentGds)
self.infoGDS.setText(self.currentGds.get("description", ""))
self.nameEdit.setPlaceholderText(self.currentGds["title"])
self.datasetName = \
self.datasetNames.get(self.currentGds["dataset_id"], "")
else:
self.currentGds = None
self.nameEdit.setPlaceholderText("")
self.datasetName = ""
self.commitIf()
def setAnnotations(self, gds):
self._annotationsUpdating = True
self.annotationsTree.clear()
annotations = defaultdict(set)
subsetscount = {}
for desc in gds["subsets"]:
annotations[desc["type"]].add(desc["description"])
subsetscount[desc["description"]] = str(len(desc["sample_id"]))
for type, subsets in annotations.items():
key = (gds["dataset_id"], type)
subsetItem = QTreeWidgetItem(self.annotationsTree, [type])
subsetItem.setFlags(subsetItem.flags() | Qt.ItemIsUserCheckable |
Qt.ItemIsTristate)
subsetItem.setCheckState(
0, self.gdsSelectionStates.get(key, Qt.Checked)
)
subsetItem.key = key
for subset in subsets:
key = (gds["dataset_id"], type, subset)
item = QTreeWidgetItem(
subsetItem, [subset, subsetscount.get(subset, "")]
)
item.setFlags(item.flags() | Qt.ItemIsUserCheckable)
item.setCheckState(
0, self.gdsSelectionStates.get(key, Qt.Checked)
)
item.key = key
self._annotationsUpdating = False
self.annotationsTree.expandAll()
for i in range(self.annotationsTree.columnCount()):
self.annotationsTree.resizeColumnToContents(i)
def annotationSelectionChanged(self, item, column):
if self._annotationsUpdating:
return
for i in range(self.annotationsTree.topLevelItemCount()):
item = self.annotationsTree.topLevelItem(i)
self.gdsSelectionStates[item.key] = item.checkState(0)
for j in range(item.childCount()):
child = item.child(j)
self.gdsSelectionStates[child.key] = child.checkState(0)
def filter(self):
filter_string = unicode(self.filterLineEdit.text())
proxyModel = self.treeWidget.model()
if proxyModel:
strings = filter_string.lower().strip().split()
proxyModel.setFilterFixedStrings(strings)
self.updateInfo()
def selectedSamples(self):
"""
Return the currently selected sample annotations.
The return value is a list of selected (sample type, sample value)
tuples.
.. note:: if some Sample annotation type has no selected values.
this method will return all values for it.
"""
samples = []
unused_types = []
used_types = []
for stype in childiter(self.annotationsTree.invisibleRootItem()):
selected_values = []
all_values = []
for sval in childiter(stype):
value = (str(stype.text(0)), str(sval.text(0)))
if self.gdsSelectionStates.get(sval.key, True):
selected_values.append(value)
all_values.append(value)
if selected_values:
samples.extend(selected_values)
used_types.append(str(stype.text(0)))
else:
# If no sample of sample type is selected we don't filter
# on it.
samples.extend(all_values)
unused_types.append(str(stype.text(0)))
return samples, used_types
def commitIf(self):
if self.autoCommit:
self.commit()
else:
self.selectionChanged = True
def commit(self):
if self.currentGds:
self.error(0)
sample_type = None
self.progressBarInit()
self.progressBarSet(10)
_, groups = self.selectedSamples()
if len(groups) == 1 and self.outputRows:
sample_type = groups[0]
self.setEnabled(False)
self.setBlocking(True)
def get_data(gds_id, report_genes, transpose, sample_type, title):
gds = geo.GDS(gds_id)
data = gds.getdata(
report_genes=report_genes, transpose=transpose,
sample_type=sample_type
)
data.name = title
return data
get_data = partial(
get_data, self.currentGds["dataset_id"],
report_genes=self.mergeSpots,
transpose=self.outputRows,
sample_type=sample_type,
title=self.datasetName or self.currentGds["title"]
)
self._datatask = Task(function=get_data)
self._datatask.finished.connect(self._on_dataready)
self._executor.submit(self._datatask)
def _on_dataready(self):
self.setEnabled(True)
self.setBlocking(False)
self.progressBarSet(50)
try:
data = self._datatask.result()
except urlrequest.URLError as error:
self.error(0, "Error while connecting to the NCBI ftp server! %r" %
error)
self._datatask = None
self.progressBarFinished()
return
self._datatask = None
data_name = data.name
samples, _ = self.selectedSamples()
self.warning(0)
message = None
if self.outputRows:
def samplesinst(ex):
out = []
for meta in data.domain.metas:
out.append((meta.name, ex[meta].value))
if data.domain.class_var.name != 'class':
out.append((data.domain.class_var.name,
ex[data.domain.class_var].value))
return out
samples = set(samples)
mask = [samples.issuperset(samplesinst(ex)) for ex in data]
data = data[numpy.array(mask, dtype=bool)]
if len(data) == 0:
message = "No samples with selected sample annotations."
else:
samples = set(samples)
domain = Orange.data.Domain(
[attr for attr in data.domain.attributes
if samples.issuperset(attr.attributes.items())],
data.domain.class_var,
data.domain.metas
)
# domain.addmetas(data.domain.getmetas())
if len(domain.attributes) == 0:
message = "No samples with selected sample annotations."
stypes = set(s[0] for s in samples)
for attr in domain.attributes:
attr.attributes = dict(
(key, value) for key, value in attr.attributes.items()
if key in stypes
)
data = Orange.data.Table(domain, data)
if message is not None:
self.warning(0, message)
data_hints.set_hint(data, "taxid", self.currentGds.get("taxid", ""),
10.0)
data_hints.set_hint(data, "genesinrows", self.outputRows, 10.0)
self.progressBarFinished()
data.name = data_name
self.send("Expression Data", data)
model = self.treeWidget.model().sourceModel()
row = self.gds.index(self.currentGds)
model.setData(model.index(row, 0), " ", Qt.DisplayRole)
self.updateInfo()
self.selectionChanged = False
def splitterMoved(self, *args):
self.splitterSettings = [str(sp.saveState()) for sp in self.splitters]
def onDeleteWidget(self):
if self._inittask:
self._inittask.future().cancel()
self._inittask.finished.disconnect(self._initializemodel)
if self._datatask:
self._datatask.future().cancel()
self._datatask.finished.disconnect(self._on_dataready)
self._executor.shutdown(wait=False)
super(OWGEODatasets, self).onDeleteWidget()
def onNameEdited(self):
if self.currentGds:
gds_id = self.currentGds["dataset_id"]
self.datasetNames[gds_id] = unicode(self.nameEdit.text())
self.commitIf()
class ChangedDocumentsListDialog(widgets.dialog.Dialog):
def __init__(self):
super(ChangedDocumentsListDialog, self).__init__(buttons=('close',))
self.setWindowModality(Qt.NonModal)
self.setAttribute(Qt.WA_QuitOnClose, False)
layout = QGridLayout(margin=0)
self.mainWidget().setLayout(layout)
self.tree = QTreeWidget(headerHidden=True, rootIsDecorated=False,
columnCount=2, itemsExpandable=False)
self.tree.setSelectionMode(QTreeWidget.ExtendedSelection)
self.buttonReload = QPushButton()
self.buttonReloadAll = QPushButton()
self.buttonSave = QPushButton()
self.buttonSaveAll = QPushButton()
self.buttonShowDiff = QPushButton()
self.checkWatchingEnabled = QCheckBox(checked=enabled())
layout.addWidget(self.tree, 0, 0, 6, 1)
layout.addWidget(self.buttonReload, 0, 1)
layout.addWidget(self.buttonReloadAll, 1, 1)
layout.addWidget(self.buttonSave, 2, 1)
layout.addWidget(self.buttonSaveAll, 3, 1)
layout.addWidget(self.buttonShowDiff, 4, 1)
layout.addWidget(self.checkWatchingEnabled, 6, 0, 1, 2)
layout.setRowStretch(5, 10)
app.documentClosed.connect(self.removeDocument)
app.documentSaved.connect(self.removeDocument)
app.documentUrlChanged.connect(self.removeDocument)
app.documentLoaded.connect(self.removeDocument)
self.tree.itemSelectionChanged.connect(self.updateButtons)
self.buttonReload.clicked.connect(self.slotButtonReload)
self.buttonReloadAll.clicked.connect(self.slotButtonReloadAll)
self.buttonSave.clicked.connect(self.slotButtonSave)
self.buttonSaveAll.clicked.connect(self.slotButtonSaveAll)
self.buttonShowDiff.clicked.connect(self.slotButtonShowDiff)
self.checkWatchingEnabled.toggled.connect(setEnabled)
app.translateUI(self)
qutil.saveDialogSize(self, 'externalchanges/dialog/size', QSize(400, 200))
userguide.addButton(self.buttonBox(), "externalchanges")
self.button('close').setFocus()
def translateUI(self):
self.setWindowTitle(app.caption(_("Modified Files")))
self.setMessage(_(
"The following files were modified or deleted by other "
"applications:"))
self.buttonReload.setText(_("Reload"))
self.buttonReload.setToolTip(_(
"Reloads the selected documents from disk. "
"(You can still reach the previous state of the document "
"using the Undo command.)"))
