#gestion des cases a cocher    
def chk(id,value):
  global bits
  if value:
    bits[id] = 1
  else:
    bits[id] = 0
  process(inp.get_text())
#gestion de l'equation
def check(val):
  process(val)
#creation de l'interface
canvas.add_checkbox("chkA","A",chk,20)
canvas.add_checkbox("chkB","B",chk,20)
canvas.add_checkbox("chkC","C",chk,20)
inp = canvas.add_input("equ:",check,200)
inp.set_text("A & (not(B) | not(C))")
process(inp.get_text())

def color(value):
  if value == '1':
    return 'Yellow'
  else:
    return 'White'
#ceci est la fonction qui dessine l'ecran toutes les 17 millisecondes
def draw():
  
  global bits, out
  canvas.fill_rect(0,0,500,500)
  left = 80
  top = 30
Beispiel #2
0
  x = []
  y = None
  for i in range(int(NB_POINTS)+1):
    ech = 1.0*x_min +1.0*i*((1.0*x_max-1.0*x_min)/(1.0*NB_POINTS))
    x.append([ech])
  #print x
  #variables generales
  varss = {'x': 0 }
  parser = math2.RpnMathParser(val, varss); 
  out = parser.get_result()
  y = parser.update(['x'], x ); 
  #print y

#
#creation de l'interface
inp = canvas.add_input("equ:",process,200)
inp.set_text("sin(x)")
process(inp.get_text())


#ceci est la fonction qui dessine l'ecran toutes les 17 millisecondes
def draw(cnvs):
  
  global x_min,y_min,x_max,y_max, x, y
  #print len(y)
  #canvas.fill_rect(0,0,W,H)
  last = (0,H/2)
  axex = 0
  if y == None:
    return 
  for i in range(len(y)):