]> git.saurik.com Git - wxWidgets.git/blobdiff - wxPython/wx/lib/plot.py
Fix "warning: operation on 'y' may be undefined".
[wxWidgets.git] / wxPython / wx / lib / plot.py
index 946b5bdf2859c16d59bbc0247501c97db0c63491..e1d02016b62c0845100a9820e7aa31ab69363e89 100644 (file)
@@ -1,6 +1,6 @@
 #-----------------------------------------------------------------------------
 # Name:        wx.lib.plot.py
-# Purpose:     
+# Purpose:     Line, Bar and Scatter Graphs
 #
 # Author:      Gordon Williams
 #
 #
 # o wxScrolledMessageDialog -> ScrolledMessageDialog
 #
+# Oct 6, 2004  Gordon Williams (g_will@cyberus.ca)
+#   - Added bar graph demo
+#   - Modified line end shape from round to square.
+#   - Removed FloatDCWrapper for conversion to ints and ints in arguments
+#
+# Oct 15, 2004  Gordon Williams (g_will@cyberus.ca)
+#   - Imported modules given leading underscore to name.
+#   - Added Cursor Line Tracking and User Point Labels. 
+#   - Demo for Cursor Line Tracking and Point Labels.
+#   - Size of plot preview frame adjusted to show page better.
+#   - Added helper functions PositionUserToScreen and PositionScreenToUser in PlotCanvas.
+#   - Added functions GetClosestPoints (all curves) and GetClosestPoint (only closest curve)
+#       can be in either user coords or screen coords.
+#   
+#
 
 """
 This is a simple light weight plotting module that can be used with
 Boa or easily integrated into your own wxPython application.  The
 emphasis is on small size and fast plotting for large data sets.  It
 has a reasonable number of features to do line and scatter graphs
-easily.  It is not as sophisticated or as powerful as SciPy Plt or
-Chaco.  Both of these are great packages but consume huge amounts of
-computer resources for simple plots.  They can be found at
-http://scipy.com
+easily as well as simple bar graphs.  It is not as sophisticated or 
+as powerful as SciPy Plt or Chaco.  Both of these are great packages 
+but consume huge amounts of computer resources for simple plots.
+They can be found at http://scipy.com
 
 This file contains two parts; first the re-usable library stuff, then,
 after a "if __name__=='__main__'" test, a simple frame and a few default
@@ -73,16 +88,16 @@ Zooming controls with mouse (when enabled):
     Right mouse click - zoom out centred on click location.
 """
 
-import  string
-import  time
+import  string as _string
+import  time as _time
 import  wx
 
-# Needs Numeric
+# Needs Numeric or numarray
 try:
-    import Numeric
+    import Numeric as _Numeric
 except:
     try:
-        import numarray as Numeric  #if numarray is used it is renamed Numeric
+        import numarray as _Numeric  #if numarray is used it is renamed Numeric
     except:
         msg= """
         This module requires the Numeric or numarray module,
@@ -103,7 +118,7 @@ class PolyPoints:
     """
 
     def __init__(self, points, attr):
-        self.points = Numeric.array(points)
+        self.points = _Numeric.array(points)
         self.currentScale= (1,1)
         self.currentShift= (0,0)
         self.scaled = self.points
@@ -118,11 +133,11 @@ class PolyPoints:
         if len(self.points) == 0:
             # no curves to draw
             # defaults to (-1,-1) and (1,1) but axis can be set in Draw
-            minXY= Numeric.array([-1,-1])
-            maxXY= Numeric.array([ 1, 1])
+            minXY= _Numeric.array([-1,-1])
+            maxXY= _Numeric.array([ 1, 1])
         else:
-            minXY= Numeric.minimum.reduce(self.points)
-            maxXY= Numeric.maximum.reduce(self.points)
+            minXY= _Numeric.minimum.reduce(self.points)
+            maxXY= _Numeric.maximum.reduce(self.points)
         return minXY, maxXY
 
     def scaleAndShift(self, scale=(1,1), shift=(0,0)):
@@ -139,7 +154,27 @@ class PolyPoints:
     def getLegend(self):
         return self.attributes['legend']
 
-
+    def getClosestPoint(self, pntXY, pointScaled= True):
+        """Returns the index of closest point on the curve, pointXY, scaledXY, distance
+            x, y in user coords
+            if pointScaled == True based on screen coords
+            if pointScaled == False based on user coords
+        """
+        if pointScaled == True:
+            #Using screen coords
+            p = self.scaled
+            pxy = self.currentScale * _Numeric.array(pntXY)+ self.currentShift
+        else:
+            #Using user coords
+            p = self.points
+            pxy = _Numeric.array(pntXY)
+        #determine distance for each point
+        d= _Numeric.sqrt(_Numeric.add.reduce((p-pxy)**2,1)) #sqrt(dx^2+dy^2)
+        pntIndex = _Numeric.argmin(d)
+        dist = d[pntIndex]
+        return [pntIndex, self.points[pntIndex], self.scaled[pntIndex], dist]
+        
+        
 class PolyLine(PolyPoints):
     """Class to define line type and style
         - All methods except __init__ are private.
@@ -166,7 +201,9 @@ class PolyLine(PolyPoints):
         colour = self.attributes['colour']
         width = self.attributes['width'] * printerScale
         style= self.attributes['style']
-        dc.SetPen(wx.Pen(wx.NamedColour(colour), int(width), style))
+        pen = wx.Pen(wx.NamedColour(colour), width, style)
+        pen.SetCap(wx.CAP_BUTT)
+        dc.SetPen(pen)
         if coord == None:
             dc.DrawLines(self.scaled)
         else:
@@ -225,7 +262,7 @@ class PolyMarker(PolyPoints):
         fillstyle = self.attributes['fillstyle']
         marker = self.attributes['marker']
 