self.buttonReloadAll.setText(_("Reload All"))
self.buttonReloadAll.setToolTip(_(
"Reloads all externally modified documents from disk. "
"(You can still reach the previous state of the document "
"using the Undo command.)"))
self.buttonSave.setText(_("Save"))
self.buttonSave.setToolTip(_(
"Saves the selected documents to disk, overwriting the "
"modifications by another program."))
self.buttonSaveAll.setText(_("Save All"))
self.buttonSaveAll.setToolTip(_(
"Saves all documents to disk, overwriting the modifications by "
"another program."))
self.buttonShowDiff.setText(_("Show Difference..."))
self.buttonShowDiff.setToolTip(_(
"Shows the differences between the current document "
"and the file on disk."))
self.checkWatchingEnabled.setText(_(
"Enable watching documents for external changes"))
self.checkWatchingEnabled.setToolTip(_(
"If checked, Frescobaldi will warn you when opened files are "
"modified or deleted by other applications."))
def setDocuments(self, documents):
"""Display the specified documents in the list."""
# clear the treewidget
for d in self.tree.invisibleRootItem().takeChildren():
for i in d.takeChildren():
i.doc = None
# group the documents by directory
dirs = {}
for d in documents:
path = d.url().toLocalFile()
if path:
dirname, filename = os.path.split(path)
dirs.setdefault(dirname, []).append((filename, d))
for dirname in sorted(dirs, key=util.naturalsort):
diritem = QTreeWidgetItem()
diritem.setText(0, util.homify(dirname))
self.tree.addTopLevelItem(diritem)
diritem.setExpanded(True)
diritem.setFlags(Qt.ItemIsEnabled)
diritem.setIcon(0, icons.get('folder-open'))
for filename, document in sorted(dirs[dirname],
key=lambda item: util.naturalsort(item[0])):
fileitem = QTreeWidgetItem()
diritem.addChild(fileitem)
if documentwatcher.DocumentWatcher.instance(document).isdeleted():
itemtext = _("[deleted]")
icon = "dialog-error"
else:
itemtext = _("[modified]")
icon = "document-edit"
fileitem.setIcon(0, icons.get(icon))
fileitem.setText(0, filename)
fileitem.setText(1, itemtext)
fileitem.doc = document
# select the item if there is only one
if len(dirs) == 1 and len(list(dirs.values())[0]) == 1:
fileitem.setSelected(True)
self.tree.resizeColumnToContents(0)
self.tree.resizeColumnToContents(1)
self.updateButtons()
def removeDocument(self, document):
"""Remove the specified document from our list."""
for d in range(self.tree.topLevelItemCount()):
diritem = self.tree.topLevelItem(d)
for f in range(diritem.childCount()):
if diritem.child(f).doc is document:
i = diritem.takeChild(f)
i.doc = None
if diritem.childCount() == 0:
self.tree.takeTopLevelItem(d)
break
else:
continue
break
self.updateButtons()
# hide if no documents are left
if self.tree.topLevelItemCount() == 0:
self.hide()
def selectedDocuments(self):
"""Return the selected documents."""
return [i.doc for i in self.tree.selectedItems()]
def allDocuments(self):
"""Return all shown documents."""
return [self.tree.topLevelItem(d).child(f).doc
for d in range(self.tree.topLevelItemCount())
for f in range(self.tree.topLevelItem(d).childCount())]
def updateButtons(self):
"""Updates the buttons regarding the selection."""
docs_sel = self.selectedDocuments()
docs_all = self.allDocuments()
all_deleted_sel = all(documentwatcher.DocumentWatcher.instance(d).isdeleted()
for d in docs_sel)
all_deleted_all = all(documentwatcher.DocumentWatcher.instance(d).isdeleted()
for d in docs_all)
self.buttonSave.setEnabled(len(docs_sel) > 0)
self.buttonSaveAll.setEnabled(len(docs_all) > 0)
self.buttonReload.setEnabled(not all_deleted_sel)
self.buttonReloadAll.setEnabled(not all_deleted_all)
self.buttonShowDiff.setEnabled(len(docs_sel) == 1 and not all_deleted_sel)
def slotButtonReload(self):
"""Called when the user clicks Reload."""
self.reloadDocuments(self.selectedDocuments())
def slotButtonReloadAll(self):
"""Called when the user clicks Reload All."""
self.reloadDocuments(self.allDocuments())
def slotButtonSave(self):
"""Called when the user clicks Save."""
self.saveDocuments(self.selectedDocuments())
def slotButtonSaveAll(self):
"""Called when the user clicks Save All."""
self.saveDocuments(self.allDocuments())
def reloadDocuments(self, documents):
"""Used by slotButtonReload and slotButtonReloadAll."""
failures = []
for d in documents:
try:
d.load(keepUndo=True)
except IOError as e:
failures.append((d, e))
if failures:
msg = _("Could not reload:") + "\n\n" + "\n".join(
"{url}: {strerror} ({errno})".format(
url = d.url().toLocalFile(),
strerror = e.strerror,
errno = e.errno) for d, e in failures)
QMessageBox.critical(self, app.caption(_("Error")), msg)
def saveDocuments(self, documents):
"""Used by slotButtonSave and slotButtonSaveAll."""
failures = []
for d in documents:
try:
d.save()
except IOError as e:
failures.append((d, e))
if failures:
msg = _("Could not save:") + "\n\n" + "\n".join(
"{url}: {strerror} ({errno})".format(
url = d.url().toLocalFile(),
strerror = e.strerror,
errno = e.errno) for d, e in failures) + "\n\n" + \
_("Please save the document using the \"Save As...\" dialog.",
"Please save the documents using the \"Save As...\" dialog.",
len(failures))
QMessageBox.critical(self, app.caption(_("Error")), msg)
def slotButtonShowDiff(self):
"""Called when the user clicks Show Difference."""
docs = self.selectedDocuments() or self.allDocuments()
if not docs:
return
d = docs[0]
if documentwatcher.DocumentWatcher.instance(d).isdeleted():
return
filename = d.url().toLocalFile()
try:
with open(filename, 'rb') as f:
disktext = util.decode(f.read())
except (IOError, OSError):
return
currenttext = d.toPlainText()
html = htmldiff.htmldiff(
currenttext, disktext,
_("Current Document"), _("Document on Disk"), numlines=5)
dlg = widgets.dialog.Dialog(self, buttons=('close',))
view = QTextBrowser(lineWrapMode=QTextBrowser.NoWrap)
view.setHtml(html)
dlg.setMainWidget(view)
dlg.setWindowTitle(app.caption("Differences"))
dlg.setMessage(_(
"Document: {url}\n"
"Difference between the current document and the file on disk:").format(
url=filename))
dlg.setWindowModality(Qt.NonModal)
dlg.setAttribute(Qt.WA_QuitOnClose, False)
dlg.setAttribute(Qt.WA_DeleteOnClose)
qutil.saveDialogSize(dlg, "externalchanges/diff/dialog/size", QSize(600, 300))
dlg.show()
class MemUsageDialog(QDialog):
def __init__(self, parent=None, update=True):
QDialog.__init__(self, parent=parent)
layout = QVBoxLayout()
self.tree = QTreeWidget()
self.tree.setHeaderLabels(["cache", "memory", "roi", "dtype", "type"])
layout.addWidget(self.tree)
self.setLayout(layout)
self.memMgr = ArrayCacheMemoryMgr.instance
self.timer = QTimer(self)
if update:
self.timer.timeout.connect(self._updateReport)
self._updateReport()
def _updateReport(self):
reports = []
for c in self.memMgr.namedCaches:
r = MemInfoNode()
try:
c.generateReport(r)
reports.append(r)
except NotImplementedError:
warnings.warn('cache operator {} does not implement generateReport()'.format(c))
self._showReports(reports)
'''
import pickle
f = open("/tmp/reports.pickle",'w')
pickle.dump(reports, f)
f.close()
print "... saved MEM reports to file ..."
