pixelisation v2
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ghost-diagrams-0.8.py
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1112
ghost-diagrams-0.8.py
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haacheuur.daube.py
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268
haacheuur.daube.py
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#!/usr/bin/python
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# coding: utf-8
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# haacheuur 0.24
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# port industriel de port la nouvelle - couleur - 60cm*30cm
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# image source : pln.jpg
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# image obtenue : pln..20150910-11h59m53s.jpg
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# pln.png 3936x1024 pix
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'''
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image input puredata : 16384 width x 768 height
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donc par exemple, pour 3 images :
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3 x 16384 = 49152 pixels en tout
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'''
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import sys
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import Image
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import random
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import os
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import ImageDraw
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import ImageFont
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import ImageFilter
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from time import gmtime, strftime
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import time
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if not len(sys.argv) > 1:
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raise SystemExit("Usage: %s image_source" % sys.argv[0])
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# modifs du 30/10/2013
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import ImageEnhance
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#rapport d'allongement de la nouvelle image par rapport à la largeur de l'image originale
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allongement = 1
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#ouverture de l'image source et conversion en mode couleur 1bit
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#1 bit (sys.argv[1])).convert('1') et niveaux de gris : (sys.argv[1])).convert('L')
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im1 = Image.open(str(sys.argv[1]))
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im2 = im1.copy()
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im3 = Image.new("RGBA",(im1.size[0], im1.size[1]))
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im5 = Image.new("RGBA",(im1.size[0], im1.size[1]))
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im4 = Image.new("RGBA",(im1.size[0]*allongement, im1.size[1]))
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#im4 = Image.new("RGBA",(49152, im1.size[1]))
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Larg = im1.size[0]
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Haut = im1.size[1]
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import pickle
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loadfile = False
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class Sequence:
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def __init__(s):
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randomCoupeHauteur = []
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s.randomCopyPosi =[]
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s.proportions=[]
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s.choix=[]
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s.sizeOutput=None
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s.sizeInput=None
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"""
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seq = dict()
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seq["randomCoupeHauteur"] = []
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seq["randomCopyPosi"] = []
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seq["proportions"] = []
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seq["choix"] = []
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seq["sizeOutput"]= im4.size
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seq["sizeInput"] = im1.size
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"""
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if loadfile:
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seq=pickle.load(open("test.pickle"))
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else :
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seq=Sequence()
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for i in range(1):
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# constitution de la liste des tranches horizontales
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# genre comme si qu'on avait un 16 pistes :)
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# nombre aleatoire compris dans les limites de l'image
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def randHaut():
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return random.randint(0, im1.size[1]/8)*8
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if loadfile:
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randomCoupeHauteur = seq.randomCoupeHauteur
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else:
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randomCoupeHauteur = [0, \
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randHaut(),randHaut(),randHaut(),randHaut(), \
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randHaut(),randHaut(),randHaut(),randHaut(), \
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randHaut(),randHaut(),randHaut(),randHaut(), \
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randHaut(),randHaut(),randHaut(),randHaut(), \
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randHaut(),randHaut(),randHaut(),randHaut(), \
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randHaut(),randHaut(),randHaut(),randHaut(), \
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randHaut(),randHaut(),randHaut(),randHaut(), \
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randHaut(),randHaut(),randHaut(),randHaut(), \
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im1.size[1]]
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# rangement des valeurs des plus petites au plus grandes
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randomCoupeHauteur.sort()
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seq.randomCoupeHauteur = randomCoupeHauteur
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# les hachures
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def Hacheur(haut, bas) :
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n=0
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i=0
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#!!!!!!!!!!
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while n<im4.size[0] :
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if loadfile:
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proportions = seq.proportions
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choix_rnd = seq.choix[i]
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randomCopyPosi = seq.randomCopyPosi[i]
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else:
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'''
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8 16 24 32 40 48 56 64 72 80 88 96 104 112 120 128 136 144 152 160 168
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'''
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#proportions = [(160,6),(120,4),(120,8),(80,16),(60,16),(20,32),(8,24),(8,16),(5,64),(3,24),(2,24),(1,256),(1,128),(1,64),(1,32),(1,16),(1,8)]
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#proportions = [(160,6),(120,4),(120,8),(80,16),(60,16),(20,32),(8,24),(8,16),(5,64),(3,24),(2,24),(1,256),(1,128),(1,64),(1,32),(1,16),(1,8)]
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#proportions = [(1280,1),(800,1),(800,2),(640,1),(640,2),(640,4),(320,4),(320,2),(320,1),(160,1),(120,2),(120,3),(80,6),(64,12),(64,6),(32,4),(32,8),(32,16),(32,32),(32,64)]
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proportions = [(16,2),(8,2),(4,2),(2,2),(1,2)]
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#proportion pln pour output final avec puredata/gem (decalage phase 32pix)
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'''
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proportions = [ (768,2),\
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(512,4),\
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(256,8),\
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(128,4),(128,16),\
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(64,4),(64,8),(64,16),\
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(32,8),(32,16),(32,32),(32,32),(32,64),(32,128),\
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(16,1),(16,4),(16,16),(16,64)]
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'''
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#proportions = [(512,1),(256,2),(128,4),(64,8),(64,4),(32,16),(32,32),(32,8),(16,8),(16,32),(8,64),(8,32),(8,16)]
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#proportions = [(32,1),(32,2),(32,3),(32,4),(32,5),(32,6),(32,8),(32,12),(32,16),(32,24),(32,32),(32,64)]
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seq.proportions = proportions
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#proportions = seq.proportions[]
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choix_rnd = random.randint(0, len(proportions)-1)
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#choix_rnd = random.randint(0, len(proportions)-1)
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seq.choix.append(choix_rnd)
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largeur = proportions[choix_rnd][0]
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# positionnement de la copie, aleatoirement, entre 0 et la largeur totale de l'image
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randomCopyPosi = random.randint(0, (im1.size[0]-largeur))
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#randomCopyPosi = seq.randomCopyPosi
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seq.randomCopyPosi.append(randomCopyPosi)
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i+=1
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# tirage au sort
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#seq["choix"].append(choix_rnd)
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# assignation des valeurs (paires) finales choisies
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largeur = proportions[choix_rnd][0]
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repeat = proportions[choix_rnd][1]
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#seq["randomCopyPosi"].append(randomCopyPosi)
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# pixellisation : choix de la taille du pixel = pixelSize
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#pixelSizeList = [1,1,1,1,1,1,1,1,4,8]
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pixelSizeList = [1,2,4,8]
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pixelSizeIndex = random.randint(0,len(pixelSizeList)-1)
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pixelSize = pixelSizeList[pixelSizeIndex]
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cropfinal = [largeur,bas-haut]
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hauteur = bas-haut
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'''
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haut gauche(0,0).
