class _valueMenu(QtWidgets.QMenu):
mouseMove = QtCore.Signal(object)
mouseRelease = QtCore.Signal(object)
stepChange = QtCore.Signal()
def __init__(self, parent=None):
super(_valueMenu, self).__init__(parent)
self.step = 1
self.last_action = None
self.steps = []
def set_steps(self, steps):
self.clear()
self.steps = steps
for step in steps:
self._add_action(step)
def _add_action(self, step):
action = QtWidgets.QAction(str(step), self)
action.step = step
self.addAction(action)
def mouseMoveEvent(self, event):
self.mouseMove.emit(event)
super(_valueMenu, self).mouseMoveEvent(event)
action = self.actionAt(event.pos())
if action:
if action is not self.last_action:
self.stepChange.emit()
self.last_action = action
self.step = action.step
elif self.last_action:
self.setActiveAction(self.last_action)
def mousePressEvent(self, event):
return
def mouseReleaseEvent(self, event):
self.mouseRelease.emit(event)
super(_valueMenu, self).mouseReleaseEvent(event)
def set_data_type(self, dt):
if dt is int:
new_steps = []
for step in self.steps:
if "." not in str(step):
new_steps.append(step)
self.set_steps(new_steps)
elif dt is float:
self.set_steps(self.steps)
class PropTextEdit(QtWidgets.QTextEdit):
value_changed = QtCore.Signal(str, object)
def __init__(self, parent=None):
super(PropTextEdit, self).__init__(parent)
self.__prev_text = ''
def focusInEvent(self, event):
super(PropTextEdit, self).focusInEvent(event)
self.__prev_text = self.toPlainText()
def focusOutEvent(self, event):
super(PropTextEdit, self).focusOutEvent(event)
if self.__prev_text != self.toPlainText():
self.value_changed.emit(self.toolTip(), self.toPlainText())
self.__prev_text = ''
def get_value(self):
return self.toPlainText()
def set_value(self, value):
_value = str(value)
if _value != self.get_value():
self.setPlainText(_value)
self.value_changed.emit(self.toolTip(), _value)
class PropComboBox(QtWidgets.QComboBox):
value_changed = QtCore.Signal(str, object)
def __init__(self, parent=None):
super(PropComboBox, self).__init__(parent)
self.currentIndexChanged.connect(self._on_index_changed)
def _on_index_changed(self):
self.value_changed.emit(self.toolTip(), self.get_value())
def items(self):
return [self.itemText(i) for i in range(self.count())]
def set_items(self, items):
self.clear()
self.addItems(items)
def get_value(self):
return self.currentText()
def set_value(self, value):
if type(value) is list:
self.set_items(value)
return
if value != self.get_value():
idx = self.findText(value, QtCore.Qt.MatchExactly)
self.setCurrentIndex(idx)
if idx >= 0:
self.value_changed.emit(self.toolTip(), value)
class PropLineEdit(QtWidgets.QLineEdit):
value_changed = QtCore.Signal(str, object)
def __init__(self, parent=None):
super(PropLineEdit, self).__init__(parent)
self.__prev_text = ''
self.returnPressed.connect(self._on_return_pressed)
def focusInEvent(self, event):
super(PropLineEdit, self).focusInEvent(event)
self.__prev_text = self.text()
def focusOutEvent(self, event):
super(PropLineEdit, self).focusOutEvent(event)
if self.__prev_text != self.text():
self.value_changed.emit(self.toolTip(), self.text())
self.__prev_text = ''
def _on_return_pressed(self):
if self.__prev_text != self.text():
self.value_changed.emit(self.toolTip(), self.text())
def get_value(self):
return self.text()
def set_value(self, value):
if value != self.get_value():
self.setText(str(value))
self.value_changed.emit(self.toolTip(), value)
class TabSearchWidget(QtWidgets.QLineEdit):
search_submitted = QtCore.Signal(str)
def __init__(self, parent=None, node_dict=None):
super(TabSearchWidget, self).__init__(parent)
self.setAttribute(QtCore.Qt.WA_MacShowFocusRect, 0)
self.setStyleSheet(STYLE_TABSEARCH)
self.setMinimumSize(200, 22)
self.setTextMargins(2, 0, 2, 0)
self.hide()
self._node_dict = node_dict or {}
node_names = sorted(self._node_dict.keys())
self._model = QtCore.QStringListModel(node_names, self)
self._completer = TabSearchCompleter()
self._completer.setModel(self._model)
self.setCompleter(self._completer)
popup = self._completer.popup()
popup.setStyleSheet(STYLE_TABSEARCH_LIST)
popup.clicked.connect(self._on_search_submitted)
self.returnPressed.connect(self._on_search_submitted)
def __repr__(self):
return '<{} at {}>'.format(self.__class__.__name__, hex(id(self)))
def _on_search_submitted(self, index=0):
node_type = self._node_dict.get(self.text())
if node_type:
self.search_submitted.emit(node_type)
self.close()
self.parentWidget().clearFocus()
def showEvent(self, event):
super(TabSearchWidget, self).showEvent(event)
self.setSelection(0, len(self.text()))
self.setFocus()
if not self.text():
self.completer().popup().show()
self.completer().complete()
def mousePressEvent(self, event):
if not self.text():
self.completer().complete()
def set_nodes(self, node_dict=None):
self._node_dict = {}
for name, node_types in node_dict.items():
if len(node_types) == 1:
self._node_dict[name] = node_types[0]
continue
for node_id in node_types:
self._node_dict['{} ({})'.format(name, node_id)] = node_id
node_names = sorted(self._node_dict.keys())
self._model.setStringList(node_names)
self._completer.setModel(self._model)
class BaseProperty(QtWidgets.QWidget):
value_changed = QtCore.Signal(str, object)
def set_value(self, value):
raise NotImplementedError
def get_value(self):
raise NotImplementedError
class PropLabel(QtWidgets.QLabel):
value_changed = QtCore.Signal(str, object)
def get_value(self):
return self.text()
def set_value(self, value):
if value != self.get_value():
self.setText(str(value))
self.value_changed.emit(self.toolTip(), value)
class NodeAction(GraphAction):
executed = QtCore.Signal(object, object)
def __init__(self, *args, **kwargs):
super(NodeAction, self).__init__(*args, **kwargs)
self.node_id = None
def _on_triggered(self):
node = self.graph.get_node_by_id(self.node_id)
self.executed.emit(self.graph, node)
class NodeBaseWidget(QtWidgets.QGraphicsProxyWidget):
"""
Base Node Widget.
"""
value_changed = QtCore.Signal(str, object)
def __init__(self, parent=None, name='widget', label=''):
super(NodeBaseWidget, self).__init__(parent)
self.setZValue(Z_VAL_NODE_WIDGET)
self._name = name
self._label = label
def _value_changed(self):
self.value_changed.emit(self.name, self.value)
def setToolTip(self, tooltip):
tooltip = tooltip.replace('\n', '<br/>')
tooltip = '<b>{}</b><br/>{}'.format(self.name, tooltip)
super(NodeBaseWidget, self).setToolTip(tooltip)
@property
def widget(self):
raise NotImplementedError
@property
def value(self):
raise NotImplementedError
@value.setter
def value(self, text):
raise NotImplementedError
@property
def label(self):
return self._label
@label.setter
def label(self, label):
self._label = label
@property
def type_(self):
return str(self.__class__.__name__)
@property
def node(self):
self.parentItem()
@property
def name(self):
return self._name
class PropButton(QtWidgets.QPushButton):
value_changed = QtCore.Signal(str, object)
def __init__(self, parent=None):
super(PropButton, self).__init__(parent)
def set_value(self, value, node=None):
# value: list of functions
if type(value) is not list:
return
for func in value:
self.clicked.connect(lambda: func(node))
def get_value(self):
return None
class PropComboBox(QtWidgets.QComboBox):
value_changed = QtCore.Signal(str, object)
def __init__(self, parent=None):
super(PropComboBox, self).__init__(parent)
self.currentIndexChanged.connect(self._on_index_changed)
self.setMaxVisibleItems(10)
self.setStyleSheet('combobox-popup: 0')
def _on_index_changed(self):
self.value_changed.emit(self.toolTip(), self.get_value())
def items(self):
return [self.itemText(i) for i in range(self.count())]
def set_items(self, items):
self.clear()
if len(items) > 0:
if isinstance(items[0], tuple):
for key, value in items:
self.addItem(key, value)
return
self.addItems(items)
def get_value(self):
text = self.currentText()
data = self.currentData()
return data if data is not None else text
def set_value(self, value):
if value != self.get_value():
idx = None
for i in range(self.count()):
itemData = self.itemData(i)
if itemData == value:
idx = i
break
if idx is None:
idx = self.findText(value, QtCore.Qt.MatchExactly)
self.setCurrentIndex(idx)
if idx >= 0:
self.value_changed.emit(self.toolTip(), value)
class GraphAction(QtWidgets.QAction):
executed = QtCore.Signal(object)
def __init__(self, *args, **kwargs):
super(GraphAction, self).__init__(*args, **kwargs)
self.graph = None
self.triggered.connect(self._on_triggered)
def _on_triggered(self):
self.executed.emit(self.graph)
def get_action(self, name):
for action in self.qmenu.actions():
if not action.menu() and action.text() == name:
return action
class PropSpinBox(QtWidgets.QSpinBox):
value_changed = QtCore.Signal(str, object)
def __init__(self, parent=None):
super(PropSpinBox, self).__init__(parent)
self.setButtonSymbols(self.NoButtons)
self.valueChanged.connect(self._on_value_change)
def _on_value_change(self, value):
self.value_changed.emit(self.toolTip(), value)
def get_value(self):
return self.value()
def set_value(self, value):
if value != self.get_value():
self.setValue(value)
class PropFloat(_valueSliderEdit):
value_changed = QtCore.Signal(str, object)
def __init__(self, parent=None):
super(PropFloat, self).__init__(parent)
self.valueChanged.connect(self._on_value_changed)
def _on_value_changed(self, value):
self.value_changed.emit(self.toolTip(), value)
def get_value(self):
return self.value()
def set_value(self, value):
if value != self.get_value():
self.setValue(value)
self.value_changed.emit(self.toolTip(), value)
class PropCheckBox(QtWidgets.QCheckBox):
value_changed = QtCore.Signal(str, object)
def __init__(self, parent=None):
super(PropCheckBox, self).__init__(parent)
self.clicked.connect(self._on_clicked)
def _on_clicked(self):
self.value_changed.emit(self.toolTip(), self.get_value())
def get_value(self):
return self.isChecked()
def set_value(self, value):
if value != self.get_value():
self.setChecked(value)
self.value_changed.emit(self.toolTip(), value)
class PropLineEdit(QtWidgets.QLineEdit):
value_changed = QtCore.Signal(str, object)
def __init__(self, parent=None):
super(PropLineEdit, self).__init__(parent)
self.editingFinished.connect(self._on_editing_finished)
def _on_editing_finished(self):
self.value_changed.emit(self.toolTip(), self.text())
def get_value(self):
return self.text()
def set_value(self, value):
_value = str(value)
if _value != self.get_value():
self.setText(_value)
self.value_changed.emit(self.toolTip(), _value)
class NodePropWidget(QtWidgets.QWidget):
"""
Node properties widget for display a Node object.
Args:
parent (QtWidgets.QWidget): parent object.
node (NodeGraphQt.BaseNode): node.
"""
#: signal (node_id, prop_name, prop_value)
property_changed = QtCore.Signal(str, str, object)
property_closed = QtCore.Signal(str)
def __init__(self, parent=None, node=None):
super(NodePropWidget, self).__init__(parent)
self.__node_id = node.id
self.__tab_windows = {}
self.__tab = QtWidgets.QTabWidget()
close_btn = QtWidgets.QPushButton('X')
close_btn.setToolTip('close property')
close_btn.clicked.connect(self._on_close)
self.name_wgt = PropLineEdit()
self.name_wgt.setToolTip('name')
self.name_wgt.set_value(node.name())
self.name_wgt.value_changed.connect(self._on_property_changed)
self.type_wgt = QtWidgets.QLabel(node.type_)
self.type_wgt.setAlignment(QtCore.Qt.AlignRight)
self.type_wgt.setToolTip('type_')
font = self.type_wgt.font()
font.setPointSize(10)
self.type_wgt.setFont(font)
name_layout = QtWidgets.QHBoxLayout()
name_layout.setContentsMargins(0, 0, 0, 0)
name_layout.addWidget(QtWidgets.QLabel('name'))
name_layout.addWidget(self.name_wgt)
name_layout.addWidget(close_btn)
layout = QtWidgets.QVBoxLayout(self)
layout.setSpacing(4)
layout.addLayout(name_layout)
layout.addWidget(self.__tab)
layout.addWidget(self.type_wgt)
self._read_node(node)
def __repr__(self):
return '<NodePropWidget object at {}>'.format(hex(id(self)))
def _on_close(self):
"""
called by the close button.
"""
self.property_closed.emit(self.__node_id)
def _on_property_changed(self, name, value):
"""
slot function called when a property widget has changed.
Args:
name (str): property name.
value (object): new value.
"""
self.property_changed.emit(self.__node_id, name, value)
def _read_node(self, node):
"""
Populate widget from a node.
Args:
node (NodeGraphQt.BaseNode): node class.
"""
model = node.model
graph_model = node.graph.model
common_props = graph_model.get_node_common_properties(node.type_)
# sort tabs and properties.
tab_mapping = defaultdict(list)
for prop_name, prop_val in model.custom_properties.items():
tab_name = model.get_tab_name(prop_name)
tab_mapping[tab_name].append((prop_name, prop_val))
# add tabs.
for tab in sorted(tab_mapping.keys()):
if tab != 'Node':
self.add_tab(tab)
min_widget_height = 25
# populate tab properties.
for tab in sorted(tab_mapping.keys()):
prop_window = self.__tab_windows[tab]
for prop_name, value in tab_mapping[tab]:
wid_type = model.get_widget_type(prop_name)
if wid_type == 0:
continue
WidClass = WIDGET_MAP.get(wid_type)
widget = WidClass()
widget.setMinimumHeight(min_widget_height)
if prop_name in common_props.keys():
if 'items' in common_props[prop_name].keys():
_prop_name = '_' + prop_name + "_"
if node.has_property(_prop_name):
widget.set_items(node.get_property(_prop_name))
else:
widget.set_items(common_props[prop_name]['items'])
if 'range' in common_props[prop_name].keys():
prop_range = common_props[prop_name]['range']
widget.set_min(prop_range[0])
widget.set_max(prop_range[1])
if 'ext' in common_props[prop_name].keys():
widget.set_ext(common_props[prop_name]['ext'])
if 'funcs' in common_props[prop_name].keys():
widget.set_value(common_props[prop_name]['funcs'],
node)
prop_window.add_widget(prop_name, widget, value,
prop_name.replace('_', ' '))
widget.value_changed.connect(self._on_property_changed)
# add "Node" tab properties.
self.add_tab('Node')
default_props = ['color', 'text_color', 'disabled', 'id']
prop_window = self.__tab_windows['Node']
for prop_name in default_props:
wid_type = model.get_widget_type(prop_name)
WidClass = WIDGET_MAP.get(wid_type)
widget = WidClass()
widget.setMinimumHeight(min_widget_height)
prop_window.add_widget(prop_name, widget,
model.get_property(prop_name),
prop_name.replace('_', ' '))
widget.value_changed.connect(self._on_property_changed)
self.type_wgt.setText(model.get_property('type_'))
def node_id(self):
"""
Returns the node id linked to the widget.
Returns:
str: node id
"""
return self.__node_id
def add_widget(self, name, widget, tab='Properties'):
"""
add new node property widget.
Args:
name (str): property name.
widget (BaseProperty): property widget.
tab (str): tab name.
"""
if tab not in self._widgets.keys():
tab = 'Properties'
window = self.__tab_windows[tab]
window.add_widget(name, widget)
widget.value_changed.connect(self._on_property_changed)
def add_tab(self, name):
"""
add a new tab.
Args:
name (str): tab name.
Returns:
PropWindow: tab child widget.
"""
if name in self.__tab_windows.keys():
raise AssertionError('Tab name {} already taken!'.format(name))
self.__tab_windows[name] = PropWindow(self)
self.__tab.addTab(self.__tab_windows[name], name)
return self.__tab_windows[name]
def get_widget(self, name):
"""
get property widget.
Args:
name (str): property name.
Returns:
QtWidgets.QWidget: property widget.
"""
if name == 'name':
return self.name_wgt
for tab_name, prop_win in self.__tab_windows.items():
widget = prop_win.get_widget(name)
if widget:
return widget
class NodeViewer(QtWidgets.QGraphicsView):
"""
node viewer is the widget used for displaying the scene and nodes
functions in this class is used internally by the
class:`NodeGraphQt.NodeGraph` class.
