def setupPropertiesBin(self):
self.propertiesBin = PropertiesBinWidget(node_graph=self.graph)
self.propertiesBin.setWindowFlags(QtCore.Qt.Tool)
# Show node properties on node-double-click:
def showPropertyBin(node):
if not self.propertiesBin.isVisible():
self.propertiesBin.show()
self.graph.node_double_clicked.connect(showPropertyBin)
if __name__ == '__main__':
app = QtWidgets.QApplication(sys.argv)
# create node graph.
graph = NodeGraph()
# set up default menu and commands.
setup_context_menu(graph)
# viewer widget used for the node graph.
viewer = graph.viewer()
viewer.resize(1100, 800)
viewer.show()
# show the properties bin when a node is "double clicked" in the graph.
properties_bin = PropertiesBinWidget(node_graph=graph)
properties_bin.setWindowFlags(QtCore.Qt.Tool)
def show_prop_bin(node):
if not properties_bin.isVisible():
properties_bin.show()
graph.node_double_clicked.connect(show_prop_bin)
# show the nodes list when a node is "double clicked" in the graph.
node_tree = NodeTreeWidget(node_graph=graph)
def show_nodes_list(node):
if not node_tree.isVisible():
node_tree.update()
node_tree.show()
def setup_exp(self):
"""Prepares the patch expander once a patch has been selected.
Currently triggered via a button press.
"""
class MyNode(BaseNode):
"""
example test node.
"""
# set a unique node identifier.
__identifier__ = 'com.chantasticvfx'
# set the initial default node name.
NODE_NAME = 'my node'
def __init__(self):
super(MyNode, self).__init__()
self.set_color(25, 58, 51)
# QtCore.QCoreApplication.setAttribute(QtCore.Qt.AA_EnableHighDpiScaling)
# win = QtWidgets.QApplication([])
win = QWidget()
win.setWindowTitle(
"Interactive Patch Routing: {}".format(self.curr_viz["name"])
)
win.setWindowIcon(QIcon(
os.path.join(os.getcwd(), "zoia_lib", "UI", "resources",
"logo.ico")))
win.setFixedSize(540, 540)
# create node graph.
graph = NodeGraph()
# set up default menu and commands.
setup_context_menu(graph)
# widget used for the node graph.
graph_widget = graph.widget
graph_widget.resize(1100, 800)
graph_widget.show()
# show the properties bin when a node is "double clicked" in the graph.
properties_bin = PropertiesBinWidget(node_graph=graph)
properties_bin.setWindowFlags(QtCore.Qt.Tool)
def show_prop_bin(node):
if not properties_bin.isVisible():
properties_bin.show()
graph.node_double_clicked.connect(show_prop_bin)
# show the nodes list when a node is "double clicked" in the graph.
node_tree = NodeTreeWidget(node_graph=graph)
def show_nodes_list(node):
if not node_tree.isVisible():
node_tree.update()
node_tree.show()
graph.node_double_clicked.connect(show_nodes_list)
# registered nodes.
nodes_to_reg = [
# BackdropNode,
MyNode,
# basic_nodes.FooNode,
# basic_nodes.BarNode,
# widget_nodes.DropdownMenuNode,
# widget_nodes.TextInputNode,
# widget_nodes.CheckboxNode
]
graph.register_nodes(nodes_to_reg)
pch = self.curr_viz
nodes = {}
for module in pch['modules']:
my_node = graph.create_node(
'com.chantasticvfx.MyNode',
name=(module['type'] if module['name'] == '' else module['name']) + str(module["number"]),
color='#0a1e20',
text_color='#feab20'
)
inp, outp, in_pos, out_pos = [], [], [], []
for key, param in module['blocks'].items():
if 'in' in key:
my_node.add_input(key)
inp.append(key)
in_pos.append(int(param["position"]))
elif param["isParam"]:
my_node.add_input(key)
inp.append(key)
in_pos.append(int(param["position"]))
elif 'out' in key:
my_node.add_output(key)
outp.append(key)
out_pos.append(int(param["position"]))
nodes[module["number"]] = my_node, inp, outp, in_pos, out_pos
# print(nodes)
# map pos from nodes to connections
def node_pos_map(node):
inpts = node[1]
outps = node[2]
in_pos = node[3]
out_pos = node[4]
node_pos_start = [x for x in range(0, len(inpts))]
node_pos_end = [x for x in range(0, len(outps))]
data_input = dict(zip(in_pos, node_pos_start))
data_output = dict(zip(out_pos, node_pos_end))
return {**data_input, **data_output}
data = []
for key, node in nodes.items():
data.append(node_pos_map(node))
for conn in pch['connections']:
mod, block = conn['source'].split('.')
