Mercurial > ift6266
changeset 111:259439a4f9e7
Changed a bit the code for BruitGauss.py for simplicity
author | Xavier Glorot <glorotxa@iro.umontreal.ca> |
---|---|
date | Tue, 16 Feb 2010 17:24:21 -0500 |
parents | 93b4b84d86cf |
children | 1b315470a566 |
files | transformations/BruitGauss.py |
diffstat | 1 files changed, 21 insertions(+), 21 deletions(-) [+] |
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--- a/transformations/BruitGauss.py Tue Feb 16 17:12:35 2010 -0500 +++ b/transformations/BruitGauss.py Tue Feb 16 17:24:21 2010 -0500 @@ -35,39 +35,39 @@ self.regenerate_parameters(complexity) def get_settings_names(self): - return ['nb_chng','sigma_gauss','grandeur','effectuer'] + return ['nb_chng','sigma_gauss','grandeur'] def regenerate_parameters(self, complexity): - self.nb_chng=3+int(numpy.random.rand()*self.nb_chngmax*complexity) + self.effectuer =numpy.random.binomial(1,0.25) ##### On a 25% de faire un bruit ##### + - if float(complexity) > 0: + if self.effectuer and complexity > 0: + self.nb_chng=3+int(numpy.random.rand()*self.nb_chngmax*complexity) self.sigma_gauss=2.0 + numpy.random.rand()*self.sigmamax*complexity self.grandeur=12+int(numpy.random.rand()*self.grandeurmax*complexity) - self.effectuer =numpy.random.binomial(1,0.25) ##### On a 25% de faire un bruit ##### + #creation du noyau gaussien + self.gauss=numpy.zeros((self.grandeur,self.grandeur)) + x0 = y0 = self.grandeur/2.0 + for i in xrange(self.grandeur): + for j in xrange(self.grandeur): + self.gauss[i,j]=numpy.exp(-((i-x0)**2 + (j-y0)**2) / self.sigma_gauss**2) + #creation de la fenetre de moyennage + self.moy=numpy.zeros((self.grandeur,self.grandeur)) + x0 = y0 = self.grandeur/2 + for i in xrange(0,self.grandeur): + for j in xrange(0,self.grandeur): + self.moy[i,j]=((numpy.sqrt(2*(self.grandeur/2.0)**2) -\ + numpy.sqrt(numpy.abs(i-self.grandeur/2.0)**2+numpy.abs(j-self.grandeur/2.0)**2))/numpy.sqrt((self.grandeur/2.0)**2))**5 else: - self.effectuer = 0 self.sigma_gauss = 1 # eviter division par 0 self.grandeur=1 - #Un peu de paranoia ici, mais on ne sait jamais + self.nb_chng = 0 + self.effectuer = 0 - #creation du noyau gaussien - self.gauss=numpy.zeros((self.grandeur,self.grandeur)) - x0 = y0 = self.grandeur/2.0 - for i in xrange(self.grandeur): - for j in xrange(self.grandeur): - self.gauss[i,j]=numpy.exp(-((i-x0)**2 + (j-y0)**2) / self.sigma_gauss**2) - #creation de la fenetre de moyennage - self.moy=numpy.zeros((self.grandeur,self.grandeur)) - x0 = y0 = self.grandeur/2 - for i in xrange(0,self.grandeur): - for j in xrange(0,self.grandeur): - self.moy[i,j]=((numpy.sqrt(2*(self.grandeur/2.0)**2) - numpy.sqrt(numpy.abs(i-self.grandeur/2.0)**2+numpy.abs(j-self.grandeur/2.0)**2))/\ - numpy.sqrt((self.grandeur/2.0)**2))**5 - return self._get_current_parameters() def _get_current_parameters(self): - return [self.nb_chng,self.sigma_gauss,self.grandeur,self.effectuer] + return [self.nb_chng,self.sigma_gauss,self.grandeur] def transform_image(self, image):