def loop(t): #paint(RGBA(0,0,0)) circle((0, 0), 1) circle((1, 0), 1) with Move(2, 1): p = Point(1, 1) a, b = p rect(p, p) print(p[0]) print(p) with Clip(): circle((0.5, 0), t) with Clip(): #fill() paint(RGBA(1, 0, 0)) #fill() #circle((0,1),1) #stroke() #with Move(2,0): ip = ImagePattern(image, 40) g = LinearGradient((0, 0), (3, 3), [(0, RGBA(1, 0, 0, 0)), (1, RGBA(1, 0, 0))]) mask(ip, g) p = Pencil() p.line(1, 1) p.line(2, 1) p.draw() stroke()
def tree(count,t,sf): if sf<0.1: leaves.append(Point(0,0)) return line((0,0),(0,1)) stroke(1,HSVA(0,0,0), cap=LineCap.ROUND) wind=t/sf/10 if count%5!=3: with Move(0,1), Rotate(uniform(-20,20)+wind),Scale((0.93,0.93)): tree(count-1,t,sf*0.93) if random()<0.1: with Move(0,1), Rotate(uniform(-20,20)+wind),Scale((0.5,0.5)): tree(count//4,t,sf*0.5) return br=[] for i in range(choice([2,3,3,3,4])): d,s=cilrand(40) br.append((d,s)) for d,s in br: d+=wind val=[0.6,0.5] shuffle(val) with Move(0,1), Rotate(d),Scale((0.9*s,0.95)): tree(count-1,t,sf*0.9)
def loop(t): t = t + 0.1 with Rotate(0 * 90): stops = [(0, RGBA(1, 0, 0, 0.3)), (1, RGBA(0, 0, 0.5, 0.3))] f = LinearGradient((0, 0), (5, 5), stops) f2 = RadialGradient((0, 0), 1, (5, 5), 10, stops) paint(f2, alpha=0.2) with Scale((1.5, 1)): circle((0, 0), 1) stroke(width=0.5) paint(ImagePattern(im, pixels_per_unit=40), alpha=0.7) p = Pencil() p.move(0, 3) p.line(0, 6) p.line(3, 6) p.line(3, 3) with Scale((1, 1)): p.arc((-1, -1), t * 30) p.draw() (a, b), (c, d) = fill_extents() for x in range(int(a), int(c)): for y in range(int(b), int(d)): if in_fill(x, y): circle((x, y), 0.5) print(x, y) rect((a, b), (c, d)) fill(RGBA(0.2, 0, 0, 0.3)) text((0, 0), 'Hell World.', 2) (a, b), (c, d) = fill_extents() rect((a, b), (c, d)) fill(RGBA(0.2, 0, 0, 0.3))
def draw_buf(buf, g): p = Pencil() for a in buf: for b in buf: if a != b and 0.2 < length(a, b) < 0.3: p.move(*a) p.line(*b) p.draw() stroke(width=0.03, pattern=g)
def tree(count, t): if count == 0: leaves.append(Point(0, 0)) return line((0, 0), (0, 1)) stroke(0.2, HSVA(0, 0, 0)) for d, w, n in [(-35, 0.4, 1), (0, 0.7, 1), (20, 0.5, 1)]: if True: d += t * 10 / count**2 with Move(0, n), Rotate(d), Scale((w, 1.3 * w)): tree(count - 1, t)
def explain(): f = RGBA(0.2, 0.2, 0.2, 1) with Move(1, -2.5): text((0, 0), 'Python inside', 0.7) fill(f) p = Pencil() p.move(0, 0.1) p.line(5, 0.1) p.move(0, 0.27) p.line(5, 0.27) p.draw() stroke(pattern=RGBA(0, 0, 0), width=0.05)
def loop(t): p1 = (0, 0) p2 = (0, 0) p3 = (-t, 3) p4 = (3, 3) p = Pencil() p.move(*p1) p.curve(p3, p3, p4) circle(p2, 0.1) circle(p3, 0.1) fill(RGBA(1, 0, 0)) p.line(-5, -5) p.line(-6, -6) p.line(-3, 0) p.draw() stroke(0.1, RGBA(0, 1, 0))
def loop(t): with Scale((2.5,2.5)),Move(-4,-3): colors=[HSVA(0,0.4,0.7),HSVA(0.17,0.5,0.9),HSVA(0.17,0.5,0.56),HSVA(0.1,0.5)] if int(t)%2==0: colors=[HSVA(0,1,0.9),HSVA(0.17,1,0.9),HSVA(0.7,1,0.8),HSVA(0.1,1)] for d,c in zip(range(4),colors): ruudu(t,seitse,d) fill(c) ruudu(t,kaheksa) fill(HSVA(0,0.9,0.3)) im=ImagePattern(image,300) paint(im,0.2) for d,c in zip(range(4),colors): ruudu(t,seitse,d) ruudu(t,kaheksa) n=0.56 stroke(0.02,RGBA(n,n,n)) paint(im,0.3)