--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/editors/GraphicViewer.py Thu Mar 07 11:47:43 2013 +0900
@@ -0,0 +1,542 @@
+#!/usr/bin/env python
+# -*- coding: utf-8 -*-
+
+#This file is part of PLCOpenEditor, a library implementing an IEC 61131-3 editor
+#based on the plcopen standard.
+#
+#Copyright (C) 2007: Edouard TISSERANT and Laurent BESSARD
+#
+#See COPYING file for copyrights details.
+#
+#This library is free software; you can redistribute it and/or
+#modify it under the terms of the GNU General Public
+#License as published by the Free Software Foundation; either
+#version 2.1 of the License, or (at your option) any later version.
+#
+#This library is distributed in the hope that it will be useful,
+#but WITHOUT ANY WARRANTY; without even the implied warranty of
+#MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+#General Public License for more details.
+#
+#You should have received a copy of the GNU General Public
+#License along with this library; if not, write to the Free Software
+#Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+
+import numpy
+import math
+
+import wx
+import wx.lib.plot as plot
+import wx.lib.buttons
+
+from graphics.GraphicCommons import DebugViewer, MODE_SELECTION, MODE_MOTION
+from EditorPanel import EditorPanel
+from util.BitmapLibrary import GetBitmap
+
+colours = ['blue', 'red', 'green', 'yellow', 'orange', 'purple', 'brown', 'cyan',
+ 'pink', 'grey']
+markers = ['circle', 'dot', 'square', 'triangle', 'triangle_down', 'cross', 'plus', 'circle']
+
+
+#-------------------------------------------------------------------------------
+# Debug Variable Graphic Viewer class
+#-------------------------------------------------------------------------------
+
+SECOND = 1000000000
+MINUTE = 60 * SECOND
+HOUR = 60 * MINUTE
+
+ZOOM_VALUES = map(lambda x:("x %.1f" % x, x), [math.sqrt(2) ** i for i in xrange(8)])
+RANGE_VALUES = map(lambda x: (str(x), x), [25 * 2 ** i for i in xrange(6)])
+TIME_RANGE_VALUES = [("%ds" % i, i * SECOND) for i in (1, 2, 5, 10, 20, 30)] + \
+ [("%dm" % i, i * MINUTE) for i in (1, 2, 5, 10, 20, 30)] + \
+ [("%dh" % i, i * HOUR) for i in (1, 2, 3, 6, 12, 24)]
+
+class GraphicViewer(EditorPanel, DebugViewer):
+
+ def _init_Editor(self, prnt):
+ self.Editor = wx.Panel(prnt)
+
+ main_sizer = wx.FlexGridSizer(cols=1, hgap=0, rows=2, vgap=0)
+ main_sizer.AddGrowableCol(0)
+ main_sizer.AddGrowableRow(0)
+
+ self.Canvas = plot.PlotCanvas(self.Editor, name='Canvas')
+ def _axisInterval(spec, lower, upper):
+ if spec == 'border':
+ if lower == upper:
+ return lower - 0.5, upper + 0.5
+ else:
+ border = (upper - lower) * 0.05
+ return lower - border, upper + border
+ else:
+ return plot.PlotCanvas._axisInterval(self.Canvas, spec, lower, upper)
+ self.Canvas._axisInterval = _axisInterval
+ self.Canvas.SetYSpec('border')
+ self.Canvas.canvas.Bind(wx.EVT_LEFT_DOWN, self.OnCanvasLeftDown)
+ self.Canvas.canvas.Bind(wx.EVT_LEFT_UP, self.OnCanvasLeftUp)
+ self.Canvas.canvas.Bind(wx.EVT_MIDDLE_DOWN, self.OnCanvasMiddleDown)
+ self.Canvas.canvas.Bind(wx.EVT_MIDDLE_UP, self.OnCanvasMiddleUp)
+ self.Canvas.canvas.Bind(wx.EVT_MOTION, self.OnCanvasMotion)