"""
moved_nodes = QtCore.Signal(dict)
search_triggered = QtCore.Signal(str, tuple)
connection_sliced = QtCore.Signal(list)
connection_changed = QtCore.Signal(list, list)
# pass through signals
node_selected = QtCore.Signal(str)
node_double_clicked = QtCore.Signal(str)
data_dropped = QtCore.Signal(QtCore.QMimeData, QtCore.QPoint)
def __init__(self, parent=None):
super(NodeViewer, self).__init__(parent)
if parent is not None:
self.setWindowFlags(QtCore.Qt.Window)
scene_pos = (SCENE_AREA / 2) * -1
self.setScene(NodeScene(self))
self.setSceneRect(scene_pos, scene_pos, SCENE_AREA, SCENE_AREA)
self.setRenderHint(QtGui.QPainter.Antialiasing, True)
self.setHorizontalScrollBarPolicy(QtCore.Qt.ScrollBarAlwaysOff)
self.setVerticalScrollBarPolicy(QtCore.Qt.ScrollBarAlwaysOff)
self.setViewportUpdateMode(QtWidgets.QGraphicsView.FullViewportUpdate)
self.setAcceptDrops(True)
self.resize(1000, 800)
self._pipe_layout = PIPE_LAYOUT_CURVED
self._live_pipe = None
self._detached_port = None
self._start_port = None
self._origin_pos = None
self._previous_pos = QtCore.QPoint(self.width(), self.height())
self._prev_selection = []
self._node_positions = {}
self._rubber_band = QtWidgets.QRubberBand(
QtWidgets.QRubberBand.Rectangle, self)
self._pipe_slicer = SlicerPipe()
self._pipe_slicer.setVisible(False)
self.scene().addItem(self._pipe_slicer)
self._undo_stack = QtWidgets.QUndoStack(self)
self._context_menu = QtWidgets.QMenu('main', self)
self._context_menu.setStyleSheet(STYLE_QMENU)
self._search_widget = TabSearchWidget(self)
self._search_widget.search_submitted.connect(self._on_search_submitted)
# workaround fix for shortcuts from the non-native menu actions
# don't seem to trigger so we create a hidden menu bar.
menu_bar = QtWidgets.QMenuBar(self)
menu_bar.setNativeMenuBar(False)
# shortcuts don't work with "setVisibility(False)".
menu_bar.resize(0, 0)
menu_bar.addMenu(self._context_menu)
self.acyclic = True
self.LMB_state = False
self.RMB_state = False
self.MMB_state = False
def __repr__(self):
return '{}.{}()'.format(self.__module__, self.__class__.__name__)
# --- private ---
def _set_viewer_zoom(self, value, sensitivity=0.0):
if value == 0.0:
return
scale = (0.9 + sensitivity) if value < 0.0 else (1.1 - sensitivity)
zoom = self.get_zoom()
if ZOOM_MIN >= zoom:
if scale == 0.9:
return
if ZOOM_MAX <= zoom:
if scale == 1.1:
return
self.scale(scale, scale)
def _set_viewer_pan(self, pos_x, pos_y):
scroll_x = self.horizontalScrollBar()
scroll_y = self.verticalScrollBar()
scroll_x.setValue(scroll_x.value() - pos_x)
scroll_y.setValue(scroll_y.value() - pos_y)
def _combined_rect(self, nodes):
group = self.scene().createItemGroup(nodes)
rect = group.boundingRect()
self.scene().destroyItemGroup(group)
return rect
def _items_near(self, pos, item_type=None, width=20, height=20):
x, y = pos.x() - width, pos.y() - height
rect = QtCore.QRectF(x, y, width, height)
items = []
for item in self.scene().items(rect):
if not item_type or isinstance(item, item_type):
items.append(item)
return items
def _on_search_submitted(self, node_type):
pos = self.mapToScene(self._previous_pos)
self.search_triggered.emit(node_type, (pos.x(), pos.y()))
def _on_pipes_sliced(self, path):
self.connection_sliced.emit([[i.input_port, i.output_port]
for i in self.scene().items(path)
if isinstance(i, Pipe)])
# --- reimplemented events ---
def resizeEvent(self, event):
super(NodeViewer, self).resizeEvent(event)
def contextMenuEvent(self, event):
self.RMB_state = False
if self._context_menu.isEnabled():
self._context_menu.exec_(event.globalPos())
else:
return super(NodeViewer, self).contextMenuEvent(event)
def mousePressEvent(self, event):
alt_modifier = event.modifiers() == QtCore.Qt.AltModifier
shift_modifier = event.modifiers() == QtCore.Qt.ShiftModifier
if event.button() == QtCore.Qt.LeftButton:
self.LMB_state = True
elif event.button() == QtCore.Qt.RightButton:
self.RMB_state = True
elif event.button() == QtCore.Qt.MiddleButton:
self.MMB_state = True
self._origin_pos = event.pos()
self._previous_pos = event.pos()
self._prev_selection = self.selected_nodes()
# close tab search
if self._search_widget.isVisible():
self.tab_search_toggle()
# cursor pos.
map_pos = self.mapToScene(event.pos())
# pipe slicer enabled.
if event.modifiers() == (QtCore.Qt.AltModifier
| QtCore.Qt.ShiftModifier):
self._pipe_slicer.draw_path(map_pos, map_pos)
self._pipe_slicer.setVisible(True)
return
if alt_modifier:
return
items = self._items_near(map_pos, None, 20, 20)
nodes = [i for i in items if isinstance(i, AbstractNodeItem)]
# toggle extend node selection.
if shift_modifier:
for node in nodes:
node.selected = not node.selected
# update the recorded node positions.
self._node_positions.update(
{n: n.xy_pos
for n in self.selected_nodes()})
# show selection selection marquee
if self.LMB_state and not items:
rect = QtCore.QRect(self._previous_pos, QtCore.QSize())
rect = rect.normalized()
map_rect = self.mapToScene(rect).boundingRect()
self.scene().update(map_rect)
self._rubber_band.setGeometry(rect)
self._rubber_band.show()
if not shift_modifier:
super(NodeViewer, self).mousePressEvent(event)
def mouseReleaseEvent(self, event):
if event.button() == QtCore.Qt.LeftButton:
self.LMB_state = False
elif event.button() == QtCore.Qt.RightButton:
self.RMB_state = False
elif event.button() == QtCore.Qt.MiddleButton:
self.MMB_state = False
# hide pipe slicer.
if self._pipe_slicer.isVisible():
self._on_pipes_sliced(self._pipe_slicer.path())
p = QtCore.QPointF(0.0, 0.0)
self._pipe_slicer.draw_path(p, p)
self._pipe_slicer.setVisible(False)
# hide selection marquee
if self._rubber_band.isVisible():
rect = self._rubber_band.rect()
map_rect = self.mapToScene(rect).boundingRect()
self._rubber_band.hide()
self.scene().update(map_rect)
# find position changed nodes and emit signal.
moved_nodes = {
n: xy_pos
for n, xy_pos in self._node_positions.items() if n.xy_pos != xy_pos
}
if moved_nodes:
self.moved_nodes.emit(moved_nodes)
# reset recorded positions.
self._node_positions = {}
super(NodeViewer, self).mouseReleaseEvent(event)
def mouseMoveEvent(self, event):
alt_modifier = event.modifiers() == QtCore.Qt.AltModifier
shift_modifier = event.modifiers() == QtCore.Qt.ShiftModifier
if event.modifiers() == (QtCore.Qt.AltModifier
| QtCore.Qt.ShiftModifier):
if self.LMB_state:
p1 = self._pipe_slicer.path().pointAtPercent(0)
p2 = self.mapToScene(self._previous_pos)
self._pipe_slicer.draw_path(p1, p2)
self._previous_pos = event.pos()
super(NodeViewer, self).mouseMoveEvent(event)
return
if self.MMB_state and alt_modifier:
pos_x = (event.x() - self._previous_pos.x())
zoom = 0.1 if pos_x > 0 else -0.1
self._set_viewer_zoom(zoom, 0.05)
elif self.MMB_state or (self.LMB_state and alt_modifier):
pos_x = (event.x() - self._previous_pos.x())
pos_y = (event.y() - self._previous_pos.y())
self._set_viewer_pan(pos_x, pos_y)
if self.LMB_state and self._rubber_band.isVisible():
rect = QtCore.QRect(self._origin_pos, event.pos()).normalized()
map_rect = self.mapToScene(rect).boundingRect()
path = QtGui.QPainterPath()
path.addRect(map_rect)
self._rubber_band.setGeometry(rect)
self.scene().setSelectionArea(path, QtCore.Qt.IntersectsItemShape)
self.scene().update(map_rect)
if shift_modifier and self._prev_selection:
for node in self._prev_selection:
if node not in self.selected_nodes():
node.selected = True
self._previous_pos = event.pos()
super(NodeViewer, self).mouseMoveEvent(event)
def wheelEvent(self, event):
try:
delta = event.delta()
except AttributeError:
# For PyQt5
delta = event.angleDelta().y()
adjust = (delta / 120) * 0.1
self._set_viewer_zoom(adjust)
def dropEvent(self, event):
pos = self.mapToScene(event.pos())
event.setDropAction(QtCore.Qt.MoveAction)
self.data_dropped.emit(event.mimeData(),
QtCore.QPoint(pos.x(), pos.y()))
def dragEnterEvent(self, event):
if event.mimeData().hasFormat('text/plain'):
event.accept()
else:
event.ignore()
def dragMoveEvent(self, event):
if event.mimeData().hasFormat('text/plain'):
event.accept()
else:
event.ignore()
def dragLeaveEvent(self, event):
event.ignore()
# --- scene events ---
def sceneMouseMoveEvent(self, event):
"""
triggered mouse move event for the scene.
- redraw the connection pipe.
Args:
event (QtWidgets.QGraphicsSceneMouseEvent):
The event handler from the QtWidgets.QGraphicsScene
"""
if not self._live_pipe:
return
if not self._start_port:
return
pos = event.scenePos()
items = self.scene().items(pos)
if items and isinstance(items[0], PortItem):
x = items[0].boundingRect().width() / 2
y = items[0].boundingRect().height() / 2
pos = items[0].scenePos()
pos.setX(pos.x() + x)
pos.setY(pos.y() + y)
self._live_pipe.draw_path(self._start_port, None, pos)
def sceneMousePressEvent(self, event):
"""
triggered mouse press event for the scene (takes priority over viewer event).
- detect selected pipe and start connection.
- remap Shift and Ctrl modifier.
Args:
event (QtWidgets.QGraphicsScenePressEvent):
The event handler from the QtWidgets.QGraphicsScene
"""
# pipe slicer enabled.
if event.modifiers() == (QtCore.Qt.AltModifier
| QtCore.Qt.ShiftModifier):
return
# viewer pan mode.
if event.modifiers() == QtCore.Qt.AltModifier:
return
pos = event.scenePos()
port_items = self._items_near(pos, PortItem, 5, 5)
if port_items:
port = port_items[0]
if not port.multi_connection and port.connected_ports:
self._detached_port = port.connected_ports[0]
self.start_live_connection(port)
if not port.multi_connection:
[p.delete() for p in port.connected_pipes]
return
node_items = self._items_near(pos, AbstractNodeItem, 3, 3)
if node_items:
node = node_items[0]
# record the node positions at selection time.
for n in node_items:
self._node_positions[n] = n.xy_pos
# emit selected node id with LMB.
if event.button() == QtCore.Qt.LeftButton:
self.node_selected.emit(node.id)
if not isinstance(node, BackdropNodeItem):
return
pipe_items = self._items_near(pos, Pipe, 3, 3)
if pipe_items:
if not self.LMB_state:
return
pipe = pipe_items[0]
attr = {IN_PORT: 'output_port', OUT_PORT: 'input_port'}
from_port = pipe.port_from_pos(pos, True)
from_port._hovered = True
self._detached_port = getattr(pipe, attr[from_port.port_type])
self.start_live_connection(from_port)
self._live_pipe.draw_path(self._start_port, None, pos)
pipe.delete()
def sceneMouseReleaseEvent(self, event):
"""
triggered mouse release event for the scene.
- verify to make a the connection Pipe.
Args:
event (QtWidgets.QGraphicsSceneMouseEvent):
The event handler from the QtWidgets.QGraphicsScene
"""
if not self._live_pipe:
return
self._start_port._hovered = False
# find the end port.
end_port = None
for item in self.scene().items(event.scenePos()):
if isinstance(item, PortItem):
end_port = item
break
connected = []
disconnected = []
# if port disconnected from existing pipe.
if end_port is None:
if self._detached_port:
disconnected.append((self._start_port, self._detached_port))
self.connection_changed.emit(disconnected, connected)
self._detached_port = None
self.end_live_connection()
return
# restore connection check.
restore_connection = any([
# if same port type.
end_port.port_type == self._start_port.port_type,
# if connection to itself.
end_port.node == self._start_port.node,
# if end port is the start port.
end_port == self._start_port,
# if detached port is the end port.
self._detached_port == end_port
])
if restore_connection:
if self._detached_port:
to_port = self._detached_port or end_port
self.establish_connection(self._start_port, to_port)
self._detached_port = None
self.end_live_connection()
return
# register as disconnected if not acyclic.
if self.acyclic and not self.acyclic_check(self._start_port, end_port):
if self._detached_port:
disconnected.append((self._start_port, self._detached_port))
self.connection_changed.emit(disconnected, connected)
self._detached_port = None
self.end_live_connection()
return
# make connection.
if not end_port.multi_connection and end_port.connected_ports:
dettached_end = end_port.connected_ports[0]
disconnected.append((end_port, dettached_end))
if self._detached_port:
disconnected.append((self._start_port, self._detached_port))
connected.append((self._start_port, end_port))
self.connection_changed.emit(disconnected, connected)
self._detached_port = None
self.end_live_connection()
# --- port connections ---
def start_live_connection(self, selected_port):
"""
create new pipe for the connection.
(draws the live pipe from the port following the cursor position)
"""
if not selected_port:
return
self._start_port = selected_port
self._live_pipe = Pipe()
self._live_pipe.setZValue(Z_VAL_NODE_WIDGET)
self._live_pipe.activate()
self._live_pipe.style = PIPE_STYLE_DASHED
if self._start_port.type == IN_PORT:
self._live_pipe.input_port = self._start_port
elif self._start_port == OUT_PORT:
self._live_pipe.output_port = self._start_port
self.scene().addItem(self._live_pipe)
def end_live_connection(self):
"""
delete live connection pipe and reset start port.
(removes the pipe item used for drawing the live connection)
"""
if self._live_pipe:
self._live_pipe.delete()
self._live_pipe = None
self._start_port = None
def establish_connection(self, start_port, end_port):
"""
establish a new pipe connection.
(adds a new pipe item to draw between 2 ports)
"""
pipe = Pipe()
self.scene().addItem(pipe)
pipe.set_connections(start_port, end_port)
pipe.draw_path(pipe.input_port, pipe.output_port)
if start_port.node.selected or end_port.node.selected:
pipe.highlight()
def acyclic_check(self, start_port, end_port):
"""
validate the connection so it doesn't loop itself.
Returns:
bool: True if port connection is valid.