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haut droit (largeur-1 , 0).
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bas gauche (0 , hauteur-1).
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bas droit (largeur-1, hauteur-1)
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'''
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if largeur % pixelSize != 0:
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croop = largeur / pixelSize
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largeur = (int(croop) + 1 ) * pixelSize
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if hauteur % pixelSize != 0:
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croop2 = hauteur / pixelSize
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hauteur = (int(croop2) + 1 ) * pixelSize
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# decoupage du sample
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im5 = im2.crop((randomCopyPosi,haut,randomCopyPosi+largeur,haut+hauteur))
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'''COLLAGE DU SAMPLE '''
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loop = 0
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while loop<repeat:
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px1 = n
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px2 = n + largeur
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# draw = ImageDraw.Draw(im3)
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''' PIXELISATION'''
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im5 = im5.resize((im3.size[0]/pixelSize, im3.size[1]/pixelSize), Image.NEAREST)
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im5 = im5.resize((im3.size[0]*pixelSize, im3.size[1]*pixelSize), Image.NEAREST)
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im3 = im5.crop(0,0,cropfinal[0]-1,cropfinal[1]-1)
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#lignes colorées de 1 pix
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draw.line((im3.size[0]-1, 0, im3.size[0]-1, im3.size[1]-1), fill="rgb(255,255,255)")
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im4.paste(im3, (px1, haut, px2, bas))
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n = n + largeur
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loop = loop + 1
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''' OPTIONS'''
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def TrancheHorizontale() :
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# tirage au hasard de la bande copiee
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pos = random.randint(0, im1.size[1]-im1.size[1]/20)
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# copiage
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im5 = im2.crop((0,pos,im1.size[0],pos+im1.size[1]/20))
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# le soulignage en blanc
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draw = ImageDraw.Draw(im5)
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draw.line((0, im5.size[1]-1, im5.size[0], im5.size[1]-1), fill="black")
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draw.line((0, 1, im5.size[0], 1), fill="black")
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# collage
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im4.paste(im5, (0,pos,im1.size[0],pos+im1.size[1]/20))
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# HAACHEUUR
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for j in range(len(randomCoupeHauteur)-1):
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Hacheur(randomCoupeHauteur[j], randomCoupeHauteur[j+1])
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''' SAUVEGARDE
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'''
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# CTRL + S
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#chemin du script : scriptpy = sys.argv[0]
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#chemin de l'image : str(sys.argv[1])
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scriptpy = str(sys.argv[1])
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script = scriptpy[:-3]
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n = "%05d" % i
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im4.save(script+"."+n+"_"+strftime("%Y%m%d-%Hh%Mm%Ss", gmtime())+".png",'PNG', quality=100)
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#pickle.dump(seq, open("test.pickle","w"))
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pickle.dump(seq, open(script+"."+n+"_"+strftime("%Y%m%d-%Hh%Mm%Ss", gmtime())+".pickle","w"))
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#print script+"."+str(i)+"_"+strftime("%Y%m%d-%Hh%Mm%Ss", gmtime())+".jpg"
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#millis = int(round(time.time() * 1000))
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#print "millis-secondes : "+str(millis)
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#obtenir les valeurs RGB des pixels de l'image
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'''
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from PIL import Image
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im = Image.open('test.png')
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pixels = list(im.getdata())
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width, height = im.size