+ self.Canvas.canvas.Bind(wx.EVT_SIZE, self.OnCanvasResize)
+ main_sizer.AddWindow(self.Canvas, 0, border=0, flag=wx.GROW)
+
+ range_sizer = wx.FlexGridSizer(cols=10, hgap=5, rows=1, vgap=0)
+ range_sizer.AddGrowableCol(5)
+ range_sizer.AddGrowableRow(0)
+ main_sizer.AddSizer(range_sizer, 0, border=5, flag=wx.GROW|wx.ALL)
+
+ range_label = wx.StaticText(self.Editor, label=_('Range:'))
+ range_sizer.AddWindow(range_label, 0, border=0, flag=wx.ALIGN_CENTER_VERTICAL)
+
+ self.CanvasRange = wx.ComboBox(self.Editor,
+ size=wx.Size(100, 28), style=wx.CB_READONLY)
+ self.Bind(wx.EVT_COMBOBOX, self.OnRangeChanged, self.CanvasRange)
+ range_sizer.AddWindow(self.CanvasRange, 0, border=0, flag=wx.ALIGN_CENTER_VERTICAL)
+
+ zoom_label = wx.StaticText(self.Editor, label=_('Zoom:'))
+ range_sizer.AddWindow(zoom_label, 0, border=0, flag=wx.ALIGN_CENTER_VERTICAL)
+
+ self.CanvasZoom = wx.ComboBox(self.Editor,
+ size=wx.Size(70, 28), style=wx.CB_READONLY)
+ self.Bind(wx.EVT_COMBOBOX, self.OnZoomChanged, self.CanvasZoom)
+ range_sizer.AddWindow(self.CanvasZoom, 0, border=0, flag=wx.ALIGN_CENTER_VERTICAL)
+
+ position_label = wx.StaticText(self.Editor, label=_('Position:'))
+ range_sizer.AddWindow(position_label, 0, border=0, flag=wx.ALIGN_CENTER_VERTICAL)
+
+ self.CanvasPosition = wx.ScrollBar(self.Editor,
+ size=wx.Size(0, 16), style=wx.SB_HORIZONTAL)
+ self.CanvasPosition.SetScrollbar(0, 10, 100, 10)
+ self.CanvasPosition.Bind(wx.EVT_SCROLL_THUMBTRACK,
+ self.OnPositionChanging, self.CanvasPosition)
+ self.CanvasPosition.Bind(wx.EVT_SCROLL_LINEUP,
+ self.OnPositionChanging, self.CanvasPosition)
+ self.CanvasPosition.Bind(wx.EVT_SCROLL_LINEDOWN,
+ self.OnPositionChanging, self.CanvasPosition)
+ self.CanvasPosition.Bind(wx.EVT_SCROLL_PAGEUP,
+ self.OnPositionChanging, self.CanvasPosition)
+ self.CanvasPosition.Bind(wx.EVT_SCROLL_PAGEDOWN,
+ self.OnPositionChanging, self.CanvasPosition)
+ range_sizer.AddWindow(self.CanvasPosition, 0, border=5, flag=wx.GROW|wx.ALL)
+
+ self.ResetButton = wx.lib.buttons.GenBitmapButton(self.Editor,
+ bitmap=GetBitmap("reset"), size=wx.Size(28, 28), style=wx.NO_BORDER)
+ self.ResetButton.SetToolTipString(_("Clear the graph values"))
+ self.Bind(wx.EVT_BUTTON, self.OnResetButton, self.ResetButton)
+ range_sizer.AddWindow(self.ResetButton, 0, border=0, flag=0)
+
+ self.CurrentButton = wx.lib.buttons.GenBitmapButton(self.Editor,
+ bitmap=GetBitmap("current"), size=wx.Size(28, 28), style=wx.NO_BORDER)
+ self.CurrentButton.SetToolTipString(_("Go to current value"))
+ self.Bind(wx.EVT_BUTTON, self.OnCurrentButton, self.CurrentButton)
+ range_sizer.AddWindow(self.CurrentButton, 0, border=0, flag=0)
+
+ self.ResetZoomOffsetButton = wx.lib.buttons.GenBitmapButton(self.Editor,
+ bitmap=GetBitmap("fit"), size=wx.Size(28, 28), style=wx.NO_BORDER)
+ self.ResetZoomOffsetButton.SetToolTipString(_("Reset zoom and offset"))
+ self.Bind(wx.EVT_BUTTON, self.OnResetZoomOffsetButton,
+ self.ResetZoomOffsetButton)
+ range_sizer.AddWindow(self.ResetZoomOffsetButton, 0, border=0, flag=0)
+
+ self.ExportGraphButton = wx.lib.buttons.GenBitmapButton(self.Editor,
+ bitmap=GetBitmap("export_graph"), size=wx.Size(28, 28), style=wx.NO_BORDER)
