# -*- coding: iso-8859-1 -*- # 11/20/2003 - Jeff Grimmett (grimmtooth@softhome.net) # # o Updated for wx namespace # # 20040508 - Pierre Hjälm # # o Changed to use the python version of OGL # o Added TextShape, CompositeShape and CompositeShape with divisions # # 20040830 - Pierre Hjälm # # o Added DrawnShape # import wx import wx.lib.ogl as ogl import images #---------------------------------------------------------------------- class DrawnShape(ogl.DrawnShape): def __init__(self): ogl.DrawnShape.__init__(self) self.SetDrawnBrush(wx.WHITE_BRUSH) self.SetDrawnPen(wx.BLACK_PEN) self.DrawArc((0, -10), (30, 0), (-30, 0)) self.SetDrawnPen(wx.Pen("#ff8030")) self.DrawLine((-30, 5), (30, 5)) self.SetDrawnPen(wx.Pen("#00ee10")) self.DrawRoundedRectangle((-20, 10, 40, 10), 5) self.SetDrawnPen(wx.Pen("#9090f0")) self.DrawEllipse((-30, 25, 60, 20)) self.SetDrawnTextColour(wx.BLACK) self.SetDrawnFont(wx.Font(8, wx.SWISS, wx.NORMAL, wx.NORMAL)) self.DrawText("DrawText", (-26, 28)) self.SetDrawnBrush(wx.GREEN_BRUSH) self.DrawPolygon([(-100, 5), (-45, 30), (-35, 20), (-30, 5)]) self.SetDrawnPen(wx.BLACK_PEN) self.DrawLines([(30, -45), (40, -45), (40 ,45), (30, 45)]) # Make sure to call CalculateSize when all drawing is done self.CalculateSize() #---------------------------------------------------------------------- class DiamondShape(ogl.PolygonShape): def __init__(self, w=0.0, h=0.0): ogl.PolygonShape.__init__(self) if w == 0.0: w = 60.0 if h == 0.0: h = 60.0 points = [ (0.0, -h/2.0), (w/2.0, 0.0), (0.0, h/2.0), (-w/2.0, 0.0), ] self.Create(points) #---------------------------------------------------------------------- class RoundedRectangleShape(ogl.RectangleShape): def __init__(self, w=0.0, h=0.0): ogl.RectangleShape.__init__(self, w, h) self.SetCornerRadius(-0.3) #---------------------------------------------------------------------- class CompositeDivisionShape(ogl.CompositeShape): def __init__(self, canvas): ogl.CompositeShape.__init__(self) self.SetCanvas(canvas) # create a division in the composite self.MakeContainer() # add a shape to the original division shape2 = ogl.RectangleShape(40, 60) self.GetDivisions()[0].AddChild(shape2) # now divide the division so we get 2 self.GetDivisions()[0].Divide(wx.HORIZONTAL) # and add a shape to the second division (and move it to the # centre of the division) shape3 = ogl.CircleShape(40) shape3.SetBrush(wx.CYAN_BRUSH) self.GetDivisions()[1].AddChild(shape3) shape3.SetX(self.GetDivisions()[1].GetX()) for division in self.GetDivisions(): division.SetSensitivityFilter(0) #---------------------------------------------------------------------- class CompositeShape(ogl.CompositeShape): def __init__(self, canvas): ogl.CompositeShape.__init__(self) self.SetCanvas(canvas) constraining_shape = ogl.RectangleShape(120, 100) constrained_shape1 = ogl.CircleShape(50) constrained_shape2 = ogl.RectangleShape(80, 20) constraining_shape.SetBrush(wx.BLUE_BRUSH) constrained_shape2.SetBrush(wx.RED_BRUSH) self.AddChild(constraining_shape) self.AddChild(constrained_shape1) self.AddChild(constrained_shape2) constraint = ogl.Constraint(ogl.CONSTRAINT_MIDALIGNED_BOTTOM, constraining_shape, [constrained_shape1, constrained_shape2]) self.AddConstraint(constraint) self.Recompute() # If we don't do this, the shapes will be able to move on their # own, instead of moving the composite constraining_shape.SetDraggable(False) constrained_shape1.SetDraggable(False) constrained_shape2.SetDraggable(False) # If we don't do this the shape will take all left-clicks for itself constraining_shape.SetSensitivityFilter(0) #---------------------------------------------------------------------- class DividedShape(ogl.DividedShape): def __init__(self, width, height, canvas): ogl.DividedShape.