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pixels = [pixels[i * width:(i + 1) * width] for i in xrange(height)]
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for r in range(0, height-1) :
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print "pixels = "+str(pixels[r])
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print " "
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print "len(pixels) = "+str(len(pixels))
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print "width = "+str(width)
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print "height = "+str(height)
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print " "
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#tintin = im.tostring( "raw", "RGBA", 0, -1)
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#print "tostring = "+tintin
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'''
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haacheuur.py
156
haacheuur.py
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#im1 = Image.open(str(sys.argv[1])).convert('L')
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#im1 = Image.open(str(sys.argv[1])).convert('L')
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im1 = Image.open(str(sys.argv[1]))
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im1 = Image.open(str(sys.argv[1]))
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im2 = im1.copy()
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im2 = im1.copy()
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im3 = Image.new("RGBA",(im1.size[0], im1.size[1]))
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im4 = Image.new("RGBA",(im1.size[0]*allongement, im1.size[1]))
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im4 = Image.new("RGBA",(im1.size[0]*allongement, im1.size[1]))
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im5 = Image.new("RGBA",(im1.size[0]*allongement, im1.size[1]))
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boutImage = Image.new("RGBA",(im1.size[0], im1.size[1]))
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boutImage = Image.new("RGBA",(im1.size[0], im1.size[1]))
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pix2 = im3.resize((im3.size[0]/2, im3.size[1]/2), Image.NEAREST)
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pix4 = im3.resize((im3.size[0]/4, im3.size[1]/4), Image.NEAREST)
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pix8 = im3.resize((im3.size[0]/8, im3.size[1]/8), Image.NEAREST)
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pix16 = im3.resize((im3.size[0]/16, im3.size[1]/16), Image.NEAREST)
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pix32 = im3.resize((im3.size[0]/32, im3.size[1]/32), Image.NEAREST)
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pix64 = im3.resize((im3.size[0]/64, im3.size[1]/64), Image.NEAREST)
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pix128 = im3.resize((im3.size[0]/128, im3.size[1]/128), Image.NEAREST)
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pix256 = im3.resize((im3.size[0]/256, im3.size[1]/256), Image.NEAREST)
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pix512 = im3.resize((im3.size[0]/512, im3.size[1]/512), Image.NEAREST)
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pix1024 = im3.resize((im3.size[0]/1024, im3.size[1]/1024), Image.NEAREST)
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Larg = im1.size[0]
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Larg = im1.size[0]
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Haut = im1.size[1]
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Haut = im1.size[1]
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import pickle
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import pickle
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else :
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else :
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seq=Sequence()
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seq=Sequence()
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'''
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for i in range(1):
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for i in range(1):
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'''
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# constitution de la liste des tranches horizontales
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# constitution de la liste des tranches horizontales
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# genre comme si qu'on avait un 16 pistes :)
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# genre comme si qu'on avait un 16 pistes :)
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# nombre aleatoire compris dans les limites de l'image
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# nombre aleatoire compris dans les limites de l'image
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def randHaut():
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def randHaut():
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return random.randint(0, im1.size[1]/16)*16
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return random.randint(0, im1.size[1]/32)*32
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if loadfile:
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if loadfile:
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randomCoupeHauteur = seq.randomCoupeHauteur