'''
def _showReports(self, reports):
self.tree.clear()
root = self.tree.invisibleRootItem()
for r in reports:
self._showReportsImpl(r, root, 0)
def _makeTreeWidgetItem(self, node):
l = []
l.append("%r" % node.name)
l.append("%1.1f MB" % (node.usedMemory/1024**2.0))
if node.roi is not None:
l.append("%r\n%r" % (list(node.roi[0]), list(node.roi[1])))
else:
l.append("")
if node.dtype is not None:
if node.dtype == numpy.float32:
l.append("float32")
elif node.dtype == numpy.uint8:
l.append("uint8")
elif node.dtype == numpy.uint32:
l.append("uint32")
elif node.dtype == numpy.float64:
l.append("float64")
else:
l.append(str(node.dtype))
else:
l.append("")
t = str(node.type)
t = t[len("<type '")+1:-len("'>")]
t = t.split(".")[-1]
l.append(t)
return QTreeWidgetItem(l)
def _showReportsImpl(self, node, itm, level):
#print " "*level,
#print "node", node.name
root = self._makeTreeWidgetItem(node)
itm.addChild(root)
root.setExpanded(True)
for c in node.children:
self._showReportsImpl(c, root, level+1)
def hideEvent(self, event):
self.timer.stop()
def showEvent(self, show):
self.timer.start(5*1000) #update every 5 sec.
class CustomStaff(SymbolManager, QWidget):
def __init__(self, dialog):
QWidget.__init__(self, dialog)
SymbolManager.__init__(self)
self.setDefaultSymbolSize(40)
self.dialog = dialog
self.setLayout(QGridLayout())
self.tree = QTreeWidget()
self.stack = QStackedWidget()
StackFader(self.stack)
self.systems = QSpinBox()
newStaves = QVBoxLayout()
operations = QHBoxLayout()
self.layout().addLayout(newStaves, 0, 0)
self.layout().addWidget(self.tree, 0, 1)
self.layout().addWidget(self.stack, 0, 2, 1, 2)
self.layout().addWidget(self.systems, 1, 3)
self.systems.setRange(1, 64)
l = QLabel(i18n("Systems per page:"))
l.setBuddy(self.systems)
self.layout().addWidget(l, 1, 2, Qt.AlignRight)
self.layout().addLayout(operations, 1, 1)
operations.setSpacing(0)
operations.setContentsMargins(0, 0, 0, 0)
removeButton = KPushButton(KStandardGuiItem.remove())
removeButton.clicked.connect(self.removeSelectedItems)
operations.addWidget(removeButton)
upButton = QToolButton()
upButton.clicked.connect(self.moveSelectedItemsUp)
upButton.setIcon(KIcon("go-up"))
operations.addWidget(upButton)
downButton = QToolButton()
downButton.clicked.connect(self.moveSelectedItemsDown)
downButton.setIcon(KIcon("go-down"))
operations.addWidget(downButton)
newStaves.setSpacing(0)
newStaves.setContentsMargins(0, 0, 0, 0)
self.tree.setIconSize(QSize(32, 32))
self.tree.setDragDropMode(QTreeWidget.InternalMove)
self.tree.headerItem().setHidden(True)
self.tree.itemSelectionChanged.connect(self.slotSelectionChanged)
for staffType in (
BracketItem,
BraceItem,
StaffItem,
):
b = QPushButton(staffType.name())
b.clicked.connect((lambda t: lambda: self.createItem(t))(staffType))
b.setIconSize(QSize(40, 40))
self.addSymbol(b, staffType.symbol())
newStaves.addWidget(b)
def createItem(self, staffType):
empty = self.tree.topLevelItemCount() == 0
items = self.tree.selectedItems()
if len(items) == 1 and items[0].flags() & Qt.ItemIsDropEnabled:
parent = items[0]
else:
parent = self.tree
item = staffType(self, parent)
if empty:
item.setSelected(True)
def slotSelectionChanged(self):
items = self.tree.selectedItems()
if items:
self.stack.setCurrentWidget(items[0].widget)
def moveSelectedItemsUp(self):
items = self.tree.selectedItems()
if items:
item = items[0] # currently we support only one selected item
parent = item.parent() or self.tree.invisibleRootItem()
index = parent.indexOfChild(item)
if index > 0:
parent.takeChild(index)
parent.insertChild(index - 1, item)
self.tree.clearSelection()
item.setSelected(True)
item.setExpanded(True)
def moveSelectedItemsDown(self):
items = self.tree.selectedItems()
if items:
item = items[0] # currently we support only one selected item
parent = item.parent() or self.tree.invisibleRootItem()
index = parent.indexOfChild(item)
if index < parent.childCount() - 1:
parent.takeChild(index)
parent.insertChild(index + 1, item)
self.tree.clearSelection()
item.setSelected(True)
item.setExpanded(True)
def removeSelectedItems(self):
for item in self.tree.selectedItems():
item.remove()
def systemCount(self):
return self.systems.value()
def name(self):
return i18n("Custom Staff")
def default(self):
while self.tree.topLevelItemCount():
self.tree.topLevelItem(0).remove()
self.systems.setValue(4)
def items(self):
for i in range(self.tree.topLevelItemCount()):
yield self.tree.topLevelItem(i)
def music(self, layout):
music = sum((i.music(layout) for i in self.items()), ['<<'])
music.append('>>')
return music
def staffCount(self):
return sum(i.staffCount() for i in self.items())
class RunsDialog(QtHelper.EnhancedQDialog):
"""
Runs several dialog
"""
RefreshRepository = pyqtSignal(str)
def __init__(self, dialogName, parent = None, iRepo=None, lRepo=None, rRepo=None):
"""
Constructor
"""
QtHelper.EnhancedQDialog.__init__(self, parent)
self.name = self.tr("Prepare a group of runs")
self.projectReady = False
self.iRepo = iRepo
self.lRepo = lRepo
self.rRepo = rRepo
self.createDialog()
self.createConnections()
def createDialog(self):
"""
Create qt dialog
"""
self.setWindowTitle( self.name )
mainLayout = QHBoxLayout()
layoutTests = QHBoxLayout()
layoutRepoTest = QVBoxLayout()
self.prjCombo = QComboBox(self)
self.prjCombo.setEnabled(False)
self.repoTests = QTreeWidget(self)
self.repoTests.setFrameShape(QFrame.NoFrame)
if USE_PYQT5:
self.repoTests.header().setSectionResizeMode(QHeaderView.Stretch)
else:
self.repoTests.header().setResizeMode(QHeaderView.Stretch)
self.repoTests.setHeaderHidden(True)
self.repoTests.setContextMenuPolicy(Qt.CustomContextMenu)
self.repoTests.setIndentation(10)
layoutRepoTest.addWidget(self.prjCombo)
layoutRepoTest.addWidget(self.repoTests)
self.testsList = QListWidget(self)
layoutTests.addLayout( layoutRepoTest )
layoutTests.addWidget( self.testsList )
mainLayout.addLayout( layoutTests )
buttonLayout = QVBoxLayout()
self.okButton = QPushButton(self.tr("Execute All"), self)
self.okButton.setEnabled(False)
self.cancelButton = QPushButton(self.tr("Cancel"), self)
self.upButton = QPushButton(self.tr("UP"), self)
self.upButton.setEnabled(False)
self.downButton = QPushButton(self.tr("DOWN"), self)
self.downButton.setEnabled(False)
self.clearButton = QPushButton(self.tr("Remove All"), self)
self.delButton = QPushButton(self.tr("Remove"), self)
self.delButton.setEnabled(False)
self.runSimultaneous = QCheckBox(self.tr("Simultaneous Run"))
self.schedImmed = QRadioButton(self.tr("Run Immediately"))
self.schedImmed.setChecked(True)
self.schedAt = QRadioButton(self.tr("Run At:"))
self.schedAtDateTimeEdit = QDateTimeEdit(QDateTime.currentDateTime())
self.schedAtDateTimeEdit.setEnabled(False)
buttonLayout.addWidget(self.okButton)
buttonLayout.addWidget(self.runSimultaneous)
buttonLayout.addWidget(self.schedImmed)
buttonLayout.addWidget(self.schedAt)
buttonLayout.addWidget(self.schedAtDateTimeEdit)
buttonLayout.addWidget( self.upButton )
buttonLayout.addWidget( self.downButton )
buttonLayout.addWidget( self.delButton )
buttonLayout.addWidget( self.clearButton )
buttonLayout.addWidget(self.cancelButton)
mainLayout.addLayout(buttonLayout)
self.setMinimumHeight(400)
self.setMinimumWidth(750)
self.setLayout(mainLayout)
def initProjects(self, projects=[], defaultProject=1):
"""
Initialize projects
"""
# init date and time
self.schedAtDateTimeEdit.setDateTime(QDateTime.currentDateTime())