"""
start_node = start_port.node
check_nodes = [end_port.node]
io_types = {IN_PORT: 'outputs', OUT_PORT: 'inputs'}
while check_nodes:
check_node = check_nodes.pop(0)
for check_port in getattr(check_node,
io_types[end_port.port_type]):
if check_port.connected_ports:
for port in check_port.connected_ports:
if port.node != start_node:
check_nodes.append(port.node)
else:
return False
return True
# --- viewer ---
def tab_search_set_nodes(self, nodes):
self._search_widget.set_nodes(nodes)
def tab_search_toggle(self):
pos = self._previous_pos
state = not self._search_widget.isVisible()
if state:
rect = self._search_widget.rect()
new_pos = QtCore.QPoint(pos.x() - rect.width() / 2,
pos.y() - rect.height() / 2)
self._search_widget.move(new_pos)
self._search_widget.setVisible(state)
rect = self.mapToScene(rect).boundingRect()
self.scene().update(rect)
else:
self._search_widget.setVisible(state)
self.clearFocus()
def context_menu(self):
return self._context_menu
def question_dialog(self, text, title='Node Graph'):
dlg = QtWidgets.QMessageBox.question(self, title, text,
QtWidgets.QMessageBox.Yes,
QtWidgets.QMessageBox.No)
return dlg == QtWidgets.QMessageBox.Yes
def message_dialog(self, text, title='Node Graph'):
QtWidgets.QMessageBox.information(self, title, text,
QtWidgets.QMessageBox.Ok)
def load_dialog(self, current_dir=None, ext=None):
current_dir = current_dir or os.path.expanduser('~')
ext = '*{} '.format(ext) if ext else ''
ext_filter = ';;'.join(
['Node Graph ({}*json)'.format(ext), 'All Files (*)'])
file_dlg = QtWidgets.QFileDialog.getOpenFileName(
self, 'Open Session Setup', current_dir, ext_filter)
return file_dlg[0] or None
def save_dialog(self, current_dir=None, ext=None):
current_dir = current_dir or os.path.expanduser('~')
ext_label = '*{} '.format(ext) if ext else ''
ext_type = '.{}'.format(ext) if ext else '.json'
ext_map = {
'Node Graph ({}*json)'.format(ext_label): ext_type,
'All Files (*)': ''
}
file_dlg = QtWidgets.QFileDialog.getSaveFileName(
self, 'Save Session', current_dir, ';;'.join(ext_map.keys()))
file_path = file_dlg[0]
if not file_path:
return
ext = ext_map[file_dlg[1]]
if ext and not file_path.endswith(ext):
file_path += ext
return file_path
def all_pipes(self):
pipes = []
for item in self.scene().items():
if isinstance(item, Pipe):
pipes.append(item)
return pipes
def all_nodes(self):
nodes = []
for item in self.scene().items():
if isinstance(item, AbstractNodeItem):
nodes.append(item)
return nodes
def selected_nodes(self):
nodes = []
for item in self.scene().selectedItems():
if isinstance(item, AbstractNodeItem):
nodes.append(item)
return nodes
def add_node(self, node, pos=None):
pos = pos or (self._previous_pos.x(), self._previous_pos.y())
node.pre_init(self, pos)
self.scene().addItem(node)
node.post_init(self, pos)
def remove_node(self, node):
if isinstance(node, AbstractNodeItem):
node.delete()
def move_nodes(self, nodes, pos=None, offset=None):
group = self.scene().createItemGroup(nodes)
group_rect = group.boundingRect()
if pos:
x, y = pos
else:
pos = self.mapToScene(self._previous_pos)
x = pos.x() - group_rect.center().x()
y = pos.y() - group_rect.center().y()
if offset:
x += offset[0]
y += offset[1]
group.setPos(x, y)
self.scene().destroyItemGroup(group)
def get_pipes_from_nodes(self, nodes=None):
nodes = nodes or self.selected_nodes()
if not nodes:
return
pipes = []
for node in nodes:
n_inputs = node.inputs if hasattr(node, 'inputs') else []
n_outputs = node.outputs if hasattr(node, 'outputs') else []
for port in n_inputs:
for pipe in port.connected_pipes:
connected_node = pipe.output_port.node
if connected_node in nodes:
pipes.append(pipe)
for port in n_outputs:
for pipe in port.connected_pipes:
connected_node = pipe.input_port.node
if connected_node in nodes:
pipes.append(pipe)
return pipes
def center_selection(self, nodes=None):
if not nodes:
if self.selected_nodes():
nodes = self.selected_nodes()
elif self.all_nodes():
nodes = self.all_nodes()
if len(nodes) == 1:
self.centerOn(nodes[0])
else:
rect = self._combined_rect(nodes)
self.centerOn(rect.center().x(), rect.center().y())
def get_pipe_layout(self):
return self._pipe_layout
def set_pipe_layout(self, layout):
self._pipe_layout = layout
for pipe in self.all_pipes():
pipe.draw_path(pipe.input_port, pipe.output_port)
def reset_zoom(self):
self.scale(1.0, 1.0)
self.resetTransform()
def get_zoom(self):
transform = self.transform()
cur_scale = (transform.m11(), transform.m22())
return float('{:0.2f}'.format(cur_scale[0] - 1.0))
def set_zoom(self, value=0.0):
if value == 0.0:
self.reset_zoom()
return
zoom = self.get_zoom()
if zoom < 0.0:
if not (ZOOM_MIN <= zoom <= ZOOM_MAX):
return
else:
if not (ZOOM_MIN <= value <= ZOOM_MAX):
return
value = value - zoom
self._set_viewer_zoom(value)
def zoom_to_nodes(self, nodes):
rect = self._combined_rect(nodes)
self.fitInView(rect, QtCore.Qt.KeepAspectRatio)
if self.get_zoom() > 0.1:
self.reset_zoom()
class AutoNode(BaseNode, QtCore.QObject):
cooked = QtCore.Signal()
def __init__(self, defaultInputType=None, defaultOutputType=None):
super(AutoNode, self).__init__()
QtCore.QObject.__init__(self)
self.needCook = True
self._autoCook = True
self._error = False
self.matchTypes = [['float', 'int']]
self.errorColor = (200, 50, 50)
self.stopCookColor = (200, 200, 200)
self._cryptoColors = CryptoColors()
self.defaultColor = self.get_property("color")
self.defaultValue = None
self.defaultInputType = defaultInputType
self.defaultOutputType = defaultOutputType
self._cookTime = 0.0
self._toolTip = self._setup_tool_tip()
@property
def autoCook(self):
"""
Returns whether the node can update stream automatically.
"""
return self._autoCook
@autoCook.setter
def autoCook(self, mode):
"""
Set whether the node can update stream automatically.
Args:
mode(bool).
"""
if mode is self._autoCook:
return
self._autoCook = mode
if mode:
self.set_property('color', self.defaultColor)
else:
self.defaultColor = self.get_property("color")
self.set_property('color', self.stopCookColor)
@property
def cookTime(self):
"""
Get the last cooked time of the node.
"""
return self._cookTime
@autoCook.setter
def cookTime(self, time):
"""
Set the last cooked time of the node.
Args:
time(float).
"""
self._cookTime = time
self._update_tool_tip()
def update_stream(self, forceCook=False):
"""
Update all down stream nodes.
Args:
forceCook(bool): if True, it will ignore the autoCook and so on.
"""
if not forceCook:
if not self._autoCook or not self.needCook:
return
if self.graph is not None and not self.graph.auto_update:
return
update_node_down_stream(self)
def getData(self, port):
"""
Get node data by port.
Most time it will called by output nodes of the node.
Args:
port(Port).
Returns:
node data.
"""
return self.get_property(port.name())
def getInputData(self, port):
"""
Get input data by input port name/index/object.
Args:
port(str/int/Port): input port name/index/object.
"""
if type(port) is not Port:
to_port = self.get_input(port)
else:
to_port = port
if to_port is None:
return copy.deepcopy(self.defaultValue)
from_ports = to_port.connected_ports()
if not from_ports:
return copy.deepcopy(self.defaultValue)
for from_port in from_ports:
data = from_port.node().getData(from_port)
return copy.deepcopy(data)
def when_disabled(self):
"""
Node evaluation logic when node has been disabled.
"""
num = max(0, len(self.input_ports())-1)
for index, out_port in enumerate(self.output_ports()):
self.set_property(out_port.name(), self.getInputData(min(index, num)))
def cook(self):
"""
The entry of the node evaluation.
Most time we need to call this method instead of AutoNode.run'.
"""
_tmp = self._autoCook
self._autoCook = False
if self.error():
self._close_error()
_start_time = time.time()
try:
self.run()
except:
self.error(traceback.format_exc())
self._autoCook = _tmp
if self.error():
return
self.cookTime = time.time() - _start_time
self.cooked.emit()
def run(self):
"""
Node evaluation logic.
"""
pass
def on_input_connected(self, to_port, from_port):
if self.checkPortType(to_port, from_port):
self.update_stream()
else:
self.needCook = False
to_port.disconnect_from(from_port)
def on_input_disconnected(self, to_port, from_port):
if not self.needCook:
self.needCook = True
return
self.update_stream()
def checkPortType(self, to_port, from_port):
"""
Check whether the port_type of the to_port and from_type is matched.
Args:
to_port(Port).
from_port(Port).
Returns:
bool.
"""
if to_port.data_type != from_port.data_type:
if to_port.data_type == 'None' or from_port.data_type == 'None':
return True
for types in self.matchTypes:
if to_port.data_type in types and from_port.data_type in types:
return True
return False
return True
def set_property(self, name, value):
super(AutoNode, self).set_property(name, value)
self.set_port_type(name, type(value).__name__)
if name in self.model.custom_properties.keys():
self.update_stream()
def set_port_type(self, port, data_type: str):
"""
Set the data_type of the port.
Args:
port(Port): the port to set the data_type.
data_type(str): port new data_type.
"""
current_port = None
if type(port) is Port:
current_port = port
elif type(port) is str:
inputs = self.inputs()
outputs = self.outputs()
if port in inputs.keys():
current_port = inputs[port]
elif port in outputs.keys():
current_port = outputs[port]
if current_port:
if current_port.data_type == data_type:
return
else:
current_port.data_type = data_type
current_port.border_color = current_port.color = self._cryptoColors.get(data_type)
conn_type = 'multi' if current_port.multi_connection() else 'single'
current_port.view.setToolTip('{}: {} ({}) '.format(current_port.name(), data_type, conn_type))
def create_property(self, name, value, items=None, range=None,
widget_type=NODE_PROP, tab=None, ext=None, funcs=None):
super(AutoNode, self).create_property(name, value, items, range, widget_type, tab, ext, funcs)
if value is not None:
self.set_port_type(name, type(value).__name__)
def add_input(self, name='input', data_type='None', multi_input=False, display_name=True,
color=None):
new_port = super(AutoNode, self).add_input(name, multi_input, display_name, color)
if data_type == 'None' and self.defaultInputType is not None:
data_type = self.defaultInputType
if type(data_type) is not str:
data_type = data_type.__name__
self.set_port_type(new_port, data_type)
return new_port
def add_output(self, name='output', data_type='None', multi_output=True, display_name=True,
color=None):
new_port = super(AutoNode, self).add_output(name, multi_output, display_name, color)
if data_type == 'None' and self.defaultOutputType is not None:
data_type = self.defaultOutputType
if type(data_type) is not str:
data_type = data_type.__name__
self.set_port_type(new_port, data_type)
return new_port
def set_disabled(self, mode=False):
super(AutoNode, self).set_disabled(mode)
self._autoCook = not mode
if mode:
self.when_disabled()
if self.graph is None or self.graph.auto_update:
self.update_stream()
else:
self.update_stream()
def _close_error(self):
"""
Close the node error.
"""
self._error = False
self.set_property('color', self.defaultColor)
self._update_tool_tip()
def _show_error(self, message):
"""
Show the node error.
It will change the node color and set error describe to the node tooltip.
Args:
message(str): the describe of the error.
"""
if not self._error:
self.defaultColor = self.get_property("color")
self._error = True
self.set_property('color', self.errorColor)
tooltip = '<font color="red"><br>({})</br></font>'.format(message)
self._update_tool_tip(tooltip)
def _update_tool_tip(self, message=None):
"""
Update the node tooltip.
Args:
message(str): new node tooltip.
"""
if message is None:
tooltip = self._toolTip.format(self._cookTime)
else:
tooltip = '<b>{}</b>'.format(self.name())
tooltip += message
tooltip += '<br/>{}<br/>'.format(self._view.type_)
self.view.setToolTip(tooltip)
return tooltip
def _setup_tool_tip(self):
"""
Setup default node tooltip.
Returns:
str: new node tooltip.
"""
tooltip = '<br> last cook used: {}s</br>'
return self._update_tool_tip(tooltip)
def error(self, message=None):
"""
Update the node tooltip.
Args:
message(str): the describe of the error or None.
Returns:
if message is None, returns whether the node has error.
"""
if message is None:
return self._error
self._show_error(message)
def update_model(self):
if self.error():
self.set_property('color', self.defaultColor)
super(AutoNode, self).update_model()
class _valueSliderEdit(QtWidgets.QWidget):
valueChanged = QtCore.Signal(object)
def __init__(self, parent=None):
super(_valueSliderEdit, self).__init__(parent)
self._edit = _valueEdit()
self._edit.valueChanged.connect(self._on_edit_changed)
self._edit.setMaximumWidth(70)
self._slider = _slider()
self._slider.valueChanged.connect(self._on_slider_changed)
hbox = QtWidgets.QHBoxLayout()
hbox.addWidget(self._edit)
hbox.addWidget(self._slider)
self.setLayout(hbox)
self._mul = 1000.0
self.set_min(0)
self.set_max(10)
self.set_data_type(float)
self._lock = False
def _on_edit_changed(self, value):
self._set_slider_value(value)
self.valueChanged.emit(self._edit.value())
def _on_slider_changed(self, value):
if self._lock:
self._lock = False
return
value = value / float(self._mul)
self._edit.setValue(value)
self._on_edit_changed(value)
def _set_slider_value(self, value):
value = int(value * self._mul)
if value == self._slider.value():
return
self._lock = True
_min = self._slider.minimum()
_max = self._slider.maximum()
if _min <= value <= _max:
self._slider.setValue(value)
elif value < _min and self._slider.value() != _min:
self._slider.setValue(_min)
elif value > _max and self._slider.value() != _max:
self._slider.setValue(_max)
def set_min(self, value=0):
self._slider.setMinimum(int(value * self._mul))
def set_max(self, value=10):
self._slider.setMaximum(int(value * self._mul))
def set_data_type(self, dt):
_min = int(self._slider.minimum() / self._mul)
_max = int(self._slider.maximum() / self._mul)
if dt is int:
self._mul = 1.0
elif dt is float:
self._mul = 1000.0
self.set_min(_min)
self.set_max(_max)
self._edit.set_data_type(dt)
def value(self):
return self._edit.value()
def setValue(self, value):
self._edit.setValue(value)
self._on_edit_changed(value)
class _valueEdit(QtWidgets.QLineEdit):
valueChanged = QtCore.Signal(object)
def __init__(self, parent=None):
super(_valueEdit, self).__init__(parent)
self.mid_state = False
self._data_type = float
self.setText("0")
self.pre_x = None
self.pre_val = None
self._step = 1
self._speed = 0.1
self.editingFinished.connect(self._on_text_changed)
self.menu = _valueMenu()
self.menu.mouseMove.connect(self.mouseMoveEvent)
self.menu.mouseRelease.connect(self.mouseReleaseEvent)
self.menu.stepChange.connect(self._reset)
steps = [0.001, 0.01, 0.1, 1, 10, 100, 1000]
self.menu.set_steps(steps)
self.set_data_type(float)
def _on_text_changed(self):
self.valueChanged.emit(self.value())
def _reset(self):
self.pre_x = None
def mouseMoveEvent(self, event):
if self.mid_state:
if self.pre_x is None:
self.pre_x = event.x()
self.pre_val = self.value()
else:
self.set_step(self.menu.step)
delta = event.x() - self.pre_x
value = self.pre_val + int(delta * self._speed) * self._step
self.setValue(value)
self._on_text_changed()
super(_valueEdit, self).mouseMoveEvent(event)
def mousePressEvent(self, event):
if event.button() == QtCore.Qt.MiddleButton:
self.mid_state = True
self._reset()
self.menu.exec_(QtGui.QCursor.pos())
super(_valueEdit, self).mousePressEvent(event)
def mouseReleaseEvent(self, event):
self.menu.close()
self.mid_state = False
super(_valueEdit, self).mouseReleaseEvent(event)
def set_step(self, step):
self._step = step
def set_data_type(self, dt):
if dt is int:
self.setValidator(QtGui.QIntValidator())
elif dt is float:
self.setValidator(QtGui.QDoubleValidator())
self._data_type = dt
self.menu.set_data_type(dt)
def _convert_text(self, text):
# int("1.0") will return error
# so we use int(float("1.0"))
try:
value = float(text)
except:
value = 0.0
if self._data_type is int:
value = int(value)
return value
def value(self):
if self.text().startswith("."):
text = "0" + self.text()
self.setText(text)
return self._convert_text(self.text())
def setValue(self, value):
if value != self.value():
self.setText(str(self._convert_text(value)))
class AutoNode(BaseNode, QtCore.QObject):
cooked = QtCore.Signal()
def __init__(self, defaultInputType=None, defaultOutputType=None):
super(AutoNode, self).__init__()
QtCore.QObject.__init__(self)
self._need_cook = True
self._error = False
self.matchTypes = [['float', 'int']]
self.errorColor = (200, 50, 50)
self.stopCookColor = (200, 200, 200)
self.create_property('auto_cook', True)
self.defaultValue = None
self.defaultInputType = defaultInputType
self.defaultOutputType = defaultOutputType
self._cook_time = 0.0
self._toolTip = self._setup_tool_tip()
# effect
self.color_effect = QtWidgets.QGraphicsColorizeEffect()
self.color_effect.setStrength(0.7)
self.color_effect.setEnabled(False)
self.view.setGraphicsEffect(self.color_effect)
@property
def auto_cook(self):
"""
Returns whether the node can update stream automatically.
"""
return self.get_property('auto_cook')
@auto_cook.setter
def auto_cook(self, mode):
"""
Set whether the node can update stream automatically.
Args:
mode(bool).
"""
if mode is self.auto_cook:
return
self.model.set_property('auto_cook', mode)
self.color_effect.setEnabled(not mode)
if not mode:
self.color_effect.setColor(QtGui.QColor(*self.stopCookColor))
@property
def cook_time(self):
"""
Returns the last cooked time of the node.
"""
return self._cook_time
@cook_time.setter
def cook_time(self, cook_time):
"""
Set the last cooked time of the node.
Args:
cook_time(float).
"""
self._cook_time = cook_time
self._update_tool_tip()
@property
def has_error(self):
"""
Returns whether the node has errors.
"""
return self._error
def update_stream(self, forceCook=False):
"""
Update all down stream nodes.
Args:
forceCook(bool): if True, it will ignore the auto_cook and so on.
"""
if not forceCook:
if not self.auto_cook or not self._need_cook:
return
if self.graph is not None and not self.graph.auto_update:
return
update_node_down_stream(self)
def get_data(self, port):
"""
Get node data by port.
Most time it will called by output nodes of the node.
Args:
port(Port).
Returns:
node data.
"""
if self.disabled() and self.input_ports():
out_ports = self.output_ports()
if port in out_ports:
idx = out_ports.index(port)
max_idx = max(0, len(self.input_ports()) - 1)
return self.get_input_data(min(idx, max_idx))
return self.get_property(port.name())
def get_input_data(self, port):
"""
Get input data by input port name/index/object.
