X-Git-Url: https://git.saurik.com/wxWidgets.git/blobdiff_plain/8b9a4190f70909de9568f45389e7aa3ecbc66b8a..0a5bb138a71dfc1c706fc0858fb2801500e2c2e8:/wxPython/demo/DrawXXXList.py diff --git a/wxPython/demo/DrawXXXList.py b/wxPython/demo/DrawXXXList.py index f22ec2e2d2..5086b14c01 100644 --- a/wxPython/demo/DrawXXXList.py +++ b/wxPython/demo/DrawXXXList.py @@ -1,6 +1,8 @@ -from wxPython.wx import * -import whrandom, time +import random +import time + +import wx #---------------------------------------------------------------------- @@ -28,87 +30,109 @@ colours = [ def makeRandomPoints(num, w, h): pnts = [] + for i in range(num): - x = whrandom.randint(0, w) - y = whrandom.randint(0, h) + x = random.randint(0, w) + y = random.randint(0, h) pnts.append( (x,y) ) + return pnts def makeRandomLines(num, w, h): pnts = [] + for i in range(num): - x1 = whrandom.randint(0, w) - y1 = whrandom.randint(0, h) - x2 = whrandom.randint(0, w) - y2 = whrandom.randint(0, h) + x1 = random.randint(0, w) + y1 = random.randint(0, h) + x2 = random.randint(0, w) + y2 = random.randint(0, h) pnts.append( (x1,y1, x2,y2) ) + return pnts def makeRandomRectangles(num, W, H): rects = [] + for i in range(num): - w = whrandom.randint(10, W/2) - h = whrandom.randint(10, H/2) - x = whrandom.randint(0, W - w) - y = whrandom.randint(0, H - h) + w = random.randint(10, W/2) + h = random.randint(10, H/2) + x = random.randint(0, W - w) + y = random.randint(0, H - h) rects.append( (x, y, w, h) ) + return rects def makeRandomText(num): Np = 8 # number of characters in text text = [] + for i in range(num): word = [] + for i in range(Np): - c = chr( whrandom.randint(48, 122) ) + c = chr( random.randint(48, 122) ) word.append( c ) + text.append( "".join(word) ) + return text def makeRandomPolygons(num, W, H): Np = 8 # number of points per polygon polys = [] + for i in range(num): poly = [] + for i in range(Np): - x = whrandom.randint(0, W) - y = whrandom.randint(0, H) + x = random.randint(0, W) + y = random.randint(0, H) poly.append( (x,y) ) + polys.append( poly ) - return polys + return polys def makeRandomPens(num, cache): pens = [] + for i in range(num): - c = whrandom.choice(colours) - t = whrandom.randint(1, 4) + c = random.choice(colours) + t = random.randint(1, 4) + if not cache.has_key( (c, t) ): - cache[(c, t)] = wxPen(c, t) + cache[(c, t)] = wx.Pen(c, t) + pens.append( cache[(c, t)] ) + return pens def makeRandomBrushes(num, cache): brushes = [] + for i in range(num): - c = whrandom.choice(colours) + c = random.choice(colours) + if not cache.has_key(c): - cache[c] = wxBrush(c) + cache[c] = wx.Brush(c) + brushes.append( cache[c] ) + return brushes def makeRandomColors(num): colors = [] + for i in range(num): - c = whrandom.choice(colours) - colors.append(wxNamedColor(c)) + c = random.choice(colours) + colors.append(wx.NamedColour(c)) return colors @@ -141,11 +165,13 @@ def Init(w, h, n): # make some lists of random shapes points = makeRandomPoints(n, w, h) + try: import Numeric Apoints = Numeric.array(points) except: pass + lines = makeRandomLines(n, w, h) rectangles = makeRandomRectangles(n, w, h) polygons = makeRandomPolygons(n, w, h) @@ -163,10 +189,10 @@ def Init(w, h, n): def TestPoints(dc,log): dc.BeginDrawing() start = time.time() - dc.SetPen(wxPen("BLACK", 4)) + dc.SetPen(wx.Pen("BLACK", 4)) dc.DrawPointList(points) - dc.DrawPointList(points, wxPen("RED", 2)) + dc.DrawPointList(points, wx.Pen("RED", 2)) dc.DrawPointList(points, pens) dc.EndDrawing() @@ -179,10 +205,12 @@ def TestArrayPoints(dc,log): dc.BeginDrawing() start = time.time() - dc.SetPen(wxPen("BLACK", 1)) + dc.SetPen(wx.Pen("BLACK", 1)) + for i in range(1): dc.DrawPointList(Apoints) - #dc.DrawPointList(Apoints, wxPen("RED", 2)) + + #dc.DrawPointList(Apoints, wx.Pen("RED", 2)) #dc.DrawPointList(Apoints, pens) dc.EndDrawing() log.write("DrawTime: %s seconds with DrawPointList an Numpy