self.projectReady = False
self.repoTests.clear()
self.prjCombo.clear()
self.testsList.clear()
self.prjCombo.setEnabled(True)
# insert data
pname = ''
for p in projects:
self.prjCombo.addItem ( p['name'] )
if defaultProject == p['project_id']:
pname = p['name']
for i in xrange(self.prjCombo.count()):
item_text = self.prjCombo.itemText(i)
if str(pname) == str(item_text):
self.prjCombo.setCurrentIndex(i)
self.projectReady = True
self.RefreshRepository.emit(pname)
def initializeTests(self, listing):
"""
Initialize tests
"""
self.repoTests.clear()
self.testRoot = self.rRepo.Item(repo = self.iRepo.remote(),
parent = self.repoTests, txt = "Root",
type = QTreeWidgetItem.UserType+10,
isRoot = True )
self.testRoot.setSelected(True)
self.createRepository(listing=listing, parent=self.testRoot,fileincluded=True)
self.repoTests.sortItems(0, Qt.AscendingOrder)
self.hideItems(hideTsx=False, hideTpx=False, hideTcx=True, hideTdx=True, hideTxt=True, hidePy=True,
hideTux=False, hidePng=True, hideTgx=False, hideTax=False)
def createRepository(self, listing, parent, fileincluded=True):
"""
Create repository
@param listing:
@type listing: list
@param parent:
@type parent:
@param fileincluded:
@type fileincluded: boolean
"""
try:
for dct in listing:
if dct["type"] == "folder":
item = self.rRepo.Item(repo = self.iRepo.remote(), parent = parent,
txt = dct["name"], propertiesFile=dct )
self.createRepository( dct["content"] , item, fileincluded )
else:
if fileincluded:
if dct["type"] == "file":
pname = self.iRepo.remote().getProjectName(dct["project"])
# {'modification': 1342259500, 'type': 'file', 'name': '__init__.py', 'size': '562 }
item = self.rRepo.Item(repo = self.iRepo.remote(), parent = parent, txt = dct["name"] ,
propertiesFile=dct, type = QTreeWidgetItem.UserType+0,
projectId=dct["project"], projectName=pname )
except Exception as e:
self.error( "unable to create tree for runs: %s" % e )
def onProjectChanged(self, projectItem):
"""
Called when the project changed on the combo box
"""
if self.projectReady:
item_text = self.prjCombo.itemText(projectItem)
self.RefreshRepository.emit(item_text)
def createConnections (self):
"""
create qt connections
* ok
* cancel
"""
self.prjCombo.currentIndexChanged.connect(self.onProjectChanged)
self.okButton.clicked.connect( self.acceptClicked )
self.cancelButton.clicked.connect( self.reject )
self.upButton.clicked.connect(self.upTest)
self.downButton.clicked.connect(self.downTest)
self.clearButton.clicked.connect(self.clearList)
self.delButton.clicked.connect(self.delTest)
self.testsList.itemClicked.connect(self.onItemSelected)
self.testsList.itemSelectionChanged.connect(self.onItemSelectionChanged)
self.schedAt.toggled.connect(self.onSchedAtActivated)
self.repoTests.itemDoubleClicked.connect( self.onTestDoucleClicked )
def onSchedAtActivated(self, toggled):
"""
On sched at button activated
"""
if toggled:
self.schedAtDateTimeEdit.setEnabled(True)
else:
self.schedAtDateTimeEdit.setEnabled(False)
def onItemSelectionChanged(self):
"""
Called on item selection changed
"""
self.onItemSelected(itm=None)
def onItemSelected(self, itm):
"""
Call on item selected
"""
selectedItems = self.testsList.selectedItems()
if len(selectedItems):
self.delButton.setEnabled(True)
self.upButton.setEnabled(True)
self.downButton.setEnabled(True)
else:
self.delButton.setEnabled(False)
self.upButton.setEnabled(False)
self.downButton.setEnabled(False)
if not self.testsList.count():
self.okButton.setEnabled(False)
def upTest(self):
"""
Up test
"""
currentRow = self.testsList.currentRow()
currentItem = self.testsList.takeItem(currentRow)
self.testsList.insertItem(currentRow - 1, currentItem)
def downTest(self):
"""
Down test
"""
currentRow = self.testsList.currentRow()
currentItem = self.testsList.takeItem(currentRow)
self.testsList.insertItem(currentRow + 1, currentItem)
def delTest(self):
"""
Del test
"""
currentRow = self.testsList.currentRow()
currentItem = self.testsList.takeItem(currentRow)
def clearList(self):
"""
Clear test
"""
self.testsList.clear()
self.delButton.setEnabled(False)
self.upButton.setEnabled(False)
self.downButton.setEnabled(False)
self.okButton.setEnabled(False)
def iterateTree(self, item, hideTsx, hideTpx, hideTcx, hideTdx, hideTxt,
hidePy, hideTux, hidePng, hideTgx, hideTax):
"""
Iterate tree
"""
child_count = item.childCount()
for i in range(child_count):
subitem = item.child(i)
subchild_count = subitem.childCount()
if subchild_count > 0:
self.iterateTree(item=subitem, hideTsx=hideTsx,
hideTpx=hideTpx, hideTcx=hideTcx,
hideTdx=hideTdx, hideTxt=hideTxt,
hidePy=hidePy, hideTux=hideTux,
hidePng=hidePng, hideTgx=hideTgx, hideTax=hideTax)
else:
if hideTux and subitem.getExtension() == self.rRepo.EXTENSION_TUX:
subitem.setHidden (True)
elif hideTpx and subitem.getExtension() == self.rRepo.EXTENSION_TPX:
subitem.setHidden (True)
elif hideTgx and subitem.getExtension() == self.rRepo.EXTENSION_TGX:
subitem.setHidden (True)
elif hideTcx and subitem.getExtension() == self.rRepo.EXTENSION_TCX:
subitem.setHidden (True)
elif hideTsx and subitem.getExtension() == self.rRepo.EXTENSION_TSX:
subitem.setHidden (True)
elif hideTdx and subitem.getExtension() == self.rRepo.EXTENSION_TDX:
subitem.setHidden (True)
elif hideTxt and subitem.getExtension() == self.rRepo.EXTENSION_TXT:
subitem.setHidden (True)
elif hidePy and subitem.getExtension() == self.rRepo.EXTENSION_PY:
subitem.setHidden (True)
elif hidePng and subitem.getExtension() == self.rRepo.EXTENSION_PNG:
subitem.setHidden (True)
elif hideTax and subitem.getExtension() == self.rRepo.EXTENSION_TAx:
subitem.setHidden (True)
else:
subitem.setHidden(False)
def hideItems(self, hideTsx=False, hideTpx=False, hideTcx=False, hideTdx=False, hideTxt=False, hidePy=False,
hideTux=False, hidePng=False, hideTgx=False, hideTax=False):
"""
Hide items
"""
root = self.repoTests.invisibleRootItem()
self.iterateTree(item=root, hideTsx=hideTsx, hideTpx=hideTpx, hideTcx=hideTcx,
hideTdx=hideTdx, hideTxt=hideTxt, hidePy=hidePy,
hideTux=hideTux, hidePng=hidePng, hideTgx=hideTgx, hideTax=hideTax)
def onTestDoucleClicked(self, testItem):
"""
On tests double clicked
"""
if testItem.type() != QTreeWidgetItem.UserType+0:
return
self.okButton.setEnabled(True)
currentProject = self.prjCombo.currentText()
testName = "%s:%s" % (str(currentProject),testItem.getPath(withFileName = True))
testItem = QListWidgetItem(testName )
if testName.endswith(self.rRepo.EXTENSION_TUX):
testItem.setIcon(QIcon(":/tux.png"))
if testName.endswith(self.rRepo.EXTENSION_TSX):
testItem.setIcon(QIcon(":/tsx.png"))
if testName.endswith(self.rRepo.EXTENSION_TPX):
testItem.setIcon(QIcon(":/tpx.png"))
if testName.endswith(self.rRepo.EXTENSION_TGX):
testItem.setIcon(QIcon(":/tgx.png"))
if testName.endswith(self.rRepo.EXTENSION_TAX):
testItem.setIcon(QIcon(":/tax.png"))
self.testsList.addItem( testItem )
def acceptClicked (self):
"""
Called on accept button
"""
self.accept()
def getTests(self):
"""
Returns all tests in the list
"""
tests = []
for i in xrange(self.testsList.count()):
testItem = self.testsList.item(i)
tests.append( str(testItem.text()) )
runSimultaneous = False
if self.runSimultaneous.isChecked(): runSimultaneous = True
if self.schedImmed.isChecked():
runAt = (0,0,0,0,0,0)
return (tests, False, runAt, runSimultaneous)
else:
pydt = self.schedAtDateTimeEdit.dateTime().toPyDateTime()
runAt = (pydt.year, pydt.month, pydt.day, pydt.hour, pydt.minute, pydt.second)