+ self.ExportGraphButton.SetToolTipString(_("Export graph values to clipboard"))
+ self.Bind(wx.EVT_BUTTON, self.OnExportGraphButtonClick,
+ self.ExportGraphButton)
+ range_sizer.AddWindow(self.ExportGraphButton, 0, border=0, flag=0)
+
+ self.Editor.SetSizer(main_sizer)
+
+ self.Editor.Bind(wx.EVT_MOUSEWHEEL, self.OnCanvasMouseWheel)
+
+ def __init__(self, parent, window, producer, instancepath = ""):
+ EditorPanel.__init__(self, parent, "", window, None)
+ DebugViewer.__init__(self, producer, True, False)
+
+ self.InstancePath = instancepath
+ self.RangeValues = None
+ self.CursorIdx = None
+ self.LastCursor = None
+ self.CurrentMousePos = None
+ self.CurrentMotionValue = None
+ self.Dragging = False
+
+ # Initialize Viewer mode to Selection mode
+ self.Mode = MODE_SELECTION
+
+ self.Data = numpy.array([]).reshape(0, 2)
+ self.StartTick = 0
+ self.StartIdx = 0
+ self.EndIdx = 0
+ self.MinValue = None
+ self.MaxValue = None
+ self.YCenter = 0
+ self.CurrentZoom = 1.0
+ self.Fixed = False
+ self.Ticktime = self.DataProducer.GetTicktime()
+ self.RefreshCanvasRange()
+
+ for zoom_txt, zoom in ZOOM_VALUES:
+ self.CanvasZoom.Append(zoom_txt)
+ self.CanvasZoom.SetSelection(0)
+
+ self.AddDataConsumer(self.InstancePath.upper(), self)
+
+ def __del__(self):
+ DebugViewer.__del__(self)
+ self.RemoveDataConsumer(self)
+
+ def GetTitle(self):
+ if len(self.InstancePath) > 15:
+ return "..." + self.InstancePath[-12:]
+ return self.InstancePath
+
+ # Changes Viewer mode
+ def SetMode(self, mode):
+ if self.Mode != mode or mode == MODE_SELECTION:
+ if self.Mode == MODE_MOTION:
+ wx.CallAfter(self.Canvas.canvas.SetCursor, wx.NullCursor)
+ self.Mode = mode
+ if self.Mode == MODE_MOTION:
+ wx.CallAfter(self.Canvas.canvas.SetCursor, wx.StockCursor(wx.CURSOR_HAND))
+
+ def ResetView(self, register=False):
+ self.Data = numpy.array([]).reshape(0, 2)
+ self.StartTick = 0
+ self.StartIdx = 0
+ self.EndIdx = 0
+ self.MinValue = None
+ self.MaxValue = None
+ self.CursorIdx = None
+ self.Fixed = False
+ self.Ticktime = self.DataProducer.GetTicktime()
+ if register:
+ self.AddDataConsumer(self.InstancePath.upper(), self)
+ self.ResetLastCursor()
+ self.RefreshCanvasRange()
+ self.RefreshView()
+
+ def RefreshNewData(self, *args, **kwargs):
+ self.RefreshView(*args, **kwargs)
+ DebugViewer.RefreshNewData(self)
+
+ def GetNearestData(self, tick, adjust):
+ ticks = self.Data[:, 0]
+ new_cursor = numpy.argmin(abs(ticks - tick))
+ if adjust == -1 and ticks[new_cursor] > tick and new_cursor > 0:
+ new_cursor -= 1
+ elif adjust == 1 and ticks[new_cursor] < tick and new_cursor < len(ticks):
+ new_cursor += 1
+ return new_cursor
+
+ def GetBounds(self):
+ if self.StartIdx is None or self.EndIdx is None:
+ self.StartIdx = self.GetNearestData(self.StartTick, -1)
+ self.EndIdx = self.GetNearestData(self.StartTick + self.CurrentRange, 1)
+
+ def ResetBounds(self):
+ self.StartIdx = None
+ self.EndIdx = None
+
+ def RefreshCanvasRange(self):
+ if self.Ticktime == 0 and self.RangeValues != RANGE_VALUES:
+ self.RangeValues = RANGE_VALUES
+ self.CanvasRange.Clear()
+ for text, value in RANGE_VALUES:
+ self.CanvasRange.Append(text)