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randomCoupeHauteur = seq.randomCoupeHauteur
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else:
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else:
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randomCoupeHauteur = [0, \
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randomCoupeHauteur = [0, \
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randHaut(),randHaut(),randHaut(),randHaut(), \
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randHaut(),randHaut(),randHaut(),randHaut(), \
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randHaut(),randHaut(),randHaut(),randHaut(), \
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randHaut(),randHaut(),randHaut(),randHaut(), \
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@ -107,8 +99,8 @@ for i in range(1):
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randomCoupeHauteur.sort()
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randomCoupeHauteur.sort()
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seq.randomCoupeHauteur = randomCoupeHauteur
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seq.randomCoupeHauteur = randomCoupeHauteur
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# les hachures
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# les hachures
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def Hacheur(haut, bas) :
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def Hacheur(haut, bas) :
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n=0
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n=0
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i=0
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i=0
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@ -126,7 +118,26 @@ for i in range(1):
|
|||||||
#proportions = [(160,6),(120,4),(120,8),(80,16),(60,16),(20,32),(8,24),(8,16),(5,64),(3,24),(2,24),(1,256),(1,128),(1,64),(1,32),(1,16),(1,8)]
|
#proportions = [(160,6),(120,4),(120,8),(80,16),(60,16),(20,32),(8,24),(8,16),(5,64),(3,24),(2,24),(1,256),(1,128),(1,64),(1,32),(1,16),(1,8)]
|
||||||
#proportions = [(2560,1),(1280,2),(1280,1),(640,2),(640,1),(320,4),(320,2),(160,6),(160,2),(120,4),(120,8),(120,1),(80,16),(80,4),(64,16),(64,8),(64,1),(24,32),(24,16),(16,32),(16,16),(16,8),(16,2),(16,1),(8,24),(8,16),(8,8),(8,4),(8,2),(8,1)]
|
#proportions = [(2560,1),(1280,2),(1280,1),(640,2),(640,1),(320,4),(320,2),(160,6),(160,2),(120,4),(120,8),(120,1),(80,16),(80,4),(64,16),(64,8),(64,1),(24,32),(24,16),(16,32),(16,16),(16,8),(16,2),(16,1),(8,24),(8,16),(8,8),(8,4),(8,2),(8,1)]
|
||||||
#proportions = [(2560,1),(1280,2),(1280,1),(640,2),(640,1),(320,4),(320,2),(160,6),(160,2),(120,4),(120,8),(120,1),(80,16),(80,4),(64,16),(64,8),(64,1),(32,1),(32,2),(32,4),(32,8),(32,32),(16,1),(16,2),(16,4),(16,16),(16,32)]
|
#proportions = [(2560,1),(1280,2),(1280,1),(640,2),(640,1),(320,4),(320,2),(160,6),(160,2),(120,4),(120,8),(120,1),(80,16),(80,4),(64,16),(64,8),(64,1),(32,1),(32,2),(32,4),(32,8),(32,32),(16,1),(16,2),(16,4),(16,16),(16,32)]
|
||||||
proportions = [(2560,1),(1280,2),(1280,1),(640,2),(640,1),(320,4),(320,2),(160,6),(160,2),(120,4),(120,8),(120,1),(80,16),(80,4),(64,16),(64,8),(64,1),(32,1),(32,2),(32,4),(32,8),(32,32),(16,1),(16,2),(16,4),(16,16),(16,32)]
|
#proportions = [(2560,1),(1280,2),(1280,1),(640,2),(640,1),(320,4),(320,2),(160,6),(160,2),(120,4),(120,8),(120,1),(80,16),(80,4),(64,16),(64,8),(64,1),(32,1),(32,2),(32,4),(32,8),(32,32),(16,1),(16,2),(16,4),(16,16),(16,32)]
|
||||||
|
proportions = [ (16,2),(16,4),(16,8),(16,16),(16,32),\
|
||||||
|
(32,8),(32,16),(32,32),\
|
||||||
|
(64,4),(64,8),(64,16),\
|
||||||
|
(128,2),(128,4),(128,8),\
|
||||||
|
(256,1),(256,2),(256,4),\
|
||||||
|
(512,1),(512,2),\
|
||||||
|
(1024,1),(1024,2),\
|
||||||
|
(2048,1)]
|
||||||
|
|
||||||
|
|
||||||
|
'''
|
||||||
|
proportions = [ (768,2),\
|
||||||
|
(512,4),\
|
||||||
|
(256,8),\
|
||||||
|
(128,4),(128,16),\
|
||||||
|
(64,4),(64,8),(64,16),\
|
||||||
|
(32,8),(32,16),(32,32),(32,32),(32,64),(32,128),\
|
||||||
|
(16,1),(16,4),(16,16),(16,64)]
|
||||||
|
'''
|
||||||
|
|
||||||
'''
|
'''
|
||||||
1,2,4,8,16,32,64,128,256,512,1024
|
1,2,4,8,16,32,64,128,256,512,1024
|
||||||
@ -159,8 +170,6 @@ for i in range(1):
|
|||||||
|
|
||||||
cx1 = randomCopyPosi
|
cx1 = randomCopyPosi
|
||||||
cx2 = randomCopyPosi + largeur
|
cx2 = randomCopyPosi + largeur
|
||||||
# decoupage du sample
|
|
||||||
im3 = im2.crop((cx1,haut,cx2,bas))
|
|
||||||
#print "im3 = im2.crop : "+str(im3.size)
|
#print "im3 = im2.crop : "+str(im3.size)
|
||||||
|
|
||||||
draw = ImageDraw.Draw(im4)
|
draw = ImageDraw.Draw(im4)
|
||||||
@ -168,52 +177,66 @@ for i in range(1):
|
|||||||
loop = 0
|
loop = 0
|
||||||
|
|
||||||
#pixelSizeList = [1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,2,2,4,4,8]
|
#pixelSizeList = [1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,2,2,4,4,8]
|
||||||
pixelSizeList = [1,1,1,1,4,8,16]
|
pixelSizeList = [1,1,1,1,1,1,1,1,1,1,2,2,4,8,16]
|
||||||
|
pixelSizeIndex = random.randint(0,len(pixelSizeList)-1)
|
||||||
|
pixelSize = pixelSizeList[pixelSizeIndex]
|
||||||
|
|
||||||
#print " pixelSize = "+str(pixelSize)
|
#print " pixelSize = "+str(pixelSize)
|
||||||
|
|
||||||
|
|
||||||
|
cropfinal = [largeur,bas-haut]
|
||||||
|
hauteur = bas-haut
|
||||||
|
|
||||||
|
'''
|
||||||
|
haut gauche(0,0).
|
||||||
|
haut droit (largeur-1 , 0).
|
||||||
|
bas gauche (0 , hauteur-1).