return (tests, True, runAt, runSimultaneous)
class SettingsWindow(QWidget):
min_max_changed = pyqtSignal(tuple, str)
indicators_changed = pyqtSignal(bool)
interpolation_changed = pyqtSignal(str)
samples_unit_changed = pyqtSignal(str)
def __init__(self, context, parent=None):
"""
:type context: segyviewlib.SliceViewContext
:type parent: QObject
"""
QWidget.__init__(self, parent, Qt.WindowStaysOnTopHint | Qt.Window)
self.setVisible(False)
self._context = context
self._context.context_changed.connect(self._settings_changed)
self._context.data_changed.connect(self._settings_changed)
self._context.data_source_changed.connect(self._settings_changed)
f_layout = QFormLayout()
self._iline_count = QLabel("")
self._xline_count = QLabel("")
self._offset_count = QLabel("")
self._sample_count = QLabel("")
self._minimum_value = QLabel("")
self._maximum_value = QLabel("")
f_layout.addRow("Inline Count:", self._iline_count)
f_layout.addRow("Crossline Count:", self._xline_count)
f_layout.addRow("Offset Count:", self._offset_count)
f_layout.addRow("Sample Count:", self._sample_count)
if self._context._has_data:
f_layout.addRow("Minimum Value:", self._minimum_value)
f_layout.addRow("Maximum Value:", self._maximum_value)
# iline
self._il_ctrl = IndexController(parent=self,
context=self._context,
slice_direction_index_source=SliceDirection.inline)
self._il_ctrl.index_changed.connect(self._index_changed_fn(SliceDirection.inline))
self._il_ctrl.min_max_changed.connect(self.iline_limits_changed)
# xline
self._xl_ctrl = IndexController(parent=self,
context=self._context,
slice_direction_index_source=SliceDirection.crossline)
self._xl_ctrl.index_changed.connect(self._index_changed_fn(SliceDirection.crossline))
self._xl_ctrl.min_max_changed.connect(self.xline_limits_changed)
# depth
self._depth_ctrl = IndexController(parent=self,
context=self._context,
slice_direction_index_source=SliceDirection.depth)
self._depth_ctrl.index_changed.connect(self._index_changed_fn(SliceDirection.depth))
self._depth_ctrl.min_max_changed.connect(self.depth_limits_changed)
# sample
self._sample_ctrl = SampleScaleController(self)
self._sample_ctrl.min_max_changed.connect(self.sample_limits_changed)
self._symmetric_scale = QCheckBox()
self._symmetric_scale.toggled.connect(self._context.set_symmetric_scale)
self._samples_unit = QComboBox()
self._samples_unit.addItems(['Time (ms)', 'Depth (m)'])
self._samples_unit.currentIndexChanged[str].connect(self.samples_unit)
# view
self._view_label = QLabel("")
self._view_label.setDisabled(True)
self._indicator_visibility = QCheckBox()
self._indicator_visibility.toggled.connect(self._show_indicators)
self._indicator_visibility.toggled.connect(lambda: self._set_view_label(self._indicator_visibility.isChecked()))
self._interpolation_combo = QComboBox()
self._interpolations_names = ['nearest', 'catrom', 'sinc']
self._interpolation_combo.addItems(self._interpolations_names)
self._interpolation_combo.currentIndexChanged.connect(self._interpolation_changed)
# plot export settings
self._plt_settings_wdgt = PlotExportSettingsWidget(self, parent._slice_view_widget, self._context)
# define tree layout
tree_def = {"": [
{"Inline": [{"set_expanded": True},
{"": self._align(self._il_ctrl.current_index_label)},
{"Inline:": self._align(self._il_ctrl.index_widget)},
{"Minimum:": self._align(self._il_ctrl.min_spinbox, self._il_ctrl.min_checkbox)},
{"Maximum:": self._align(self._il_ctrl.max_spinbox, self._il_ctrl.max_checkbox)}
]
},
{"Crossline": [{"set_expanded": True},
{"": self._align(self._xl_ctrl.current_index_label)},
{"Crossline:": self._align(self._xl_ctrl.index_widget)},
{"Minimum:": self._align(self._xl_ctrl.min_spinbox, self._xl_ctrl.min_checkbox)},
{"Maximum:": self._align(self._xl_ctrl.max_spinbox, self._xl_ctrl.max_checkbox)}
]
},
{"Depth": [{"set_expanded": True},
{"": self._align(self._depth_ctrl.current_index_label)},
{"Depth:": self._align(self._depth_ctrl.index_widget)},
{"Minimum:": self._align(self._depth_ctrl.min_spinbox, self._depth_ctrl.min_checkbox)},
{"Maximum:": self._align(self._depth_ctrl.max_spinbox, self._depth_ctrl.max_checkbox)},
{"Type": self._align(self._samples_unit)}
]
},
{"Color Scale": [
{"Custom min.:": self._align(self._sample_ctrl.min_spinbox, self._sample_ctrl.min_checkbox)},
{"Custom max.:": self._align(self._sample_ctrl.max_spinbox, self._sample_ctrl.max_checkbox)},
{"Symmetric scale:": self._align(self._symmetric_scale)}
]
},
{"View": [{"": self._align(self._view_label)},
{"Show Indicators:": self._align(self._indicator_visibility)},
{"Interpolation Type:": self._align(self._interpolation_combo)}
]
},
{"Plot export dimensions": [
{"": self._align(self._plt_settings_wdgt.label)},
{"Fixed size": self._align(self._plt_settings_wdgt.checkbox)},
{"Width:": self._align(self._plt_settings_wdgt.width_spinbox)},
{"Height:": self._align(self._plt_settings_wdgt.height_spinbox)},
{"Units:": self._align(self._plt_settings_wdgt.units_combobox)}
]
}
]}
# setup the menu/navigation tree widget
self._tree = QTreeWidget(self)
self._tree.setHeaderHidden(True)
self._tree.setColumnCount(2)
self._tree.setColumnWidth(0, 140)
self._tree.setColumnWidth(1, 180)
self._build_tree(self._tree, tree_def, self._tree.invisibleRootItem())
# layout
vertical_layout = QVBoxLayout()
button_layout = QHBoxLayout()
button_layout.setContentsMargins(0, 0, 0, 0)
close_button = QPushButton("Close")
close_button.clicked.connect(self.close)
button_layout.addStretch()
button_layout.addWidget(close_button)
vertical_layout.addLayout(f_layout, 0)
vertical_layout.addStretch()
vertical_layout.addWidget(self._tree, 1)
vertical_layout.addStretch()
vertical_layout.addLayout(button_layout, 0)
self.setLayout(vertical_layout)
self.setMinimumSize(390, 740)
@property
def qtree(self):
""" :rtype: QTreeWidget """
return self._tree
@staticmethod
def _align(widget, checkbox=None):
l = QHBoxLayout()
if checkbox is not None:
checkbox.setMaximumWidth(23)
l.addWidget(checkbox, 0)
else:
l.addSpacing(25)
l.addStretch(0.5)
if widget is not None:
widget.setMinimumWidth(180)
widget.setMaximumWidth(180)
l.addWidget(widget)
else:
l.addSpacing(180)
l.setContentsMargins(0, 0, 0, 0)
l.addStretch(1)
w = QWidget()
w.setContentsMargins(0, 2, 0, 2)
w.setLayout(l)
return w
def samples_unit(self, val):
self._context.samples_unit = val
self.samples_unit_changed.emit(val)
def _create_user_value(self):
layout = QHBoxLayout()
layout.setContentsMargins(0, 0, 0, 0)
def _build_tree(self, tree_wdgt, tree_def, root):
parent, children = tree_def.items()[0]
# empty label /parent is a special case: either inline with the previous, or skip
if parent == "":
if isinstance(children, QWidget):
item = root
tree_wdgt.setItemWidget(item, 1, children)
elif isinstance(children, list):
for c in children:
self._build_tree(tree_wdgt, c, root)
elif parent == "set_expanded": # a configuration item for the current root
root.setExpanded(children)
else:
item = QTreeWidgetItem(root)
item.setText(0, parent)
if isinstance(children, list):
for c in children:
self._build_tree(tree_wdgt, c, item)
else:
tree_wdgt.setItemWidget(item, 1, children)
def add_empty_row(self, layout, legend=""):
layout.addRow(legend, QLabel())
def _settings_changed(self):
ctx = self._context
self._indicator_visibility.setChecked(ctx.indicators)
index = self._interpolations_names.index(ctx.interpolation)
self._interpolation_combo.setCurrentIndex(index)
