t.forward(sin(i)+0.1) t.up() t.forward(i+10) t.left(1) t.down() def spirale2(t): for i in range (N): farbe(t,i) t.forward(cos(30*i)) t.left(0.5) if (__name__=="__main__"): t = NinjaTurtle((1280,1024)) t.set_width(0.00001) t.set_zoom(Z) for q in range (1): t.set_pos((500*q,1000*q)) spirale2(t) t.left(30*q) t.set_zoom(Z) t.up() t.set_pos((500*q,1000*q)) t.down() t.reset
def spirale(t): t.set_pos((20, 0)) for i in range(N): farbe(t, i) for j in range(360): t.left(0.5) t.forward(sin(i) + 0.1) t.up() t.forward(i + 10) t.left(1) t.down() def spirale2(t): for i in range(N): farbe(t, i) t.forward(1 + i) t.left(90 - i) if (__name__ == "__main__"): t = NinjaTurtle((1280, 1024)) t.set_width(2) t.set_zoom(0.01) spirale2(t) t.reset() #ast(t, 1, 1, 0) t.screenshot()
t.set_color(c.r/255, c.g/255, c.b/255) def spirale(t): t.set_pos((20,0)) for i in range(N): farbe(t,i) for j in range(360): t.left(0.5) t.forward(sin(i)+0.1) t.up() t.forward(i+10) t.left(1) t.down() def spirale2(t): for i in range (N): farbe(t,i) t.forward(1+i) t.left(88-i) if (__name__=="__main__"): t = NinjaTurtle((1280,1024)) t.set_width(2) t.set_zoom(0.01) spirale2(t) t.reset() #ast(t, 1, 1, 0) t.screenshot()
farbe(t,i) for j in range(360): t.left(0.5) t.forward(sin(i)+0.1) t.up() t.forward(i+10) t.left(1) t.down() def spirale2(t): for i in range (N): farbe(t,i) t.forward(50+i) t.left(cos(i)) t.forward(-i*i) t.right(cos(i)+3) t.left(90) t.forwards(90) if (__name__=="__main__"): t = NinjaTurtle((1280,1024)) t.set_width(0.001) t.set_zoom(Z) spirale2(t) t.reset() #ast(t, 1, 1, 0) t.screenshot()