-        dc.SetPen(wx.Pen(wx.NamedColour(colour),int(width)))
+        dc.SetPen(wx.Pen(wx.NamedColour(colour), width))
         if fillcolour:
             dc.SetBrush(wx.Brush(wx.NamedColour(fillcolour),fillstyle))
         else:
@@ -247,9 +284,9 @@ class PolyMarker(PolyPoints):
     def _circle(self, dc, coords, size=1):
         fact= 2.5*size
         wh= 5.0*size
-        rect= Numeric.zeros((len(coords),4),Numeric.Float)+[0.0,0.0,wh,wh]
+        rect= _Numeric.zeros((len(coords),4),_Numeric.Float)+[0.0,0.0,wh,wh]
         rect[:,0:2]= coords-[fact,fact]
-        dc.DrawEllipseList(rect.astype(Numeric.Int32))
+        dc.DrawEllipseList(rect.astype(_Numeric.Int32))
 
     def _dot(self, dc, coords, size=1):
         dc.DrawPointList(coords)
@@ -257,35 +294,35 @@ class PolyMarker(PolyPoints):
     def _square(self, dc, coords, size=1):
         fact= 2.5*size
         wh= 5.0*size
-        rect= Numeric.zeros((len(coords),4),Numeric.Float)+[0.0,0.0,wh,wh]
+        rect= _Numeric.zeros((len(coords),4),_Numeric.Float)+[0.0,0.0,wh,wh]
         rect[:,0:2]= coords-[fact,fact]
-        dc.DrawRectangleList(rect.astype(Numeric.Int32))
+        dc.DrawRectangleList(rect.astype(_Numeric.Int32))
 
     def _triangle(self, dc, coords, size=1):
         shape= [(-2.5*size,1.44*size), (2.5*size,1.44*size), (0.0,-2.88*size)]
-        poly= Numeric.repeat(coords,3)
+        poly= _Numeric.repeat(coords,3)
         poly.shape= (len(coords),3,2)
         poly += shape
-        dc.DrawPolygonList(poly.astype(Numeric.Int32))
+        dc.DrawPolygonList(poly.astype(_Numeric.Int32))
 
     def _triangle_down(self, dc, coords, size=1):
         shape= [(-2.5*size,-1.44*size), (2.5*size,-1.44*size), (0.0,2.88*size)]
-        poly= Numeric.repeat(coords,3)
+        poly= _Numeric.repeat(coords,3)
         poly.shape= (len(coords),3,2)
         poly += shape
-        dc.DrawPolygonList(poly.astype(Numeric.Int32))
+        dc.DrawPolygonList(poly.astype(_Numeric.Int32))
       
     def _cross(self, dc, coords, size=1):
         fact= 2.5*size
         for f in [[-fact,-fact,fact,fact],[-fact,fact,fact,-fact]]:
-            lines= Numeric.concatenate((coords,coords),axis=1)+f
-            dc.DrawLineList(lines.astype(Numeric.Int32))
+            lines= _Numeric.concatenate((coords,coords),axis=1)+f
+            dc.DrawLineList(lines.astype(_Numeric.Int32))
 
     def _plus(self, dc, coords, size=1):
         fact= 2.5*size
         for f in [[-fact,0,fact,0],[0,-fact,0,fact]]:
-            lines= Numeric.concatenate((coords,coords),axis=1)+f
-            dc.DrawLineList(lines.astype(Numeric.Int32))
+            lines= _Numeric.concatenate((coords,coords),axis=1)+f
+            dc.DrawLineList(lines.astype(_Numeric.Int32))
 
 class PlotGraphics:
     """Container to hold PolyXXX objects and graph labels
@@ -310,8 +347,8 @@ class PlotGraphics:
         p1, p2 = self.objects[0].boundingBox()
         for o in self.objects[1:]:
             p1o, p2o = o.boundingBox()
-            p1 = Numeric.minimum(p1, p1o)
-            p2 = Numeric.maximum(p2, p2o)
+            p1 = _Numeric.minimum(p1, p1o)
+            p2 = _Numeric.maximum(p2, p2o)
         return p1, p2
 
     def scaleAndShift(self, scale=(1,1), shift=(0,0)):
@@ -348,9 +385,9 @@ class PlotGraphics:
 
     def draw(self, dc):
         for o in self.objects:
-            #t=time.clock()          # profile info
+            #t=_time.clock()          # profile info
             o.draw(dc, self.printerScale)
-            #dt= time.clock()-t
+            #dt= _time.clock()-t
             #print o, "time=", dt
 
     def getSymExtent(self, printerScale):
@@ -358,7 +395,7 @@ class PlotGraphics:
         symExt = self.objects[0].getSymExtent(printerScale)
         for o in self.objects[1:]:
             oSymExt = o.getSymExtent(printerScale)
-            symExt = Numeric.maximum(symExt, oSymExt)
+            symExt = _Numeric.maximum(symExt, oSymExt)
         return symExt
     
     def getLegendNames(self):
@@ -416,8 +453,8 @@ class PlotCanvas(wx.Window):
         # Zooming variables
         self._zoomInFactor =  0.5
         self._zoomOutFactor = 2
-        self._zoomCorner1= Numeric.array([0.0, 0.0]) # left mouse down corner
-        self._zoomCorner2= Numeric.array([0.0, 0.0])   # left mouse up corner
+        self._zoomCorner1= _Numeric.array([0.0, 0.0]) # left mouse down corner
+        self._zoomCorner2= _Numeric.array([0.0, 0.0])   # left mouse up corner
         self._zoomEnabled= False
         self._hasDragged= False
         
@@ -436,13 +473,19 @@ class PlotCanvas(wx.Window):
         self._fontSizeTitle= 15
         self._fontSizeLegend= 7
 
+        # pointLabels
+        self._pointLabelEnabled= False
+        self.last_PointLabel= None
+        self._pointLabelFunc= None
+        self.Bind(wx.EVT_LEAVE_WINDOW, self.OnLeave)
+
         self.Bind(wx.EVT_PAINT, self.OnPaint)
         self.Bind(wx.EVT_SIZE, self.OnSize)
         # OnSize called to make sure the buffer is initialized.
         # This might result in OnSize getting called twice on some
         # platforms at initialization, but little harm done.
-               if wx.Platform != "__WXMAC__":
-                   self.OnSize(None) # sets the initial size based on client size
+        if wx.Platform != "__WXMAC__":
+            self.OnSize(None) # sets the initial size based on client size
 
         
     # SaveFile
@@ -457,7 +500,7 @@ class PlotCanvas(wx.Window):
         .png  Save a Portable Network Graphics file.
         .jpg  Save a Joint Photographic Experts Group file.
         """
-        if string.lower(fileName[-3:]) not in ['bmp','xbm','xpm','png','jpg']:
+        if _string.lower(fileName[-3:]) not in ['bmp','xbm','xpm','png','jpg']:
             dlg1 = wx.FileDialog(
                     self, 
                     "Choose a file with extension bmp, gif, xbm, xpm, png, or jpg", ".", "",
@@ -469,7 +512,7 @@ class PlotCanvas(wx.Window):
                     if dlg1.ShowModal() == wx.ID_OK:
                         fileName = dlg1.GetPath()
                         # Check for proper exension
-                        if string.lower(fileName[-3:]) not in ['bmp','xbm','xpm','png','jpg']:
+                        if _string.lower(fileName[-3:]) not in ['bmp','xbm','xpm','png','jpg']:
                             dlg2 = wx.MessageDialog(self, 'File name extension\n'
                             'must be one of\n'
                             'bmp, xbm, xpm, png, or jpg',
@@ -486,7 +529,7 @@ class PlotCanvas(wx.Window):
                 dlg1.Destroy()
 