self._symmetric_scale.setChecked(ctx.symmetric_scale)
ilines, xlines, offsets, samples = ctx.slice_data_source().dims()
self._iline_count.setText("%d" % ilines)
self._xline_count.setText("%d" % xlines)
self._offset_count.setText("%d" % offsets)
self._sample_count.setText("%d" % samples)
if ctx._has_data:
self._minimum_value.setText("%f" % ctx.global_minimum)
self._maximum_value.setText("%f" % ctx.global_maximum)
indexes = ctx.slice_data_source().indexes_for_direction(SliceDirection.inline).tolist()
index = ctx.index_for_direction(SliceDirection.inline)
self._il_ctrl.update_view(indexes, index)
indexes = ctx.slice_data_source().indexes_for_direction(SliceDirection.crossline).tolist()
index = ctx.index_for_direction(SliceDirection.crossline)
self._xl_ctrl.update_view(indexes, index)
indexes = ctx.slice_data_source().indexes_for_direction(SliceDirection.depth).tolist()
index = ctx.index_for_direction(SliceDirection.depth)
self._depth_ctrl.update_view(indexes, index)
index = self._samples_unit.findText(ctx.samples_unit)
if index != -1:
self._samples_unit.setCurrentIndex(index)
def _set_view_label(self, indicator_on):
self._view_label.setText("indicators {0}".format("on" if indicator_on else "off"))
def _show_indicators(self, visible):
self._context.show_indicators(visible)
self.indicators_changed.emit(visible)
def _interpolation_changed(self, index):
interpolation_name = str(self._interpolation_combo.itemText(index))
self._context.set_interpolation(interpolation_name)
self.interpolation_changed.emit(interpolation_name)
def _index_changed_fn(self, direction):
def fn(value):
self._context.update_index_for_direction(direction, value)
return fn
def sample_limits_changed(self, values):
self._context.set_user_values(*values)
def depth_limits_changed(self, values):
if self._context.has_data:
min, max = values
self._context.set_y_view_limits(SliceDirection.crossline, min, max)
self._context.set_y_view_limits(SliceDirection.inline, min, max)
else:
self.min_max_changed.emit(values, 'depth')
def iline_limits_changed(self, values):
if self._context.has_data:
min, max = values
self._context.set_x_view_limits(SliceDirection.crossline, min, max)
self._context.set_x_view_limits(SliceDirection.depth, min, max)
else:
self.min_max_changed.emit(values, 'iline')
def xline_limits_changed(self, values):
if self._context.has_data:
min, max = values
self._context.set_x_view_limits(SliceDirection.inline, min, max)
self._context.set_y_view_limits(SliceDirection.depth, min, max)
else:
self.min_max_changed.emit(values, 'xline')
class MemUsageDialog(QDialog):
def __init__(self, parent=None, update=True):
QDialog.__init__(self, parent=parent)
layout = QVBoxLayout()
self.tree = QTreeWidget()
self.tree.setHeaderLabels(["cache", "memory", "roi", "dtype", "type"])
layout.addWidget(self.tree)
self.setLayout(layout)
self.memMgr = ArrayCacheMemoryMgr.instance
self.timer = QTimer(self)
if update:
self.timer.timeout.connect(self._updateReport)
self._updateReport()
def _updateReport(self):
reports = []
for c in self.memMgr.namedCaches:
r = MemInfoNode()
try:
c.generateReport(r)
reports.append(r)
except NotImplementedError:
warnings.warn("cache operator {} does not implement generateReport()".format(c))
self._showReports(reports)
"""
import pickle
f = open("/tmp/reports.pickle",'w')
pickle.dump(reports, f)
f.close()
print "... saved MEM reports to file ..."
"""
def _showReports(self, reports):
self.tree.clear()
root = self.tree.invisibleRootItem()
for r in reports:
self._showReportsImpl(r, root, 0)
def _makeTreeWidgetItem(self, node):
l = []
l.append("%r" % node.name)
l.append("%1.1f MB" % (node.usedMemory / 1024 ** 2.0))
if node.roi is not None:
l.append("%r\n%r" % (list(node.roi[0]), list(node.roi[1])))
else:
l.append("")
if node.dtype is not None:
if node.dtype == numpy.float32:
l.append("float32")
elif node.dtype == numpy.uint8:
l.append("uint8")
elif node.dtype == numpy.uint32:
l.append("uint32")
elif node.dtype == numpy.float64:
l.append("float64")
else:
l.append(str(node.dtype))
else:
l.append("")
t = str(node.type)
t = t[len("<type '") + 1 : -len("'>")]
t = t.split(".")[-1]
l.append(t)
return QTreeWidgetItem(l)
def _showReportsImpl(self, node, itm, level):
# print " "*level,
# print "node", node.name
root = self._makeTreeWidgetItem(node)
itm.addChild(root)
root.setExpanded(True)
for c in node.children:
self._showReportsImpl(c, root, level + 1)
def hideEvent(self, event):
self.timer.stop()
def showEvent(self, show):
self.timer.start(5 * 1000) # update every 5 sec.
class OWItemsets(widget.OWWidget):
name = "Frequent Itemsets"
description = "Explore sets of items that frequently appear together."
icon = "icons/FrequentItemsets.svg"
priority = 10
inputs = [("Data", Table, "set_data")]
outputs = [(Output.DATA, Table)]
minSupport = settings.Setting(30)
maxItemsets = settings.Setting(10000)
filterSearch = settings.Setting(True)
autoFind = settings.Setting(False)
autoSend = settings.Setting(True)
filterKeywords = settings.Setting("")
filterMinItems = settings.Setting(1)
filterMaxItems = settings.Setting(10000)
UserAdviceMessages = [
widget.Message(
"Itemset are listed in item-sorted order, i.e. "
"an itemset containing A and B is only listed once, as "
"A > B (and not also B > A).",
"itemsets-order",
widget.Message.Warning,
),
widget.Message(
"To select all the itemsets that are descendants of "
"(include) some item X (i.e. the whole subtree), you "
"can fold the subtree at that item and then select it.",
"itemsets-order",
widget.Message.Information,
),
]
def __init__(self):
self._is_running = False
self.isRegexMatch = lambda x: True
self.tree = QTreeWidget(
self.mainArea,
columnCount=2,
allColumnsShowFocus=True,
alternatingRowColors=True,
selectionMode=QTreeWidget.ExtendedSelection,
uniformRowHeights=True,
)
self.tree.setHeaderLabels(["Itemsets", "Support", "%"])
self.tree.header().setStretchLastSection(True)
self.tree.itemSelectionChanged.connect(self.selectionChanged)
self.mainArea.layout().addWidget(self.tree)
box = gui.widgetBox(self.controlArea, "Info")
self.nItemsets = self.nSelectedExamples = self.nSelectedItemsets = ""
gui.label(box, self, "Number of itemsets: %(nItemsets)s")
gui.label(box, self, "Selected itemsets: %(nSelectedItemsets)s")
gui.label(box, self, "Selected examples: %(nSelectedExamples)s")
hbox = gui.widgetBox(box, orientation="horizontal")
gui.button(hbox, self, "Expand all", callback=self.tree.expandAll)
gui.button(hbox, self, "Collapse all", callback=self.tree.collapseAll)
box = gui.widgetBox(self.controlArea, "Find itemsets")
gui.valueSlider(
box,
self,
"minSupport",
values=[0.0001, 0.0005, 0.001, 0.005, 0.01, 0.05, 0.1, 0.5] + list(range(1, 101)),
label="Minimal support:",
labelFormat="%g%%",
callback=lambda: self.find_itemsets(),
)
gui.hSlider(
box,
self,
"maxItemsets",
minValue=10000,
maxValue=100000,
step=10000,
label="Max. number of itemsets:",
labelFormat="%d",
callback=lambda: self.find_itemsets(),
)
self.button = gui.auto_commit(box, self, "autoFind", "Find itemsets", commit=self.find_itemsets)
box = gui.widgetBox(self.controlArea, "Filter itemsets")
gui.lineEdit(
box,
self,
"filterKeywords",
"Contains:",
callback=self.filter_change,
orientation="horizontal",
tooltip="A comma or space-separated list of regular " "expressions.",
)
hbox = gui.widgetBox(box, orientation="horizontal")
gui.spin(hbox, self, "filterMinItems", 1, 998, label="Min. items:", callback=self.filter_change)