Args:
port(str/int/Port): input port name/index/object.
"""
if type(port) is not Port:
to_port = self.get_input(port)
else:
to_port = port
if to_port is None:
return copy.deepcopy(self.defaultValue)
from_ports = to_port.connected_ports()
if not from_ports:
return copy.deepcopy(self.defaultValue)
for from_port in from_ports:
data = from_port.node().get_data(from_port)
return copy.deepcopy(data)
def cook(self):
"""
The entry of the node evaluation.
Most time we need to call this method instead of AutoNode.run'.
"""
_tmp = self.auto_cook
self.model.set_property('auto_cook', False)
if self._error:
self._close_error()
_start_time = time.time()
try:
self.run()
except:
self.error(traceback.format_exc())
self.model.set_property('auto_cook', _tmp)
if self._error:
return
self.cook_time = time.time() - _start_time
self.cooked.emit()
def run(self):
"""
Node evaluation logic.
"""
pass
def on_input_connected(self, to_port, from_port):
if self.check_port_type(to_port, from_port):
self.update_stream()
else:
self._need_cook = False
to_port.disconnect_from(from_port)
def on_input_disconnected(self, to_port, from_port):
if not self._need_cook:
self._need_cook = True
return
self.update_stream()
def check_port_type(self, to_port, from_port):
"""
Check whether the port_type of the to_port and from_type is matched.
Args:
to_port(Port).
from_port(Port).
Returns:
bool.
"""
if to_port.data_type != from_port.data_type:
if to_port.data_type == 'NoneType' or from_port.data_type == 'NoneType':
return True
for types in self.matchTypes:
if to_port.data_type in types and from_port.data_type in types:
return True
return False
return True
def set_property(self, name, value):
super(AutoNode, self).set_property(name, value)
self.set_port_type(name, type(value).__name__)
if name in self.model.custom_properties.keys():
self.update_stream()
def set_port_type(self, port, data_type: str):
"""
Set the data_type of the port.
Args:
port(Port): the port to set the data_type.
data_type(str): port new data_type.
"""
current_port = None
if type(port) is Port:
current_port = port
elif type(port) is str:
inputs = self.inputs()
outputs = self.outputs()
if port in inputs.keys():
current_port = inputs[port]
elif port in outputs.keys():
current_port = outputs[port]
if current_port:
if current_port.data_type == data_type:
return
else:
current_port.data_type = data_type
current_port.border_color = current_port.color = CryptoColors.get(data_type)
conn_type = 'multi' if current_port.multi_connection() else 'single'
current_port.view.setToolTip('{}: {} ({}) '.format(current_port.name(), data_type, conn_type))
def add_input(self, name='input', data_type='', multi_input=False, display_name=True,
color=None, painter_func=None):
new_port = super(AutoNode, self).add_input(name, multi_input, display_name,
color, data_type, painter_func)
if data_type == '':
data_type = self.defaultInputType
self.set_port_type(new_port, get_data_type(data_type))
return new_port
def add_output(self, name='output', data_type='', multi_output=True, display_name=True,
color=None, painter_func=None):
new_port = super(AutoNode, self).add_output(name, multi_output, display_name,
color, data_type, painter_func)
if data_type == '':
data_type = self.defaultOutputType
self.set_port_type(new_port, get_data_type(data_type))
return new_port
def set_disabled(self, mode=False):
super(AutoNode, self).set_disabled(mode)
self.update_stream()
def _close_error(self):
"""
Close the node error.
"""
self._error = False
self.color_effect.setEnabled(False)
self._update_tool_tip()
def _update_tool_tip(self, message=None):
"""
Update the node tooltip.
Args:
message(str): new node tooltip.
"""
if message is None:
tooltip = self._toolTip.format(self._cook_time)
else:
tooltip = '<b>{}</b>'.format(self.name())
tooltip += message
tooltip += '<br/>{}<br/>'.format(self._view.type_)
self.view.setToolTip(tooltip)
return tooltip
def _setup_tool_tip(self):
"""
Setup default node tooltip.
Returns:
str: new node tooltip.
"""
tooltip = '<br> last cook used: {}s</br>'
return self._update_tool_tip(tooltip)
def error(self, message):
"""
Change the node color and set error describe to the node tooltip.
Args:
message(str): the describe of the error.
"""
self._error = True
self.color_effect.setEnabled(True)
self.color_effect.setColor(QtGui.QColor(*self.errorColor))
tooltip = '<font color="red"><br>({})</br></font>'.format(message)
self._update_tool_tip(tooltip)
class PropertiesBinWidget(QtWidgets.QWidget):
#: Signal emitted (node_id, prop_name, prop_value)
property_changed = QtCore.Signal(str, str, object)
def __init__(self, parent=None):
super(PropertiesBinWidget, self).__init__(parent)
self.setWindowTitle('Properties Bin')
self._prop_list = PropertiesList()
self._limit = QtWidgets.QSpinBox()
self._limit.setToolTip('Set node limit to display.')
self._limit.setMaximum(10)
self._limit.setMinimum(0)
self._limit.setValue(10)
self._limit.valueChanged.connect(self.__on_limit_changed)
self.resize(400, 400)
btn_clr = QtWidgets.QPushButton('clear')
btn_clr.setToolTip('Clear the properties bin.')
btn_clr.clicked.connect(self.clear_bin)
top_layout = QtWidgets.QHBoxLayout()
top_layout.addWidget(self._limit)
top_layout.addStretch(1)
top_layout.addWidget(btn_clr)
layout = QtWidgets.QVBoxLayout(self)
layout.addLayout(top_layout)
layout.addWidget(self._prop_list, 1)
def __on_prop_close(self, node_id):
items = self._prop_list.findItems(node_id, QtCore.Qt.MatchExactly)
[self._prop_list.removeRow(i.row()) for i in items]
def __on_limit_changed(self, value):
rows = self._prop_list.rowCount()
if rows > value:
self._prop_list.removeRow(rows - 1)
def limit(self):
"""
Returns the limit for how many nodes can be loaded into the bin.
Returns:
int: node limit.
"""
return int(self._limit.value())
def add_node(self, node):
"""
Add node to the properties bin.
Args:
node (NodeGraphQt.Node): node object.
"""
if self.limit() == 0:
return
rows = self._prop_list.rowCount()
if rows >= self.limit():
self._prop_list.removeRow(rows - 1)
itm_find = self._prop_list.findItems(node.id, QtCore.Qt.MatchExactly)
if itm_find:
self._prop_list.removeRow(itm_find[0].row())
self._prop_list.insertRow(0)
prop_widget = NodePropWidget(node=node)
prop_widget.property_changed.connect(self.property_changed.emit)
prop_widget.property_closed.connect(self.__on_prop_close)
self._prop_list.setCellWidget(0, 0, prop_widget)
item = QtWidgets.QTableWidgetItem(node.id)
self._prop_list.setItem(0, 0, item)
self._prop_list.selectRow(0)
def remove_node(self, node):
"""
Remove node from the properties bin.
Args:
node (NodeGraphQt.Node): node object.
"""
self.__on_prop_close(node.id)
def clear_bin(self):
"""
Clear the properties bin.
"""
self._prop_list.setRowCount(0)
def prop_widget(self, node):
"""
Returns the node property widget.
Args:
node (NodeGraphQt.Node): node object.
Returns:
NodePropWidget: node property widget.
"""
itm_find = self._prop_list.findItems(node.id, QtCore.Qt.MatchExactly)
if itm_find:
item = itm_find[0]
return self._prop_list.cellWidget(item.row(), 0)
class PropertiesBinWidget(QtWidgets.QWidget):
"""
Node properties bin for displaying properties.
Args:
parent (QtWidgets.QWidget): parent of the new widget.
node_graph (NodeGraphQt.NodeGraph): node graph.
"""
#: Signal emitted (node_id, prop_name, prop_value)
property_changed = QtCore.Signal(str, str, object)
def __init__(self, parent=None, node_graph=None):
super(PropertiesBinWidget, self).__init__(parent)
self.setWindowTitle('Properties Bin')
self._prop_list = PropertiesList()
self._limit = QtWidgets.QSpinBox()
self._limit.setToolTip('Set display nodes limit.')
self._limit.setMaximum(10)
self._limit.setMinimum(0)
self._limit.setValue(5)
self._limit.valueChanged.connect(self.__on_limit_changed)
self.resize(400, 400)
self._block_signal = False
btn_clr = QtWidgets.QPushButton('clear')
btn_clr.setToolTip('Clear the properties bin.')
btn_clr.clicked.connect(self.clear_bin)
top_layout = QtWidgets.QHBoxLayout()
top_layout.addWidget(self._limit)
top_layout.addStretch(1)
top_layout.addWidget(btn_clr)
layout = QtWidgets.QVBoxLayout(self)
layout.addLayout(top_layout)
layout.addWidget(self._prop_list, 1)
# wire up node graph.
node_graph.add_properties_bin(self)
node_graph.node_double_clicked.connect(self.add_node)
node_graph.property_changed.connect(self.__on_graph_property_changed)
def __repr__(self):
return '<{} object at {}>'.format(self.__class__.__name__,
hex(id(self)))
def __on_prop_close(self, node_id):
items = self._prop_list.findItems(node_id, QtCore.Qt.MatchExactly)
[self._prop_list.removeRow(i.row()) for i in items]
def __on_limit_changed(self, value):
rows = self._prop_list.rowCount()
if rows > value:
self._prop_list.removeRow(rows - 1)
def __on_graph_property_changed(self, node, prop_name, prop_value):
"""
Slot function that updates the property bin from the node graph signal.
Args:
node (NodeGraphQt.NodeObject):
prop_name (str):
prop_value (object):
"""
properties_widget = self.prop_widget(node)
if not properties_widget:
return
property_window = properties_widget.get_widget(prop_name)
if prop_value != property_window.get_value():
self._block_signal = True
property_window.set_value(prop_value)
self._block_signal = False
def __on_property_widget_changed(self, node_id, prop_name, prop_value):
"""
Slot function triggered when a property widget value has changed.
Args:
node_id (str):
prop_name (str):
prop_value (object):
"""
if not self._block_signal:
self.property_changed.emit(node_id, prop_name, prop_value)
def limit(self):
"""
Returns the limit for how many nodes can be loaded into the bin.
Returns:
int: node limit.
"""
return int(self._limit.value())
def set_limit(self, limit):
"""
Set limit of nodes to display.
Args:
limit (int): node limit.
"""
self._limit.setValue(limit)
def add_node(self, node):
"""
Add node to the properties bin.
Args:
node (NodeGraphQt.NodeObject): node object.
"""
if self.limit() == 0:
return
rows = self._prop_list.rowCount()
if rows >= self.limit():
self._prop_list.removeRow(rows - 1)
itm_find = self._prop_list.findItems(node.id, QtCore.Qt.MatchExactly)
if itm_find:
self._prop_list.removeRow(itm_find[0].row())
self._prop_list.insertRow(0)
prop_widget = NodePropWidget(node=node)
prop_widget.property_changed.connect(self.__on_property_widget_changed)
prop_widget.property_closed.connect(self.__on_prop_close)
self._prop_list.setCellWidget(0, 0, prop_widget)
item = QtWidgets.QTableWidgetItem(node.id)
self._prop_list.setItem(0, 0, item)
self._prop_list.selectRow(0)
def remove_node(self, node):
"""
Remove node from the properties bin.
Args:
node (NodeGraphQt.BaseNode): node object.
"""
self.__on_prop_close(node.id)
def clear_bin(self):
"""
Clear the properties bin.
"""
self._prop_list.setRowCount(0)
def prop_widget(self, node):
"""
Returns the node property widget.
Args:
node (NodeGraphQt.NodeObject): node object.
Returns:
NodePropWidget: node property widget.
"""
itm_find = self._prop_list.findItems(node.id, QtCore.Qt.MatchExactly)
if itm_find:
item = itm_find[0]
return self._prop_list.cellWidget(item.row(), 0)
class NodeViewer(QtWidgets.QGraphicsView):
"""
The widget interface used for displaying the scene and nodes.
functions in this class are called by the
class:`NodeGraphQt.NodeGraph` class.
"""
moved_nodes = QtCore.Signal(dict)
search_triggered = QtCore.Signal(str, tuple)
connection_sliced = QtCore.Signal(list)
connection_changed = QtCore.Signal(list, list)
insert_node = QtCore.Signal(object, str, dict)
need_show_tab_search = QtCore.Signal()
# pass through signals
node_selected = QtCore.Signal(str)
node_double_clicked = QtCore.Signal(str)
data_dropped = QtCore.Signal(QtCore.QMimeData, QtCore.QPoint)
def __init__(self, parent=None):
super(NodeViewer, self).__init__(parent)
self.setScene(NodeScene(self))
self.setRenderHint(QtGui.QPainter.Antialiasing, True)
self.setHorizontalScrollBarPolicy(QtCore.Qt.ScrollBarAlwaysOff)
self.setVerticalScrollBarPolicy(QtCore.Qt.ScrollBarAlwaysOff)
self.setViewportUpdateMode(QtWidgets.QGraphicsView.FullViewportUpdate)
self.setCacheMode(QtWidgets.QGraphicsView.CacheBackground)
self.setOptimizationFlag(
QtWidgets.QGraphicsView.DontAdjustForAntialiasing)
self.setAcceptDrops(True)
self.resize(850, 800)
self._scene_range = QtCore.QRectF(0, 0,
self.size().width(),
self.size().height())
self._update_scene()
self._last_size = self.size()
self._pipe_layout = PIPE_LAYOUT_CURVED
self._detached_port = None
self._start_port = None
self._origin_pos = None
self._previous_pos = QtCore.QPoint(self.width(), self.height())
self._prev_selection_nodes = []
self._prev_selection_pipes = []
self._node_positions = {}
self._rubber_band = QtWidgets.QRubberBand(
QtWidgets.QRubberBand.Rectangle, self)
self._LIVE_PIPE = LivePipe()
self._LIVE_PIPE.setVisible(False)
self.scene().addItem(self._LIVE_PIPE)
self._SLICER_PIPE = SlicerPipe()
self._SLICER_PIPE.setVisible(False)
self.scene().addItem(self._SLICER_PIPE)
self._undo_stack = QtWidgets.QUndoStack(self)
self._search_widget = TabSearchMenuWidget(self)
self._search_widget.search_submitted.connect(self._on_search_submitted)
# workaround fix for shortcuts from the non-native menu actions
# don't seem to trigger so we create a hidden menu bar.
menu_bar = QtWidgets.QMenuBar(self)
menu_bar.setNativeMenuBar(False)
# shortcuts don't work with "setVisibility(False)".
menu_bar.setMaximumWidth(0)
self._ctx_menu = BaseMenu('NodeGraph', self)
self._ctx_node_menu = BaseMenu('Nodes', self)
menu_bar.addMenu(self._ctx_menu)
menu_bar.addMenu(self._ctx_node_menu)
self._ctx_node_menu.setDisabled(True)
self.acyclic = True
self.LMB_state = False
self.RMB_state = False
self.MMB_state = False
self.ALT_state = False
self.CTRL_state = False
self.SHIFT_state = False
self.COLLIDING_state = False
def __repr__(self):
return '{}.{}()'.format(self.__module__, self.__class__.__name__)
# --- private ---
def _set_viewer_zoom(self, value, sensitivity=None, pos=None):
if pos:
pos = self.mapToScene(pos)
if sensitivity is None:
scale = 1.001**value
self.scale(scale, scale, pos)
return
if value == 0.0:
return
scale = (0.9 + sensitivity) if value < 0.0 else (1.1 - sensitivity)
zoom = self.get_zoom()
if ZOOM_MIN >= zoom:
if scale == 0.9:
return
if ZOOM_MAX <= zoom:
if scale == 1.1:
return
self.scale(scale, scale, pos)
def _set_viewer_pan(self, pos_x, pos_y):
speed = self._scene_range.width() * 0.0015
x = -pos_x * speed
y = -pos_y * speed
self._scene_range.adjust(x, y, x, y)
self._update_scene()
def scale(self, sx, sy, pos=None):
scale = [sx, sx]
center = pos or self._scene_range.center()
w = self._scene_range.width() / scale[0]
h = self._scene_range.height() / scale[1]
self._scene_range = QtCore.QRectF(
center.x() - (center.x() - self._scene_range.left()) / scale[0],
center.y() - (center.y() - self._scene_range.top()) / scale[1], w,
h)
self._update_scene()
def _update_scene(self):
self.setSceneRect(self._scene_range)
self.fitInView(self._scene_range, QtCore.Qt.KeepAspectRatio)
def _combined_rect(self, nodes):
group = self.scene().createItemGroup(nodes)
rect = group.boundingRect()
self.scene().destroyItemGroup(group)
return rect
def _items_near(self, pos, item_type=None, width=20, height=20):
x, y = pos.x() - width, pos.y() - height
rect = QtCore.QRectF(x, y, width, height)
items = []
excl = [self._LIVE_PIPE, self._SLICER_PIPE]
for item in self.scene().items(rect):
if item in excl:
continue
if not item_type or isinstance(item, item_type):
items.append(item)
return items
def _on_search_submitted(self, node_type):
pos = self.mapToScene(self._previous_pos)
self.search_triggered.emit(node_type, (pos.x(), pos.y()))
def _on_pipes_sliced(self, path):
self.connection_sliced.emit(
[[i.input_port, i.output_port] for i in self.scene().items(path)
if isinstance(i, Pipe) and i != self._LIVE_PIPE])
# --- reimplemented events ---
def resizeEvent(self, event):
delta = max(self.size().width() / self._last_size.width(),
self.size().height() / self._last_size.height())
self._set_viewer_zoom(delta)
self._last_size = self.size()
super(NodeViewer, self).resizeEvent(event)
def contextMenuEvent(self, event):
self.RMB_state = False
ctx_menu = None
if self._ctx_node_menu.isEnabled():
pos = self.mapToScene(self._previous_pos)
items = self._items_near(pos)
nodes = [i for i in items if isinstance(i, AbstractNodeItem)]
if nodes:
node = nodes[0]
ctx_menu = self._ctx_node_menu.get_menu(node.type_, node.id)
if ctx_menu:
for action in ctx_menu.actions():
if not action.menu():
action.node_id = node.id
ctx_menu = ctx_menu or self._ctx_menu
if len(ctx_menu.actions()) > 0:
if ctx_menu.isEnabled():
ctx_menu.exec_(event.globalPos())
else:
return super(NodeViewer, self).contextMenuEvent(event)
else:
self.need_show_tab_search.emit()
def mousePressEvent(self, event):
if event.button() == QtCore.Qt.LeftButton:
self.LMB_state = True
elif event.button() == QtCore.Qt.RightButton:
self.RMB_state = True
elif event.button() == QtCore.Qt.MiddleButton:
self.MMB_state = True
self._origin_pos = event.pos()
self._previous_pos = event.pos()
self._prev_selection_nodes, \
self._prev_selection_pipes = self.selected_items()
# close tab search
if self._search_widget.isVisible():
self.tab_search_toggle()