nmod, nblock = conn['destination'].split('.')
src = data[int(mod)]
dest = data[int(nmod)]
try:
nodes[int(mod)][0].set_output(
src[int(block)],
nodes[int(nmod)][0].input(dest[int(nblock)])
)
except KeyError as e:
print(conn, e)
except IndexError as e:
print(conn, e)
print('done making connections')
# auto layout nodes.
graph.auto_layout_nodes()
# wrap a backdrop node.
# backdrop_node = graph.create_node('nodeGraphQt.nodes.BackdropNode')
# backdrop_node.wrap_nodes([text_node, checkbox_node])
graph.fit_to_selection()
win.exec_()
class VisualScriptingViewer(QtCore.QObject):
def __init__(self, visualScripting: VisualScripting, parentWindow=None):
super().__init__()
self.graph = NodeGraph()
self.graphViewer = self.graph.viewer()
self.graphManager = visualScripting.graphManager
self.initNodes()
self.setupPropertiesBin()
self.window = asset_manager.loadUI("graphQt.ui")
self.splitter = QtWidgets.QSplitter()
self.window.bottomLayout.addWidget(self.splitter)
self.splitter.addWidget(self.nodeTree)
self.splitter.addWidget(self.graphViewer)
self.splitter.addWidget(self.propertiesBin)
self.setupMenuBar(self.graph)
self.onSaveEvent = Event()
self.dockWidgets: List[QtWidgets.QDockWidget] = []
self.settingsViewer = SettingsViewer(self.window, visualScripting)
self.setupDockWidget(self.settingsViewer.dockWidget)
def onOpenInVisualStudioCode(self):
QThreadPool.globalInstance().start(
core.LambdaTask(self.openInVisualStudioCode))
def openInVisualStudioCode(self):
session = self.graphManager.curSession
if session != None:
codePath = self.graphManager.getPythonCodePath(
session.graphSettings)
try:
subprocess.Popen(f'code \"{os.path.normpath(codePath)}\"',
shell=True)
except Exception as e:
print(
f"Failed: {e} - Please make sure Visual Studio Code is installed and 'code' is registered as a command."
)
# Modified setup_context_menu from NodeGraphQt.base.actions
def setupMenuBar(self, graph: NodeGraph):
rootMenu = graph.context_menu()
fileMenu = rootMenu.add_menu('&File')
editMenu = rootMenu.add_menu('&Edit')
# create "File" menu.
fileMenu.add_command('Open Graph...',
lambda: actions._open_session(graph),
QtGui.QKeySequence.Open)
fileMenu.add_command('Export Graph As...',
lambda: actions._save_session_as(graph),
'Alt+Shift+s')
fileMenu.add_command('Clear', lambda: actions._clear_session(graph))
fileMenu.add_separator()
fileMenu.add_command('Zoom In', lambda: actions._zoom_in(graph), '=')
fileMenu.add_command('Zoom Out', lambda: actions._zoom_out(graph), '-')
fileMenu.add_command('Reset Zoom', graph.reset_zoom, 'h')