         # File name has required extension
-        fType = string.lower(fileName[-3:])
+        fType = _string.lower(fileName[-3:])
         if fType == "bmp":
             tp= wx.BITMAP_TYPE_BMP       # Save a Windows bitmap file.
         elif fType == "xbm":
@@ -513,7 +556,7 @@ class PlotCanvas(wx.Window):
                 self.pageSetupData.SetMarginBottomRight(data.GetMarginBottomRight())
                 self.pageSetupData.SetMarginTopLeft(data.GetMarginTopLeft())
                 self.pageSetupData.SetPrintData(data.GetPrintData())
-                self.print_data=data.GetPrintData() # updates print_data
+                self.print_data=wx.PrintData(data.GetPrintData()) # updates print_data
         finally:
             dlg.Destroy()
                 
@@ -521,13 +564,12 @@ class PlotCanvas(wx.Window):
         """Print current plot."""
         if paper != None:
             self.print_data.SetPaperId(paper)
-        pdd = wx.PrintDialogData()
-        pdd.SetPrintData(self.print_data)
+        pdd = wx.PrintDialogData(self.print_data)
         printer = wx.Printer(pdd)
         out = PlotPrintout(self)
         print_ok = printer.Print(self.parent, out)
         if print_ok:
-            self.print_data = printer.GetPrintDialogData().GetPrintData()
+            self.print_data = wx.PrintData(printer.GetPrintDialogData().GetPrintData())
         out.Destroy()
 
     def PrintPreview(self):
@@ -539,7 +581,7 @@ class PlotCanvas(wx.Window):
             wx.MessageDialog(self, "Print Preview failed.\n" \
                                "Check that default printer is configured\n", \
                                "Print error", wx.OK|wx.CENTRE).ShowModal()
-        self.preview.SetZoom(30)
+        self.preview.SetZoom(40)
         # search up tree to find frame instance
         frameInst= self
         while not isinstance(frameInst, wx.Frame):
@@ -547,7 +589,7 @@ class PlotCanvas(wx.Window):
         frame = wx.PreviewFrame(self.preview, frameInst, "Preview")
         frame.Initialize()
         frame.SetPosition(self.GetPosition())
-        frame.SetSize((500,400))
+        frame.SetSize((600,550))
         frame.Centre(wx.BOTH)
         frame.Show(True)
 
@@ -587,8 +629,8 @@ class PlotCanvas(wx.Window):
 
     def SetEnableGrid(self, value):
         """Set True to enable grid."""
-        if value not in [True,False]:
-            raise TypeError, "Value should be True or False"
+        if value not in [True,False,'Horizontal','Vertical']:
+            raise TypeError, "Value should be True, False, Horizontal or Vertical"
         self._gridEnabled= value
         self.Redraw()
 
@@ -607,13 +649,37 @@ class PlotCanvas(wx.Window):
         """True if Legend enabled."""
         return self._legendEnabled
 
+    def SetEnablePointLabel(self, value):
+        """Set True to enable pointLabel."""
+        if value not in [True,False]:
+            raise TypeError, "Value should be True or False"
+        self._pointLabelEnabled= value 
+        self.Redraw()  #will erase existing pointLabel if present
+        self.last_PointLabel = None
+
+    def GetEnablePointLabel(self):
+        """True if pointLabel enabled."""
+        return self._pointLabelEnabled
+
+    def SetPointLabelFunc(self, func):
+        """Sets the function with custom code for pointLabel drawing
+            ******** more info needed ***************
+        """
+        self._pointLabelFunc= func
+
+    def GetPointLabelFunc(self):
+        """Returns pointLabel Drawing Function"""
+        return self._pointLabelFunc
+
     def Reset(self):
         """Unzoom the plot."""
+        self.last_PointLabel = None        #reset pointLabel
         if self.last_draw is not None:
             self.Draw(self.last_draw[0])
         
     def ScrollRight(self, units):          
         """Move view right number of axis units."""
+        self.last_PointLabel = None        #reset pointLabel
         if self.last_draw is not None:
             graphics, xAxis, yAxis= self.last_draw
             xAxis= (xAxis[0]+units, xAxis[1]+units)
@@ -621,17 +687,30 @@ class PlotCanvas(wx.Window):
 
     def ScrollUp(self, units):
         """Move view up number of axis units."""
-        if self.last_draw is not None:
-            graphics, xAxis, yAxis= self.last_draw
-            yAxis= (yAxis[0]+units, yAxis[1]+units)
-            self.Draw(graphics,xAxis,yAxis)
+        self.last_PointLabel = None        #reset pointLabel
+        if self.last_draw is not None:         
+             graphics, xAxis, yAxis= self.last_draw
+             yAxis= (yAxis[0]+units, yAxis[1]+units)
+             self.Draw(graphics,xAxis,yAxis)
+
         
     def GetXY(self,event):
         """Takes a mouse event and returns the XY user axis values."""
-        screenPos= Numeric.array( event.GetPosition())
-        x,y= (screenPos-self._pointShift)/self._pointScale
+        x,y= self.PositionScreenToUser(event.GetPosition())
         return x,y
 
