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Copy pathIHM_update_2.py
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IHM_update_2.py
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from tkinter import *
class Application(Tk):
def __init__(self, i=30):
Tk.__init__(self) # constructeur de la classe parente
self.i = i
self.can =Canvas(self, width =1200, height =600, bg ="white")
self.can.pack(side =TOP, padx =5, pady =5)
Button(self, text ="file suivante de voiture", command =self.dessine).pack(side =LEFT)
Button(self, text ="Coloriage des cellules", command =self.coloriage).pack(side =LEFT)
def dessine(self):
"instanciation de 19 cellules dans le canevas"
self.c1 = Cellule(self.can, 10, self.i, 30, 60, 1, 1, 1)
self.c2 = Cellule(self.can, 130, self.i)
self.c3 = Cellule(self.can, 250, self.i)
self.c4 = Cellule(self.can, 370, self.i)
self.c5 = Cellule(self.can, 490, self.i)
self.c6 = Cellule(self.can, 610, self.i)
self.c7 = Cellule(self.can, 730, self.i)
self.c8 = Cellule(self.can, 850, self.i)
self.c9 = Cellule(self.can, 970, self.i)
self.c10 = Cellule(self.can, 1090, self.i)
self.i += 65
def coloriage(self):
"coloriage d'une cellule et ses fenetres selon les valeurs de c, an, ds, a, v, d"
self.c1.colorer()
self.c2.colorer()
self.c3.colorer()
self.c4.colorer()
self.c5.colorer()
self.c6.colorer()
self.c7.colorer()
self.c8.colorer()
self.c9.colorer()
self.c10.colorer()
class Cellule :
def __init__(self, canev, x=0, y=0, l = 90, h = 60, c = 1, an = 0, ds = 0, a = -2, v = 2, d = 4, coul = 'navy'):
"dessin d'une Cellule en <x,y> dans le canevas <canev>"
# mémorisation des paramètres dans des variables d'instance :
self.canev = canev
self.x = x
self.y = y
self.l = l
self.h = h
self.c = c
self.an = an
self.ds = ds
self.a = a
self.v = v
self.d = d
self.coul = coul
#self.cote =
# rectangle de base : lxh pixels :
self.item = canev.create_rectangle(x, y, x+l, y+h, fill =coul)
# 3 fenêtres de Self.xf x self.yf pixels, écartées de 2 pixels :
self.fen =[] # pour mémoriser les réf. des fenêtres
#parametrisation des dimensions de la fenetre de facon a creer trois fenetres bans chaque cellule aux dimensions dependantes de celle de la Cellule
self.xf = x + 2
self.yf = y+2
self.cote = l/3 - 2
self.hf = h - 10
for i in range(1, 4, 1):
self.fen.append(self.canev.create_rectangle(self.xf, self.yf,
self.xf+ self.cote , self.yf + self.hf, fill ='white'))
self.xf += self.cote+2
def colorer(self):
"déclencher le coloriage d'une cellule et ses fenetres selon les valeurs de c, an, ds, a, v, d"
if (self.c == 1):
if(self.an==1):
if(self.ds==1):
self.canev.itemconfigure(self.item, fill ='light green')
else : self.canev.itemconfigure(self.item, fill ='green')
elif (self.ds==1):
self.canev.itemconfigure(self.item, fill ='turquoise')
else: self.canev.itemconfigure(self.item, fill ='cyan')
elif (self.c == 2):
if (self.an == 1):
if (self.ds == 1): self.canev.itemconfigure(self.item, fill ='indigo')
else: self.canev.itemconfigure(self.item, fill ='purple')
elif(self.ds == 1): self.canev.itemconfigure(self.item, fill ='purple')
else: self.canev.itemconfigure(self.item, fill ='magenta')
else:
if(self.an==1):
if(self.ds==1):
self.canev.itemconfigure(self.item, fill ='orange+red')
else : self.canev.itemconfigure(self.item, fill ='orange')
elif (self.ds == 1): self.canev.itemconfigure(self.item, fill ='yellow + orange')
else: self.canev.itemconfigure(self.item, fill ='yellow')
if self.a == -3: self.canev.itemconfigure(self.fen[0], fill ='yellow')
if self.a == -2: self.canev.itemconfigure(self.fen[0], fill ='yellow+orange')
if self.a == -1: self.canev.itemconfigure(self.fen[0], fill ='orange')
if self.a == 0: self.canev.itemconfigure(self.fen[0], fill ='white')
if self.a == 1: self.canev.itemconfigure(self.fen[0], fill ='red+orange')
if self.a == 2: self.canev.itemconfigure(self.fen[0], fill ='magenta')
if self.a == 3: self.canev.itemconfigure(self.fen[0], fill ='purple')
if self.v == 0: self.canev.itemconfigure(self.fen[1], fill ='white')
if self.v == 1: self.canev.itemconfigure(self.fen[1], fill ='turquoise')
if self.v == 2: self.canev.itemconfigure(self.fen[1], fill ='cyan')
if self.v == 3: self.canev.itemconfigure(self.fen[1], fill ='indigo')
if self.d == 0: self.canev.itemconfigure(self.fen[2], fill ='black')
if self.d == 1: self.canev.itemconfigure(self.fen[2], fill ='red+orange')
if self.d == 2: self.canev.itemconfigure(self.fen[2], fill ='magenta')
if self.d == 3: self.canev.itemconfigure(self.fen[2], fill ='purple')
if self.d == 4: self.canev.itemconfigure(self.fen[2], fill ='purple')
if self.d == 5: self.canev.itemconfigure(self.fen[2], fill ='indigo')
if self.d == 6: self.canev.itemconfigure(self.fen[2], fill ='cyan')
if self.d == 7: self.canev.itemconfigure(self.fen[2], fill ='turquoise')
if (self.c == 0 and self.an == 0 and self.ds == 0 and self.a == -1 and self.v==0 and self.d==-1):
self.canev.itemconfigure(self.fen[0], fill ='red')
self.canev.itemconfigure(self.fen[1], fill ='red')
self.canev.itemconfigure(self.fen[2], fill ='red')
if (self.c == 0 and self.an == 0 and self.ds == 0 and self.a == -1 and self.v == 1 and self.d == -1):
self.canev.itemconfigure(self.fen[0], fill ='black')
self.canev.itemconfigure(self.fen[1], fill ='black')
self.canev.itemconfigure(self.fen[2], fill ='black')
Application().mainloop()