+ self.CanvasRange.SetStringSelection(RANGE_VALUES[0][0])
+ self.CurrentRange = RANGE_VALUES[0][1]
+ elif self.RangeValues != TIME_RANGE_VALUES:
+ self.RangeValues = TIME_RANGE_VALUES
+ self.CanvasRange.Clear()
+ for text, value in TIME_RANGE_VALUES:
+ self.CanvasRange.Append(text)
+ self.CanvasRange.SetStringSelection(TIME_RANGE_VALUES[0][0])
+ self.CurrentRange = TIME_RANGE_VALUES[0][1] / self.Ticktime
+
+ def RefreshView(self, force=False):
+ self.Freeze()
+ if force or not self.Fixed or (len(self.Data) > 0 and self.StartTick + self.CurrentRange > self.Data[-1, 0]):
+ if (self.MinValue is not None and
+ self.MaxValue is not None and
+ self.MinValue != self.MaxValue):
+ Yrange = float(self.MaxValue - self.MinValue) / self.CurrentZoom
+ else:
+ Yrange = 2. / self.CurrentZoom
+
+ if not force and not self.Fixed and len(self.Data) > 0:
+ self.YCenter = max(self.Data[-1, 1] - Yrange / 2,
+ min(self.YCenter,
+ self.Data[-1, 1] + Yrange / 2))
+
+ var_name = self.InstancePath.split(".")[-1]
+
+ self.GetBounds()
+ self.VariableGraphic = plot.PolyLine(self.Data[self.StartIdx:self.EndIdx + 1],
+ legend=var_name, colour=colours[0])
+ self.GraphicsObject = plot.PlotGraphics([self.VariableGraphic], _("%s Graphics") % var_name, _("Tick"), _("Values"))
+ self.Canvas.Draw(self.GraphicsObject,
+ xAxis=(self.StartTick, self.StartTick + self.CurrentRange),
+ yAxis=(self.YCenter - Yrange * 1.1 / 2., self.YCenter + Yrange * 1.1 / 2.))
+
+ # Reset and draw cursor
+ self.ResetLastCursor()
+ self.RefreshCursor()
+
+ self.RefreshScrollBar()
+
+ self.Thaw()
+
+ def GetInstancePath(self):
+ return self.InstancePath
+
+ def IsViewing(self, tagname):
+ return self.InstancePath == tagname
+
+ def NewValue(self, tick, value, forced=False):
+ value = {True:1., False:0.}.get(value, float(value))
+ self.Data = numpy.append(self.Data, [[float(tick), value]], axis=0)
+ if self.MinValue is None:
+ self.MinValue = value
+ else:
+ self.MinValue = min(self.MinValue, value)
+ if self.MaxValue is None:
+ self.MaxValue = value
+ else:
+ self.MaxValue = max(self.MaxValue, value)
+ if not self.Fixed or tick < self.StartTick + self.CurrentRange:
+ self.GetBounds()
+ while int(self.Data[self.StartIdx, 0]) < tick - self.CurrentRange:
+ self.StartIdx += 1
+ self.EndIdx += 1
+ self.StartTick = self.Data[self.StartIdx, 0]
+ self.NewDataAvailable(None)
+
+ def RefreshScrollBar(self):
+ if len(self.Data) > 0:
+ self.GetBounds()
+ pos = int(self.Data[self.StartIdx, 0] - self.Data[0, 0])
+ range = int(self.Data[-1, 0] - self.Data[0, 0])
+ else:
+ pos = 0
+ range = 0
+ self.CanvasPosition.SetScrollbar(pos, self.CurrentRange, range, self.CurrentRange)
+
+ def RefreshRange(self):
+ if len(self.Data) > 0:
+ if self.Fixed and self.Data[-1, 0] - self.Data[0, 0] < self.CurrentRange:
+ self.Fixed = False
+ self.ResetBounds()
+ if self.Fixed:
+ self.StartTick = min(self.StartTick, self.Data[-1, 0] - self.CurrentRange)
+ else:
+ self.StartTick = max(self.Data[0, 0], self.Data[-1, 0] - self.CurrentRange)
+ self.RefreshView(True)
+
+ def OnRangeChanged(self, event):
+ try:
+ if self.Ticktime == 0:
+ self.CurrentRange = self.RangeValues[self.CanvasRange.GetSelection()][1]
+ else:
+ self.CurrentRange = self.RangeValues[self.CanvasRange.GetSelection()][1] / self.Ticktime
+ except ValueError, e:
+ self.CanvasRange.SetValue(str(self.CurrentRange))
+ wx.CallAfter(self.RefreshRange)
+ event.Skip()
+
+ def OnZoomChanged(self, event):
+ self.CurrentZoom = ZOOM_VALUES[self.CanvasZoom.GetSelection()][1]
+ wx.CallAfter(self.RefreshView, True)
+ event.Skip()
+
+ def OnPositionChanging(self, event):
+ if len(self.Data) > 0:
+ self.ResetBounds()
+ self.StartTick = self.Data[0, 0] + event.GetPosition()
+ self.Fixed = True
+ self.NewDataAvailable(None, True)
+ event.Skip()
+
+ def OnResetButton(self, event):
+ self.Fixed = False
+ self.ResetView()
+ event.Skip()
+
+ def OnCurrentButton(self, event):
+ if len(self.Data) > 0:
+ self.ResetBounds()
+ self.StartTick = max(self.Data[0, 0], self.Data[-1, 0] - self.CurrentRange)
+ self.Fixed = False
+ self.NewDataAvailable(None, True)
+ event.Skip()
+
+ def OnResetZoomOffsetButton(self, event):
+ if len(self.Data) > 0:
+ self.YCenter = (self.MaxValue + self.MinValue) / 2
+ else:
+ self.YCenter = 0.0
+ self.CurrentZoom = 1.0
+ self.CanvasZoom.SetSelection(0)
+ wx.CallAfter(self.RefreshView, True)
+ event.Skip()
+
+ def OnExportGraphButtonClick(self, event):
+ data_copy = self.Data[:]
+ text = "tick;%s;\n" % self.InstancePath
+ for tick, value in data_copy:
+ text += "%d;%.3f;\n" % (tick, value)
+ self.ParentWindow.SetCopyBuffer(text)
+ event.Skip()
+
+ def OnCanvasLeftDown(self, event):
+ self.Fixed = True
+ self.Canvas.canvas.CaptureMouse()
+ if len(self.Data) > 0:
+ if self.Mode == MODE_SELECTION:
+ self.Dragging = True
+ pos = self.Canvas.PositionScreenToUser(event.GetPosition())
+ self.CursorIdx = self.GetNearestData(pos[0], -1)
+ self.RefreshCursor()
+ elif self.Mode == MODE_MOTION:
+ self.GetBounds()
+ self.CurrentMousePos = event.GetPosition()
+ self.CurrentMotionValue = self.Data[self.StartIdx, 0]
+ event.Skip()
+
+ def OnCanvasLeftUp(self, event):
+ self.Dragging = False
+ if self.Mode == MODE_MOTION:
+ self.CurrentMousePos = None
+ self.CurrentMotionValue = None
+ if self.Canvas.canvas.HasCapture():
+ self.Canvas.canvas.ReleaseMouse()
+ event.Skip()
+
+ def OnCanvasMiddleDown(self, event):
+ self.Fixed = True
+ self.Canvas.canvas.CaptureMouse()
+ if len(self.Data) > 0:
+ self.GetBounds()
+ self.CurrentMousePos = event.GetPosition()
+ self.CurrentMotionValue = self.Data[self.StartIdx, 0]
+ event.Skip()
+
+ def OnCanvasMiddleUp(self, event):
+ self.CurrentMousePos = None
+ self.CurrentMotionValue = None
+ if self.Canvas.canvas.HasCapture():
+ self.Canvas.canvas.ReleaseMouse()
+ event.Skip()
+
+ def OnCanvasMotion(self, event):
+ if self.Mode == MODE_SELECTION and self.Dragging:
+ pos = self.Canvas.PositionScreenToUser(event.GetPosition())
+ graphics, xAxis, yAxis = self.Canvas.last_draw
+ self.CursorIdx = self.GetNearestData(max(xAxis[0], min(pos[0], xAxis[1])), -1)
+ self.RefreshCursor()
+ elif self.CurrentMousePos is not None and len(self.Data) > 0:
+ oldpos = self.Canvas.PositionScreenToUser(self.CurrentMousePos)
+ newpos = self.Canvas.PositionScreenToUser(event.GetPosition())
+ self.CurrentMotionValue += oldpos[0] - newpos[0]
+ self.YCenter += oldpos[1] - newpos[1]