+    def PositionUserToScreen(self, pntXY):
+        """Converts User position to Screen Coordinates"""
+        userPos= _Numeric.array(pntXY)
+        x,y= userPos * self._pointScale + self._pointShift
+        return x,y
+        
+    def PositionScreenToUser(self, pntXY):
+        """Converts Screen position to User Coordinates"""
+        screenPos= _Numeric.array(pntXY)
+        x,y= (screenPos-self._pointShift)/self._pointScale
+        return x,y
+        
     def SetXSpec(self, type= 'auto'):
         """xSpec- defines x axis type. Can be 'none', 'min' or 'auto'
         where:
@@ -703,8 +782,8 @@ class PlotCanvas(wx.Window):
                 return
             
         if dc == None:
-            # allows using floats for certain functions 
-            dc = FloatDCWrapper(wx.BufferedDC(wx.ClientDC(self), self._Buffer))
+            # sets new dc and clears it 
+            dc = wx.BufferedDC(wx.ClientDC(self), self._Buffer)
             dc.Clear()
             
         dc.BeginDrawing()
@@ -726,8 +805,8 @@ class PlotCanvas(wx.Window):
             p2[0],p2[1] = xAxis[1], yAxis[1]     # upper right corner user scale (xmax,ymax)
         else:
             # Both axis specified in Draw
-            p1= Numeric.array([xAxis[0], yAxis[0]])    # lower left corner user scale (xmin,ymin)
-            p2= Numeric.array([xAxis[1], yAxis[1]])     # upper right corner user scale (xmax,ymax)
+            p1= _Numeric.array([xAxis[0], yAxis[0]])    # lower left corner user scale (xmin,ymin)
+            p2= _Numeric.array([xAxis[1], yAxis[1]])     # upper right corner user scale (xmax,ymax)
 
         self.last_draw = (graphics, xAxis, yAxis)       # saves most recient values
 
@@ -759,8 +838,8 @@ class PlotCanvas(wx.Window):
         lhsW= yTextExtent[0]+ yLabelWH[1]
         bottomH= max(xTextExtent[1], yTextExtent[1]/2.)+ xLabelWH[1]
         topH= yTextExtent[1]/2. + titleWH[1]
-        textSize_scale= Numeric.array([rhsW+lhsW,bottomH+topH]) # make plot area smaller by text size
-        textSize_shift= Numeric.array([lhsW, bottomH])          # shift plot area by this amount
+        textSize_scale= _Numeric.array([rhsW+lhsW,bottomH+topH]) # make plot area smaller by text size
+        textSize_shift= _Numeric.array([lhsW, bottomH])          # shift plot area by this amount
 
         # drawing title and labels text
         dc.SetFont(self._getFont(self._fontSizeTitle))
@@ -781,8 +860,8 @@ class PlotCanvas(wx.Window):
             self._drawLegend(dc,graphics,rhsW,topH,legendBoxWH, legendSymExt, legendTextExt)
 
         # allow for scaling and shifting plotted points
-        scale = (self.plotbox_size-textSize_scale) / (p2-p1)* Numeric.array((1,-1))
-        shift = -p1*scale + self.plotbox_origin + textSize_shift * Numeric.array((1,-1))
+        scale = (self.plotbox_size-textSize_scale) / (p2-p1)* _Numeric.array((1,-1))
+        shift = -p1*scale + self.plotbox_origin + textSize_shift * _Numeric.array((1,-1))
         self._pointScale= scale  # make available for mouse events
         self._pointShift= shift        
         self._drawAxes(dc, p1, p2, scale, shift, xticks, yticks)
@@ -794,9 +873,9 @@ class PlotCanvas(wx.Window):
         ptx,pty,rectWidth,rectHeight= self._point2ClientCoord(p1, p2)
         dc.SetClippingRegion(ptx,pty,rectWidth,rectHeight)
         # Draw the lines and markers
-        #start = time.clock()
+        #start = _time.clock()
         graphics.draw(dc)
-        # print "entire graphics drawing took: %f second"%(time.clock() - start)
+        # print "entire graphics drawing took: %f second"%(_time.clock() - start)
         # remove the clipping region
         dc.DestroyClippingRegion()
         dc.EndDrawing()
@@ -809,6 +888,7 @@ class PlotCanvas(wx.Window):
 
     def Clear(self):
         """Erase the window."""
+        self.last_PointLabel = None        #reset pointLabel
         dc = wx.BufferedDC(wx.ClientDC(self), self._Buffer)
         dc.Clear()
         self.last_draw = None
@@ -818,6 +898,7 @@ class PlotCanvas(wx.Window):
             Centers on the X,Y coords given in Center
             Zooms by the Ratio = (Xratio, Yratio) given
         """
+        self.last_PointLabel = None   #reset maker
         x,y = Center
         if self.last_draw != None:
             (graphics, xAxis, yAxis) = self.last_draw
@@ -827,6 +908,74 @@ class PlotCanvas(wx.Window):
             yAxis = ( y - h/2, y + h/2 )
             self.Draw(graphics, xAxis, yAxis)
         
+    def GetClosestPoints(self, pntXY, pointScaled= True):
+        """Returns list with
+            [curveNumber, legend, index of closest point, pointXY, scaledXY, distance]
+            list for each curve.
+            Returns [] if no curves are being plotted.
+            
+            x, y in user coords
+            if pointScaled == True based on screen coords
+            if pointScaled == False based on user coords
+        """
+        if self.last_draw == None:
+            #no graph available
+            return []
+        graphics, xAxis, yAxis= self.last_draw
+        l = []
+        for curveNum,obj in enumerate(graphics):
+            #check there are points in the curve
+            if len(obj.points) == 0:
+                continue  #go to next obj
+            #[curveNumber, legend, index of closest point, pointXY, scaledXY, distance]
+            cn = [curveNum]+ [obj.getLegend()]+ obj.getClosestPoint( pntXY, pointScaled)
+            l.append(cn)
+        return l
+
+    def GetClosetPoint(self, pntXY, pointScaled= True):
+        """Returns list with
+            [curveNumber, legend, index of closest point, pointXY, scaledXY, distance]
+            list for only the closest curve.
+            Returns [] if no curves are being plotted.
+            
+            x, y in user coords
+            if pointScaled == True based on screen coords
+            if pointScaled == False based on user coords
+        """
+        #closest points on screen based on screen scaling (pointScaled= True)
+        #list [curveNumber, index, pointXY, scaledXY, distance] for each curve
+        closestPts= self.GetClosestPoints(pntXY, pointScaled)
+        if closestPts == []:
+            return []  #no graph present
+        #find one with least distance
+        dists = [c[-1] for c in closestPts]
+        mdist = min(dists)  #Min dist
+        i = dists.index(mdist)  #index for min dist
+        return closestPts[i]  #this is the closest point on closest curve
+
+    def UpdatePointLabel(self, mDataDict):
+        """Updates the pointLabel point on screen with data contained in
+            mDataDict.
+
+            mDataDict will be passed to your function set by
+            SetPointLabelFunc.  It can contain anything you
+            want to display on the screen at the scaledXY point
+            you specify.
+
+            This function can be called from parent window with onClick,
+            onMotion events etc.            
+        """
+        if self.last_PointLabel != None:
+            #compare pointXY
+            if mDataDict["pointXY"] != self.last_PointLabel["pointXY"]:
+                #closest changed
+                self._drawPointLabel(self.last_PointLabel) #erase old
+                self._drawPointLabel(mDataDict) #plot new
+        else:
+            #just plot new with no erase
+            self._drawPointLabel(mDataDict) #plot new
+        #save for next erase
+        self.last_PointLabel = mDataDict
 