gui.spin(hbox, self, "filterMaxItems", 2, 999, label="Max. items:", callback=self.filter_change)
gui.checkBox(
box,
self,
"filterSearch",
label="Apply these filters in search",
tooltip="If checked, the itemsets are filtered according "
"to these filter conditions already in the search "
"phase. \nIf unchecked, the only filters applied "
"during search are the ones above, "
"and the itemsets are \nfiltered afterwards only for "
"display, i.e. only the matching itemsets are shown.",
)
gui.rubber(hbox)
gui.rubber(self.controlArea)
gui.auto_commit(self.controlArea, self, "autoSend", "Send selection")
self.filter_change()
ITEM_DATA_ROLE = Qt.UserRole + 1
def selectionChanged(self):
X = self.X
mapping = self.onehot_mapping
instances = set()
where = np.where
def whole_subtree(node):
yield node
for i in range(node.childCount()):
yield from whole_subtree(node.child(i))
def itemset(node):
while node:
yield node.data(0, self.ITEM_DATA_ROLE)
node = node.parent()
def selection_ranges(node):
n_children = node.childCount()
if n_children:
yield (self.tree.indexFromItem(node.child(0)), self.tree.indexFromItem(node.child(n_children - 1)))
for i in range(n_children):
yield from selection_ranges(node.child(i))
nSelectedItemsets = 0
item_selection = QItemSelection()
for node in self.tree.selectedItems():
nodes = (node,) if node.isExpanded() else whole_subtree(node)
if not node.isExpanded():
for srange in selection_ranges(node):
item_selection.select(*srange)
for node in nodes:
nSelectedItemsets += 1
cols, vals = zip(*(mapping[i] for i in itemset(node)))
if issparse(X):
rows = (len(cols) == np.bincount((X[:, cols] != 0).indices, minlength=X.shape[0])).nonzero()[0]
else:
rows = where((X[:, cols] == vals).all(axis=1))[0]
instances.update(rows)
self.tree.itemSelectionChanged.disconnect(self.selectionChanged)
self.tree.selectionModel().select(item_selection, QItemSelectionModel.Select | QItemSelectionModel.Rows)
self.tree.itemSelectionChanged.connect(self.selectionChanged)
self.nSelectedExamples = len(instances)
self.nSelectedItemsets = nSelectedItemsets
self.output = self.data[sorted(instances)] or None
self.commit()
def commit(self):
self.send(Output.DATA, self.output)
def filter_change(self):
self.warning(9)
try:
isRegexMatch = self.isRegexMatch = re.compile(
"|".join(i.strip() for i in re.split("(,|\s)+", self.filterKeywords.strip()) if i.strip()),
re.IGNORECASE,
).search
except Exception as e:
self.warning(9, "Error in regular expression: {}".format(e.args[0]))
isRegexMatch = self.isRegexMatch = lambda x: True
def hide(node, depth, has_kw):
if not has_kw:
has_kw = isRegexMatch(node.text(0))
hidden = (
sum(hide(node.child(i), depth + 1, has_kw) for i in range(node.childCount())) == node.childCount()
if node.childCount()
else (not has_kw or not self.filterMinItems <= depth <= self.filterMaxItems)
)
node.setHidden(hidden)
return hidden
hide(self.tree.invisibleRootItem(), 0, False)
class TreeWidgetItem(QTreeWidgetItem):
def data(self, column, role):
"""Construct lazy tooltips"""
if role != Qt.ToolTipRole:
return super().data(column, role)
tooltip = []
while self:
tooltip.append(self.text(0))
self = self.parent()
return " ".join(reversed(tooltip))
def find_itemsets(self):
if self.data is None:
return
if self._is_running:
return
self._is_running = True
data = self.data
self.tree.clear()
self.tree.setUpdatesEnabled(False)
self.tree.blockSignals(True)
class ItemDict(dict):
def __init__(self, item):
self.item = item
top = ItemDict(self.tree.invisibleRootItem())
X, mapping = OneHot.encode(data)
self.onehot_mapping = mapping
ITEM_FMT = "{}" if issparse(data.X) else "{}={}"
names = {
item: ITEM_FMT.format(var.name, val) for item, var, val in OneHot.decode(mapping.keys(), data, mapping)
}
nItemsets = 0
filterSearch = self.filterSearch
filterMinItems, filterMaxItems = self.filterMinItems, self.filterMaxItems
isRegexMatch = self.isRegexMatch
# Find itemsets and populate the TreeView
with self.progressBar(self.maxItemsets + 1) as progress:
for itemset, support in frequent_itemsets(X, self.minSupport / 100):
if filterSearch and not filterMinItems <= len(itemset) <= filterMaxItems:
continue
parent = top
first_new_item = None
itemset_matches_filter = False
for item in sorted(itemset):
name = names[item]
if filterSearch and not itemset_matches_filter:
itemset_matches_filter = isRegexMatch(name)
child = parent.get(name)
if child is None:
try:
wi = self.TreeWidgetItem(
parent.item, [name, str(support), "{:.4g}".format(100 * support / len(data))]
)
except RuntimeError:
# FIXME: When autoFind was in effect and the support
# slider was moved, this line excepted with:
# RuntimeError: wrapped C/C++ object of type
# TreeWidgetItem has been deleted
return
wi.setData(0, self.ITEM_DATA_ROLE, item)
child = parent[name] = ItemDict(wi)
if first_new_item is None:
first_new_item = (parent, name)
parent = child
if filterSearch and not itemset_matches_filter:
parent, name = first_new_item
parent.item.removeChild(parent[name].item)
del parent[name].item
del parent[name]
else:
nItemsets += 1
progress.advance()
if nItemsets >= self.maxItemsets:
break
if not filterSearch:
self.filter_change()
self.nItemsets = nItemsets
self.nSelectedItemsets = 0
self.nSelectedExamples = 0
self.tree.expandAll()
for i in range(self.tree.columnCount()):
self.tree.resizeColumnToContents(i)
self.tree.setUpdatesEnabled(True)
self.tree.blockSignals(False)
self._is_running = False
def set_data(self, data):
self.data = data
is_error = False
if data is not None:
self.warning(0)
self.error(1)
self.button.setDisabled(False)
self.X = data.X
if issparse(data.X):
self.X = data.X.tocsc()
else:
if not data.domain.has_discrete_attributes():
self.error(1, "Discrete features required but data has none.")
is_error = True
self.button.setDisabled(True)
elif data.domain.has_continuous_attributes():
self.warning(0, "Data has continuous attributes which will be skipped.")
else:
self.output = None
self.commit()
if self.autoFind and not is_error:
self.find_itemsets()
class Shortcuts(preferences.Page):
def __init__(self, dialog):
super(Shortcuts, self).__init__(dialog)
layout = QVBoxLayout()
layout.setContentsMargins(0, 0, 0, 0)
self.setLayout(layout)
self.scheme = SchemeSelector(self)
layout.addWidget(self.scheme)
self.tree = QTreeWidget(self)
self.tree.setHeaderLabels([_("Command"), _("Shortcut")])
self.tree.setRootIsDecorated(False)
self.tree.setColumnCount(2)
self.tree.setAllColumnsShowFocus(True)
self.tree.setAnimated(True)
layout.addWidget(self.tree)
self.edit = QPushButton(icons.get("preferences-desktop-keyboard-shortcuts"), '')
layout.addWidget(self.edit)
# signals
self.scheme.currentChanged.connect(self.slotSchemeChanged)
self.scheme.changed.connect(self.changed)
self.tree.currentItemChanged.connect(self.slotCurrentItemChanged)
self.tree.itemDoubleClicked.connect(self.editCurrentItem)
self.edit.clicked.connect(self.editCurrentItem)
# make a dict of all actions with the actions as key and the names as
# value, with the collection prepended (for loading/saving)
win = dialog.parent()
allactions = {}
for collection in actioncollectionmanager.manager(win).actionCollections():
for name, action in collection.actions().items():
allactions[action] = (collection, name)
# keep a list of actions not in the menu structure
left = allactions.keys()
def add_actions(menuitem, actions):
"""Add actions to a QTreeWidgetItem."""