|
||||||
|
bas droit (largeur-1, hauteur-1)
|
||||||
|
'''
|
||||||
|
|
||||||
|
if largeur % pixelSize != 0:
|
||||||
|
croop = largeur / pixelSize
|
||||||
|
largeur = (int(croop) + 1 ) * pixelSize
|
||||||
|
|
||||||
|
if hauteur % pixelSize != 0:
|
||||||
|
croop2 = hauteur / pixelSize
|
||||||
|
hauteur = (int(croop2) + 1 ) * pixelSize
|
||||||
|
|
||||||
|
# decoupage du sample
|
||||||
|
im5 = im2.crop((randomCopyPosi,haut,randomCopyPosi+largeur,haut+hauteur))
|
||||||
|
im3 = im2.crop((cx1,haut,cx2,bas))
|
||||||
|
|
||||||
''' COLLAGE DU SAMPLE
|
''' COLLAGE DU SAMPLE
|
||||||
'''
|
'''
|
||||||
|
|
||||||
boutImage = im3
|
#boutImage = im3
|
||||||
|
#im3 = Image.new("RGBA",(im1.size[0], im1.size[1]))
|
||||||
while loop<repeat:
|
|
||||||
|
|
||||||
px1 = n
|
|
||||||
px2 = n + largeur
|
|
||||||
|
|
||||||
pixelSizeIndex = random.randint(0,len(pixelSizeList)-1)
|
|
||||||
pixelSize = pixelSizeList[pixelSizeIndex]
|
|
||||||
|
|
||||||
''' PIXELISATION '''
|
''' PIXELISATION '''
|
||||||
|
if pixelSize > 1 :
|
||||||
|
im5 = im5.resize((im3.size[0]/pixelSize, im3.size[1]/pixelSize), Image.NEAREST)
|
||||||
|
im5 = im5.resize((im3.size[0]*pixelSize, im3.size[1]*pixelSize), Image.NEAREST)
|
||||||
|
|
||||||
boutImage = im3.resize((im3.size[0]/pixelSize, im3.size[1]/pixelSize), Image.ANTIALIAS)
|
im3 = im5.crop((0,0,cropfinal[0],cropfinal[1]))
|
||||||
boutImage = boutImage.resize((im3.size[0], im3.size[1]), Image.NEAREST)
|
|
||||||
|
|
||||||
|
while loop<repeat:
|
||||||
|
px1 = n
|
||||||
|
px2 = n + largeur
|
||||||
#lignes colorées de 1 pix
|
#lignes colorées de 1 pix
|
||||||
# draw = ImageDraw.Draw(boutImage)
|
#draw = ImageDraw.Draw(boutImage)
|
||||||
# draw.line((0,0,0,4), fill="rgb(128,128,128)")
|
#draw.line((0,0,0,4), fill="rgb(128,128,128)")
|
||||||
# draw.line((0,0,4,0), fill="rgb(128,128,128)")
|
|
||||||
|
|
||||||
im4.paste(boutImage, (px1, haut, px2, bas))
|
draw = ImageDraw.Draw(im3)
|
||||||
|
draw.line((0, 0, largeur-1, 0), fill="rgb(255,255,255)")
|
||||||
|
draw.line((largeur-1, 0, largeur-1, bas-haut), fill="rgb(255,255,255)")
|
||||||
|
|
||||||
pix2 pix4 pix8 pix16 pix32 pix64 pix128 pix256 pix512 pix1024
|
im4.paste(im3, (px1, haut, px2, bas))
|
||||||
|
|
||||||
'''
|
|
||||||
draw = ImageDraw.Draw(im4)
|
|
||||||
draw.line((px1-2, haut, px1+2, haut), fill="rgb(0,0,0)")
|
|
||||||
draw.line((px1, haut-2, px1, haut+2), fill="rgb(0,0,0)")
|
|
||||||
|
|
||||||
draw.line((px1-2, bas-1, px1+2, bas-1), fill="rgb(0,0,0)")
|
|
||||||
draw.line((px1, bas-2, px1, bas+2), fill="rgb(0,0,0)")
|
|
||||||
'''
|
|
||||||
|
|
||||||
n = n + largeur
|
n = n + largeur
|
||||||
loop = loop + 1
|
loop = loop + 1
|
||||||
|
|
||||||
''' OPTIONS '''
|
''' OPTIONS '''
|
||||||
def TrancheHorizontale() :
|
def TrancheHorizontale() :
|
||||||
# tirage au hasard de la bande copiee
|
# tirage au hasard de la bande copiee
|
||||||
pos = random.randint(0, im1.size[1]-im1.size[1]/20)
|
pos = random.randint(0, im1.size[1]-im1.size[1]/20)
|
||||||
# copiage
|
# copiage
|
||||||
@ -227,21 +250,22 @@ for i in range(1):
|
|||||||
# collage
|
# collage
|
||||||
im4.paste(im5, (0,pos,im1.size[0],pos+im1.size[1]/20))
|
im4.paste(im5, (0,pos,im1.size[0],pos+im1.size[1]/20))
|
||||||
|
|
||||||
# HAACHEUUR
|
# HAACHEUUR
|
||||||
for j in range(len(randomCoupeHauteur)-1):
|
for j in range(len(randomCoupeHauteur)-1):
|
||||||
Hacheur(randomCoupeHauteur[j], randomCoupeHauteur[j+1])
|
Hacheur(randomCoupeHauteur[j], randomCoupeHauteur[j+1])
|
||||||
|
|
||||||
''' SAUVEGARDE '''
|
''' SAUVEGARDE '''
|
||||||
# CTRL + S
|
# CTRL + S
|
||||||
#chemin du script : scriptpy = sys.argv[0]
|
#chemin du script : scriptpy = sys.argv[0]
|
||||||
#chemin de l'image : str(sys.argv[1])
|
#chemin de l'image : str(sys.argv[1])
|
||||||
scriptpy = str(sys.argv[1])
|
scriptpy = str(sys.argv[1])
|
||||||
script = scriptpy[:-3]
|
script = scriptpy[:-3]
|
||||||
n = "%05d" % i
|
#n = "%05d" % i
|
||||||
im4.save(script+"."+n+"_"+strftime("%Y%m%d-%Hh%Mm%Ss", gmtime())+".png",'PNG', quality=100)
|
n = "1.1"
|
||||||
pickle.dump(seq, open(script+"."+n+"_"+strftime("%Y%m%d-%Hh%Mm%Ss", gmtime())+".pickle","w"))
|
