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Commit | Line | Data |
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9b3d3bc4 | 1 | |
8fa876ca | 2 | import wx |
9b3d3bc4 RD |
3 | |
4 | #---------------------------------------------------------------------- | |
5 | ||
8e425133 | 6 | logicList = [ |
8fa876ca RD |
7 | ('wx.AND', wx.AND), |
8 | ('wx.AND_INVERT', wx.AND_INVERT), | |
9 | ('wx.AND_REVERSE', wx.AND_REVERSE), | |
10 | ('wx.CLEAR', wx.CLEAR), | |
11 | ('wx.COPY', wx.COPY), | |
12 | ('wx.EQUIV', wx.EQUIV), | |
13 | ('wx.INVERT', wx.INVERT), | |
14 | ('wx.NAND', wx.NAND), | |
8e425133 RD |
15 | |
16 | # this one causes an assert on wxGTK, and doesn't seem to | |
17 | # do much on MSW anyway, so I'll just take it out.... | |
18 | #('wxNOR', wxNOR), | |
19 | ||
8fa876ca RD |
20 | ('wx.NO_OP', wx.NO_OP), |
21 | ('wx.OR', wx.OR), | |
22 | ('wx.OR_INVERT', wx.OR_INVERT), | |
23 | ('wx.OR_REVERSE', wx.OR_REVERSE), | |
24 | ('wx.SET', wx.SET), | |
25 | ('wx.SRC_INVERT', wx.SRC_INVERT), | |
26 | ('wx.XOR', wx.XOR), | |
8e425133 | 27 | ] |
9b3d3bc4 | 28 | |
96bfd053 RD |
29 | import images |
30 | ||
8fa876ca | 31 | class TestMaskWindow(wx.ScrolledWindow): |
9b3d3bc4 | 32 | def __init__(self, parent): |
8fa876ca RD |
33 | wx.ScrolledWindow.__init__(self, parent, -1) |
34 | self.SetBackgroundColour(wx.Colour(0,128,0)) | |
9b3d3bc4 RD |
35 | |
36 | # A reference bitmap that we won't mask | |
96bfd053 | 37 | self.bmp_nomask = images.getTestStar2Bitmap() |
9b3d3bc4 RD |
38 | |
39 | # One that we will | |
96bfd053 | 40 | self.bmp_withmask = images.getTestStar2Bitmap() |
9b3d3bc4 RD |
41 | |
42 | # this mask comes from a monochrome bitmap | |
0482c494 | 43 | self.bmp_themask = images.getTestMaskBitmap() |
8fa876ca | 44 | mask = wx.Mask(self.bmp_themask) |
9b3d3bc4 RD |
45 | |
46 | # set the mask on our bitmap | |
47 | self.bmp_withmask.SetMask(mask) | |
48 | ||
49 | # Now we'll create a mask in a bit of an easier way, by picking a | |
50 | # colour in the image that is to be the transparent colour. | |
96bfd053 | 51 | self.bmp_withcolourmask = images.getTestStar2Bitmap() |
8fa876ca | 52 | mask = wx.MaskColour(self.bmp_withcolourmask, wx.WHITE) |
9b3d3bc4 RD |
53 | self.bmp_withcolourmask.SetMask(mask) |
54 | ||
f6bcfd97 | 55 | self.SetScrollbars(20, 20, 700/20, 460/20) |
9b3d3bc4 | 56 | |
8fa876ca | 57 | self.Bind(wx.EVT_PAINT, self.OnPaint) |
9b3d3bc4 RD |
58 | |
59 | ||
60 | def OnPaint (self, e): | |
5cd7ab8d | 61 | self.SetBackgroundColour(wx.Colour(0,128,0)) |
8fa876ca | 62 | dc = wx.PaintDC(self) |
9b3d3bc4 | 63 | self.PrepareDC(dc) |
8fa876ca | 64 | dc.SetTextForeground(wx.WHITE) |
9b3d3bc4 RD |
65 | |
66 | # make an interesting background... | |
8fa876ca | 67 | dc.SetPen(wx.MEDIUM_GREY_PEN) |