# cursor pos.
map_pos = self.mapToScene(event.pos())
# pipe slicer enabled.
if self.ALT_state and self.SHIFT_state and self.LMB_state:
self._SLICER_PIPE.draw_path(map_pos, map_pos)
self._SLICER_PIPE.setVisible(True)
return
# pan mode.
if self.ALT_state:
return
items = self._items_near(map_pos, None, 20, 20)
nodes = [i for i in items if isinstance(i, AbstractNodeItem)]
pipes = [i for i in items if isinstance(i, Pipe)]
if nodes:
self.MMB_state = False
# toggle extend node selection.
if self.LMB_state:
if self.SHIFT_state:
for node in nodes:
node.selected = not node.selected
elif self.CTRL_state:
for node in nodes:
node.selected = False
# update the recorded node positions.
self._node_positions.update(
{n: n.xy_pos
for n in self.selected_nodes()})
# show selection selection marquee.
if self.LMB_state and not items:
rect = QtCore.QRect(self._previous_pos, QtCore.QSize())
rect = rect.normalized()
map_rect = self.mapToScene(rect).boundingRect()
self.scene().update(map_rect)
self._rubber_band.setGeometry(rect)
self._rubber_band.show()
# allow new live pipe with the shift modifier.
# if self.LMB_state:
# if (not self.SHIFT_state and not self.CTRL_state) or\
# (self.SHIFT_state and pipes):
if not self._LIVE_PIPE.isVisible():
super(NodeViewer, self).mousePressEvent(event)
def mouseReleaseEvent(self, event):
if event.button() == QtCore.Qt.LeftButton:
self.LMB_state = False
elif event.button() == QtCore.Qt.RightButton:
self.RMB_state = False
elif event.button() == QtCore.Qt.MiddleButton:
self.MMB_state = False
# hide pipe slicer.
if self._SLICER_PIPE.isVisible():
self._on_pipes_sliced(self._SLICER_PIPE.path())
p = QtCore.QPointF(0.0, 0.0)
self._SLICER_PIPE.draw_path(p, p)
self._SLICER_PIPE.setVisible(False)
# hide selection marquee
if self._rubber_band.isVisible():
rect = self._rubber_band.rect()
map_rect = self.mapToScene(rect).boundingRect()
self._rubber_band.hide()
self.scene().update(map_rect)
# find position changed nodes and emit signal.
moved_nodes = {
n: xy_pos
for n, xy_pos in self._node_positions.items() if n.xy_pos != xy_pos
}
# only emit of node is not colliding with a pipe.
if moved_nodes and not self.COLLIDING_state:
self.moved_nodes.emit(moved_nodes)
# reset recorded positions.
self._node_positions = {}
# emit signal if selected node collides with pipe.
# Note: if collide state is true then only 1 node is selected.
if self.COLLIDING_state:
nodes, pipes = self.selected_items()
if nodes and pipes:
self.insert_node.emit(pipes[0], nodes[0].id, moved_nodes)
super(NodeViewer, self).mouseReleaseEvent(event)
def mouseMoveEvent(self, event):
if self.ALT_state and self.SHIFT_state:
if self.LMB_state and self._SLICER_PIPE.isVisible():
p1 = self._SLICER_PIPE.path().pointAtPercent(0)
p2 = self.mapToScene(self._previous_pos)
self._SLICER_PIPE.draw_path(p1, p2)
self._SLICER_PIPE.show()
self._previous_pos = event.pos()
super(NodeViewer, self).mouseMoveEvent(event)
return
if self.MMB_state and self.ALT_state:
pos_x = (event.x() - self._previous_pos.x())
zoom = 0.1 if pos_x > 0 else -0.1
self._set_viewer_zoom(zoom, 0.05, pos=event.pos())
elif self.MMB_state or (self.LMB_state and self.ALT_state):
pos_x = (event.x() - self._previous_pos.x())
pos_y = (event.y() - self._previous_pos.y())
self._set_viewer_pan(pos_x, pos_y)
if self.LMB_state and self._rubber_band.isVisible():
rect = QtCore.QRect(self._origin_pos, event.pos()).normalized()
map_rect = self.mapToScene(rect).boundingRect()
path = QtGui.QPainterPath()
path.addRect(map_rect)
self._rubber_band.setGeometry(rect)
self.scene().setSelectionArea(path, QtCore.Qt.IntersectsItemShape)
self.scene().update(map_rect)
if self.SHIFT_state or self.CTRL_state:
nodes, pipes = self.selected_items()
for pipe in self._prev_selection_pipes:
pipe.setSelected(True)
for node in self._prev_selection_nodes:
node.selected = True
if self.CTRL_state:
for pipe in pipes:
pipe.setSelected(False)
for node in nodes:
node.selected = False
elif self.LMB_state:
self.COLLIDING_state = False
nodes = self.selected_nodes()
if len(nodes) == 1:
node = nodes[0]
for pipe in self.selected_pipes():
pipe.setSelected(False)
for item in node.collidingItems():
if isinstance(item, Pipe) and item.isVisible():
if not item.input_port:
continue
if not item.input_port.node is node and \
not item.output_port.node is node:
item.setSelected(True)
self.COLLIDING_state = True
break
self._previous_pos = event.pos()
super(NodeViewer, self).mouseMoveEvent(event)
def wheelEvent(self, event):
try:
delta = event.delta()
except AttributeError:
# For PyQt5
delta = event.angleDelta().y()
if delta == 0:
delta = event.angleDelta().x()
self._set_viewer_zoom(delta, pos=event.pos())
def dropEvent(self, event):
pos = self.mapToScene(event.pos())
event.setDropAction(QtCore.Qt.MoveAction)
self.data_dropped.emit(event.mimeData(),
QtCore.QPoint(pos.x(), pos.y()))
def dragEnterEvent(self, event):
if event.mimeData().hasFormat('text/plain'):
event.accept()
else:
event.ignore()
def dragMoveEvent(self, event):
if event.mimeData().hasFormat('text/plain'):
event.accept()
else:
event.ignore()
def dragLeaveEvent(self, event):
event.ignore()
def keyPressEvent(self, event):
self.ALT_state = event.modifiers() == QtCore.Qt.AltModifier
self.CTRL_state = event.modifiers() == QtCore.Qt.ControlModifier
self.SHIFT_state = event.modifiers() == QtCore.Qt.ShiftModifier
# Todo: find a better solution to catch modifier keys.
if event.modifiers() == (QtCore.Qt.AltModifier
| QtCore.Qt.ShiftModifier):
self.ALT_state = True
self.SHIFT_state = True
super(NodeViewer, self).keyPressEvent(event)
def keyReleaseEvent(self, event):
self.ALT_state = event.modifiers() == QtCore.Qt.AltModifier
self.CTRL_state = event.modifiers() == QtCore.Qt.ControlModifier
self.SHIFT_state = event.modifiers() == QtCore.Qt.ShiftModifier
super(NodeViewer, self).keyReleaseEvent(event)
# --- scene events ---
def sceneMouseMoveEvent(self, event):
"""
triggered mouse move event for the scene.
- redraw the connection pipe.
Args:
event (QtWidgets.QGraphicsSceneMouseEvent):
The event handler from the QtWidgets.QGraphicsScene
"""
if not self._LIVE_PIPE.isVisible():
return
if not self._start_port:
return
pos = event.scenePos()
items = self.scene().items(pos)
if items and isinstance(items[0], PortItem):
x = items[0].boundingRect().width() / 2
y = items[0].boundingRect().height() / 2
pos = items[0].scenePos()
pos.setX(pos.x() + x)
pos.setY(pos.y() + y)
self._LIVE_PIPE.draw_path(self._start_port, cursor_pos=pos)
def sceneMousePressEvent(self, event):
"""
triggered mouse press event for the scene (takes priority over viewer event).
- detect selected pipe and start connection.
- remap Shift and Ctrl modifier.
Args:
event (QtWidgets.QGraphicsScenePressEvent):
The event handler from the QtWidgets.QGraphicsScene
"""
# pipe slicer enabled.
if self.ALT_state and self.SHIFT_state:
return
# viewer pan mode.
if self.ALT_state:
return
if self._LIVE_PIPE.isVisible():
self.apply_live_connection(event)
return
pos = event.scenePos()
port_items = self._items_near(pos, PortItem, 5, 5)
if port_items:
port = port_items[0]
if not port.multi_connection and port.connected_ports:
self._detached_port = port.connected_ports[0]
self.start_live_connection(port)
if not port.multi_connection:
[p.delete() for p in port.connected_pipes]
return
node_items = self._items_near(pos, AbstractNodeItem, 3, 3)
if node_items:
node = node_items[0]
# record the node positions at selection time.
for n in node_items:
self._node_positions[n] = n.xy_pos
# emit selected node id with LMB.
if event.button() == QtCore.Qt.LeftButton:
self.node_selected.emit(node.id)
if not isinstance(node, BackdropNodeItem):
return
pipe_items = self._items_near(pos, Pipe, 3, 3)
if pipe_items:
if not self.LMB_state:
return
pipe = pipe_items[0]
from_port = pipe.port_from_pos(pos, True)
from_port.hovered = True
attr = {IN_PORT: 'output_port', OUT_PORT: 'input_port'}
self._detached_port = getattr(pipe, attr[from_port.port_type])
self.start_live_connection(from_port)
self._LIVE_PIPE.draw_path(self._start_port, cursor_pos=pos)
if self.SHIFT_state:
self._LIVE_PIPE.shift_selected = True
return
pipe.delete()
def sceneMouseReleaseEvent(self, event):
"""
triggered mouse release event for the scene.
Args:
event (QtWidgets.QGraphicsSceneMouseEvent):
The event handler from the QtWidgets.QGraphicsScene
"""
if event.button() != QtCore.Qt.MiddleButton:
self.apply_live_connection(event)
# --- port connections ---
def apply_live_connection(self, event):
"""
triggered mouse press/release event for the scene.
- verify to make a the connection Pipe.
Args:
event (QtWidgets.QGraphicsSceneMouseEvent):
The event handler from the QtWidgets.QGraphicsScene
"""
if not self._LIVE_PIPE.isVisible():
return
self._start_port.hovered = False
# find the end port.
end_port = None
for item in self.scene().items(event.scenePos()):
if isinstance(item, PortItem):
end_port = item
break
connected = []
disconnected = []
# if port disconnected from existing pipe.
if end_port is None:
if self._detached_port and not self._LIVE_PIPE.shift_selected:
dist = math.hypot(
self._previous_pos.x() - self._origin_pos.x(),
self._previous_pos.y() - self._origin_pos.y())
if dist <= 2.0: # cursor pos threshold.
self.establish_connection(self._start_port,
self._detached_port)
self._detached_port = None
else:
disconnected.append(
(self._start_port, self._detached_port))
self.connection_changed.emit(disconnected, connected)
self._detached_port = None
self.end_live_connection()
return
else:
if self._start_port is end_port:
return
# restore connection check.
restore_connection = any([
# if same port type.
end_port.port_type == self._start_port.port_type,
# if connection to itself.
end_port.node == self._start_port.node,
# if end port is the start port.
end_port == self._start_port,
# if detached port is the end port.
self._detached_port == end_port
])
if restore_connection:
if self._detached_port:
to_port = self._detached_port or end_port
self.establish_connection(self._start_port, to_port)
self._detached_port = None
self.end_live_connection()
return
# register as disconnected if not acyclic.
if self.acyclic and not self.acyclic_check(self._start_port, end_port):
if self._detached_port:
disconnected.append((self._start_port, self._detached_port))
self.connection_changed.emit(disconnected, connected)
self._detached_port = None
self.end_live_connection()
return
# make connection.
if not end_port.multi_connection and end_port.connected_ports:
dettached_end = end_port.connected_ports[0]
disconnected.append((end_port, dettached_end))
if self._detached_port:
disconnected.append((self._start_port, self._detached_port))
connected.append((self._start_port, end_port))
self.connection_changed.emit(disconnected, connected)
self._detached_port = None
self.end_live_connection()
def start_live_connection(self, selected_port):
"""
create new pipe for the connection.
(show the live pipe visibility from the port following the cursor position)
"""
if not selected_port:
return
self._start_port = selected_port
if self._start_port.type == IN_PORT:
self._LIVE_PIPE.input_port = self._start_port
elif self._start_port == OUT_PORT:
self._LIVE_PIPE.output_port = self._start_port
self._LIVE_PIPE.setVisible(True)
def end_live_connection(self):
"""
delete live connection pipe and reset start port.
(hides the pipe item used for drawing the live connection)
"""
self._LIVE_PIPE.reset_path()
self._LIVE_PIPE.setVisible(False)
self._LIVE_PIPE.shift_selected = False
self._start_port = None
def establish_connection(self, start_port, end_port):
"""
establish a new pipe connection.
(adds a new pipe item to draw between 2 ports)
"""
pipe = Pipe()
self.scene().addItem(pipe)
pipe.set_connections(start_port, end_port)
pipe.draw_path(pipe.input_port, pipe.output_port)
if start_port.node.selected or end_port.node.selected:
pipe.highlight()
def acyclic_check(self, start_port, end_port):
"""
validate the connection so it doesn't loop itself.
Returns:
bool: True if port connection is valid.