# create "Edit" menu.
undo_actn = graph.undo_stack().createUndoAction(
graph.viewer(), '&Undo')
if LooseVersion(QtCore.qVersion()) >= LooseVersion('5.10'):
undo_actn.setShortcutVisibleInContextMenu(True)
undo_actn.setShortcuts(QtGui.QKeySequence.Undo)
editMenu.qmenu.addAction(undo_actn)
redo_actn = graph.undo_stack().createRedoAction(
graph.viewer(), '&Redo')
if LooseVersion(QtCore.qVersion()) >= LooseVersion('5.10'):
redo_actn.setShortcutVisibleInContextMenu(True)
redo_actn.setShortcuts(QtGui.QKeySequence.Redo)
editMenu.qmenu.addAction(redo_actn)
editMenu.add_separator()
editMenu.add_command('Clear Undo History',
lambda: actions._clear_undo(graph))
editMenu.add_separator()
editMenu.add_command('Copy', graph.copy_nodes, QtGui.QKeySequence.Copy)
editMenu.add_command('Paste', graph.paste_nodes,
QtGui.QKeySequence.Paste)
editMenu.add_command(
'Delete', lambda: graph.delete_nodes(graph.selected_nodes()),
QtGui.QKeySequence.Delete)
editMenu.add_separator()
editMenu.add_command('Select all', graph.select_all, 'Ctrl+A')
editMenu.add_command('Deselect all', graph.clear_selection,
'Ctrl+Shift+A')
editMenu.add_command(
'Enable/Disable',
lambda: graph.disable_nodes(graph.selected_nodes()), 'd')
editMenu.add_command(
'Duplicate', lambda: graph.duplicate_nodes(graph.selected_nodes()),
'Alt+c')
editMenu.add_command('Center Selection', graph.fit_to_selection, 'f')
editMenu.add_separator()
menuBar = QtWidgets.QMenuBar()
sessionMenu = QtWidgets.QMenu("Session")
menuBar.addMenu(fileMenu.qmenu)
menuBar.addMenu(editMenu.qmenu)
menuBar.addMenu(sessionMenu)
self.saveAction = QtWidgets.QAction("Save")
self.saveAction.setShortcut(QtGui.QKeySequence.Save)
self.saveAction.triggered.connect(self.onSave)
self.saveAsAction = QtWidgets.QAction("Save As...")
self.saveAsAction.setShortcut("Ctrl+Shift+S")
self.saveAsAction.triggered.connect(self.onSaveAs)
self.loadAction = QtWidgets.QAction("Load")
self.loadAction.triggered.connect(self.onLoad)
self.runAction = QtWidgets.QAction("Run")
self.runAction.triggered.connect(self.onRun)
self.runAction.setShortcut(QtGui.QKeySequence("R"))
self.openInCode = QtWidgets.QAction("Show Code In Visual Studio Code")
self.openInCode.triggered.connect(self.onOpenInVisualStudioCode)
self.openInCode.setShortcut(QtGui.QKeySequence("Q"))
sessionMenu.addAction(self.saveAction)
sessionMenu.addAction(self.saveAsAction)
sessionMenu.addAction(self.loadAction)
sessionMenu.addAction(self.runAction)
sessionMenu.addAction(self.openInCode)
self.sessionMenu = sessionMenu
self.viewMenu = QtWidgets.QMenu("View")
menuBar.addMenu(self.viewMenu)
self.window.verticalLayout.insertWidget(0, menuBar)
def onRun(self):
if self.graphManager.curSession != None:
self.graphManager.executeGraph()
else:
QMessageBox.critical(None, "Unsaved state",
"Please save the graph first.")
def setupCategoryComboBox(self, comboBox):
categories = self.graphManager.graphCategoryToNamesMap.keys()
for category in categories:
comboBox.addItem(category)
def setupFolderComboBox(self, comboBox):
for folder in self.graphManager.serializationFolders:
comboBox.addItem(folder)
def loadDialog(self, relUIPath) -> QDialog:
dialog = asset_manager.loadUI(relUIPath)
dialog.setWindowFlags(Qt.Dialog | Qt.MSWindowsFixedSizeDialogHint)
return dialog
def saveAs(self):
currentGraphName = self.graphManager.getSessionGraphName()
currentStartNodeName = self.graphManager.getSessionStartNodeName()
currentCategory = self.graphManager.getSessionCategory()
currentFolder = self.graphManager.getSessionGraphFolder()
dialog = self.loadDialog("saveGraphDialog.ui")
dialog.graphNameLineEdit.setText(currentGraphName)
self.setupCategoryComboBox(dialog.categoryComboBox)
self.setupFolderComboBox(dialog.folderComboBox)
dialog.categoryComboBox.setCurrentText(currentCategory)
dialog.folderComboBox.setCurrentText(currentFolder)
scriptingNodes = [
n for n in self.graph.all_nodes() if n.isScriptingNode
]
allGraphNodeNames = [
n.name() for n in scriptingNodes if n.isViableStartNode
]
for n in allGraphNodeNames:
dialog.startNodeComboBox.addItem(n)
if currentStartNodeName in allGraphNodeNames:
dialog.startNodeComboBox.setCurrentText(currentStartNodeName)
ok = dialog.exec_()
graphName = dialog.graphNameLineEdit.text()
graphCategory = dialog.categoryComboBox.currentText()
if ok and graphName and len(graphName) > 0:
startNodeName = dialog.startNodeComboBox.currentText()
graphFolder = dialog.folderComboBox.currentText()
writeGraph = True
if self.graphManager.doesGraphExist(graphName, graphCategory):
ret = QMessageBox.question(
None, "Name already exists.",
"Are you sure you want to overwrite the existing graph with the same name?"
