Mercurial > ift6266
view transformations/affine_transform.py @ 43:05145f4fb609
Added : generation of random character with random font file from a specified folder
author | Guillaume Sicard <guitch21@gmail.com> |
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date | Wed, 03 Feb 2010 21:24:05 -0500 |
parents | 17caecc92544 |
children | 81b9567ec4ae |
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#!/usr/bin/python # coding: utf-8 ''' Simple implementation of random affine transformations based on the Python Imaging Module affine transformations. Author: Razvan Pascanu ''' import numpy, Image class AffineTransformation(): def __init__( self, shape = (32,32), seed = None): self.shape = shape self.rng = numpy.random.RandomState(seed) def transform(self,NIST_image): im = Image.fromarray( \ numpy.asarray(\ NIST_image.reshape(self.shape), dtype='uint8')) # generate random affine transformation # a point (x',y') of the new image corresponds to (x,y) of the old # image where : # x' = params[0]*x + params[1]*y + params[2] # y' = params[3]*x + params[4]*y _ params[5] # the ranges are set manually as to look acceptable params = self.rng.uniform(size = 6) -.5 params[2] *= 8. params[5] *= 8. params[0] = 1. + params[0]*0.4 params[3] = 0. + params[3]*0.4 params[1] = 0 + params[1]*0.4 params[4] = 1 + params[4]*0.4 print params nwim = im.transform( (32,32), Image.AFFINE, params) return numpy.asarray(nwim) if __name__ =='__main__': print 'random test' from pylearn.io import filetensor as ft import pylab datapath = '/data/lisa/data/nist/by_class/' f = open(datapath+'digits/digits_train_data.ft') d = ft.read(f) f.close() transformer = AffineTransformation() id = numpy.random.randint(30) pylab.figure() pylab.imshow(d[id].reshape((32,32))) pylab.figure() pylab.imshow(transformer.transform(d[id]).reshape((32,32))) pylab.show()