Array\n" % (time.time() - start)) @@ -195,9 +223,9 @@ def TestLines(dc,log): dc.BeginDrawing() start = time.time() - dc.SetPen(wxPen("BLACK", 2)) + dc.SetPen(wx.Pen("BLACK", 2)) dc.DrawLineList(lines) - dc.DrawLineList(lines, wxPen("RED", 2)) + dc.DrawLineList(lines, wx.Pen("RED", 2)) dc.DrawLineList(lines, pens) dc.EndDrawing() @@ -208,8 +236,8 @@ def TestRectangles(dc,log): dc.BeginDrawing() start = time.time() - dc.SetPen( wxPen("BLACK",1) ) - dc.SetBrush( wxBrush("RED") ) + dc.SetPen( wx.Pen("BLACK",1) ) + dc.SetBrush( wx.Brush("RED") ) dc.DrawRectangleList(rectangles) dc.DrawRectangleList(rectangles,pens) @@ -228,8 +256,8 @@ def TestEllipses(dc,log): dc.BeginDrawing() start = time.time() - dc.SetPen( wxPen("BLACK",1) ) - dc.SetBrush( wxBrush("RED") ) + dc.SetPen( wx.Pen("BLACK",1) ) + dc.SetBrush( wx.Brush("RED") ) dc.DrawEllipseList(rectangles) dc.DrawEllipseList(rectangles,pens) @@ -249,7 +277,7 @@ def TestRectanglesArray(dc,log): dc.BeginDrawing() start = time.time() - dc.SetPen(wxPen("BLACK", 1)) + dc.SetPen(wx.Pen("BLACK", 1)) dc.DrawRectangleList(rectangles) dc.DrawRectangleList(rectangles,pens) dc.DrawRectangleList(rectangles,pens[0],brushes) @@ -274,10 +302,12 @@ def TestRectanglesLoop(dc,log): log.write("DrawTime: %s seconds with DrawRectanglesList\n" % (time.time() - start)) start = time.time() + for i in range(len(rectangles)): dc.SetPen( pens[i] ) dc.SetBrush( brushes[i] ) dc.DrawRectangle(rectangles[i][0],rectangles[i][1],rectangles[i][2],rectangles[i][3]) + dc.EndDrawing() log.write("DrawTime: %s seconds with Python loop\n" % (time.time() - start)) @@ -286,7 +316,7 @@ def TestPolygons(dc,log): dc.BeginDrawing() start = time.time() - dc.SetPen(wxPen("BLACK", 1)) + dc.SetPen(wx.Pen("BLACK", 1)) dc.DrawPolygonList(polygons) dc.DrawPolygonList(polygons,pens) dc.DrawPolygonList(polygons,pens[0],brushes) @@ -303,7 +333,7 @@ def TestText(dc,log): start = time.time() # NOTE: you need to set BackgroundMode for the background colors to be used. - dc.SetBackgroundMode(wxSOLID) + dc.SetBackgroundMode(wx.SOLID) foreground = colors1 background = colors2 dc.DrawTextList(text, points, foreground, background) @@ -314,14 +344,17 @@ def TestText(dc,log): -class TestNB(wxNotebook): +class TestNB(wx.Notebook): def __init__(self, parent, id, log): - style = wxNB_BOTTOM - if wxPlatform == "__WXMAC__": + style = wx.NB_BOTTOM + + if wx.Platform == "__WXMAC__": style = 0 - wxNotebook.__init__(self, parent, id, style=style) + + wx.Notebook.__init__(self, parent, id, style=style) self.log = log + # Initialize our various samples and add them to the notebook. win = DrawPanel(self, TestEllipses, log) self.AddPage(win, 'Ellipses') @@ -340,19 +373,21 @@ class TestNB(wxNotebook): win = DrawPanel(self, TestRectangles, log) self.AddPage(win, 'Rectangles') - -class DrawPanel(wxPanel): +# Class used for all the various sample pages; the mechanics are the same +# for each one with regards to the notebook. The only difference is +# the function we use to draw on it. +class DrawPanel(wx.Panel): def __init__(self, parent, drawFun, log): - wxPanel.__init__(self, parent, -1) - self.SetBackgroundColour(wxWHITE) + wx.Panel.__init__(self, parent, -1) + self.SetBackgroundColour(wx.WHITE) self.log = log self.drawFun = drawFun - EVT_PAINT(self, self.OnPaint) + self.Bind(wx.EVT_PAINT, self.OnPaint) def OnPaint(self, evt): - dc = wxPaintDC(self) + dc = wx.PaintDC(self) dc.Clear() self.drawFun(dc,self.log) @@ -373,7 +408,7 @@ def runTest(frame, nb, log): overview = """\ -Some methods have been added to wxDC to help with optimization of +Some methods have been added to wx.DC to help with optimization of drawing routines. Currently they are:
@@ -414,5 +449,5 @@ drawing routines.  Currently they are:
 if __name__ == '__main__':
     import sys,os
     import run
-    run.main(['', os.path.basename(sys.argv[0])])
+    run.main(['', os.path.basename(sys.argv[0])] + sys.argv[1:])