)
writeGraph = ret == QMessageBox.Yes
if writeGraph:
self.graphManager.saveGraph(self.graph,
graphFolder,
graphName,
graphCategory,
startNodeName=startNodeName)
self.onSaveEvent()
def onSave(self):
if self.graphManager.curSession != None:
self.graphManager.saveCurrentSession()
self.onSaveEvent()
return
self.saveAs()
def onSaveAs(self):
self.saveAs()
def fillListView(self, listView, category):
items = self.graphManager.graphCategoryToNamesMap.get(category)
if items == None:
return
model = QStandardItemModel()
listView.setModel(model)
for item in items:
sItem = QStandardItem(item)
model.appendRow(sItem)
def onLoad(self):
dialog = self.loadDialog("loadGraphDialog.ui")
self.setupCategoryComboBox(dialog.categoryComboBox)
self.fillListView(dialog.graphListView,
dialog.categoryComboBox.currentText())
dialog.categoryComboBox.currentIndexChanged.connect(
lambda: self.fillListView(dialog.graphListView,
dialog.categoryComboBox.currentText()))
ok = dialog.exec_()
if ok:
selectionModel = dialog.graphListView.selectionModel()
selectedRows = selectionModel.selectedRows()
if len(selectedRows) > 0:
listItem = dialog.graphListView.model().item(
selectedRows[0].row())
graphName = listItem.text()
category = dialog.categoryComboBox.currentText()
self.graphManager.loadGraph(self.graph, graphName, category)
def setupPropertiesBin(self):
self.propertiesBin = PropertiesBinWidget(node_graph=self.graph)
self.propertiesBin.setWindowFlags(QtCore.Qt.Tool)
# Show node properties on node-double-click:
def showPropertyBin(node):
if not self.propertiesBin.isVisible():
self.propertiesBin.show()
self.graph.node_double_clicked.connect(showPropertyBin)
def initNodes(self):
for n in node_exec.nodes_cfg.NODE_CLASSES_TO_REGISTER:
try:
self.graph.register_node(n)
except:
pass
self.graph.register_node(BackdropNode)
self.nodeTree = NodeTreeWidget(node_graph=self.graph)
self.nodeTree.update()
node_exec.nodes_cfg.NODE_CLASS_ADDED_EVENT.subscribe(
self.tryRegisterNode)
def updateNodeRegistration(self):
for n in node_exec.nodes_cfg.NODE_CLASSES_TO_REGISTER:
self.tryRegisterNode(n)
def tryRegisterNode(self, n):
try:
self.graph.register_node(n)
except:
pass
def getAsDockWidget(self, parent):
self.dockWidget = QtWidgets.QDockWidget("Visual Scripting", parent)
self.dockWidget.setWidget(self.window)
self.dockWidget.setObjectName("visualScriptingDockWidget")
return self.dockWidget
def getSettingsAsDockWidget(self):
return self.settingsViewer.dockWidget
def saveWindowState(self, settings):
settings.setValue("visual_scripting_splitter_sizes",
self.splitter.saveState())
def restoreWindowState(self, settings):
self.splitter.restoreState(
settings.value("visual_scripting_splitter_sizes"))
def setupDockWidget(self, dockWidget: QtWidgets.QDockWidget):
self.dockWidgets.append(dockWidget)
# Add visibility checkbox to view main menu:
self.viewMenu.addAction(dockWidget.toggleViewAction())
# Allow window functionality (e.g. maximize)
dockWidget.topLevelChanged.connect(self.dockWidgetTopLevelChanged)
self.setDockWidgetFlags(dockWidget)