     # event handlers **********************************
     def OnMotion(self, event):
@@ -847,8 +996,9 @@ class PlotCanvas(wx.Window):
                 self._drawRubberBand(self._zoomCorner1, self._zoomCorner2) # remove old
                 self._zoomCorner2[0], self._zoomCorner2[1]= self.GetXY(event)
                 self._hasDragged = False  # reset flag
-                minX, minY= Numeric.minimum( self._zoomCorner1, self._zoomCorner2)
-                maxX, maxY= Numeric.maximum( self._zoomCorner1, self._zoomCorner2)
+                minX, minY= _Numeric.minimum( self._zoomCorner1, self._zoomCorner2)
+                maxX, maxY= _Numeric.maximum( self._zoomCorner1, self._zoomCorner2)
+                self.last_PointLabel = None        #reset pointLabel
                 if self.last_draw != None:
                     self.Draw(self.last_draw[0], xAxis = (minX,maxX), yAxis = (minY,maxY), dc = None)
             #else: # A box has not been drawn, zoom in on a point
@@ -867,24 +1017,38 @@ class PlotCanvas(wx.Window):
 
     def OnPaint(self, event):
         # All that is needed here is to draw the buffer to screen
-        dc = wx.BufferedPaintDC(self, self._Buffer)        
+        if self.last_PointLabel != None:
+            self._drawPointLabel(self.last_PointLabel) #erase old
+            self.last_PointLabel = None
+        dc = wx.BufferedPaintDC(self, self._Buffer)
 
     def OnSize(self,event):
         # The Buffer init is done here, to make sure the buffer is always
         # the same size as the Window
         Size  = self.GetClientSize()
-
+        if Size.width <= 0 or Size.height <= 0:
+            return
+        
         # Make new offscreen bitmap: this bitmap will always have the
         # current drawing in it, so it can be used to save the image to
         # a file, or whatever.
         self._Buffer = wx.EmptyBitmap(Size[0],Size[1])
         self._setSize()
+
+        self.last_PointLabel = None        #reset pointLabel
+
         if self.last_draw is None:
             self.Clear()
         else:
             graphics, xSpec, ySpec = self.last_draw
             self.Draw(graphics,xSpec,ySpec)
 
+    def OnLeave(self, event):
+        """Used to erase pointLabel when mouse outside window"""
+        if self.last_PointLabel != None:
+            self._drawPointLabel(self.last_PointLabel) #erase old
+            self.last_PointLabel = None
+
         
     # Private Methods **************************************************
     def _setSize(self, width=None, height=None):
@@ -893,10 +1057,10 @@ class PlotCanvas(wx.Window):
             (self.width,self.height) = self.GetClientSize()
         else:
             self.width, self.height= width,height    
-        self.plotbox_size = 0.97*Numeric.array([self.width, self.height])
+        self.plotbox_size = 0.97*_Numeric.array([self.width, self.height])
         xo = 0.5*(self.width-self.plotbox_size[0])
         yo = self.height-0.5*(self.height-self.plotbox_size[1])
-        self.plotbox_origin = Numeric.array([xo, yo])
+        self.plotbox_origin = _Numeric.array([xo, yo])
     
     def _setPrinterScale(self, scale):
         """Used to thicken lines and increase marker size for print out."""
@@ -909,6 +1073,23 @@ class PlotCanvas(wx.Window):
             graphics, xSpec, ySpec= self.last_draw
             self.Draw(graphics,xSpec,ySpec,printDC)
 
+    def _drawPointLabel(self, mDataDict):
+        """Draws and erases pointLabels"""
+        width = self._Buffer.GetWidth()
+        height = self._Buffer.GetHeight()
+        tmp_Buffer = wx.EmptyBitmap(width,height)
+        dcs = wx.MemoryDC()
+        dcs.SelectObject(tmp_Buffer)
+        dcs.Clear()
+        dcs.BeginDrawing()
+        self._pointLabelFunc(dcs,mDataDict)  #custom user pointLabel function
+        dcs.EndDrawing()
+
+        dc = wx.ClientDC( self )
+        #this will erase if called twice
+        dc.Blit(0, 0, width, height, dcs, 0, 0, wx.EQUIV)  #(NOT src) XOR dst
+        
+
     def _drawLegend(self,dc,graphics,rhsW,topH,legendBoxWH, legendSymExt, legendTextExt):
         """Draws legend symbols and text"""
         # top right hand corner of graph box is ref corner
@@ -922,12 +1103,12 @@ class PlotCanvas(wx.Window):
             if isinstance(o,PolyMarker):
                 # draw marker with legend
                 pnt= (trhc[0]+legendLHS+legendSymExt[0]/2., trhc[1]+s+lineHeight/2.)
-                o.draw(dc, self.printerScale, coord= Numeric.array([pnt]))
+                o.draw(dc, self.printerScale, coord= _Numeric.array([pnt]))
             elif isinstance(o,PolyLine):
                 # draw line with legend
                 pnt1= (trhc[0]+legendLHS, trhc[1]+s+lineHeight/2.)
                 pnt2= (trhc[0]+legendLHS+legendSymExt[0], trhc[1]+s+lineHeight/2.)
-                o.draw(dc, self.printerScale, coord= Numeric.array([pnt1,pnt2]))
+                o.draw(dc, self.printerScale, coord= _Numeric.array([pnt1,pnt2]))
             else:
                 raise TypeError, "object is neither PolyMarker or PolyLine instance"
             # draw legend txt
@@ -959,7 +1140,7 @@ class PlotCanvas(wx.Window):
             txtList= graphics.getLegendNames()
             txtExt= dc.GetTextExtent(txtList[0])
             for txt in graphics.getLegendNames()[1:]:
-                txtExt= Numeric.maximum(txtExt,dc.GetTextExtent(txt))
+                txtExt= _Numeric.maximum(txtExt,dc.GetTextExtent(txt))
             maxW= symExt[0]+txtExt[0]    
             maxH= max(symExt[1],txtExt[1])
             # padding .1 for lhs of legend box and space between lines
@@ -978,7 +1159,7 @@ class PlotCanvas(wx.Window):
         dc.SetPen(wx.Pen(wx.BLACK))
         dc.SetBrush(wx.Brush( wx.WHITE, wx.TRANSPARENT ) )
         dc.SetLogicalFunction(wx.INVERT)
-        dc.DrawRectangle( (ptx,pty), (rectWidth,rectHeight))
+        dc.DrawRectangle( ptx,pty, rectWidth,rectHeight)
         dc.SetLogicalFunction(wx.COPY)
         dc.EndDrawing()
 