"""
start_node = start_port.node
check_nodes = [end_port.node]
io_types = {IN_PORT: 'outputs', OUT_PORT: 'inputs'}
while check_nodes:
check_node = check_nodes.pop(0)
for check_port in getattr(check_node,
io_types[end_port.port_type]):
if check_port.connected_ports:
for port in check_port.connected_ports:
if port.node != start_node:
check_nodes.append(port.node)
else:
return False
return True
# --- viewer ---
def tab_search_set_nodes(self, nodes):
self._search_widget.set_nodes(nodes)
def tab_search_toggle(self):
if type(self._search_widget) is TabSearchMenuWidget:
return
pos = self._previous_pos
state = not self._search_widget.isVisible()
if state:
rect = self._search_widget.rect()
new_pos = QtCore.QPoint(pos.x() - rect.width() / 2,
pos.y() - rect.height() / 2)
self._search_widget.move(new_pos)
self._search_widget.setVisible(state)
rect = self.mapToScene(rect).boundingRect()
self.scene().update(rect)
else:
self._search_widget.setVisible(state)
self.clearFocus()
def context_menus(self):
return {'graph': self._ctx_menu, 'nodes': self._ctx_node_menu}
def question_dialog(self, text, title='Node Graph'):
dlg = messageBox(text, title,
QtWidgets.QMessageBox.Yes | QtWidgets.QMessageBox.No)
return dlg == QtWidgets.QMessageBox.Yes
def message_dialog(self, text, title='Node Graph'):
messageBox(text, title, QtWidgets.QMessageBox.Ok)
def load_dialog(self, current_dir=None, ext=None):
ext = '*{} '.format(ext) if ext else ''
ext_filter = ';;'.join(
['Node Graph ({}*json)'.format(ext), 'All Files (*)'])
file_dlg = file_dialog.getOpenFileName(self, 'Open File', current_dir,
ext_filter)
file = file_dlg[0] or None
return file
def save_dialog(self, current_dir=None, ext=None):
ext_label = '*{} '.format(ext) if ext else ''
ext_type = '.{}'.format(ext) if ext else '.json'
ext_map = {
'Node Graph ({}*json)'.format(ext_label): ext_type,
'All Files (*)': ''
}
file_dlg = file_dialog.getSaveFileName(self, 'Save Session',
current_dir,
';;'.join(ext_map.keys()))
file_path = file_dlg[0]
if not file_path:
return
ext = ext_map[file_dlg[1]]
if ext and not file_path.endswith(ext):
file_path += ext
return file_path
def all_pipes(self):
pipes = []
excl = [self._LIVE_PIPE, self._SLICER_PIPE]
for item in self.scene().items():
if isinstance(item, Pipe) and item not in excl:
pipes.append(item)
return pipes
def all_nodes(self):
nodes = []
for item in self.scene().items():
if isinstance(item, AbstractNodeItem):
nodes.append(item)
return nodes
def selected_nodes(self):
nodes = [item for item in self.scene().selectedItems()\
if isinstance(item,AbstractNodeItem)]
return nodes
def selected_pipes(self):
pipes = [item for item in self.scene().selectedItems()\
if isinstance(item,Pipe)]
return pipes
def selected_items(self):
nodes = []
pipes = []
for item in self.scene().selectedItems():
if isinstance(item, AbstractNodeItem):
nodes.append(item)
elif isinstance(item, Pipe):
pipes.append(item)
return nodes, pipes
def add_node(self, node, pos=None):
pos = pos or (self._previous_pos.x(), self._previous_pos.y())
node.pre_init(self, pos)
self.scene().addItem(node)
node.post_init(self, pos)
def remove_node(self, node):
if isinstance(node, AbstractNodeItem):
node.delete()
def move_nodes(self, nodes, pos=None, offset=None):
group = self.scene().createItemGroup(nodes)
group_rect = group.boundingRect()
if pos:
x, y = pos
else:
pos = self.mapToScene(self._previous_pos)
x = pos.x() - group_rect.center().x()
y = pos.y() - group_rect.center().y()
if offset:
x += offset[0]
y += offset[1]
group.setPos(x, y)
self.scene().destroyItemGroup(group)
def get_pipes_from_nodes(self, nodes=None):
nodes = nodes or self.selected_nodes()
if not nodes:
return
pipes = []
for node in nodes:
n_inputs = node.inputs if hasattr(node, 'inputs') else []
n_outputs = node.outputs if hasattr(node, 'outputs') else []
for port in n_inputs:
for pipe in port.connected_pipes:
connected_node = pipe.output_port.node
if connected_node in nodes:
pipes.append(pipe)
for port in n_outputs:
for pipe in port.connected_pipes:
connected_node = pipe.input_port.node
if connected_node in nodes:
pipes.append(pipe)
return pipes
def center_selection(self, nodes=None):
if not nodes:
if self.selected_nodes():
nodes = self.selected_nodes()
elif self.all_nodes():
nodes = self.all_nodes()
if len(nodes) == 1:
self.centerOn(nodes[0])
else:
rect = self._combined_rect(nodes)
self.centerOn(rect.center().x(), rect.center().y())
def get_pipe_layout(self):
return self._pipe_layout
def set_pipe_layout(self, layout):
self._pipe_layout = layout
for pipe in self.all_pipes():
pipe.draw_path(pipe.input_port, pipe.output_port)
def reset_zoom(self, cent=None):
self._scene_range = QtCore.QRectF(0, 0,
self.size().width(),
self.size().height())
if cent:
self._scene_range.translate(cent - self._scene_range.center())
self._update_scene()
def get_zoom(self):
transform = self.transform()
cur_scale = (transform.m11(), transform.m22())
return float('{:0.2f}'.format(cur_scale[0] - 1.0))
def set_zoom(self, value=0.0):
if value == 0.0:
self.reset_zoom()
return
zoom = self.get_zoom()
if zoom < 0.0:
if not (ZOOM_MIN <= zoom <= ZOOM_MAX):
return
else:
if not (ZOOM_MIN <= value <= ZOOM_MAX):
return
value = value - zoom
self._set_viewer_zoom(value, 0.0)
def zoom_to_nodes(self, nodes):
self._scene_range = self._combined_rect(nodes)
self._update_scene()
if self.get_zoom() > 0.1:
self.reset_zoom(self._scene_range.center())
def use_opengl(self):
format = QtOpenGL.QGLFormat(QtOpenGL.QGL.SampleBuffers)
format.setSamples(4)
self.setViewport(QtOpenGL.QGLWidget(format))
class NodeGraph(QtCore.QObject):
"""
base node graph controller.
"""
#: signal emits the node object when a node is created in the node graph.
node_created = QtCore.Signal(NodeObject)
#: signal emits a list of node ids from the deleted nodes.
nodes_deleted = QtCore.Signal(list)
#: signal emits the node object when selected in the node graph.
node_selected = QtCore.Signal(NodeObject)
#: signal triggered when a node is double clicked and emits the node.
node_double_clicked = QtCore.Signal(NodeObject)
#: signal for when a node has been connected emits (source port, target port).
port_connected = QtCore.Signal(Port, Port)
#: signal for when a node has been disconnected emits (source port, target port).
port_disconnected = QtCore.Signal(Port, Port)
#: signal for when a node property has changed emits (node, property name, property value).
property_changed = QtCore.Signal(NodeObject, str, object)
#: signal for when drop data has been added to the graph.
data_dropped = QtCore.Signal(QtCore.QMimeData, QtCore.QPoint)
def __init__(self, parent=None):
super(NodeGraph, self).__init__(parent)
self.setObjectName('NodeGraphQt')
self._model = NodeGraphModel()
self._viewer = NodeViewer(parent)
self._node_factory = NodeFactory()
self._undo_stack = QtWidgets.QUndoStack(self)
tab = QtWidgets.QAction('Search Nodes', self)
tab.setShortcut('tab')
tab.triggered.connect(self._toggle_tab_search)
self._viewer.addAction(tab)
self._wire_signals()
def __repr__(self):
return '<{} object at {}>'.format(self.__class__.__name__,
hex(id(self)))
def _wire_signals(self):
# internal signals.
self._viewer.search_triggered.connect(self._on_search_triggered)
self._viewer.connection_sliced.connect(self._on_connection_sliced)
self._viewer.connection_changed.connect(self._on_connection_changed)
self._viewer.moved_nodes.connect(self._on_nodes_moved)
self._viewer.node_double_clicked.connect(self._on_node_double_clicked)
# pass through signals.
self._viewer.node_selected.connect(self._on_node_selected)
self._viewer.data_dropped.connect(self._on_node_data_dropped)
def _toggle_tab_search(self):
"""
toggle the tab search widget.
"""
self._viewer.tab_search_set_nodes(self._node_factory.names)
self._viewer.tab_search_toggle()
def _on_property_bin_changed(self, node_id, prop_name, prop_value):
"""
called when a property widget has changed in a properties bin.
(emits the node object, property name, property value)
Args:
node_id (str): node id.
prop_name (str): node property name.
prop_value (object): python object.
"""
node = self.get_node_by_id(node_id)
# prevent signals from causing a infinite loop.
if node.get_property(prop_name) != prop_value:
node.set_property(prop_name, prop_value)
def _on_node_double_clicked(self, node_id):
"""
called when a node in the viewer is double click.
(emits the node object when the node is clicked)
Args:
node_id (str): node id emitted by the viewer.
"""
node = self.get_node_by_id(node_id)
self.node_double_clicked.emit(node)
def _on_node_selected(self, node_id):
"""
called when a node in the viewer is selected on left click.
(emits the node object when the node is clicked)
Args:
node_id (str): node id emitted by the viewer.
"""
node = self.get_node_by_id(node_id)
self.node_selected.emit(node)
def _on_node_data_dropped(self, data, pos):
"""
called when data has been dropped on the viewer.
Args:
data (QtCore.QMimeData): mime data.
pos (QtCore.QPoint): scene position relative to the drop.
"""
# don't emit signal for internal widget drops.
if data.hasFormat('text/plain'):
if data.text().startswith('<${}>:'.format(DRAG_DROP_ID)):
node_ids = data.text()[len('<${}>:'.format(DRAG_DROP_ID)):]
x, y = pos.x(), pos.y()
for node_id in node_ids.split(','):
self.create_node(node_id, pos=[x, y])
x += 20
y += 20
return
self.data_dropped.emit(data, pos)
def _on_nodes_moved(self, node_data):
"""
called when selected nodes in the viewer has changed position.
Args:
node_data (dict): {<node_view>: <previous_pos>}
"""
self._undo_stack.beginMacro('move nodes')
for node_view, prev_pos in node_data.items():
node = self._model.nodes[node_view.id]
self._undo_stack.push(NodeMovedCmd(node, node.pos(), prev_pos))
self._undo_stack.endMacro()
def _on_search_triggered(self, node_type, pos):
"""
called when the tab search widget is triggered in the viewer.
Args:
node_type (str): node identifier.
pos (tuple): x,y position for the node.
"""
self.create_node(node_type, pos=pos)
def _on_connection_changed(self, disconnected, connected):
"""
called when a pipe connection has been changed in the viewer.
Args:
disconnected (list[list[widgets.port.PortItem]):
pair list of port view items.
connected (list[list[widgets.port.PortItem]]):
pair list of port view items.
"""
if not (disconnected or connected):
return
label = 'connect node(s)' if connected else 'disconnect node(s)'
ptypes = {'in': 'inputs', 'out': 'outputs'}
self._undo_stack.beginMacro(label)
for p1_view, p2_view in disconnected:
node1 = self._model.nodes[p1_view.node.id]
node2 = self._model.nodes[p2_view.node.id]
port1 = getattr(node1, ptypes[p1_view.port_type])()[p1_view.name]
port2 = getattr(node2, ptypes[p2_view.port_type])()[p2_view.name]
port1.disconnect_from(port2)
for p1_view, p2_view in connected:
node1 = self._model.nodes[p1_view.node.id]
node2 = self._model.nodes[p2_view.node.id]
port1 = getattr(node1, ptypes[p1_view.port_type])()[p1_view.name]
port2 = getattr(node2, ptypes[p2_view.port_type])()[p2_view.name]
port1.connect_to(port2)
self._undo_stack.endMacro()
def _on_connection_sliced(self, ports):
"""
slot when connection pipes have been sliced.
Args:
ports (list[list[widgets.port.PortItem]]):
pair list of port connections (in port, out port)
"""
if not ports:
return
ptypes = {'in': 'inputs', 'out': 'outputs'}
self._undo_stack.beginMacro('slice connections')
for p1_view, p2_view in ports:
node1 = self._model.nodes[p1_view.node.id]
node2 = self._model.nodes[p2_view.node.id]
port1 = getattr(node1, ptypes[p1_view.port_type])()[p1_view.name]
port2 = getattr(node2, ptypes[p2_view.port_type])()[p2_view.name]
port1.disconnect_from(port2)
self._undo_stack.endMacro()
@property
def model(self):
"""
Returns the model used to store the node graph data.
Returns:
NodeGraphQt.base.model.NodeGraphModel: node graph model.
"""
return self._model
def show(self):
"""
Show node graph viewer widget this is just a convenience
function to :meth:`NodeGraph.viewer().show()`.
"""
self._viewer.show()
def close(self):
"""
Close node graph NodeViewer widget this is just a convenience
function to :meth:`NodeGraph.viewer().close()`.
"""
self._viewer.close()
def viewer(self):
"""
Return the node graph viewer widget.
Returns:
NodeGraphQt.widgets.viewer.NodeViewer: viewer widget.
"""
return self._viewer
def scene(self):
"""
Return the scene object.
Returns:
NodeGraphQt.widgets.scene.NodeScene: node scene.
"""
return self._viewer.scene()
def background_color(self):
"""
Return the node graph background color.
Returns:
tuple: r, g ,b
"""
return self.scene().background_color
def set_background_color(self, r, g, b):
"""
Set node graph background color.
Args:
r (int): red value.
g (int): green value.
b (int): blue value.
"""
self.scene().background_color = (r, g, b)
def grid_color(self):
"""
Return the node graph grid color.
Returns:
tuple: r, g ,b
"""
return self.scene().grid_color
def set_grid_color(self, r, g, b):
"""
Set node graph grid color.
Args:
r (int): red value.
g (int): green value.
b (int): blue value.
"""
self.scene().grid_color = (r, g, b)
def display_grid(self, display=True):
"""
Display node graph background grid.
Args:
display: False to not draw the background grid.
"""
self.scene().grid = display
def add_properties_bin(self, prop_bin):
"""
Wire up a properties bin widget to the node graph.
Args:
prop_bin (NodeGraphQt.PropertiesBinWidget): properties widget.
"""
prop_bin.property_changed.connect(self._on_property_bin_changed)
def undo_stack(self):
"""
Returns the undo stack used in the node graph
Returns:
QtWidgets.QUndoStack: undo stack.
"""
return self._undo_stack
def clear_undo_stack(self):
"""
Clears the undo stack.
(convenience function to :meth:`NodeGraph.undo_stack().clear`)
"""
self._undo_stack.clear()
def begin_undo(self, name):
"""
Start of an undo block followed by a
:meth:`NodeGraph.end_undo()`.
Args:
name (str): name for the undo block.
"""
self._undo_stack.beginMacro(name)
def end_undo(self):
"""
End of an undo block started by
:meth:`NodeGraph.begin_undo()`.
"""
self._undo_stack.endMacro()
def context_menu(self):
"""
Returns the node graph root context menu object.
Returns:
Menu: context menu object.
"""
return Menu(self._viewer, self._viewer.context_menu())
def disable_context_menu(self, disabled=True):
"""
Disable/Enable node graph context menu.
Args:
disabled (bool): true to enable context menu.
"""
menu = self._viewer.context_menu()
menu.setDisabled(disabled)
menu.setVisible(not disabled)
def acyclic(self):
"""
Returns true if the current node graph is acyclic.
Returns:
bool: true if acyclic (default: True).
"""
return self._model.acyclic
def set_acyclic(self, mode=False):
"""
Enable the node graph to be a acyclic graph. (default=False)
Args:
mode (bool): true to enable acyclic.
"""
self._model.acyclic = mode
self._viewer.acyclic = mode
def set_pipe_style(self, style=None):
"""
Set node graph pipes to be drawn straight or curved by default
all pipes are set curved. (default=0)
``NodeGraphQt.constants.PIPE_LAYOUT_CURVED`` = 0
``NodeGraphQt.constants.PIPE_LAYOUT_STRAIGHT`` = 1
Args:
style (int): pipe style.
"""
pipe_default = max([PIPE_LAYOUT_CURVED, PIPE_LAYOUT_STRAIGHT])
style = PIPE_LAYOUT_STRAIGHT if style > pipe_default else style
self._viewer.set_pipe_layout(style)
def fit_to_selection(self):
"""
Sets the zoom level to fit selected nodes.
If no nodes are selected then all nodes in the graph will be framed.
"""
nodes = self.selected_nodes() or self.all_nodes()
if not nodes:
return
self._viewer.zoom_to_nodes([n.view for n in nodes])
def reset_zoom(self):
"""
Reset the zoom level
"""
self._viewer.reset_zoom()
def set_zoom(self, zoom=0):
"""
Set the zoom factor of the Node Graph the default is 0.0
Args:
zoom (float): zoom factor (max zoom out -0.9 / max zoom in 2.0)
"""
self._viewer.set_zoom(zoom)
def get_zoom(self):
"""
Get the current zoom level of the node graph.
Returns:
float: the current zoom level.
"""
return self._viewer.get_zoom()
def center_on(self, nodes=None):
"""
Center the node graph on the given nodes or all nodes by default.
Args:
nodes (list[NodeGraphQt.BaseNode]): a list of nodes.
"""
self._viewer.center_selection(nodes)
def center_selection(self):
"""
Centers on the current selected nodes.
"""
nodes = self._viewer.selected_nodes()
self._viewer.center_selection(nodes)
def registered_nodes(self):
"""
Return a list of all node types that have been registered.
To register a node see :meth:`NodeGraph.register_node`
Returns:
list[str]: list of node type identifiers.
"""
return sorted(self._node_factory.nodes.keys())
def register_node(self, node, alias=None):
"""
Register the node to the node graph vendor.
Args:
node (NodeGraphQt.NodeObject): node.
alias (str): custom alias name for the node type.
"""
self._node_factory.register_node(node, alias)
def create_node(self,
node_type,
name=None,
selected=True,
color=None,
text_color=None,
pos=None):
"""
Create a new node in the node graph.
(To list all node types see :meth:`NodeGraph.registered_nodes`)
Args:
node_type (str): node instance type.
name (str): set name of the node.
selected (bool): set created node to be selected.
color (tuple or str): node color (255, 255, 255) or '#FFFFFF'.
text_color (tuple or str): node text color (255, 255, 255) or '#FFFFFF'.
pos (list[int, int]): initial x, y position for the node (default: (0, 0)).
Returns:
NodeGraphQt.BaseNode: the created instance of the node.
