denoising.py/code/mainwithiface.py

400 lines
12 KiB
Python

# ~*~ encoding: utf-8 ~*~ #
###########################
# TRAITEMENT D'IMAGES #
###########################
# classes
from BMPFile import *
from Noise import *
from tests import *
import random
import sys
from os import system as sh
import time
# test par défaut puis quitte
# defaultTest();
# exit();
# arrêt si moins de 2 arguments
if len(sys.argv) < 3:
print "Require 2 args : \n* input image\n* output image"
exit()
import pygtk
pygtk.require('2.0')
import gtk
from interface.Explorateur import *
class Interface:
#DEFINITION DES EVENEMENT BOUTON
def evnmt_quitter(self, widget, donnees = None):
print "Evnmt delete survenu"
gtk.main_quit()
def evnmt_exploreur(self, widget, donnees = None):
self.name = select_file() #stoque le nom du fichier selection dans cette variable
self.libelle.set_label("fichier selectionne : " + self.name)
def evnmt_refresh_text(self, widget, donnees = None):
print "Evenement refresh"
print self.bouton3.get_label()
print self.diag.get_text()
self.bouton3.set_label(self.diag.get_text())
#EVENEMENT COMBOBOX
def changed_cb(self, widget):
print "coucou toi"
str1 = self.get_active_text(widget)
self.traitement_img(str1)
def get_active_text(self, widget):
modele = widget.get_model()
est_actif = widget.get_active()
if est_actif < 0:
return None
return modele[est_actif][0]
#fonction qui repere l option choisit
def traitement_img(self, str1):
interfaceSelection(self.combo.get_active())
def __init__(self):
self.fen = gtk.Window(gtk.WINDOW_TOPLEVEL)
self.fen.set_title("Traitement d image")
self.fen.set_default_size(500, 500)
self.fen.connect("delete_event", self.evnmt_quitter)
#creation du libelle
self.libelle = gtk.Label("Aucun fichier selectionnee")
#creation de la zone de dialogue
#self.diag = gtk.Entry(0)
self.diag = gtk.Entry(0)
self.diag.set_text("nom du fichier qui contiendra la nouvelle image")
#Creationd une combo box
self.combo = gtk.combo_box_new_text()
self.combo.set_wrap_width(4);self.combo.set_entry_text_column(1)
self.combo.set_column_span_column(10);
self.combo.append_text( "Traitement à effectuer:" );
self.combo.append_text( "*** TESTS DE FICHIER ***" );
self.combo.append_text( "Creation manuelle" );
self.combo.append_text( "Parse/Unparse" );
self.combo.append_text( "Afficher palette" );
self.combo.append_text( "" );
self.combo.append_text( "*** TESTS DE BRUIT ***" );
self.combo.append_text( "Salt&Pepper" );
self.combo.append_text( "Additif (Bernouilli)" );
self.combo.append_text( "Additif (Gaussien)" );
self.combo.append_text( "" );
self.combo.append_text( "*** TESTS DE DIFFERENCES ***" );
self.combo.append_text( "Difference en %" );
self.combo.append_text( "SNR (origine/bruit)" );
self.combo.append_text( "Difference en image" );
self.combo.append_text( "Fusion d'images (+)" );
self.combo.append_text( "Fusion d'images (-)" );
self.combo.append_text( "" );
self.combo.append_text( "*** TESTS DE FORMES ***" );
self.combo.append_text( "Reveler une teinte" );
self.combo.append_text( "Colorer une forme" );
self.combo.append_text( "Colorer les formes" );
self.combo.append_text( "Relever les contours" );
self.combo.append_text( "" );
self.combo.append_text( "*** TESTS DE FILTRES ***" );
self.combo.append_text( "Filtre moyen" );
self.combo.append_text( "Laplace" );
self.combo.append_text( "Roberts" );