for a in actions:
if a.menu():
item = build_menu_item(a)
if item.childCount():
menuitem.addChild(item)
elif a in left:
left.remove(a)
menuitem.addChild(ShortcutItem(a, *allactions[a]))
menuitem.setFlags(Qt.ItemIsEnabled) # disable selection
def build_menu_item(action):
"""Return a QTreeWidgetItem with children for all the actions in the submenu."""
menuitem = QTreeWidgetItem()
text = qutil.removeAccelelator(action.text())
menuitem.setText(0, _("Menu {name}").format(name=text))
add_actions(menuitem, action.menu().actions())
return menuitem
# present the actions nicely ordered as in the menus
for a in win.menuBar().actions():
menuitem = build_menu_item(a)
if menuitem.childCount():
self.tree.addTopLevelItem(menuitem)
# sort leftover actions
left.sort(key=lambda i: i.text())
# show actions that are left, grouped by collection
titlegroups = {}
for a in left[:]: # copy
collection, name = allactions[a]
if collection.title():
titlegroups.setdefault(collection.title(), []).append(a)
left.remove(a)
for title in sorted(titlegroups):
item = QTreeWidgetItem(["{0}:".format(title)])
for a in titlegroups[title]:
item.addChild(ShortcutItem(a, *allactions[a]))
self.tree.addTopLevelItem(item)
item.setFlags(Qt.ItemIsEnabled) # disable selection
# show other actions that were not in the menus
item = QTreeWidgetItem([_("Other commands:")])
for a in left:
if a.text() and not a.menu():
item.addChild(ShortcutItem(a, *allactions[a]))
if item.childCount():
self.tree.addTopLevelItem(item)
item.setFlags(Qt.ItemIsEnabled) # disable selection
self.tree.expandAll()
item = self.tree.topLevelItem(0).child(0)
if _lastaction:
# find the previously selected item
for i in self.items():
if i.name == _lastaction:
item = i
break
self.tree.setCurrentItem(item)
self.tree.resizeColumnToContents(0)
def items(self):
"""Yield all the items in the actions tree."""
def children(item):
for i in range(item.childCount()):
c = item.child(i)
if c.childCount():
for c1 in children(c):
yield c1
else:
yield c
for c in children(self.tree.invisibleRootItem()):
yield c
def saveSettings(self):
self.scheme.saveSettings("shortcut_scheme", "shortcut_schemes", "shortcuts")
for item in self.items():
for scheme in self.scheme.schemes():
item.save(scheme)
item.clearSettings()
item.switchScheme(self.scheme.currentScheme())
def loadSettings(self):
self.scheme.loadSettings("shortcut_scheme", "shortcut_schemes")
# clear the settings in all the items
for item in self.items():
item.clearSettings()
item.switchScheme(self.scheme.currentScheme())
def slotSchemeChanged(self):
"""Called when the Scheme combobox is changed by the user."""
for item in self.items():
item.switchScheme(self.scheme.currentScheme())
def slotCurrentItemChanged(self, item):
if isinstance(item, ShortcutItem):
self.edit.setText(
_("&Edit Shortcut for \"{name}\"").format(name=item.text(0)))
self.edit.setEnabled(True)
global _lastaction
_lastaction = item.name
else:
self.edit.setText(_("(no shortcut)"))
self.edit.setEnabled(False)
def editCurrentItem(self):
item = self.tree.currentItem()
if not isinstance(item, ShortcutItem):
return
try:
dlg = self._editdialog
except AttributeError:
dlg = self._editdialog = ShortcutEditDialog(self)
scheme = self.scheme.currentScheme()
action = item.action(scheme)
default = item.defaultShortcuts()
if dlg.editAction(action, default):
shortcuts = action.shortcuts()
# check for conflicts
conflicting = []
for i in self.items():
if i is not item:
for s1, s2 in itertools.product(i.shortcuts(scheme), shortcuts):
if s1.matches(s2) or s2.matches(s1):
conflicting.append(i)
if conflicting:
# show a question dialog
msg = [_("This shortcut conflicts with the following command:",
"This shortcut conflicts with the following commands:", len(conflicting))]
msg.append('<br/>'.join(i.text(0) for i in conflicting))
msg.append(_("Remove the shortcut from that command?",
"Remove the shortcut from those commands?", len(conflicting)))
msg = '<p>{0}</p>'.format('</p><p>'.join(msg))
res = QMessageBox.warning(self, _("Shortcut Conflict"), msg,
QMessageBox.Yes | QMessageBox.No | QMessageBox.Cancel)
if res == QMessageBox.Yes:
# remove from conflicting
for i in conflicting:
l = i.shortcuts(scheme)
for s1 in list(l): # copy
for s2 in shortcuts:
if s1.matches(s2) or s2.matches(s1):
l.remove(s1)
i.setShortcuts(l, scheme)
elif res == QMessageBox.No:
# remove from ourselves
for i in conflicting:
for s1 in list(shortcuts): # copy
for s2 in i.shortcuts(scheme):
if s1.matches(s2) or s2.matches(s1):
shortcuts.remove(s1)
else:
return # cancelled
# store the shortcut
item.setShortcuts(shortcuts, scheme)
self.changed.emit()
class SetupDBPage(QWizardPage):
treeViewSetting = config['treeViewSet']
def __init__(self, parent=None):
super(SetupDBPage, self).__init__(parent)
self.setTitle(QApplication.translate("SetupDBPage", 'Importované tabulky a sloupce', None, QApplication.UnicodeUTF8))
self.treeWidget = QTreeWidget()
self.treeWidget.setHeaderHidden(True)
self.addItems(self.treeWidget.invisibleRootItem())
self.treeWidget.itemChanged.connect (self.checkBoxDriver)
self.treeWidget.itemChanged.connect (self.rewriteConfig)
layout = QVBoxLayout()
layout.addWidget(self.treeWidget)
self.setLayout(layout)
def addItems(self, parent):
column = 0
names = self.treeViewSetting.keys()
for name in names:
if 'Root' not in name:
nameParent = name
statusParent = self.treeViewSetting[name + 'Root']
nameParent = self.addParent(parent, column, str(name), 'data ' + str(name), statusParent)
atribs = self.treeViewSetting[name].keys()
for atr in atribs:
statusAtr = self.treeViewSetting[name][atr]
self.addChild(nameParent, column,str(atr),'data ' + str(atr), statusAtr)
def addParent(self, parent, column, title, data, status):
item = QTreeWidgetItem(parent, [title])
item.setData(column, Qt.UserRole, data)
item.setChildIndicatorPolicy(QTreeWidgetItem.ShowIndicator)
item.setCheckState (column, self.getCheckStatus(status))
item.setExpanded (False)
return item
def addChild(self, parent, column, title, data, status):
item = QTreeWidgetItem(parent, [title])
item.setData(column, Qt.UserRole, data)
item.setCheckState (column, self.getCheckStatus(status))
return item
def getCheckStatus(self,status):
if status == 'True':
return Qt.Checked
if status == 'Semi':
return Qt.PartiallyChecked
if status == 'False':
return Qt.Unchecked
def checkBoxDriver(self, item, column):
if self.hasParent(item, column) == False: # zmenou u rodice se zmeni i vsechny deti
myChildCount = item.childCount()
for i in range (0, myChildCount):
myChild = item.child(i)
myChild.setCheckState (column, item.checkState(column))
def hasParent(self, item, column):
try:
parent = item.parent()
parent.text(column)
return True
except:
return False
def rewriteConfig(self, item, column):
parent = item.parent()
itemText = str(item.text(column))
if self.hasParent(item, column) == True: # = nazev tabulky
parentText = str(parent.text(column))
if item.checkState(column) == Qt.Checked:
config['treeViewSet'][parentText][itemText] = 'True'
if item.checkState(column) == Qt.Unchecked:
config['treeViewSet'][parentText][itemText] = 'False'
else: # = nazev atributu
if item.checkState(column) == Qt.Checked:
config['treeViewSet'][itemText + 'Root'] = 'True'
if item.checkState(column) == Qt.PartiallyChecked:
config['treeViewSet'][itemText + 'Root'] = 'Semi'
if item.checkState(column) == Qt.Unchecked:
config['treeViewSet'][itemText + 'Root'] = 'False'
def nextId(self):
if importRUIAN.databaseExists():
return LicenseWizard.PageImportParameters
else:
return LicenseWizard.PageCreateDBStructure