""" PyColourChooser Copyright (C) 2002 Michael Gilfix This file is part of PyColourChooser. You should have received a file COPYING containing license terms along with this program; if not, write to Michael Gilfix (mgilfix@eecs.tufts.edu) for a copy. This version of PyColourChooser is open source; you can redistribute it and/or modify it under the terms listed in the file COPYING. This program 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. """ # 12/14/2003 - Jeff Grimmett (grimmtooth@softhome.net) # # o 2.5 compatability update. # # 12/21/2003 - Jeff Grimmett (grimmtooth@softhome.net) # # o wxPyColorChooser -> PyColorChooser # o wxPyColourChooser -> PyColourChooser # o Commented out wx.InitAllImageHandlers() (see comments at that # point for explanation # import wx import canvas import colorsys from wx.lib.embeddedimage import PyEmbeddedImage Image = PyEmbeddedImage( "iVBORw0KGgoAAAANSUhEUgAAAMgAAADACAYAAABBCyzzAAAABHNCSVQICAgIfAhkiAAACwNJ" "REFUeJztnc16o0YQRZHt8SJZJO//lMkiWWQsKwsLK7S49dNdjTyTczYYhBBd7vqoom7B6bIs" "l2VZluW3Zdld/l603fn8n18/ln8u2+Ufy/527/Pe731ffsmdeO+Ave3ZgRUb6tvf+2dXPS08" "670uf9UMqPN7TwsASHAQAAMcBMDgZfn27eOv6+Ju+SKWz2L55CxP+0ux2T2cOg112utSDbfO" "EJ5B1Iidj7OG8AwihnvUtFDDvFnjsYbgCgJggIMAGOAgAAb3Ocjs4DJJVQQajTyPj7aDHGyI" "Lz4tjCPVGoQrCIABDgJggIMAGOg6iFdImBx8Hp173Ocg7Z7twNv19kzagbfri1h3PlaHUz+v" "TlcNz6mDPC4XmT0j9mcGVxAAAxwEwAAHATB4WV5fP/6Kim5+ktxDbT99oah7w8FJ2curvfvP" "l4ugxQJIg4MAGOAgAAZxLdakPhCF1ycw2g3QRpyvn8enH2RZluXbm/lx+ajrc4+aeghXEAAD" "HATAAAcBMIj3pGclSNHcQ4Te7frxWqxo7qEM8qDCUFSD5fWDiBxkVv1jEev+jFAG6RWlUQcB" "CIODABjgIAAGWos1Gmyq0LAz9O69/Z/NRU53BqgSpx2kxeqVHjXbX877H2erQL25yD3ewEcN" "Qj8IQBocBMAABwEwyGuxshKkztC79/b/uszWP+r6QYrqIbPFaF4/yHl3szstekedfz5WVTJG" "DgLQDQ4CYICDABjktVjzRDfmbtV3u3Ud5LXZEtVgTeqEUKF2NhfxNFlNY4yqg1Q9qqAdxiLW" "7z/xkjKlwYp2CNEPAhAGBwEwwEEADOq0WHWim93ds7lHVoq0Zh5P3Q8IU2c0aIiVrCG8XMQp" "DEXrIL1arP46yLEFIa4gAAY4CIABDgJgMP5+kFHxzSm1W7oVO18HyRqi2iDB3SYbItoPMnla" "JPasMgg5CEAYHATAAAcBMND9IKNSJKUd6qyD9GqxYk8/ivSkjxaEOg0yyxC2BKmsDlJkhf8Q" "NUivGA0tFkAYHATAAAcBMIhrsUY1WMGg03sSa7Xipl2/12Jlm/OzFYAgvbf9Oxtjnt/Nj8ty" "kf5+kNmNMeQgAC44CIABDgJgMK7FmhR69z4Pa1SLpftBom/na5dRLVFSi9Uus6flDHPNQWZp" "serrINm+ELRYAMPgIAAGOAiAQb8WS/U+j9/w3v1adT1E9aS/fbVkbOXgOsjL++7m8vpH3Bq9" "FbJscz5aLIAwOAiAAQ4CYFBfBxnMRY7KPfye9KrGmMFcZLQfpK8N4i4HyU6Hur6Qql50etIB" "ysFBAAxwEACDun6Q+hvfu4erijiVFGleP0ixFmt2P8hld3O6PBbNxOJ4BsmK0shBALrBQQAM" "cBAAg7wWKxp0eje6nZ700XqId/tf94O07yj8n70f5Dr8NgfxpkF2WuRTU28mZGeGMsT3zTpX" "EAADHATAAAcBMMhrsXo1WMkb39ncI5uLrMN8uy7r+kGKn0o7GnJn6yBXg3j9INHcI5uL+GQN" "0ZuLvG2+DQA74CAABjgIgIHWYqmgMxpyJ2+AV0uPVMTZ5h7t0n9P+mRDLMHdJhtEabFG+0Dy" "1nisIbiCABjgIAAGOAiAgdZiVd/+n/w4qOxtfxV5PklDZKPwyYYYrYO0A2+2Ky3WqERvUJG2" "883qghDPxQIIg4MAGOAgAAa+FitaBsg2HxdJkGoUNz096UqN1HvnXzB6+z/bGHN9P/qag4zm" "Hu16pyJtZ4/ROog3E86bowDADjgIgAEOAmAQ12KpoHNQctTSq7zJPv1IhN7Lc7chsslZpxZr" "tgHO28MePfp4LtJroJwhuIIAGOAgAAY4CIBBXIvlNXsXS5GqQvBgyL28f66P5h5F9Y+WWQZR" "dZBm8+OtMWqA9UzfxHa0WABpcBAAAxwEwGD8uVjRYDOoyfIUN1EtVhtxruvnZn0d7pqD+D3p" "B0ff1bmHZwCRg3jSPFUei2qxFrFeNyP6DMIVBMAABwEwwEEADMa1WD9Y6L0u29B7XT6XNeMX" "1T9aDjLM02mz+ujpYHxj7ozgCgJggIMAGOAgAAb9WqyDW7CrI84297gt2/vh1e8JObgfRBnA" "McSjcpD6XGRshnAFATDAQQAMcBAAg7wWKxp0eg9A6nwulooslRarVdro3GNdjj4g7IsWhFrD" "KANcn4fV5iC9Twc77rlYSpPl5RzvYv2yORoA7ICDABjgIAAGeS3WaMidJBqCD4bcn8t8HeQH" "6UlPGkLVQR4/LaoLRLYhuIIAGOAgAAY4CIBB/h2Fkx7G2qvBGr39r3OQWYaYpMV6cB2k2go3" "a1Sr83KG4AoCYICDABjgIAAGcS2WEt2MPhdLkK1/nJv1NsK8iPV8HSRqCKVCmtQgowyhDLKu" "twZYD3va7pZNUZUVxqtCngYrWxBSM2V7FADYAQcBMMBBAAzGtVheg0Yy6PRCbi8Xae9mq1Bb" "hN7LRT6VtjopG9RieSG3CrE9g6w/cz1edUe+GoZvld7CkGcYNRO23waAHXAQAAMcBMAgr8XK" "9qT3PwBpc7hshOlprvYjzr0cZPSF8Z1PhBoVp6kmfc8A6880OYhXFRrVYvlEJ1TvTNg3DFcQ" "AAMcBMAABwEw0DnIrGBTPd5I7Jatf7Tr0dxjPf57ug6SrQAk6yFe4cAziCdCEzxdj5d9N+Go" "FuveGmrCZBtkPIPs/y5XEAADHATAAAcBMJjfkx7MPVp6Q2+tsYr93vtddO11RFQlY8ETzIbe" "wZyjpc1BestjRZnYzh7R7LQzCSMHAfDBQQAMcBAAg1s/iLrB7S17JUgOvU9B8hQ23v33y+cR" "R5OxQXFatjEmagBFc9zT9XjZLpj5TyruFaWtZ5z7Ha4gAAY4CIABDgJgcKuDeEHmQRKk0bvd" "7Xr2+Pc5SNYgdXf+zRNdD/ferCvDJI9/uh531Ap15bEqA3gzY3t8riAABjgIgAEOAmCgcxDv" "tQqTQ28VcV7E+noavcf1c5BRg3QWhh5kCJWDPHhaGCfe5iI1BuEKAmCAgwAY4CAABjctlrqB" "nV1mm49Pqd1kKO4R1XZd7rYcbAjvhGcZojnemoOMTousFuveGrMM4R2fHATABQcBMMBBAAxu" "dRBPRBMV2WTFN4JZIXd7WudmXecg3vqoCslhVsjdnt4191hzkNFRZzMyn6whctqr1hBcQQAM" "cBAAAxwEwEDnIF7zd28vemc/SOvJvf0eqnvg9tSkUQMc9GzeVovl0RpAGSSYg1RPj/Y074nW" "QVbaGdLuf27W9w3BFQTAAAcBMMBBAAxuWiwVKlctB2/7exGn2k+9qU6E3ju/4A2o1xCDWqxs" "7uHUPdSr/Kr+7Z0pqUHUEN4v2gbgCgJggIMAGOAgAAa3OogXNEaDSxVsFt3+V/u1t/fV99Wb" "6nQOUmWQSVqs6H5e8iVeozE6yjpreAOLZqfKIPsG4AoCYICDABjgIAAGOgeJ5hCjuYe4/a/W" "leLmJNZb6ZL3xrrL9IEnKwBRg6hkrNMgp3UpzrZ31Pl6iBrIijcjlEFUErZdcgUBMMBBAAxw" "EACDmxZLxbqzlw5qtzaUXpp1FWrHX+F3lAGEQaIDVy9hbLdnDZI8a+/fOzgNAnuqASqDeIbZ" "fgoAO+AgAAY4CIDBrQ7i3W+PBpfR7QL1sYokF2c9u/3+F48yjMOoYToNVv3vHreK+mavAWzD" "cAUBMMBBAAxwEAADnYO0eDHw6Pbk171H0maf1KpzkKO3d359fMC726tH1W+N6JGrDPEBVxAA" "AxwEwAAHATD4F0lpw33hNrduAAAAAElFTkSuQmCC") class PyPalette(canvas.Canvas): """The Pure-Python Palette The PyPalette is a pure python implementation of a colour palette. The palette implementation here imitates the palette layout used by MS Windows and Adobe Photoshop. The actual palette image has been embedded as an XPM for speed. The actual reverse-engineered drawing algorithm is provided in the GeneratePaletteBMP() method. The