self.combo.append_text( "Prewitt" );
self.combo.append_text( "Sobel" );
self.combo.append_text( "Convolution" );
self.combo.append_text( "bichrome" );
self.combo.append_text( "Passe Haut" );
self.combo.connect('changed', self.changed_cb)
self.combo.set_active(0);
#creation des boutons
self.bouton = gtk.Button("Explorateur de fichier")
self.bouton2 = gtk.Button("Quitter le programme")
self.bouton3 = gtk.Button("Texte entree")
self.bouton.connect("clicked", self.evnmt_exploreur)
self.bouton2.connect("clicked", self.evnmt_quitter)
self.bouton3.connect("clicked", self.evnmt_refresh_text)
self.box = gtk.VBox(False, 0)
self.box1 = gtk.HBox(False, 0)
self.box2 = gtk.HBox(False, 0)
self.fen.add(self.box)
#Gestion des differents elements de la fenetre
#box 1 permet de creer deux elements sur la meme igne de box
self.box1.pack_start(self.bouton, True, True, 0) #bouton d explorateur
self.box1.pack_start(self.bouton2, True, True, 0)#bouton pour quitter le porogramme
self.box.pack_start(self.box1, True, True, 0) #ajout d une boite dans une boite
self.box.pack_start(self.libelle, True, True, 0) #ajout du libelle contenant le chemin ou non du fichier selectionnne
self.box.pack_start(self.box2, True, True, 0)
self.box2.pack_start(self.diag, True, True, 0)
self.box.pack_start(self.bouton3)
self.box.pack_start(self.combo)
self.bouton.show()
self.bouton2.show()
self.bouton3.show()
self.libelle.show()
self.diag.show()
self.combo.show()
self.box.show()
self.box1.show()
self.box2.show()
self.fen.show()
def boucle(self):
gtk.main()
m = Interface()
################" INTERFACE "###################
def interfaceSelection(action):
startStr = "\n+---------------------------+---------+"
result = ""
execTime = Timer(); execTime.reset();
# fichier
if action == 2:
w = raw_input("width [100]: ")
h = raw_input("height [100]: ")
arg1, arg2 = 100, 100
if w != "":
arg1 = int(w)
if h != "":
arg2 = int(h)
print startStr
testManualCreation(image1, arg1, arg2) # teste la création d'un fichier à partir d'une matrice uniquement
elif action == 3:
print startStr
result = testFileIntegrity(image1) # teste le PARSE/UNPARSE
elif action == 4:
print startStr
result = printIntPalette(image1) # affiche la palette d'une image
# bruits
elif action == 7:
inS = raw_input("seuil bruitage [50]: ")
outS = raw_input("seuil débruitage [1] : ")
outB = raw_input("borne débruitage [1] : ")
s = raw_input("Lissage ? (0-1): ")
arg1, arg2, arg3, arg4 = 50, 1, 1, 1
if inS != "":
arg1 = int(inS)
if outS != "":
arg2 = int(outS)
if outB != "":
arg3 = int(outB)
if s != "":
arg4 = int(s)
print startStr
testSaltAndPepper(image1, arg1, arg2, arg3, arg4) # teste le bruitage/débruitage de type "Sel & Poivre"
elif action == 8:
inS = raw_input("seuil bruitage [10]: ")
outS = raw_input("seuil débruitage [35] : ")
arg1, arg2 = 10, 35
if inS != "":
arg1 = int(inS)
if outS != "":
arg2 = int(outS)
print startStr
testAdditiveBernouilliNoise(image1, arg1, arg2) # teste le bruitage/débruitage de type "Additif"
elif action == 9:
inS = raw_input("sigma [10]: ")
outS = raw_input("seuil débruitage [35] : ")
arg1, arg2 = 10, 35
if inS != "":
arg1 = int(inS)
if outS != "":
arg2 = int(outS)
print startStr
testAdditiveGaussianNoise(image1, arg1, arg2) # teste le bruitage/débruitage de type "Additif"
# performances
elif action == 12:
print startStr