@@ -999,17 +1180,17 @@ class PlotCanvas(wx.Window):
 
     def _point2ClientCoord(self, corner1, corner2):
         """Converts user point coords to client screen int coords x,y,width,height"""
-        c1= Numeric.array(corner1)
-        c2= Numeric.array(corner2)
+        c1= _Numeric.array(corner1)
+        c2= _Numeric.array(corner2)
         # convert to screen coords
         pt1= c1*self._pointScale+self._pointShift
         pt2= c2*self._pointScale+self._pointShift
         # make height and width positive
-        pul= Numeric.minimum(pt1,pt2) # Upper left corner
-        plr= Numeric.maximum(pt1,pt2) # Lower right corner
+        pul= _Numeric.minimum(pt1,pt2) # Upper left corner
+        plr= _Numeric.maximum(pt1,pt2) # Lower right corner
         rectWidth, rectHeight= plr-pul
         ptx,pty= pul
-        return int(ptx),int(pty),int(rectWidth),int(rectHeight) # return ints
+        return ptx, pty, rectWidth, rectHeight 
     
     def _axisInterval(self, spec, lower, upper):
         """Returns sensible axis range for given spec"""
@@ -1022,8 +1203,8 @@ class PlotCanvas(wx.Window):
             range = upper-lower
             if range == 0.:
                 return lower-0.5, upper+0.5
-            log = Numeric.log10(range)
-            power = Numeric.floor(log)
+            log = _Numeric.log10(range)
+            power = _Numeric.floor(log)
             fraction = log-power
             if fraction <= 0.05:
                 power = power-1
@@ -1045,13 +1226,20 @@ class PlotCanvas(wx.Window):
     def _drawAxes(self, dc, p1, p2, scale, shift, xticks, yticks):
         
         penWidth= self.printerScale        # increases thickness for printing only
-        dc.SetPen(wx.Pen(wx.NamedColour('BLACK'),int(penWidth)))
+        dc.SetPen(wx.Pen(wx.NamedColour('BLACK'), penWidth))
         
         # set length of tick marks--long ones make grid
         if self._gridEnabled:
             x,y,width,height= self._point2ClientCoord(p1,p2)
-            yTickLength= width/2.0 +1
-            xTickLength= height/2.0 +1
+            if self._gridEnabled == 'Horizontal':
+                yTickLength= width/2.0 +1
+                xTickLength= 3 * self.printerScale
+            elif self._gridEnabled == 'Vertical':
+                yTickLength= 3 * self.printerScale
+                xTickLength= height/2.0 +1
+            else:
+                yTickLength= width/2.0 +1
+                xTickLength= height/2.0 +1
         else:
             yTickLength= 3 * self.printerScale  # lengthens lines for printing
             xTickLength= 3 * self.printerScale
@@ -1060,11 +1248,11 @@ class PlotCanvas(wx.Window):
             lower, upper = p1[0],p2[0]
             text = 1
             for y, d in [(p1[1], -xTickLength), (p2[1], xTickLength)]:   # miny, maxy and tick lengths
-                a1 = scale*Numeric.array([lower, y])+shift
-                a2 = scale*Numeric.array([upper, y])+shift
+                a1 = scale*_Numeric.array([lower, y])+shift
+                a2 = scale*_Numeric.array([upper, y])+shift
                 dc.DrawLine(a1[0],a1[1],a2[0],a2[1])  # draws upper and lower axis line
                 for x, label in xticks:
-                    pt = scale*Numeric.array([x, y])+shift
+                    pt = scale*_Numeric.array([x, y])+shift
                     dc.DrawLine(pt[0],pt[1],pt[0],pt[1] + d) # draws tick mark d units
                     if text:
                         dc.DrawText(label,pt[0],pt[1])
@@ -1075,11 +1263,11 @@ class PlotCanvas(wx.Window):
             text = 1
             h = dc.GetCharHeight()
             for x, d in [(p1[0], -yTickLength), (p2[0], yTickLength)]:
-                a1 = scale*Numeric.array([x, lower])+shift
-                a2 = scale*Numeric.array([x, upper])+shift
+                a1 = scale*_Numeric.array([x, lower])+shift
+                a2 = scale*_Numeric.array([x, upper])+shift
                 dc.DrawLine(a1[0],a1[1],a2[0],a2[1])
                 for y, label in yticks:
-                    pt = scale*Numeric.array([x, y])+shift
+                    pt = scale*_Numeric.array([x, y])+shift
                     dc.DrawLine(pt[0],pt[1],pt[0]-d,pt[1])
                     if text:
                         dc.DrawText(label,pt[0]-dc.GetTextExtent(label)[0],
@@ -1088,13 +1276,13 @@ class PlotCanvas(wx.Window):
 
     def _ticks(self, lower, upper):
         ideal = (upper-lower)/7.
-        log = Numeric.log10(ideal)
-        power = Numeric.floor(log)
+        log = _Numeric.log10(ideal)
+        power = _Numeric.floor(log)
         fraction = log-power
         factor = 1.
         error = fraction
         for f, lf in self._multiples:
-            e = Numeric.fabs(fraction-lf)
+            e = _Numeric.fabs(fraction-lf)
             if e < error:
                 error = e
                 factor = f
@@ -1108,13 +1296,13 @@ class PlotCanvas(wx.Window):
             digits = -int(power)
             format = '%'+`digits+2`+'.'+`digits`+'f'
         ticks = []
-        t = -grid*Numeric.floor(-lower/grid)
+        t = -grid*_Numeric.floor(-lower/grid)
         while t <= upper:
             ticks.append( (t, format % (t,)) )
             t = t + grid
         return ticks
 
-    _multiples = [(2., Numeric.log10(2.)), (5., Numeric.log10(5.))]
+    _multiples = [(2., _Numeric.log10(2.)), (5., _Numeric.log10(5.))]
 