dockWidget.toggleViewAction()
def dockWidgetTopLevelChanged(self, changed):
self.setDockWidgetFlags(self.sender())
def setDockWidgetFlags(self, dockWidget):
if dockWidget.isFloating():
dockWidget.setWindowFlags(QtCore.Qt.CustomizeWindowHint
| QtCore.Qt.Window
| QtCore.Qt.WindowMinimizeButtonHint
| QtCore.Qt.WindowMaximizeButtonHint
| QtCore.Qt.WindowCloseButtonHint)
dockWidget.show()
def __init__(self, parent=None):
super(MyGraphWindow, self).__init__(parent)
mainwidget = QWidget(self)
self.setWindowTitle("MyGraph 1.0Alpha")
# Build menu
self.menubar = QMenuBar(self)
file_menu = QMenu("&File")
open_action = QAction("&Open",
self,
shortcut="Ctrl+O",
triggered=self.open_session)
file_menu.addAction(open_action)
self.menubar.addMenu(file_menu)
self.menubar.addAction('&Edit')
self.view_menu = QMenu('&View')
self.menubar.addMenu(self.view_menu)
self.panel_submenu = QMenu("&Panels")
self.view_menu.addMenu(self.panel_submenu)
self.run_menu = self.menubar.addAction('&Run')
mainLayout = QHBoxLayout()
# main UI
self.graph = NodeGraph()
self.viewer = self.graph.viewer()
mainwidget.setLayout(mainLayout)
mainLayout.addWidget(self.viewer)
self.setCentralWidget(mainwidget)
self.setMenuBar(self.menubar)
# set up default menu and commands.
setup_context_menu(self.graph)
# Add properties bin widget
self.properties_bin = PropertiesBinWidget(node_graph=self.graph)
self.properties_bin.setWindowFlags(Qt.Tool)
side_widget = self.build_right_sidebar()
self.add_dockWidget(name="Properties",
widget=side_widget,
addArea=Qt.RightDockWidgetArea)
# Node tree widget
self.node_tree = NodeTreeWidget(node_graph=self.graph)
self.add_dockWidget(name="Node tree",
widget=self.node_tree,
addArea=Qt.LeftDockWidgetArea)
# Connect to console
sys.stdout = EmittingStream()
sys.stderr = EmittingStream()
sys.stdout.textWritten.connect(
lambda text: self.console.append(text, isError=False))
sys.stderr.textWritten.connect(
lambda text: self.console.append(text, isError=True))
self.console = widgets.Console()
self.add_dockWidget(name="Console",
widget=self.console,
addArea=Qt.RightDockWidgetArea)
self.registryNodes()
self.do_connection()
self.node_tree.update()
class MyGraphWindow(QMainWindow):
def __init__(self, parent=None):
super(MyGraphWindow, self).__init__(parent)
mainwidget = QWidget(self)
self.setWindowTitle("MyGraph 1.0Alpha")
# Build menu
self.menubar = QMenuBar(self)
file_menu = QMenu("&File")
open_action = QAction("&Open",
self,
shortcut="Ctrl+O",
triggered=self.open_session)
file_menu.addAction(open_action)
self.menubar.addMenu(file_menu)
self.menubar.addAction('&Edit')
self.view_menu = QMenu('&View')
self.menubar.addMenu(self.view_menu)
self.panel_submenu = QMenu("&Panels")
self.view_menu.addMenu(self.panel_submenu)
self.run_menu = self.menubar.addAction('&Run')
mainLayout = QHBoxLayout()
# main UI
self.graph = NodeGraph()
self.viewer = self.graph.viewer()
mainwidget.setLayout(mainLayout)
mainLayout.addWidget(self.viewer)
self.setCentralWidget(mainwidget)
self.setMenuBar(self.menubar)