"""
NodeCls = self._node_factory.create_node_instance(node_type)
if NodeCls:
node = NodeCls()
node._graph = self
node.model._graph_model = self.model
wid_types = node.model.__dict__.pop('_TEMP_property_widget_types')
prop_attrs = node.model.__dict__.pop('_TEMP_property_attrs')
if self.model.get_node_common_properties(node.type_) is None:
node_attrs = {
node.type_:
{n: {
'widget_type': wt
}
for n, wt in wid_types.items()}
}
for pname, pattrs in prop_attrs.items():
node_attrs[node.type_][pname].update(pattrs)
self.model.set_node_common_properties(node_attrs)
node.NODE_NAME = self.get_unique_name(name or node.NODE_NAME)
node.model.name = node.NODE_NAME
node.model.selected = selected
def format_color(clr):
if isinstance(clr, str):
clr = clr.strip('#')
return tuple(int(clr[i:i + 2], 16) for i in (0, 2, 4))
return clr
if color:
node.model.color = format_color(color)
if text_color:
node.model.text_color = format_color(text_color)
if pos:
node.model.pos = [float(pos[0]), float(pos[1])]
node.update()
undo_cmd = NodeAddedCmd(self, node, node.model.pos)
undo_cmd.setText('create node: "{}"'.format(node.NODE_NAME))
self._undo_stack.push(undo_cmd)
self.node_created.emit(node)
return node
raise Exception('\n\n>> Cannot find node:\t"{}"\n'.format(node_type))
def add_node(self, node, pos=None):
"""
Add a node into the node graph.
Args:
node (NodeGraphQt.BaseNode): node object.
pos (list[float]): node x,y position. (optional)
"""
assert isinstance(node, NodeObject), 'node must be a Node instance.'
wid_types = node.model.__dict__.pop('_TEMP_property_widget_types')
prop_attrs = node.model.__dict__.pop('_TEMP_property_attrs')
if self.model.get_node_common_properties(node.type_) is None:
node_attrs = {
node.type_:
{n: {
'widget_type': wt
}
for n, wt in wid_types.items()}
}
for pname, pattrs in prop_attrs.items():
node_attrs[node.type_][pname].update(pattrs)
self.model.set_node_common_properties(node_attrs)
node._graph = self
node.NODE_NAME = self.get_unique_name(node.NODE_NAME)
node.model._graph_model = self.model
node.model.name = node.NODE_NAME
node.update()
self._undo_stack.push(NodeAddedCmd(self, node, pos))
def delete_node(self, node):
"""
Remove the node from the node graph.
Args:
node (NodeGraphQt.BaseNode): node object.
"""
assert isinstance(node, NodeObject), \
'node must be a instance of a NodeObject.'
self.nodes_deleted.emit([node.id])
self._undo_stack.push(NodeRemovedCmd(self, node))
def delete_nodes(self, nodes):
"""
Remove a list of specified nodes from the node graph.
Args:
nodes (list[NodeGraphQt.BaseNode]): list of node instances.
"""
self.nodes_deleted.emit([n.id for n in nodes])
self._undo_stack.beginMacro('delete nodes')
[self._undo_stack.push(NodeRemovedCmd(self, n)) for n in nodes]
self._undo_stack.endMacro()
def all_nodes(self):
"""
Return all nodes in the node graph.
Returns:
list[NodeGraphQt.BaseNode]: list of nodes.
"""
return list(self._model.nodes.values())
def selected_nodes(self):
"""
Return all selected nodes that are in the node graph.
Returns:
list[NodeGraphQt.BaseNode]: list of nodes.
"""
nodes = []
for item in self._viewer.selected_nodes():
node = self._model.nodes[item.id]
nodes.append(node)
return nodes
def select_all(self):
"""
Select all nodes in the node graph.
"""
self._undo_stack.beginMacro('select all')
for node in self.all_nodes():
node.set_selected(True)
self._undo_stack.endMacro()
def clear_selection(self):
"""
Clears the selection in the node graph.
"""
self._undo_stack.beginMacro('clear selection')
for node in self.all_nodes():
node.set_selected(False)
self._undo_stack.endMacro()
def get_node_by_id(self, node_id=None):
"""
Returns the node from the node id string.
Args:
node_id (str): node id (:meth:`NodeObject.id`)
Returns:
NodeGraphQt.NodeObject: node object.
"""
return self._model.nodes.get(node_id)
def get_node_by_name(self, name):
"""
Returns node that matches the name.
Args:
name (str): name of the node.
Returns:
NodeGraphQt.NodeObject: node object.
"""
for node_id, node in self._model.nodes.items():
if node.name() == name:
return node
def get_unique_name(self, name):
"""
Creates a unique node name to avoid having nodes with the same name.
Args:
name (str): node name.
Returns:
str: unique node name.
"""
name = ' '.join(name.split())
node_names = [n.name() for n in self.all_nodes()]
if name not in node_names:
return name
regex = re.compile('[\w ]+(?: )*(\d+)')
search = regex.search(name)
if not search:
for x in range(1, len(node_names) + 1):
new_name = '{} {}'.format(name, x)
if new_name not in node_names:
return new_name
version = search.group(1)
name = name[:len(version) * -1].strip()
for x in range(1, len(node_names) + 1):
new_name = '{} {}'.format(name, x)
if new_name not in node_names:
return new_name
def current_session(self):
"""
Returns the file path to the currently loaded session.
Returns:
str: path to the currently loaded session
"""
return self._model.session
def clear_session(self):
"""
Clears the current node graph session.
"""
for n in self.all_nodes():
self._undo_stack.push(NodeRemovedCmd(self, n))
self._undo_stack.clear()
self._model.session = None
def _serialize(self, nodes):
"""
serialize nodes to a dict.
(used internally by the node graph)
Args:
nodes (list[NodeGraphQt.Nodes]): list of node instances.
Returns:
dict: serialized data.
"""
serial_data = {'nodes': {}, 'connections': []}
nodes_data = {}
for n in nodes:
# update the node model.
n.update_model()
nodes_data.update(n.model.to_dict)
for n_id, n_data in nodes_data.items():
serial_data['nodes'][n_id] = n_data
inputs = n_data.pop('inputs') if n_data.get('inputs') else {}
outputs = n_data.pop('outputs') if n_data.get('outputs') else {}
for pname, conn_data in inputs.items():
for conn_id, prt_names in conn_data.items():
for conn_prt in prt_names:
pipe = {
'in': [n_id, pname],
'out': [conn_id, conn_prt]
}
if pipe not in serial_data['connections']:
serial_data['connections'].append(pipe)
for pname, conn_data in outputs.items():
for conn_id, prt_names in conn_data.items():
for conn_prt in prt_names:
pipe = {
'out': [n_id, pname],
'in': [conn_id, conn_prt]
}
if pipe not in serial_data['connections']:
serial_data['connections'].append(pipe)
if not serial_data['connections']:
serial_data.pop('connections')
return serial_data
def _deserialize(self, data, relative_pos=False, pos=None):
"""
deserialize node data.
(used internally by the node graph)
Args:
data (dict): node data.
relative_pos (bool): position node relative to the cursor.
Returns:
list[NodeGraphQt.Nodes]: list of node instances.
"""
nodes = {}
# build the nodes.
for n_id, n_data in data.get('nodes', {}).items():
identifier = n_data['type_']
NodeCls = self._node_factory.create_node_instance(identifier)
if NodeCls:
node = NodeCls()
node.NODE_NAME = n_data.get('name', node.NODE_NAME)
# set properties.
for prop in node.model.properties.keys():
if prop in n_data.keys():
node.model.set_property(prop, n_data[prop])
# set custom properties.
for prop, val in n_data.get('custom', {}).items():
node.model.set_property(prop, val)
nodes[n_id] = node
self.add_node(node, n_data.get('pos'))
# build the connections.
for connection in data.get('connections', []):
nid, pname = connection.get('in', ('', ''))
in_node = nodes.get(nid)
if not in_node:
continue
in_port = in_node.inputs().get(pname) if in_node else None
nid, pname = connection.get('out', ('', ''))
out_node = nodes.get(nid)
if not out_node:
continue
out_port = out_node.outputs().get(pname) if out_node else None
if in_port and out_port:
self._undo_stack.push(PortConnectedCmd(in_port, out_port))
node_objs = list(nodes.values())
if relative_pos:
self._viewer.move_nodes([n.view for n in node_objs])
[setattr(n.model, 'pos', n.view.xy_pos) for n in node_objs]
elif pos:
self._viewer.move_nodes([n.view for n in node_objs], pos=pos)
[setattr(n.model, 'pos', n.view.xy_pos) for n in node_objs]
return node_objs
def serialize_session(self):
"""
Serializes the current node graph layout to a dictionary.
Returns:
dict: serialized session of the current node layout.
"""
return self._serialize(self.all_nodes())
def deserialize_session(self, layout_data):
"""
Load node graph session from a dictionary object.
Args:
layout_data (dict): dictionary object containing a node session.
"""
self.clear_session()
self._deserialize(layout_data)
self._undo_stack.clear()
def save_session(self, file_path):
"""
Saves the current node graph session layout to a `JSON` formatted file.
Args:
file_path (str): path to the saved node layout.
"""
serliazed_data = self._serialize(self.all_nodes())
file_path = file_path.strip()
with open(file_path, 'w') as file_out:
json.dump(serliazed_data,
file_out,
indent=2,
separators=(',', ':'))
def load_session(self, file_path):
"""
Load node graph session layout file.
Args:
file_path (str): path to the serialized layout file.
"""
file_path = file_path.strip()
if not os.path.isfile(file_path):
raise IOError('file does not exist.')
self.clear_session()
try:
with open(file_path) as data_file:
layout_data = json.load(data_file)
except Exception as e:
layout_data = None
print('Cannot read data from file.\n{}'.format(e))
if not layout_data:
return
self._deserialize(layout_data)
self._undo_stack.clear()
self._model.session = file_path
def copy_nodes(self, nodes=None):
"""
Copy nodes to the clipboard.
Args:
nodes (list[NodeGraphQt.BaseNode]): list of nodes (default: selected nodes).
"""
nodes = nodes or self.selected_nodes()
if not nodes:
return False
clipboard = QtWidgets.QApplication.clipboard()
serial_data = self._serialize(nodes)
serial_str = json.dumps(serial_data)
if serial_str:
clipboard.setText(serial_str)
return True
return False
def paste_nodes(self):
"""
Pastes nodes copied from the clipboard.
"""
clipboard = QtWidgets.QApplication.clipboard()
cb_text = clipboard.text()
if not cb_text:
return
self._undo_stack.beginMacro('pasted nodes')
serial_data = json.loads(cb_text)
self.clear_selection()
nodes = self._deserialize(serial_data, relative_pos=True)
[n.set_selected(True) for n in nodes]
self._undo_stack.endMacro()
def duplicate_nodes(self, nodes):
"""
Create duplicate copy from the list of nodes.
Args:
nodes (list[NodeGraphQt.BaseNode]): list of nodes.
Returns:
list[NodeGraphQt.BaseNode]: list of duplicated node instances.
"""
if not nodes:
return
self._undo_stack.beginMacro('duplicate nodes')
self.clear_selection()
serial = self._serialize(nodes)
new_nodes = self._deserialize(serial)
offset = 50
for n in new_nodes:
x, y = n.pos()
n.set_pos(x + offset, y + offset)
n.set_property('selected', True)
self._undo_stack.endMacro()
return new_nodes
def disable_nodes(self, nodes, mode=None):
"""
Set weather to Disable or Enable specified nodes.
see: :meth:`NodeObject.set_disabled`
Args:
nodes (list[NodeGraphQt.BaseNode]): list of node instances.
mode (bool): (optional) disable state of the nodes.
"""
if not nodes:
return
if mode is None:
mode = not nodes[0].disabled()
if len(nodes) > 1:
text = {False: 'enable', True: 'disable'}[mode]
text = '{} ({}) nodes'.format(text, len(nodes))
self._undo_stack.beginMacro(text)
[n.set_disabled(mode) for n in nodes]
self._undo_stack.endMacro()
return
nodes[0].set_disabled(mode)
def question_dialog(self, text, title='Node Graph'):
"""
Prompts a question open dialog with "Yes" and "No" buttons in
the node graph.
(convenience function to :meth:`NodeGraph.viewer().question_dialog`)
Args:
text (str): question text.
title (str): dialog window title.
Returns:
bool: true if user clicked yes.
"""
self._viewer.question_dialog(text, title)
def message_dialog(self, text, title='Node Graph'):
"""
Prompts a file open dialog in the node graph.
(convenience function to :meth:`NodeGraph.viewer().message_dialog`)
Args:
text (str): message text.
title (str): dialog window title.
"""
self._viewer.message_dialog(text, title)
def load_dialog(self, current_dir=None, ext=None):
"""
Prompts a file open dialog in the node graph.
(convenience function to :meth:`NodeGraph.viewer().load_dialog`)
Args:
current_dir (str): path to a directory.
ext (str): custom file type extension (default: json)
Returns:
str: selected file path.
"""
return self._viewer.load_dialog(current_dir, ext)
def save_dialog(self, current_dir=None, ext=None):
"""
Prompts a file save dialog in the node graph.
(convenience function to :meth:`NodeGraph.viewer().save_dialog`)
Args:
current_dir (str): path to a directory.
ext (str): custom file type extension (default: json)
Returns:
str: selected file path.
"""
return self._viewer.save_dialog(current_dir, ext)
class NodeBaseWidget(QtWidgets.QGraphicsProxyWidget):
"""
NodeBaseWidget is the main base class for all node widgets that is
embedded in a :class:`NodeGraphQt.BaseNode` object.
"""
value_changed = QtCore.Signal(str, object)
"""
Signal triggered when the ``value`` attribute has changed.
:parameters: str, object
:emits: property name, propety value
"""
def __init__(self, parent=None, name='widget', label=''):
super(NodeBaseWidget, self).__init__(parent)
self.setZValue(Z_VAL_NODE_WIDGET)
self._name = name
self._label = label
def _value_changed(self):
self.value_changed.emit(self.name, self.value)
def setToolTip(self, tooltip):
tooltip = tooltip.replace('\n', '<br/>')
tooltip = '<b>{}</b><br/>{}'.format(self.name, tooltip)
super(NodeBaseWidget, self).setToolTip(tooltip)
@property
def widget(self):
"""
Returns the embedded QWidget used in the node.
Returns:
QtWidgets.QWidget: nested QWidget
"""
raise NotImplementedError
@property
def value(self):
"""
Returns the widgets current value.
Returns:
str: current property value.
"""
raise NotImplementedError
@value.setter
def value(self, text):
"""
Sets the widgets current value.
Args:
text (str): new text value.
"""
raise NotImplementedError
@property
def label(self):
"""
Returns the label text displayed above the embedded node widget.
Returns:
str: label text.
"""
return self._label
@label.setter
def label(self, label):
"""
Sets the label text above the embedded widget.
Args:
label (str): new label ext.
"""
self._label = label
@property
def type_(self):
"""
Returns the node widget type.
Returns:
str: widget type.
"""
return str(self.__class__.__name__)
@property
def node(self):
"""
Returns the parent base node qgraphics item.
Returns:
NodeItem: parent node.
"""
self.parentItem()
@property
def name(self):
"""
Returns the parent node property name.
Returns:
str: property name.
"""
return self._name
def get_icon(self, name):
"""
Returns the qt default icon.
Returns:
str: icon name.