 
 #-------------------------------------------------------------------------------
@@ -1136,10 +1324,10 @@ class PlotPrintout(wx.Printout):
             return False
 
     def GetPageInfo(self):
-        return (0, 1, 1, 1)  # disable page numbers
+        return (1, 1, 1, 1)  # disable page numbers
 
     def OnPrintPage(self, page):
-        dc = FloatDCWrapper(self.GetDC())  # allows using floats for certain functions
+        dc = self.GetDC()  # allows using floats for certain functions
 ##        print "PPI Printer",self.GetPPIPrinter()
 ##        print "PPI Screen", self.GetPPIScreen()
 ##        print "DC GetSize", dc.GetSize()
@@ -1190,37 +1378,10 @@ class PlotPrintout(wx.Printout):
         # rescale back to original
         self.graph._setSize()
         self.graph._setPrinterScale(1)
+        self.graph.Redraw()     #to get point label scale and shift correct
 
         return True
 
-# Hack to allow plotting real numbers for the methods listed.
-# All others passed directly to DC.
-# For Drawing it is used as
-# dc = FloatDCWrapper(wx.BufferedDC(wx.ClientDC(self), self._Buffer))
-# For printing is is used as
-# dc = FloatDCWrapper(self.GetDC()) 
-class FloatDCWrapper:
-    def __init__(self, aDC):
-        self.theDC = aDC
-
-    def DrawLine(self, x1,y1,x2,y2):
-        self.theDC.DrawLine((int(x1),int(y1)),(int(x2),int(y2)))
-
-    def DrawText(self, txt, x, y):
-        self.theDC.DrawText(txt, (int(x), int(y)))
-
-    def DrawRotatedText(self, txt, x, y, angle):
-        self.theDC.DrawRotatedText(txt, (int(x), int(y)), angle)
-
-    def SetClippingRegion(self, x, y, width, height):
-        self.theDC.SetClippingRegion((int(x), int(y)), (int(width), int(height)))
-
-    def SetDeviceOrigin(self, x, y):
-        self.theDC.SetDeviceOrigin(int(x), int(y))
-
-    def __getattr__(self, name):
-        return getattr(self.theDC, name)
-
 
 
 
@@ -1232,19 +1393,19 @@ class FloatDCWrapper:
 
 def _draw1Objects():
     # 100 points sin function, plotted as green circles
-    data1 = 2.*Numeric.pi*Numeric.arange(200)/200.
+    data1 = 2.*_Numeric.pi*_Numeric.arange(200)/200.
     data1.shape = (100, 2)
-    data1[:,1] = Numeric.sin(data1[:,0])
+    data1[:,1] = _Numeric.sin(data1[:,0])
     markers1 = PolyMarker(data1, legend='Green Markers', colour='green', marker='circle',size=1)
 
     # 50 points cos function, plotted as red line
-    data1 = 2.*Numeric.pi*Numeric.arange(100)/100.
+    data1 = 2.*_Numeric.pi*_Numeric.arange(100)/100.
     data1.shape = (50,2)
-    data1[:,1] = Numeric.cos(data1[:,0])
+    data1[:,1] = _Numeric.cos(data1[:,0])
     lines = PolyLine(data1, legend= 'Red Line', colour='red')
 
     # A few more points...
-    pi = Numeric.pi
+    pi = _Numeric.pi
     markers2 = PolyMarker([(0., 0.), (pi/4., 1.), (pi/2, 0.),
                           (3.*pi/4., -1)], legend='Cross Legend', colour='blue',
                           marker='cross')
@@ -1253,19 +1414,19 @@ def _draw1Objects():
 
 def _draw2Objects():
     # 100 points sin function, plotted as green dots
-    data1 = 2.*Numeric.pi*Numeric.arange(200)/200.
+    data1 = 2.*_Numeric.pi*_Numeric.arange(200)/200.
     data1.shape = (100, 2)
-    data1[:,1] = Numeric.sin(data1[:,0])
+    data1[:,1] = _Numeric.sin(data1[:,0])
     line1 = PolyLine(data1, legend='Green Line', colour='green', width=6, style=wx.DOT)
 
     # 50 points cos function, plotted as red dot-dash
-    data1 = 2.*Numeric.pi*Numeric.arange(100)/100.
+    data1 = 2.*_Numeric.pi*_Numeric.arange(100)/100.
     data1.shape = (50,2)
-    data1[:,1] = Numeric.cos(data1[:,0])
+    data1[:,1] = _Numeric.cos(data1[:,0])
     line2 = PolyLine(data1, legend='Red Line', colour='red', width=3, style= wx.DOT_DASH)
 
     # A few more points...
-    pi = Numeric.pi
+    pi = _Numeric.pi
     markers1 = PolyMarker([(0., 0.), (pi/4., 1.), (pi/2, 0.),
                           (3.*pi/4., -1)], legend='Cross Hatch Square', colour='blue', width= 3, size= 6,
                           fillcolour= 'red', fillstyle= wx.CROSSDIAG_HATCH,
@@ -1284,7 +1445,7 @@ def _draw3Objects():
 
 def _draw4Objects():
     # 25,000 point line
-    data1 = Numeric.arange(5e5,1e6,10)
+    data1 = _Numeric.arange(5e5,1e6,10)
     data1.shape = (25000, 2)
     line1 = PolyLine(data1, legend='Wide Line', colour='green', width=5)
 
@@ -1299,6 +1460,25 @@ def _draw5Objects():
     line1 = PolyLine(points, legend='Wide Line', colour='green', width=5)
     return PlotGraphics([line1], "Empty Plot With Just Axes", "Value X", "Value Y")
 
+def _draw6Objects():
+    # Bar graph
+    points1=[(1,0), (1,10)]
+    line1 = PolyLine(points1, colour='green', legend='Feb.', width=10)
+    points1g=[(2,0), (2,4)]
+    line1g = PolyLine(points1g, colour='red', legend='Mar.', width=10)
+    points1b=[(3,0), (3,6)]
+    line1b = PolyLine(points1b, colour='blue', legend='Apr.', width=10)
+
+    points2=[(4,0), (4,12)]
+    line2 = PolyLine(points2, colour='Yellow', legend='May', width=10)
+    points2g=[(5,0), (5,8)]
+    line2g = PolyLine(points2g, colour='orange', legend='June', width=10)
+    points2b=[(6,0), (6,4)]
+    line2b = PolyLine(points2b, colour='brown', legend='July', width=10)
+
+    return PlotGraphics([line1, line1g, line1b, line2, line2g, line2b],
+                        "Bar Graph - (Turn on Grid, Legend)", "Months", "Number of Students")
+
 