# set up default menu and commands.
setup_context_menu(self.graph)
# Add properties bin widget
self.properties_bin = PropertiesBinWidget(node_graph=self.graph)
self.properties_bin.setWindowFlags(Qt.Tool)
side_widget = self.build_right_sidebar()
self.add_dockWidget(name="Properties",
widget=side_widget,
addArea=Qt.RightDockWidgetArea)
# Node tree widget
self.node_tree = NodeTreeWidget(node_graph=self.graph)
self.add_dockWidget(name="Node tree",
widget=self.node_tree,
addArea=Qt.LeftDockWidgetArea)
# Connect to console
sys.stdout = EmittingStream()
sys.stderr = EmittingStream()
sys.stdout.textWritten.connect(
lambda text: self.console.append(text, isError=False))
sys.stderr.textWritten.connect(
lambda text: self.console.append(text, isError=True))
self.console = widgets.Console()
self.add_dockWidget(name="Console",
widget=self.console,
addArea=Qt.RightDockWidgetArea)
self.registryNodes()
self.do_connection()
self.node_tree.update()
def do_connection(self):
# Connection
def show_prop_bin(node):
if not self.properties_bin.isVisible():
self.properties_bin.show()
def show_nodes_list(node):
if not self.node_tree.isVisible():
self.node_tree.update()
self.node_tree.show()
self.graph.node_double_clicked.connect(show_prop_bin)
self.graph.node_double_clicked.connect(show_nodes_list)
self.run_menu.triggered.connect(self.executeNode)
self.run_button.clicked.connect(self.executeNode)
def add_dockWidget(self, name, widget, allowedAreas=None, addArea=None):
if not allowedAreas:
allowedAreas = Qt.LeftDockWidgetArea | Qt.RightDockWidgetArea
if not addArea:
addArea = Qt.LeftDockWidgetArea
dockWidget = QDockWidget(name, self)
dockWidget.setAllowedAreas(allowedAreas)
dockWidget.setWidget(widget)
self.addDockWidget(addArea, dockWidget)
self.panel_submenu.addAction(dockWidget.toggleViewAction())
def build_right_sidebar(self):
widget = QWidget()
layout = QVBoxLayout()
button_layout = QHBoxLayout()
self.save_button = QPushButton(text='Save')
self.run_button = QPushButton(text='run')
# self.run_button.setMinimumHeight(40)
button_layout.addWidget(self.run_button)
button_layout.addWidget(self.save_button)
button_layout.setStretchFactor(self.run_button, 1)
layout.addLayout(button_layout)
layout.addWidget(self.properties_bin)
layout.setStretchFactor(self.properties_bin, 1)
widget.setLayout(layout)
return widget
def open_session(self):
"""
Prompts a file open dialog to load a session.
Args:
graph (NodeGraphQt.NodeGraph): node graph.
"""
graph = self.graph
current = graph.current_session()
viewer = graph.viewer()
file_path = viewer.load_dialog(current)
if file_path:
graph.load_session(file_path)
def executeNode(self):
'''
Execute selected node
Returns:
'''
_selectedNode = self.graph.selected_nodes() # type: list
if not _selectedNode:
QMessageBox.warning(self, 'Warning', "No selected node.")
return
elif len(_selectedNode) > 1:
QMessageBox.warning(self, 'Warning',
"Cannot execute multiple node.")
return
else:
selected_node = _selectedNode[0]
msgBox = QMessageBox.information(
self, self.tr("Run"),
"You want to run selected node?.\n>> %s" % selected_node.NODE_NAME,
QMessageBox.Yes | QMessageBox.Cancel, QMessageBox.Yes)
if msgBox == QMessageBox.Yes:
command.executeNode(selected_node)
def registryNodes(self):
# Find all node class in given node directory, then registry to graph
try:
for node in os.listdir(nodesDir):
if not node.endswith('.py') or node.startswith('.'):
continue
__modulepath = nodesDir + '/' + node
__modulename = os.path.splitext(node)[0]
try:
# importlib.import_module(__modulename, __modulepath)
imp.load_source(__modulename, __modulepath)
except ImportError as e:
print(traceback.format_exc(e))
raise (e)
for name, obj in inspect.getmembers(sys.modules[__modulename]):
if inspect.isclass(obj):
if issubclass(obj, BaseNode) and obj != BaseNode:
self.graph.register_node(obj)
except Exception as e:
print traceback.format_exc(e)
print(e)
self.graph.register_node(BackdropNode)
