import jupyter_rfb import numpy as np from .. import functions as fn from .. import graphicsItems, widgets from ..Qt import QtCore, QtGui __all__ = ['GraphicsLayoutWidget', 'PlotWidget'] KMLUT = { x : getattr(QtCore.Qt.KeyboardModifier, x + "Modifier") for x in ["Shift", "Control", "Alt", "Meta"] } MBLUT = { k : getattr(QtCore.Qt.MouseButton, v + "Button") for (k, v) in zip( range(6), ["No", "Left", "Right", "Middle", "Back", "Forward"] ) } TYPLUT = { "pointer_down" : QtCore.QEvent.Type.MouseButtonPress, "pointer_up" : QtCore.QEvent.Type.MouseButtonRelease, "pointer_move" : QtCore.QEvent.Type.MouseMove, } def get_buttons(evt_buttons): NoButton = QtCore.Qt.MouseButton.NoButton btns = NoButton for x in evt_buttons: btns |= MBLUT.get(x, NoButton) return btns def get_modifiers(evt_modifiers): NoModifier = QtCore.Qt.KeyboardModifier.NoModifier mods = NoModifier for x in evt_modifiers: mods |= KMLUT.get(x, NoModifier) return mods class GraphicsView(jupyter_rfb.RemoteFrameBuffer): """jupyter_rfb.RemoteFrameBuffer sub-class that wraps around :class:`GraphicsView `. Generally speaking, there is no Qt event loop running. The implementation works by requesting a render() of the scene. Thus things that would work for exporting purposes would be expected to work here. Things that are not part of the scene would not work, e.g. context menus, tooltips. This class should not be used directly. Its corresponding sub-classes :class:`GraphicsLayoutWidget ` and :class:`PlotWidget ` should be used instead.""" def __init__(self, **kwds): super().__init__(**kwds) self.gfxView = widgets.GraphicsView.GraphicsView() self.logical_size = int(self.css_width[:-2]), int(self.css_height[:-2]) self.pixel_ratio = 1.0 # self.gfxView.resize(*self.logical_size) # self.gfxView.show() # self.gfxView.resizeEvent(None) def get_frame(self): w, h = self.logical_size dpr = self.pixel_ratio buf = np.empty((int(h * dpr), int(w * dpr), 4), dtype=np.uint8) qimg = fn.ndarray_to_qimage(buf, QtGui.QImage.Format.Format_RGBX8888) qimg.fill(QtCore.Qt.GlobalColor.transparent) qimg.setDevicePixelRatio(dpr) painter = QtGui.QPainter(qimg) self.gfxView.render(painter, self.gfxView.viewRect(), self.gfxView.rect()) painter.end() return buf def handle_event(self, event): event_type = event["event_type"] if event_type == "resize": oldSize = QtCore.QSize(*self.logical_size) self.logical_size = int(event["width"]), int(event["height"]) self.pixel_ratio = event["pixel_ratio"] self.gfxView.resize(*self.logical_size) newSize = QtCore.QSize(*self.logical_size) self.gfxView.resizeEvent(QtGui.QResizeEvent(newSize, oldSize)) elif event_type in ["pointer_down", "pointer_up", "pointer_move"]: btn = MBLUT.get(event["button"], None) if btn is None: # ignore unsupported buttons return pos = QtCore.QPointF(event["x"], event["y"]) btns = get_buttons(event["buttons"]) mods = get_modifiers(event["modifiers"]) typ = TYPLUT[event_type] evt = QtGui.QMouseEvent(typ, pos, pos, btn, btns, mods) QtCore.QCoreApplication.sendEvent(self.gfxView.viewport(), evt) self.request_draw() elif event_type == "wheel": pos = QtCore.QPointF(event["x"], event["y"]) pixdel = QtCore.QPoint() scale = -1.0 # map JavaScript wheel to Qt wheel angdel = QtCore.QPoint(int(event["dx"] * scale), int(event["dy"] * scale)) btns = get_buttons([]) mods = get_modifiers(event["modifiers"]) phase = QtCore.Qt.ScrollPhase.NoScrollPhase inverted = False evt = QtGui.QWheelEvent(pos, pos, pixdel, angdel, btns, mods, phase, inverted) QtCore.QCoreApplication.sendEvent(self.gfxView.viewport(), evt) def connect_viewbox_redraw(vb, request_draw): # connecting these signals is enough to support zoom/pan # but not enough to support the various graphicsItems # that react to mouse events vb.sigRangeChanged.connect(request_draw) # zoom / pan vb.sigRangeChangedManually.connect(request_draw) # needed for "auto" button vb.sigStateChanged.connect(request_draw) # note that all cases of sig{X,Y}RangeChanged being emitted # are also followed by sigRangeChanged or sigStateChanged vb.sigTransformChanged.connect(request_draw) class GraphicsLayoutWidget(GraphicsView): """jupyter_rfb analogue of :class:`GraphicsLayoutWidget `.""" def __init__(self, **kwds): super().__init__(**kwds) self.gfxLayout = graphicsItems.GraphicsLayout.GraphicsLayout() for n in [ 'nextRow', 'nextCol', 'nextColumn', 'addItem', 'getItem', 'addLayout', 'addLabel', 'removeItem', 'itemIndex', 'clear' ]: setattr(self, n, getattr(self.gfxLayout, n)) self.gfxView.setCentralItem(self.gfxLayout) def addPlot(self, *args, **kwds): kwds["enableMenu"] = False plotItem = self.gfxLayout.addPlot(*args, **kwds) connect_viewbox_redraw(plotItem.getViewBox(), self.request_draw) return plotItem def addViewBox(self, *args, **kwds): kwds["enableMenu"] = False vb = self.gfxLayout.addViewBox(*args, **kwds) connect_viewbox_redraw(vb, self.request_draw) return vb class PlotWidget(GraphicsView): """jupyter_rfb analogue of :class:`PlotWidget `.""" def __init__(self, **kwds): super().__init__(**kwds) plotItem = graphicsItems.PlotItem.PlotItem(enableMenu=False) self.gfxView.setCentralItem(plotItem) connect_viewbox_redraw(plotItem.getViewBox(), self.request_draw) self.plotItem = plotItem def getPlotItem(self): return self.plotItem def __getattr__(self, attr): # kernel crashes if we don't skip attributes starting with '_' if attr.startswith('_'): return super().__getattr__(attr) # implicitly wrap methods from plotItem if hasattr(self.plotItem, attr): m = getattr(self.plotItem, attr) if hasattr(m, '__call__'): return m raise AttributeError(attr)