 class TestFrame(wx.Frame):
     def __init__(self, parent, id, title):
@@ -1336,6 +1516,9 @@ class TestFrame(wx.Frame):
         self.Bind(wx.EVT_MENU,self.OnPlotDraw4, id=209)
         menu.Append(210, 'Draw5', 'Draw plots5')
         self.Bind(wx.EVT_MENU,self.OnPlotDraw5, id=210)
+        menu.Append(260, 'Draw6', 'Draw plots6')
+        self.Bind(wx.EVT_MENU,self.OnPlotDraw6, id=260)
+       
 
         menu.Append(211, '&Redraw', 'Redraw plots')
         self.Bind(wx.EVT_MENU,self.OnPlotRedraw, id=211)
@@ -1348,7 +1531,10 @@ class TestFrame(wx.Frame):
         menu.Append(215, 'Enable &Grid', 'Turn on Grid', kind=wx.ITEM_CHECK)
         self.Bind(wx.EVT_MENU,self.OnEnableGrid, id=215)
         menu.Append(220, 'Enable &Legend', 'Turn on Legend', kind=wx.ITEM_CHECK)
-        self.Bind(wx.EVT_MENU,self.OnEnableLegend, id=220) 
+        self.Bind(wx.EVT_MENU,self.OnEnableLegend, id=220)
+        menu.Append(222, 'Enable &Point Label', 'Show Closest Point', kind=wx.ITEM_CHECK)
+        self.Bind(wx.EVT_MENU,self.OnEnablePointLabel, id=222)
+       
         menu.Append(225, 'Scroll Up 1', 'Move View Up 1 Unit')
         self.Bind(wx.EVT_MENU,self.OnScrUp, id=225) 
         menu.Append(230, 'Scroll Rt 2', 'Move View Right 2 Units')
@@ -1369,14 +1555,58 @@ class TestFrame(wx.Frame):
         self.CreateStatusBar(1)
         
         self.client = PlotCanvas(self)
+        #define the function for drawing pointLabels
+        self.client.SetPointLabelFunc(self.DrawPointLabel)
         # Create mouse event for showing cursor coords in status bar
         self.client.Bind(wx.EVT_LEFT_DOWN, self.OnMouseLeftDown)
+        # Show closest point when enabled
+        self.client.Bind(wx.EVT_MOTION, self.OnMotion)
+
         self.Show(True)
 
+    def DrawPointLabel(self, dc, mDataDict):
+        """This is the fuction that defines how the pointLabels are plotted
+            dc - DC that will be passed
+            mDataDict - Dictionary of data that you want to use for the pointLabel
+
+            As an example I have decided I want a box at the curve point
+            with some text information about the curve plotted below.
+            Any wxDC method can be used.
+        """
+        # ----------
+        dc.SetPen(wx.Pen(wx.BLACK))
+        dc.SetBrush(wx.Brush( wx.BLACK, wx.SOLID ) )
+        
+        sx, sy = mDataDict["scaledXY"] #scaled x,y of closest point
+        dc.DrawRectangle( sx-5,sy-5, 10, 10)  #10by10 square centered on point
+        px,py = mDataDict["pointXY"]
+        cNum = mDataDict["curveNum"]
+        pntIn = mDataDict["pIndex"]
+        legend = mDataDict["legend"]
+        #make a string to display
+        s = "Crv# %i, '%s', Pt. (%.2f,%.2f), PtInd %i" %(cNum, legend, px, py, pntIn)
+        dc.DrawText(s, sx , sy+1)
+        # -----------
+
     def OnMouseLeftDown(self,event):
         s= "Left Mouse Down at Point: (%.4f, %.4f)" % self.client.GetXY(event)
         self.SetStatusText(s)
-        event.Skip()
+        event.Skip()            #allows plotCanvas OnMouseLeftDown to be called
+
+    def OnMotion(self, event):
+        #show closest point (when enbled)
+        if self.client.GetEnablePointLabel() == True:
+            #make up dict with info for the pointLabel
+            #I've decided to mark the closest point on the closest curve
+            dlst= self.client.GetClosetPoint( self.client.GetXY(event), pointScaled= True)
+            if dlst != []:    #returns [] if none
+                curveNum, legend, pIndex, pointXY, scaledXY, distance = dlst
+                #make up dictionary to pass to my user function (see DrawPointLabel) 
+                mDataDict= {"curveNum":curveNum, "legend":legend, "pIndex":pIndex,\
+                            "pointXY":pointXY, "scaledXY":scaledXY}
+                #pass dict to update the pointLabel
+                self.client.UpdatePointLabel(mDataDict)
+        event.Skip()           #go to next handler
 
     def OnFilePageSetup(self, event):
         self.client.PageSetup()
@@ -1414,12 +1644,12 @@ class TestFrame(wx.Frame):
         self.resetDefaults()
         drawObj= _draw4Objects()
         self.client.Draw(drawObj)
-##            # profile
-##            start = time.clock()            
-##            for x in range(10):
-##                self.client.Draw(drawObj)
-##            print "10 plots of Draw4 took: %f sec."%(time.clock() - start)
-##            # profile end
+##        # profile
+##        start = _time.clock()            
+##        for x in range(10):
+##            self.client.Draw(drawObj)
+##        print "10 plots of Draw4 took: %f sec."%(_time.clock() - start)
+##        # profile end
 
     def OnPlotDraw5(self, event):
         # Empty plot with just axes
@@ -1429,6 +1659,15 @@ class TestFrame(wx.Frame):
         # (default with None is X= (-1,1), Y= (-1,1))
         self.client.Draw(drawObj, xAxis= (0,5), yAxis= (0,10))
 
+    def OnPlotDraw6(self, event):
+        #Bar Graph Example
+        self.resetDefaults()
+        #self.client.SetEnableLegend(True)   #turn on Legend
+        #self.client.SetEnableGrid(True)     #turn on Grid
+        self.client.SetXSpec('none')        #turns off x-axis scale
+        self.client.SetYSpec('auto')
+        self.client.Draw(_draw6Objects(), xAxis= (0,7))
+
     def OnPlotRedraw(self,event):
         self.client.Redraw()
 
@@ -1449,6 +1688,9 @@ class TestFrame(wx.Frame):
     def OnEnableLegend(self, event):
         self.client.SetEnableLegend(event.IsChecked())
 
+    def OnEnablePointLabel(self, event):
+        self.client.SetEnablePointLabel(event.IsChecked())
+
     def OnScrUp(self, event):
         self.client.ScrollUp(1)