__init__(self, width, height) region1 = ogl.ShapeRegion() region1.SetText('DividedShape') region1.SetProportions(0.0, 0.2) region1.SetFormatMode(ogl.FORMAT_CENTRE_HORIZ) self.AddRegion(region1) region2 = ogl.ShapeRegion() region2.SetText('This is Region number two.') region2.SetProportions(0.0, 0.3) region2.SetFormatMode(ogl.FORMAT_CENTRE_HORIZ|ogl.FORMAT_CENTRE_VERT) self.AddRegion(region2) region3 = ogl.ShapeRegion() region3.SetText('Region 3\nwith embedded\nline breaks') region3.SetProportions(0.0, 0.5) region3.SetFormatMode(ogl.FORMAT_NONE) self.AddRegion(region3) self.SetRegionSizes() self.ReformatRegions(canvas) def ReformatRegions(self, canvas=None): rnum = 0 if canvas is None: canvas = self.GetCanvas() dc = wx.ClientDC(canvas) # used for measuring for region in self.GetRegions(): text = region.GetText() self.FormatText(dc, text, rnum) rnum += 1 def OnSizingEndDragLeft(self, pt, x, y, keys, attch): print "***", self ogl.DividedShape.OnSizingEndDragLeft(self, pt, x, y, keys, attch) self.SetRegionSizes() self.ReformatRegions() self.GetCanvas().Refresh() #---------------------------------------------------------------------- class MyEvtHandler(ogl.ShapeEvtHandler): def __init__(self, log, frame): ogl.ShapeEvtHandler.__init__(self) self.log = log self.statbarFrame = frame def UpdateStatusBar(self, shape): x, y = shape.GetX(), shape.GetY() width, height = shape.GetBoundingBoxMax() self.statbarFrame.SetStatusText("Pos: (%d, %d) Size: (%d, %d)" % (x, y, width, height)) def OnLeftClick(self, x, y, keys=0, attachment=0): shape = self.GetShape() canvas = shape.GetCanvas() dc = wx.ClientDC(canvas) canvas.PrepareDC(dc) if shape.Selected(): shape.Select(False, dc) canvas.Redraw(dc) else: redraw = False shapeList = canvas.GetDiagram().GetShapeList() toUnselect = [] for s in shapeList: if s.Selected(): # If we unselect it now then some of the objects in # shapeList will become invalid (the control points are # shapes too!) and bad things will happen... toUnselect.append(s) shape.Select(True, dc) if toUnselect: for s in toUnselect: s.Select(False, dc) canvas.Redraw(dc) self.UpdateStatusBar(shape) def OnEndDragLeft(self, x, y, keys=0, attachment=0): shape = self.GetShape() ogl.ShapeEvtHandler.OnEndDragLeft(self, x, y, keys, attachment) if not shape.Selected(): self.OnLeftClick(x, y, keys, attachment) self.UpdateStatusBar(shape) def OnSizingEndDragLeft(self, pt, x, y, keys, attch): ogl.ShapeEvtHandler.OnSizingEndDragLeft(self, pt, x, y, keys, attch) self.UpdateStatusBar(self.GetShape()) def OnMovePost(self, dc, x, y, oldX, oldY, display): ogl.ShapeEvtHandler.OnMovePost(self, dc, x, y, oldX, oldY, display) self.UpdateStatusBar(self.GetShape()) def OnRightClick(self, *dontcare): self.log.WriteText("%s\n" % self.GetShape()) #---------------------------------------------------------------------- class TestWindow(ogl.ShapeCanvas): def __init__(self, parent, log, frame): ogl.ShapeCanvas.