algorithm is tweakable by supplying the granularity factor to improve speed at the cost of display beauty. Since the generator isn't used in real time, no one will likely care :) But if you need it for some sort of unforeseen realtime application, it's there. """ HORIZONTAL_STEP = 2 VERTICAL_STEP = 4 def __init__(self, parent, id): """Creates a palette object.""" # Load the pre-generated palette XPM # Leaving this in causes warning messages in some cases. # It is the responsibility of the app to init the image # handlers, IAW RD #wx.InitAllImageHandlers() self.palette = Image.GetBitmap() canvas.Canvas.__init__ (self, parent, id, size=(200, 192)) def GetValue(self, x, y): """Returns a colour value at a specific x, y coordinate pair. This is useful for determining the colour found a specific mouse click in an external event handler.""" return self.buffer.GetPixelColour(x, y) def DrawBuffer(self): """Draws the palette XPM into the memory buffer.""" #self.GeneratePaletteBMP ("foo.bmp") self.buffer.DrawBitmap(self.palette, 0, 0, 0) def HighlightPoint(self, x, y): """Highlights an area of the palette with a little circle around the coordinate point""" colour = wx.Colour(0, 0, 0) self.buffer.SetPen(wx.Pen(colour, 1, wx.PENSTYLE_SOLID)) self.buffer.SetBrush(wx.Brush(colour, wx.BRUSHSTYLE_TRANSPARENT)) self.buffer.DrawCircle(x, y, 3) self.Refresh() def GeneratePaletteBMP(self, file_name, granularity=1): """The actual palette drawing algorithm. This used to be 100% reverse engineered by looking at the values on the MS map, but has since been redone Correctly(tm) according to the HSV (hue, saturation, value) colour model by Charl P. Botha . Speed is tweakable by changing the granularity factor, but that affects how nice the output looks (makes the vertical blocks bigger. This method was used to generate the embedded XPM data.""" self.vertical_step = self.VERTICAL_STEP * granularity width, height = self.GetSize () # simply iterate over hue (horizontal) and saturation (vertical) value = 1.0 for y in range(0, height, self.vertical_step): saturation = 1.0 - float(y) / float(height) for x in range(0, width, self.HORIZONTAL_STEP): hue = float(x) / float(width) r,g,b = colorsys.hsv_to_rgb(hue, saturation, value) colour = wx.Colour(int(r * 255.0), int(g * 255.0), int(b * 255.0)) self.buffer.SetPen(wx.Pen(colour, 1, wx.PENSTYLE_SOLID)) self.buffer.SetBrush(wx.Brush(colour, wx.BRUSHSTYLE_SOLID)) self.buffer.DrawRectangle(x, y, self.HORIZONTAL_STEP, self.vertical_step) # this code is now simpler (and works) bitmap = self.buffer.GetBitmap() image = wx.ImageFromBitmap(bitmap) image.SaveFile (file_name, wx.BITMAP_TYPE_XPM)