canvas.draw_circle((left+250, 50+top), 10, 2, 'Blue', color(str(bits['A'])))
canvas.draw_text("A: "+str(bits['A']),(left+15,58+top),24,cl2)
canvas.draw_text("L: "+str(bits['A']),(left+265,58+top),24,cl2)
canvas.draw_line((0,290+top),(100,290+top),3,'Red')
#canvas.draw_line((150,290+top),(300,290+top),3,'Blue')
canvas.draw_line((500,290+top),(150,290+top),3,'Blue')
canvas.draw_circle((420, 290+top), 30, 2, 'Blue', color(str(bits['A'])))
canvas.draw_text("A",(115,270+top),24,cl2)
canvas.draw_text("L",(410,240+top),24,cl2)
if bits['A'] == 0:
canvas.draw_line((100,290+top),(150,270+top),3,'Orange')
else:
canvas.draw_line((100,290+top),(150,290+top),3,'Orange')
"""
A FAIRE:
Modifier ce programme pour transformer l'interrupteur A en
interrupteur normalement ferme et dessiner le circuit en consequence
"""
canvas.start("Purple")
canvas.set_draw_handler(draw)
#canvas_test
import canvas
canvas.clear_timers()
canvas.clear()
y = 0
angle = 0
def draw(cvs):
global y, angle
canvas.draw_line((0,0),(500,500),4,'Red')
canvas.draw_image(img,(100,100),(200,200),(160,y),(40,40),angle)
y = y +0.1
angle = angle + 1
canvas.set_draw_handler(draw)
canvas.start('Yellow')
img = canvas.load_image("https://upload.wikimedia.org/wikipedia/commons/thumb/b/b7/Maple_Leaf_%28from_roundel%29.png/220px-Maple_Leaf_%28from_roundel%29.png")