__init__(self, parent) maxWidth = 1000 maxHeight = 1000 self.SetScrollbars(20, 20, maxWidth/20, maxHeight/20) self.log = log self.frame = frame self.SetBackgroundColour("LIGHT BLUE") #wx.WHITE) self.diagram = ogl.Diagram() self.SetDiagram(self.diagram) self.diagram.SetCanvas(self) self.shapes = [] self.save_gdi = [] rRectBrush = wx.Brush("MEDIUM TURQUOISE", wx.SOLID) dsBrush = wx.Brush("WHEAT", wx.SOLID) self.MyAddShape( CompositeDivisionShape(self), 270, 310, wx.BLACK_PEN, wx.BLUE_BRUSH, "Division" ) self.MyAddShape( CompositeShape(self), 100, 260, wx.BLACK_PEN, wx.RED_BRUSH, "Composite" ) self.MyAddShape( ogl.CircleShape(80), 75, 110, wx.Pen(wx.BLUE, 3), wx.GREEN_BRUSH, "Circle" ) self.MyAddShape( ogl.TextShape(120, 45), 160, 35, wx.GREEN_PEN, wx.LIGHT_GREY_BRUSH, "OGL is now a\npure Python lib!" ) self.MyAddShape( ogl.RectangleShape(85, 50), 305, 60, wx.BLACK_PEN, wx.LIGHT_GREY_BRUSH, "Rectangle" ) self.MyAddShape( DrawnShape(), 500, 80, wx.BLACK_PEN, wx.BLACK_BRUSH, "DrawnShape" ) ds = self.MyAddShape( DividedShape(140, 150, self), 520, 265, wx.BLACK_PEN, dsBrush, '' ) self.MyAddShape( DiamondShape(90, 90), 355, 260, wx.Pen(wx.BLUE, 3, wx.DOT), wx.RED_BRUSH, "Polygon" ) self.MyAddShape( RoundedRectangleShape(95, 70), 345, 145, wx.Pen(wx.RED, 2), rRectBrush, "Rounded Rect" ) bmp = images.getTest2Bitmap() mask = wx.Mask(bmp, wx.BLUE) bmp.SetMask(mask) s = ogl.BitmapShape() s.SetBitmap(bmp) self.MyAddShape(s, 225, 130, None, None, "Bitmap") dc = wx.ClientDC(self) self.PrepareDC(dc) for x in range(len(self.shapes)): fromShape = self.shapes[x] if x+1 == len(self.shapes): toShape = self.shapes[0] else: toShape = self.shapes[x+1] line = ogl.LineShape() line.SetCanvas(self) line.SetPen(wx.BLACK_PEN) line.SetBrush(wx.BLACK_BRUSH) line.AddArrow(ogl.ARROW_ARROW) line.MakeLineControlPoints(2) fromShape.AddLine(line, toShape) self.diagram.AddShape(line) line.Show(True) def MyAddShape(self, shape, x, y, pen, brush, text): # Composites have to be moved for all children to get in place if isinstance(shape, ogl.CompositeShape): dc = wx.ClientDC(self) self.PrepareDC(dc) shape.Move(dc, x, y) else: shape.SetDraggable(True, True) shape.SetCanvas(self) shape.SetX(x) shape.SetY(y) if pen: shape.SetPen(pen) if brush: shape.SetBrush(brush) if text: for line in text.split('\n'): shape.AddText(line) #shape.SetShadowMode(ogl.SHADOW_RIGHT) self.diagram.AddShape(shape) shape.Show(True) evthandler = MyEvtHandler(self.log, self.frame) evthandler.SetShape(shape) evthandler.SetPreviousHandler(shape.GetEventHandler()) shape.SetEventHandler(evthandler) self.shapes.append(shape) return shape def OnBeginDragLeft(self, x, y, keys): self.log.write("OnBeginDragLeft: %s, %s, %s\n" % (x, y, keys)) def OnEndDragLeft(self, x, y, keys): self.log.write("OnEndDragLeft: %s, %s, %s\n" % (x, y, keys)) #---------------------------------------------------------------------- def runTest(frame, nb, log): # This creates some pens and brushes that the OGL library uses. # It should be called after the app object has been created, but # before OGL is used. ogl.OGLInitialize() win = TestWindow(nb, log, frame) return win #---------------------------------------------------------------------- overview = """
The OGL library was originally written in C++ and provided to wxPython via an extension module wrapper as is most of the rest of wxPython. The code has now been ported to Python (with many thanks to Pierre Hjälm!) in order to make it be more easily maintainable and less likely to get rusty because nobody cares about the C++ lib any more. """ if __name__ == '__main__': import sys, os import run run.main(['', os.path.basename(sys.argv[0])] + sys.argv[1:])