+ self.ResetBounds()
+ self.StartTick = max(self.Data[0, 0], min(self.CurrentMotionValue, self.Data[-1, 0] - self.CurrentRange))
+ self.CurrentMousePos = event.GetPosition()
+ self.NewDataAvailable(None, True)
+ event.Skip()
+
+ def OnCanvasMouseWheel(self, event):
+ if self.CurrentMousePos is None:
+ rotation = event.GetWheelRotation() / event.GetWheelDelta()
+ if event.ShiftDown():
+ current = self.CanvasRange.GetSelection()
+ new = max(0, min(current - rotation, len(self.RangeValues) - 1))
+ if new != current:
+ if self.Ticktime == 0:
+ self.CurrentRange = self.RangeValues[new][1]
+ else:
+ self.CurrentRange = self.RangeValues[new][1] / self.Ticktime
+ self.CanvasRange.SetStringSelection(self.RangeValues[new][0])
+ wx.CallAfter(self.RefreshRange)
+ else:
+ current = self.CanvasZoom.GetSelection()
+ new = max(0, min(current + rotation, len(ZOOM_VALUES) - 1))
+ if new != current:
+ self.CurrentZoom = ZOOM_VALUES[new][1]
+ self.CanvasZoom.SetStringSelection(ZOOM_VALUES[new][0])
+ wx.CallAfter(self.RefreshView, True)
+ event.Skip()
+
+ def OnCanvasResize(self, event):
+ self.ResetLastCursor()
+ wx.CallAfter(self.RefreshCursor)
+ event.Skip()
+
+ ## Reset the last cursor
+ def ResetLastCursor(self):
+ self.LastCursor = None
+
+ ## Draw the cursor on graphic
+ # @param dc The draw canvas
+ # @param cursor The cursor parameters
+ def DrawCursor(self, dc, cursor, value):
+ if self.StartTick <= cursor <= self.StartTick + self.CurrentRange:
+ # Prepare temporary dc for drawing
+ width = self.Canvas._Buffer.GetWidth()
+ height = self.Canvas._Buffer.GetHeight()
+ tmp_Buffer = wx.EmptyBitmap(width, height)
+ dcs = wx.MemoryDC()
+ dcs.SelectObject(tmp_Buffer)
+ dcs.Clear()
+ dcs.BeginDrawing()
+
+ dcs.SetPen(wx.Pen(wx.RED))
+ dcs.SetBrush(wx.Brush(wx.RED, wx.SOLID))
+ dcs.SetFont(self.Canvas._getFont(self.Canvas._fontSizeAxis))
+
+ # Calculate clipping region
+ graphics, xAxis, yAxis = self.Canvas.last_draw
+ p1 = numpy.array([xAxis[0], yAxis[0]])
+ p2 = numpy.array([xAxis[1], yAxis[1]])
+ cx, cy, cwidth, cheight = self.Canvas._point2ClientCoord(p1, p2)
+
+ px, py = self.Canvas.PositionUserToScreen((float(cursor), 0.))
+
+ # Draw line cross drawing for diaplaying time cursor
+ dcs.DrawLine(px, cy + 1, px, cy + cheight - 1)
+
+ lines = ("X:%d\nY:%f" % (cursor, value)).splitlines()
+
+ wtext = 0
+ for line in lines:
+ w, h = dcs.GetTextExtent(line)
+ wtext = max(wtext, w)
+
+ offset = 0
+ for line in lines:
+ # Draw time cursor date
+ dcs.DrawText(line, min(px + 3, cx + cwidth - wtext), cy + 3 + offset)
+ w, h = dcs.GetTextExtent(line)
+ offset += h
+
+ dcs.EndDrawing()
+
+ #this will erase if called twice
+ dc.Blit(0, 0, width, height, dcs, 0, 0, wx.EQUIV) #(NOT src) XOR dst
+
+ ## Refresh the variable cursor.
+ # @param dc The draw canvas
+ def RefreshCursor(self, dc=None):
+ if self:
+ if dc is None:
+ dc = wx.BufferedDC(wx.ClientDC(self.Canvas.canvas), self.Canvas._Buffer)
+
+ # Erase previous time cursor if drawn
+ if self.LastCursor is not None:
+ self.DrawCursor(dc, *self.LastCursor)
+
+ # Draw new time cursor
+ if self.CursorIdx is not None:
+ self.LastCursor = self.Data[self.CursorIdx]
+ self.DrawCursor(dc, *self.LastCursor)