"""
return self.style().standardIcon(QtWidgets.QStyle.StandardPixmap(name))
class TabSearchMenuWidget(QtWidgets.QLineEdit):
search_submitted = QtCore.Signal(str)
def __init__(self, parent=None, node_dict=None):
super(TabSearchMenuWidget, self).__init__(parent)
self.setAttribute(QtCore.Qt.WA_MacShowFocusRect, 0)
self.setStyleSheet(STYLE_TABSEARCH)
self.setMinimumSize(200, 22)
self.setTextMargins(2, 0, 2, 0)
self._node_dict = node_dict or {}
if self._node_dict:
self._generate_items_from_node_dict()
self.SearchMenu = QtWidgets.QMenu()
searchWidget = QtWidgets.QWidgetAction(self)
searchWidget.setDefaultWidget(self)
self.SearchMenu.addAction(searchWidget)
self.SearchMenu.setStyleSheet(STYLE_QMENU)
self._actions = []
self._menus = {}
self._searched_actions = []
self.returnPressed.connect(self._on_search_submitted)
self.textChanged.connect(self._on_text_changed)
def __repr__(self):
return '<{} at {}>'.format(self.__class__.__name__, hex(id(self)))
def _on_text_changed(self, text):
self._clear_actions()
if not text:
self._set_menu_visible(True)
return
self._set_menu_visible(False)
self._searched_actions = [action for action in self._actions\
if text.lower() in action.text().lower()]
self.SearchMenu.addActions(self._searched_actions)
def _clear_actions(self):
for action in self._searched_actions:
self.SearchMenu.removeAction(action)
self._searched_actions = []
def _set_menu_visible(self, visible):
for menu in self._menus.values():
menu.menuAction().setVisible(visible)
def _close(self):
self._set_menu_visible(False)
self.SearchMenu.setVisible(False)
self.SearchMenu.menuAction().setVisible(False)
def _show(self):
self.SearchMenu.exec_(QtGui.QCursor.pos())
self.setText("")
self.setFocus()
self._set_menu_visible(True)
def _on_search_submitted(self):
action = self.sender()
if type(action) is not QtWidgets.QAction:
if len(self._searched_actions) > 0:
action = self._searched_actions[0]
else:
self._close()
return
text = action.text()
node_type = self._node_dict.get(text)
if node_type:
self.search_submitted.emit(node_type)
self._close()
def _generate_items_from_node_dict(self):
node_names = sorted(self._node_dict.keys())
node_types = sorted(self._node_dict.values())
self._menus.clear()
self._actions.clear()
self._searched_actions.clear()
for node_type in node_types:
menu_name = ".".join(node_type.split(".")[:-1])
if menu_name not in self._menus.keys():
new_menu = QtWidgets.QMenu(menu_name)
new_menu.setStyleSheet(STYLE_QMENU)
self._menus[menu_name] = new_menu
self.SearchMenu.addMenu(new_menu)
for name in node_names:
action = QtWidgets.QAction(name, self)
action.setText(name)
action.triggered.connect(self._on_search_submitted)
self._actions.append(action)
menu_name = self._node_dict[name]
menu_name = ".".join(menu_name.split(".")[:-1])
if menu_name in self._menus.keys():
self._menus[menu_name].addAction(action)
else:
self.SearchMenu.addAction(action)
def set_nodes(self, node_dict=None):
if not self._node_dict:
self._node_dict.clear()
for name, node_types in node_dict.items():
if len(node_types) == 1:
self._node_dict[name] = node_types[0]
continue
for node_id in node_types:
self._node_dict['{} ({})'.format(name, node_id)] = node_id
self._generate_items_from_node_dict()
self._show()
class AutoNode(BaseNode, QtCore.QObject):
cooked = QtCore.Signal()
def __init__(self, defaultInputType=None, defaultOutputType=None):
super(AutoNode, self).__init__()
QtCore.QObject.__init__(self)
self.needCook = True
self._autoCook = True
self._error = False
self.matchTypes = [[float, int]]
self.errorColor = (200, 50, 50)
self.stopCookColor = (200, 200, 200)
self._cryptoColors = CryptoColors()
self.defaultColor = self.get_property("color")
self.defaultValue = None
self.defaultInputType = defaultInputType
self.defaultOutputType = defaultOutputType
self._cookTime = 0.0
self._toolTip = self._setup_tool_tip()
@property
def autoCook(self):
return self._autoCook
@autoCook.setter
def autoCook(self, mode):
if mode is self._autoCook:
return
self._autoCook = mode
if mode:
self.set_property('color', self.defaultColor)
else:
self.defaultColor = self.get_property("color")
self.set_property('color', self.stopCookColor)
@property
def cookTime(self):
return self._cookTime
@autoCook.setter
def cookTime(self, time):
self._cookTime = time
self._update_tool_tip()
def cookNextNode(self):
for nodeList in self.connected_output_nodes().values():
for n in nodeList:
if n is not self:
n.cook()
def getData(self, port):
# for custom output data
return self.get_property(port.name())
def getInputData(self, port):
"""
get input data by input Port,the type of "port" can be :
int : Port index
str : Port name
Port : Port object
"""
if type(port) is int:
to_port = self.input(port)
elif type(port) is str:
to_port = self.inputs()[port]
elif type(port) is Port:
to_port = port
else:
print(self.inputs().keys())
return self.defaultValue
from_ports = to_port.connected_ports()
if not from_ports:
return copy.deepcopy(self.defaultValue)
for from_port in from_ports:
data = from_port.node().getData(from_port)
return copy.deepcopy(data)
def when_disabled(self):
num = len(self.input_ports())
for index, out_port in enumerate(self.output_ports()):
self.set_property(out_port.name(), self.getInputData(index % num))
def cook(self, forceCook=False):
if not self._autoCook and forceCook is not True:
return
if not self.needCook:
return
_tmp = self._autoCook
self._autoCook = False
if self.error():
self._close_error()
_start_time = time.time()
try:
self.run()
except Exception as error:
self.error(error)
self._autoCook = _tmp
if self.error():
return
self.cookTime = time.time() - _start_time
self.cooked.emit()
self.cookNextNode()
def run(self):
pass
def on_input_connected(self, to_port, from_port):
if self.checkPortType(to_port, from_port):
self.cook()
else:
self.needCook = False
to_port.disconnect_from(from_port)
def on_input_disconnected(self, to_port, from_port):
if not self.needCook:
self.needCook = True
return
self.cook()
def checkPortType(self, to_port, from_port):
# None type port can connect with any other type port
# types in self.matchTypes can connect with each other
if hasattr(to_port, "DataType") and hasattr(from_port, "DataType"):
if to_port.DataType is not from_port.DataType:
for types in self.matchTypes:
if to_port.DataType in types and from_port.DataType in types:
return True
return False
return True
def set_property(self, name, value):
super(AutoNode, self).set_property(name, value)
self.set_port_type(name, type(value))
if name in self.model.custom_properties.keys():
self.cook()
def set_port_type(self, port, value_type):
current_port = None
if type(port) is Port:
current_port = port
elif type(port) is str:
inputs = self.inputs()
outputs = self.outputs()
if port in inputs.keys():
current_port = inputs[port]
elif port in outputs.keys():
current_port = outputs[port]
if current_port:
if hasattr(current_port, "DataType"):
if current_port.DataType is value_type:
return
else:
current_port.DataType = value_type
current_port.border_color = self._cryptoColors.get(str(value_type))
current_port.color = self._cryptoColors.get(str(value_type))
conn_type = 'multi' if current_port.multi_connection(
) else 'single'
data_type_name = value_type.__name__ if value_type else "all"
current_port.view.setToolTip('{}: {} ({}) '.format(
current_port.name(), data_type_name, conn_type))
def create_property(self,
name,
value,
items=None,
range=None,
widget_type=NODE_PROP,
tab=None,
ext=None,
funcs=None):
super(AutoNode, self).create_property(name, value, items, range,
widget_type, tab, ext, funcs)
if value is not None:
self.set_port_type(name, type(value))
def add_input(self,
name='input',
data_type=None,
multi_input=False,
display_name=True,
color=None):
new_port = super(AutoNode, self).add_input(name, multi_input,
display_name, color)
if data_type:
self.set_port_type(new_port, data_type)
elif self.defaultInputType:
self.set_port_type(new_port, self.defaultInputType)
return new_port
def add_output(self,
name='output',
data_type=None,
multi_output=True,
display_name=True,
color=None):
new_port = super(AutoNode, self).add_output(name, multi_output,
display_name, color)
if data_type:
self.set_port_type(new_port, data_type)
elif self.defaultOutputType:
self.set_port_type(new_port, self.defaultOutputType)
return new_port
def set_disabled(self, mode=False):
super(AutoNode, self).set_disabled(mode)
self._autoCook = not mode
if mode is True:
self.when_disabled()
self.cookNextNode()
else:
self.cook()
def _close_error(self):
self._error = False
self.set_property('color', self.defaultColor)
self._update_tool_tip()
def _show_error(self, message):
if not self._error:
self.defaultColor = self.get_property("color")
self._error = True
self.set_property('color', self.errorColor)
tooltip = '<font color="red"><br>({})</br></font>'.format(message)
self._update_tool_tip(tooltip)
def _update_tool_tip(self, message=None):
if message is None:
tooltip = self._toolTip.format(self._cookTime)
else:
tooltip = '<b>{}</b>'.format(self.name())
tooltip += message
tooltip += '<br/>{}<br/>'.format(self._view.type_)
self.view.setToolTip(tooltip)
return tooltip
def _setup_tool_tip(self):
tooltip = '<br> last cook used: {}s</br>'
return self._update_tool_tip(tooltip)
def error(self, message=None):
if message is None:
return self._error
self._show_error(message)
def update_model(self):
if self.error():
self.set_property('color', self.defaultColor)
super(AutoNode, self).update_model()
class NodeGraph(QtCore.QObject):
"""
The ``NodeGraph`` class is the main controller for managing all nodes.
Inherited from: :class:`PySide2.QtCore.QObject`
.. image:: _images/graph.png
:width: 60%
"""
node_created = QtCore.Signal(NodeObject)
"""
Signal triggered when a node is created in the node graph.
:parameters: :class:`NodeGraphQt.NodeObject`
:emits: created node
"""
nodes_deleted = QtCore.Signal(list)
"""
Signal triggered when nodes have been deleted from the node graph.
:parameters: list[str]
:emits: list of deleted node ids.
"""
node_selected = QtCore.Signal(NodeObject)
"""
Signal triggered when a node is clicked with the LMB.
:parameters: :class:`NodeGraphQt.NodeObject`
:emits: selected node
"""
node_double_clicked = QtCore.Signal(NodeObject)
"""
Signal triggered when a node is double clicked and emits the node.
:parameters: :class:`NodeGraphQt.NodeObject`
:emits: selected node
"""
port_connected = QtCore.Signal(Port, Port)
"""
Signal triggered when a node port has been connected.
:parameters: :class:`NodeGraphQt.Port`, :class:`NodeGraphQt.Port`
:emits: input port, output port
"""
port_disconnected = QtCore.Signal(Port, Port)
"""
Signal triggered when a node port has been disconnected.
:parameters: :class:`NodeGraphQt.Port`, :class:`NodeGraphQt.Port`
:emits: input port, output port
"""
property_changed = QtCore.Signal(NodeObject, str, object)
"""
Signal is triggered when a property has changed on a node.
:parameters: :class:`NodeGraphQt.BaseNode`, str, object
:emits: triggered node, property name, property value
"""
data_dropped = QtCore.Signal(QtCore.QMimeData, QtCore.QPoint)
"""
Signal is triggered when data has been dropped to the graph.
:parameters: :class:`PySide2.QtCore.QMimeData`, :class:`PySide2.QtCore.QPoint`
:emits: mime data, node graph position
"""
session_changed = QtCore.Signal(str)
"""
Signal is triggered when session has been changed.
:parameters: :str
:emits: new session path
"""
def __init__(self, parent=None):
super(NodeGraph, self).__init__(parent)
self.setObjectName('NodeGraphQt')
self._widget = None
self._model = NodeGraphModel()
self._viewer = NodeViewer()
self._node_factory = NodeFactory()
self._undo_stack = QtWidgets.QUndoStack(self)
tab = QtWidgets.QShortcut(QtGui.QKeySequence(QtCore.Qt.Key_Tab), self._viewer)
tab.activated.connect(self._toggle_tab_search)
self._viewer.need_show_tab_search.connect(self._toggle_tab_search)
self._wire_signals()
self.widget.setAcceptDrops(True)
def __repr__(self):
return '<{} object at {}>'.format(self.__class__.__name__, hex(id(self)))
def _wire_signals(self):
# internal signals.
self._viewer.search_triggered.connect(self._on_search_triggered)
self._viewer.connection_sliced.connect(self._on_connection_sliced)
self._viewer.connection_changed.connect(self._on_connection_changed)
self._viewer.moved_nodes.connect(self._on_nodes_moved)
self._viewer.node_double_clicked.connect(self._on_node_double_clicked)
self._viewer.insert_node.connect(self._insert_node)
# pass through signals.
self._viewer.node_selected.connect(self._on_node_selected)
self._viewer.data_dropped.connect(self._on_node_data_dropped)
def _insert_node(self, pipe, node_id, prev_node_pos):
"""
Slot function triggered when a selected node has collided with a pipe.
Args:
pipe (Pipe): collided pipe item.
node_id (str): selected node id to insert.
prev_node_pos (dict): previous node position. {NodeItem: [prev_x, prev_y]}
"""
node = self.get_node_by_id(node_id)
# exclude the BackdropNode
if not isinstance(node, BaseNode):
return
disconnected = [(pipe.input_port, pipe.output_port)]
connected = []
if node.inputs():
connected.append(
(pipe.output_port, list(node.inputs().values())[0].view)
)
if node.outputs():
connected.append(
(list(node.outputs().values())[0].view, pipe.input_port)
)
self._undo_stack.beginMacro('inserted node')
self._on_connection_changed(disconnected, connected)
self._on_nodes_moved(prev_node_pos)
self._undo_stack.endMacro()
def _toggle_tab_search(self):
"""
toggle the tab search widget.
"""
if self._viewer.underMouse():
self._viewer.tab_search_set_nodes(self._node_factory.names)
self._viewer.tab_search_toggle()
def _on_property_bin_changed(self, node_id, prop_name, prop_value):
"""
called when a property widget has changed in a properties bin.
(emits the node object, property name, property value)
Args:
node_id (str): node id.
prop_name (str): node property name.
prop_value (object): python object.
"""
node = self.get_node_by_id(node_id)
# prevent signals from causing a infinite loop.
_exc = [float, int , str, bool, None]
if node.get_property(prop_name) != prop_value:
if type(node.get_property(prop_name)) in _exc:
value = prop_value
else:
value = copy.deepcopy(prop_value)
node.set_property(prop_name, value)
def _on_node_double_clicked(self, node_id):
"""
called when a node in the viewer is double click.
(emits the node object when the node is clicked)
Args:
node_id (str): node id emitted by the viewer.
"""
node = self.get_node_by_id(node_id)
self.node_double_clicked.emit(node)
def _on_node_selected(self, node_id):
"""
called when a node in the viewer is selected on left click.
(emits the node object when the node is clicked)
Args:
node_id (str): node id emitted by the viewer.
"""
node = self.get_node_by_id(node_id)
self.node_selected.emit(node)
def _on_node_data_dropped(self, data, pos):
"""
called when data has been dropped on the viewer.
Args:
data (QtCore.QMimeData): mime data.
pos (QtCore.QPoint): scene position relative to the drop.
"""
# don't emit signal for internal widget drops.
if data.hasFormat('text/plain'):
if data.text().startswith('<${}>:'.format(DRAG_DROP_ID)):
node_ids = data.text()[len('<${}>:'.format(DRAG_DROP_ID)):]
x, y = pos.x(), pos.y()
for node_id in node_ids.split(','):
self.create_node(node_id, pos=[x, y])
x += 20
y += 20
return
self.data_dropped.emit(data, pos)
def _on_nodes_moved(self, node_data):
"""
called when selected nodes in the viewer has changed position.
Args:
node_data (dict): {<node_view>: <previous_pos>}
"""
self._undo_stack.beginMacro('move nodes')
for node_view, prev_pos in node_data.items():
node = self._model.nodes[node_view.id]
self._undo_stack.push(NodeMovedCmd(node, node.pos(), prev_pos))
self._undo_stack.endMacro()
def _on_search_triggered(self, node_type, pos):
"""
called when the tab search widget is triggered in the viewer.
Args:
node_type (str): node identifier.
pos (tuple): x,y position for the node.
"""
self.create_node(node_type, pos=pos)
def _on_connection_changed(self, disconnected, connected):
"""
called when a pipe connection has been changed in the viewer.
Args:
disconnected (list[list[widgets.port.PortItem]):
pair list of port view items.
connected (list[list[widgets.port.PortItem]]):
pair list of port view items.
"""
if not (disconnected or connected):
return
label = 'connect node(s)' if connected else 'disconnect node(s)'
ptypes = {IN_PORT: 'inputs', OUT_PORT: 'outputs'}
self._undo_stack.beginMacro(label)
for p1_view, p2_view in disconnected:
node1 = self._model.nodes[p1_view.node.id]
node2 = self._model.nodes[p2_view.node.id]
port1 = getattr(node1, ptypes[p1_view.port_type])()[p1_view.name]
port2 = getattr(node2, ptypes[p2_view.port_type])()[p2_view.name]
port1.disconnect_from(port2)
for p1_view, p2_view in connected:
node1 = self._model.nodes[p1_view.node.id]
node2 = self._model.nodes[p2_view.node.id]
port1 = getattr(node1, ptypes[p1_view.port_type])()[p1_view.name]
port2 = getattr(node2, ptypes[p2_view.port_type])()[p2_view.name]
port1.connect_to(port2)
self._undo_stack.endMacro()
def _on_connection_sliced(self, ports):
"""
slot when connection pipes have been sliced.
Args:
ports (list[list[widgets.port.PortItem]]):
pair list of port connections (in port, out port)
"""
if not ports:
return
ptypes = {IN_PORT: 'inputs', OUT_PORT: 'outputs'}
self._undo_stack.beginMacro('slice connections')
for p1_view, p2_view in ports:
node1 = self._model.nodes[p1_view.node.id]
node2 = self._model.nodes[p2_view.node.id]
port1 = getattr(node1, ptypes[p1_view.port_type])()[p1_view.name]
port2 = getattr(node2, ptypes[p2_view.port_type])()[p2_view.name]
port1.disconnect_from(port2)
self._undo_stack.endMacro()
@property
def model(self):
"""
The model used for storing the node graph data.
Returns:
NodeGraphQt.base.model.NodeGraphModel: node graph model.
"""
return self._model
@property
def widget(self):
"""
The node graph widget for adding into a layout.
Returns:
PySide2.QtWidgets.QWidget: node graph widget.
"""
if self._widget is None:
self._widget = QWidgetDrops()
self._widget.import_session = self.import_session
layout = QtWidgets.QVBoxLayout(self._widget)
layout.setContentsMargins(0, 0, 0, 0)
layout.addWidget(self._viewer)
return self._widget