printImageQuality(image1, image2) # compare 2 images et donne le pourcentage de ressemblance/différence
elif action == 13:
print startStr
printSNR(image1, image2) # compare 2 images et retourne le SNR
elif action == 14:
print startStr
imageForImageQuality(image1, image2) # crée une image correspondant aux différences de 2 images
elif action == 15:
print startStr
mergeImagesAdditive(image1, image2) # crée une image étant la fusion (addition) de 2 images
elif action == 16:
print startStr
mergeImagesSubstractive(image1, image2) # crée une image étant la fusion (soustractive) de 2 images
elif action == 19:
r = raw_input("rouge [0]: ")
g = raw_input("vert [0]: ")
b = raw_input("bleu [0]: ")
s = raw_input("seuil [50]: ")
arg1, arg2, arg3, arg4 = 0,0,0,50
if r != "":
arg1 = int(r)
if g != "":
arg2 = int(g)
if b != "":
arg3 = int(b)
if s != "":
arg4 = int(s)
print startStr
revealShapes(image1, arg1, arg2, arg3, arg4) # révèle la couleur spécifiée
elif action == 20:
x = raw_input("abscisses(x) [0]: ")
y = raw_input("ordonnées(y) [0]: ")
arg1, arg2 = 0,0
if x != "":
arg1 = int(x)
if y != "":
arg2 = int(y)
print startStr
colorShape(image1, arg1, arg2) # colorie la forme contenant le pixel de coordonnées donné
elif action == 21:
print startStr
colorAllShapes(image1) # colorie la forme contenant le pixel de coordonnées donné
elif action == 22:
print startStr
testStroke(image1) # trace les contours uniquement à partir de formes pleines
# filtres
elif action == 25:
print startStr
testAverageFilter(image1) # teste le lissage
elif action == 26:
print startStr
testLaplace(image1) # teste le filtre de Laplace
elif action == 27:
print startStr
testRoberts(image1) # teste le filtre de Roberts
elif action == 28:
print startStr
testPrewitt(image1) # teste le filtre de Prewitt
elif action == 29:
print startStr
testSobel(image1) # teste le filtre de Sobel
elif action == 30:
print startStr
testConvolution(image1) # teste le filtre de Convolution
elif action == 31:
print startStr
testBichrome(image1) # teste le passage au bichromatique
elif action == 32:
print startStr
testHighPass(image1) # teste le filtre passe haut
else:
print "Wrong choice"
exit();
print "+---------------------------+---------+"
print "| EXECUTION TIME | %s |" % execTime.get()
print "+---------------------------+---------+"
print
print result
print '- [PRESS ANY KEY TO CONTINUE] -';
print '- [ BUT PRESS "Q" TO QUIT ] -';
print '- [ OR PRESS "R" TO RELOAD ] -';
loopKey = raw_input('- [ OR PRESS "S" TO SAVE ] -');
if( loopKey == 'q' or loopKey == 'Q' ):
exit();
elif( loopKey == 'r' or loopKey == 'R' ):
loadFiles();
elif( loopKey == 's' or loopKey == 'S' ):
out = raw_input("out file: ");
image1.unparse();
image1.write(out);
interfaceLoop();
################" EXECUTABLE "###################
sh('clear');
print "+---------------------------+"
print "| |"
print "| CHARGEMENT... |"
print "| |"
print "+---------------------------+"
# ON CREE LES IMAGES
image1, file1 = BMPFile(True), "";
image2, file2 = BMPFile(), "";
with open( sys.argv[1] ) as file:
file1 += file.read();
try:
with open( sys.argv[2] ) as file:
file2 += file.read()
except Exception as e:
print e;
def loadFiles():
image1.parse( file1 );
for line in image1.content.map:
for pix in line:
image1.drawer.setPixel( pix );
image1.drawer.refresh();
if( file2 != "" ):
image2.parse( file2 );
loadFiles();
m.boucle()
# interfaceLoop();