9b3d3bc4 | 68 | for i in range(100): |
fd3f2efe | 69 | dc.DrawLine((0,i*10), (i*10,0)) |
9b3d3bc4 RD |
70 | |
71 | # draw raw image, mask, and masked images | |
fd3f2efe RD |
72 | dc.DrawText('original image', (0,0)) |
73 | dc.DrawBitmap(self.bmp_nomask, (0,20), 0) | |
74 | dc.DrawText('with colour mask', (0,100)) | |
75 | dc.DrawBitmap(self.bmp_withcolourmask, (0,120), 1) | |
76 | dc.DrawText('the mask image', (0,200)) | |
77 | dc.DrawBitmap(self.bmp_themask, (0,220), 0) | |
78 | dc.DrawText('masked image', (0,300)) | |
79 | dc.DrawBitmap(self.bmp_withmask, (0,320), 1) | |
9b3d3bc4 RD |
80 | |
81 | cx,cy = self.bmp_themask.GetWidth(), self.bmp_themask.GetHeight() | |
82 | ||
83 | # draw array of assorted blit operations | |
8fa876ca | 84 | mdc = wx.MemoryDC() |
8e425133 | 85 | i = 0 |
8fa876ca | 86 | |
8e425133 | 87 | for text, code in logicList: |
854862f5 | 88 | x,y = 120+150*(i%4), 20+100*(i/4) |
fd3f2efe | 89 | dc.DrawText(text, (x, y-20)) |
9b3d3bc4 | 90 | mdc.SelectObject(self.bmp_withcolourmask) |
fd3f2efe | 91 | dc.Blit((x,y), (cx,cy), mdc, (0,0), code, True) |
8e425133 | 92 | i = i + 1 |
9b3d3bc4 RD |
93 | |
94 | ||
299647ac | 95 | # On wxGTK there needs to be a panel under wx.ScrolledWindows if they are |
b166c703 | 96 | # going to be in a wxNotebook... |
8fa876ca | 97 | class TestPanel(wx.Panel): |
b166c703 | 98 | def __init__(self, parent, ID): |
8fa876ca | 99 | wx.Panel.__init__(self, parent, ID) |
b166c703 | 100 | self.win = TestMaskWindow(self) |
8fa876ca | 101 | self.Bind(wx.EVT_SIZE, self.OnSize) |
b166c703 RD |
102 | |
103 | def OnSize(self, evt): | |
104 | self.win.SetSize(evt.GetSize()) | |
9b3d3bc4 RD |
105 | |
106 | ||
107 | #---------------------------------------------------------------------- | |
108 | ||
109 | def runTest(frame, nb, log): | |
b166c703 | 110 | win = TestPanel(nb, -1) |
9b3d3bc4 RD |
111 | return win |
112 | ||
113 | #---------------------------------------------------------------------- | |
114 | ||
115 | ||
9b3d3bc4 | 116 | overview = """\ |
8fa876ca RD |
117 | This class encapsulates a monochrome mask bitmap, where the masked area is black |
118 | and the unmasked area is white. When associated with a bitmap and drawn in a device | |
119 | context, the unmasked area of the bitmap will be drawn, and the masked area will | |
120 | not be drawn. | |
121 | ||
122 | This example shows not only how to create a Mask, but the effects of the Device | |
123 | Context (dc) <code>Blit()</code> method's logic codes. | |
9b3d3bc4 | 124 | """ |
1e4a197e RD |
125 | |
126 | ||
127 | ||
128 | if __name__ == '__main__': | |
129 | import sys,os | |
130 | import run | |
8eca4fef | 131 | run.main(['', os.path.basename(sys.argv[0])] + sys.argv[1:]) |
1e4a197e | 132 |