im4.save(script+"."+n+"_"+strftime("%Y%m%d-%Hh%Mm%Ss", gmtime())+".png",'PNG', quality=100)
|
||||||
|
pickle.dump(seq, open(script+"."+n+"_"+strftime("%Y%m%d-%Hh%Mm%Ss", gmtime())+".pickle","w"))
|
||||||
|
|
||||||
#print script+"."+str(i)+"_"+strftime("%Y%m%d-%Hh%Mm%Ss", gmtime())+".jpg"
|
#print script+"."+str(i)+"_"+strftime("%Y%m%d-%Hh%Mm%Ss", gmtime())+".jpg"
|
||||||
#millis = int(round(time.time() * 1000))
|
#millis = int(round(time.time() * 1000))
|
||||||
#print "millis-secondes : "+str(millis)
|
#print "millis-secondes : "+str(millis)
|
||||||
|
|
||||||
|
271
hacheur.py
Normal file
271
hacheur.py
Normal file
@ -0,0 +1,271 @@
|
|||||||
|
#!/usr/bin/python
|
||||||
|
# coding: utf-8
|
||||||
|
|
||||||
|
# haacheuur 0.24
|
||||||
|
# port industriel de port la nouvelle - couleur - 60cm*30cm
|
||||||
|
# image source : pln.jpg
|
||||||
|
# image obtenue : pln..20150910-11h59m53s.jpg
|
||||||
|
|
||||||
|
import sys
|
||||||
|
import Image
|
||||||
|
import random
|
||||||
|
import os
|
||||||
|
import ImageDraw
|
||||||
|
import ImageFont
|
||||||
|
import ImageFilter
|
||||||
|
from time import gmtime, strftime
|
||||||
|
import time
|
||||||
|
|
||||||
|
# modifs du 30/10/2013
|
||||||
|
import ImageEnhance
|
||||||
|
|
||||||
|
'''
|
||||||
|
multiples 1024 : 1024 2048 3072 4096 5120 6144 7168 8192 9216 10240
|
||||||
|
multiples 768 : 768 1536 2304 3072 3840 4608 5376 6144 6912 7680 8448 9216 9984 10752
|
||||||
|
|
||||||
|
'''
|
||||||
|
|
||||||
|
|
||||||
|
#rapport d'allongement de la nouvelle image par rapport à la largeur de l'image originale
|
||||||
|
allongement = 2
|
||||||
|
|
||||||
|
#ouvertrure de l'image source et conversion en mode couleur 1bit
|
||||||
|
#im1 = Image.open(str(sys.argv[1])).convert('1')
|
||||||
|
#im1 = Image.open(str(sys.argv[1])).convert('L')
|
||||||
|
im1 = Image.open(str(sys.argv[1]))
|
||||||
|
im2 = im1.copy()
|
||||||
|
|
||||||
|
im4 = Image.new("RGBA",(im1.size[0]*allongement, im1.size[1]))
|
||||||
|
im5 = Image.new("RGBA",(im1.size[0]*allongement, im1.size[1]))
|
||||||
|
|
||||||
|
boutImage = Image.new("RGBA",(im1.size[0], im1.size[1]))
|
||||||
|
|
||||||
|
Larg = im1.size[0]
|
||||||
|
Haut = im1.size[1]
|
||||||
|
import pickle
|
||||||
|
|
||||||
|
loadfile = False
|
||||||
|
|
||||||
|
class Sequence:
|
||||||
|
def __init__(s):
|
||||||
|
randomCoupeHauteur = []
|
||||||
|
s.randomCopyPosi =[]
|
||||||
|
s.proportions=[]
|
||||||
|
s.choix=[]
|
||||||
|
s.sizeOutput=None
|
||||||
|
s.sizeInput=None
|
||||||
|
|
||||||
|
"""
|
||||||
|
seq = dict()
|
||||||
|
seq["randomCoupeHauteur"] = []
|
||||||
|
seq["randomCopyPosi"] = []
|
||||||
|
seq["proportions"] = []
|
||||||
|
seq["choix"] = []
|
||||||
|
seq["sizeOutput"]= im4.size
|
||||||
|
seq["sizeInput"] = im1.size
|
||||||
|
"""
|
||||||
|
if loadfile:
|
||||||
|
seq=pickle.load(open("test.pickle"))
|
||||||
|
|
||||||
|
else :
|
||||||
|
seq=Sequence()
|
||||||
|
|
||||||
|
'''
|
||||||
|
for i in range(1):
|
||||||
|
'''
|
||||||
|
|
||||||
|
|
||||||
|
# constitution de la liste des tranches horizontales
|
||||||
|
# genre comme si qu'on avait un 16 pistes :)
|
||||||
|
# nombre aleatoire compris dans les limites de l'image
|
||||||
|
def randHaut():
|
||||||
|
return random.randint(0, im1.size[1]/32)*32
|
||||||
|
|
||||||
|
if loadfile:
|
||||||
|
randomCoupeHauteur = seq.randomCoupeHauteur
|
||||||
|
|
||||||
|
else:
|
||||||
|
randomCoupeHauteur = [0, \
|
||||||
|
randHaut(),randHaut(),randHaut(),randHaut(), \
|
||||||
|
randHaut(),randHaut(),randHaut(),randHaut(), \
|
||||||
|
randHaut(),randHaut(),randHaut(),randHaut(), \
|
||||||
|
randHaut(),randHaut(),randHaut(),randHaut(), \
|
||||||
|
randHaut(),randHaut(),randHaut(),randHaut(), \
|
||||||
|
randHaut(),randHaut(),randHaut(),randHaut(), \
|
||||||
|
randHaut(),randHaut(),randHaut(),randHaut(), \
|
||||||
|
randHaut(),randHaut(),randHaut(),randHaut(), \
|
||||||
|
im1.size[1]]
|
||||||
|
# rangement des valeurs des plus petites au plus grandes
|
||||||
|
randomCoupeHauteur.sort()
|
||||||
|
seq.randomCoupeHauteur = randomCoupeHauteur
|
||||||
|
|
||||||
|
# les hachures
|
||||||
|
def Hacheur(haut, bas) :
|
||||||
|
|
||||||
|
n=0
|
||||||
|
i=0
|
||||||
|
#!!!!!!!!!!
|
||||||
|
while n<im4.size[0] :
|
||||||
|
|
||||||
|
if loadfile:
|
||||||
|
proportions = seq.proportions
|
||||||
|
choix_rnd = seq.choix[i]
|
||||||
|
randomCopyPosi = seq.randomCopyPosi[i]
|
||||||
|
else:
|
||||||
|
'''
|
||||||
|
8 16 24 32 40 48 56 64 72 80 88 96 104 112 120 128 136 144 152 160 168
|
||||||
|
'''
|
||||||
|
#proportions = [(160,6),(120,4),(120,8),(80,16),(60,16),(20,32),(8,24),(8,16),(5,64),(3,24),(2,24),(1,256),(1,128),(1,64),(1,32),(1,16),(1,8)]
|
||||||
|
#proportions = [(2560,1),(1280,2),(1280,1),(640,2),(640,1),(320,4),(320,2),(160,6),(160,2),(120,4),(120,8),(120,1),(80,16),(80,4),(64,16),(64,8),(64,1),(24,32),(24,16),(16,32),(16,16),(16,8),(16,2),(16,1),(8,24),(8,16),(8,8),(8,4),(8,2),(8,1)]
|
||||||
|
#proportions = [(2560,1),(1280,2),(1280,1),(640,2),(640,1),(320,4),(320,2),(160,6),(160,2),(120,4),(120,8),(120,1),(80,16),(80,4),(64,16),(64,8),(64,1),(32,1),(32,2),(32,4),(32,8),(32,32),(16,1),(16,2),(16,4),(16,16),(16,32)]
|
||||||
|
#proportions = [(2560,1),(1280,2),(1280,1),(640,2),(640,1),(320,4),(320,2),(160,6),(160,2),(120,4),(120,8),(120,1),(80,16),(80,4),(64,16),(64,8),(64,1),(32,1),(32,2),(32,4),(32,8),(32,32),(16,1),(16,2),(16,4),(16,16),(16,32)]
|
||||||
|
proportions = [ (16,2),(16,4),(16,8),(16,16),(16,32),\
|
||||||
|
(32,8),(32,16),(32,32),\
|
||||||
|
(64,4),(64,8),(64,16),\
|
||||||
|
(128,2),(128,4),(128,8),\
|
||||||
|
(256,1),(256,2),(256,4),\
|
||||||
|
(512,1),(512,2),\
|
||||||
|
(1024,1),(1024,2),\
|
||||||
|
(2048,1)]
|
||||||
|
|
||||||
|
|
||||||
|
'''
|
||||||
|
proportions = [ (768,2),\
|
||||||
|
(512,4),\
|
||||||
|
(256,8),\
|
||||||
|
(128,4),(128,16),\
|
||||||
|
(64,4),(64,8),(64,16),\
|
||||||
|
(32,8),(32,16),(32,32),(32,32),(32,64),(32,128),\
|
||||||
|
(16,1),(16,4),(16,16),(16,64)]
|
||||||
|
'''
|
||||||
|
|
||||||
|
'''
|
||||||
|
1,2,4,8,16,32,64,128,256,512,1024
|
||||||
|
'''
|
||||||
|
|
||||||
|
seq.proportions = proportions
|
||||||
|
#proportions = seq.proportions[]
|
||||||
|
choix_rnd = random.randint(0, len(proportions)-1)
|
||||||
|
#choix_rnd = random.randint(0, len(proportions)-1)
|
||||||
|
seq.choix.append(choix_rnd)
|
||||||
|
|
||||||
|
largeur = proportions[choix_rnd][0]
|
||||||
|
|
||||||
|
# positionnement de la copie, aleatoirement, entre 0 et la largeur totale de l'image
|
||||||
|
randomCopyPosi = random.randint(0, (im1.size[0]-largeur))
|
||||||
|
#randomCopyPosi = seq.randomCopyPosi
|
||||||
|
seq.randomCopyPosi.append(randomCopyPosi)
|
||||||
|
|
||||||
|
i+=1
|
||||||
|
|
||||||
|
# tirage au sort
|
||||||
|
|
||||||
|
#seq["choix"].append(choix_rnd)
|
||||||
|
|
||||||
|
# assignation des valeurs (paires) finales choisies
|
||||||
|
largeur = proportions[choix_rnd][0]
|
||||||
|
repeat = proportions[choix_rnd][1]
|
||||||
|
|
||||||
|
#seq["randomCopyPosi"].append(randomCopyPosi)
|
||||||
|
|
||||||
|
cx1 = randomCopyPosi
|
||||||
|
cx2 = randomCopyPosi + largeur
|
||||||
|
#print "im3 = im2.crop : "+str(im3.size)
|
||||||
|
|
||||||
|
draw = ImageDraw.Draw(im4)
|
||||||
|
|
||||||
|
loop = 0
|
||||||
|
|
||||||
|
#pixelSizeList = [1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,2,2,4,4,8]
|
||||||
|
pixelSizeList = [1,1,1,1,1,1,1,1,1,1,2,2,4,8,16]
|
||||||
|
pixelSizeIndex = random.randint(0,len(pixelSizeList)-1)
|
||||||
|
pixelSize = pixelSizeList[pixelSizeIndex]
|
||||||
|
|
||||||
|
#print " pixelSize = "+str(pixelSize)
|
||||||
|
|
||||||
|
|
||||||
|
cropfinal = [largeur,bas-haut]
|
||||||
|
hauteur = bas-haut
|
||||||
|
|
||||||
|
'''
|
||||||
|
haut gauche(0,0).
|
||||||
|
haut droit (largeur-1 , 0).
|
||||||
|
bas gauche (0 , hauteur-1).
|
||||||
|
bas droit (largeur-1, hauteur-1)
|
||||||
|
'''
|
||||||
|
|
||||||
|
if largeur % pixelSize != 0:
|
||||||
|
croop = largeur / pixelSize
|
||||||
|
largeur = (int(croop) + 1 ) * pixelSize
|
||||||
|
|
||||||
|
if hauteur % pixelSize != 0:
|
||||||
|
croop2 = hauteur / pixelSize
|
||||||
|
hauteur = (int(croop2) + 1 ) * pixelSize
|
||||||
|
|
||||||
|
# decoupage du sample
|
||||||
|
im5 = im2.crop((randomCopyPosi,haut,randomCopyPosi+largeur,haut+hauteur))
|
||||||
|
im3 = im2.crop((cx1,haut,cx2,bas))
|
||||||
|
|
||||||
|
''' COLLAGE DU SAMPLE
|
||||||
|
'''
|
||||||
|
|
||||||
|
#boutImage = im3
|
||||||
|
#im3 = Image.new("RGBA",(im1.size[0], im1.size[1]))
|
||||||
|
|
||||||
|
''' PIXELISATION '''
|
||||||
|
if pixelSize > 1 :
|
||||||
|
im5 = im5.resize((im3.size[0]/pixelSize, im3.size[1]/pixelSize), Image.NEAREST)
|
||||||
|
im5 = im5.resize((im3.size[0]*pixelSize, im3.size[1]*pixelSize), Image.NEAREST)
|
||||||
|
|
||||||
|
im3 = im5.crop((0,0,cropfinal[0],cropfinal[1]))
|
||||||
|
|
||||||
|
while loop<repeat:
|
||||||
|
px1 = n
|
||||||
|
px2 = n + largeur
|
||||||
|
#lignes colorées de 1 pix
|
||||||
|
#draw = ImageDraw.Draw(boutImage)
|
||||||
|
#draw.line((0,0,0,4), fill="rgb(128,128,128)")
|
||||||
|
|
||||||
|
draw = ImageDraw.Draw(im3)
|
||||||
|
draw.line((0, 0, largeur-1, 0), fill="rgb(255,255,255)")
|
||||||
|
draw.line((largeur-1, 0, largeur-1, bas-haut), fill="rgb(255,255,255)")
|
||||||
|
|
||||||
|
im4.paste(im3, (px1, haut, px2, bas))
|
||||||
|
|
||||||
|
n = n + largeur
|
||||||
|
loop = loop + 1
|
||||||
|
|
||||||
|
''' OPTIONS '''
|
||||||
|
def TrancheHorizontale() :
|
||||||
|
# tirage au hasard de la bande copiee
|
||||||
|
pos = random.randint(0, im1.size[1]-im1.size[1]/20)
|
||||||
|
# copiage
|
||||||
|
im5 = im2.crop((0,pos,im1.size[0],pos+im1.size[1]/20))
|
||||||
|
|
||||||
|
# le soulignage en blanc
|
||||||
|
draw = ImageDraw.Draw(im5)
|
||||||
|
draw.line((0, im5.size[1]-1, im5.size[0], im5.size[1]-1), fill="black")
|
||||||
|
draw.line((0, 1, im5.size[0], 1), fill="black")
|
||||||
|
|
||||||
|
# collage
|
||||||
|
im4.paste(im5, (0,pos,im1.size[0],pos+im1.size[1]/20))
|
||||||
|
|
||||||
|
# HAACHEUUR
|
||||||
|
for j in range(len(randomCoupeHauteur)-1):
|
||||||
|
Hacheur(randomCoupeHauteur[j], randomCoupeHauteur[j+1])
|
||||||
|
|
||||||
|
''' SAUVEGARDE '''
|
||||||
|
# CTRL + S
|
||||||
|
#chemin du script : scriptpy = sys.argv[0]
|
||||||
|
#chemin de l'image : str(sys.argv[1])
|
||||||
|
scriptpy = str(sys.argv[1])
|
||||||
|
script = scriptpy[:-3]
|
||||||
|
#n = "%05d" % i
|
||||||
|
n = "1.1"
|
||||||
|
im4.save(script+"."+n+"_"+strftime("%Y%m%d-%Hh%Mm%Ss", gmtime())+".png",'PNG', quality=100)
|
||||||
|
pickle.dump(seq, open(script+"."+n+"_"+strftime("%Y%m%d-%Hh%Mm%Ss", gmtime())+".pickle","w"))
|
||||||
|
|
||||||
|
#print script+"."+str(i)+"_"+strftime("%Y%m%d-%Hh%Mm%Ss", gmtime())+".jpg"
|
||||||
|
#millis = int(round(time.time() * 1000))
|
||||||
|
#print "millis-secondes : "+str(millis)
|
||||||
|
|
15010
test.pickle
15010
test.pickle
File diff suppressed because it is too large
Load Diff
Loading…
Reference in New Issue
Block a user