def draw_heart(outline = False):
	first = True
	for t in xrange(int(2*pi * detail)):
		t = t * detail
		# heart equation
		x = 16*(sin(t) ** 3)
		y = 13*cos(t) - 5*cos(2*t) - 2*cos(3*t) - cos(4*t)
		# scale result
		x = origin + x * scale
		y = origin + y * scale + scale*2
		# hide first line
		if first:
			canvas.move_to(x, y)
			first = False
		else:
			canvas.add_line(x, y)
	# set color
	canvas.set_fill_color(1,0.5,0.5)
	canvas.set_stroke_color(0.5,0,0)
	canvas.set_line_width(detail/2)
	# draw heart
	if outline:
		canvas.draw_path()
	else:
		canvas.close_path()
		canvas.fill_path()
def createSpiral(arm1, arm2, color):
	"""arm1 and arm2 are pairs of (length, velocity)"""
	
	canvas.begin_path()
	canvas.move_to(512, 684)
	x, y = 0, 0
	len1, step1 = arm1
	len2, step2 = arm2
	global lines
	lines = []
	previousPositions = []

	while step1 > 10 or step2 > 10:
		step1 /= 2
		step2 /= 2

	global run
	run = 1
	iteration = 1
	inarow = 0
	while run:
		
		iteration += 10
		
		point1 = rotate((0,len1), x)
		point2 = map(sum,zip(rotate((0, len2), y), point1))
		p2 = map(sum, zip(point2, (512, 384)))
		#Detection of whether pattern is repeating itself
		if point2 not in previousPositions:
			previousPositions.append(point2)
			inarow = 0
		else:
			inarow += 1

		if inarow >= 5:
			print "Pattern is detected to be repeating itself"
			run = 0


		if x == 0:
			oldpoint2 = point2
		else:
			canvas.add_line(p2[0], p2[1])
		#lines.append( canvas.add_line(point1[0], point1[1]) )
		#lines.append( canvas.add_line(point2[0], point2[1]) )
		oldpoint2 = point2

		x += step1
		if x > 360: x -= 360
		y += step2
		if y > 360: y -= 360

		#for line in lines:
		#	canvas.delete(line)
		lines = []
		time.sleep(0.005)
	canvas.close_path()
	canvas.set_line_width(1)
	canvas.draw_path()
def createSpiral(arm1, arm2, color):
	"""arm1 and arm2 are pairs of (length, velocity)"""
	
	canvas.begin_path()
	canvas.move_to(512, 684)
	x, y = 0, 0
	len1, step1 = arm1
	len2, step2 = arm2
	global lines
	lines = []
	previousPositions = []

	while step1 > 10 or step2 > 10:
		step1 /= 2
		step2 /= 2

	global run
	run = 1
	iteration = 1
	inarow = 0
	while run:
		
		iteration += 10
		
		point1 = rotate((0,len1), x)
		point2 = map(sum,zip(rotate((0, len2), y), point1))
		p2 = map(sum, zip(point2, (512, 384)))
		#Detection of whether pattern is repeating itself
		if point2 not in previousPositions:
			previousPositions.append(point2)
			inarow = 0
		else:
			inarow += 1

		if inarow >= 5:
			print("Pattern is detected to be repeating itself")
			run = 0


		if x == 0:
			oldpoint2 = point2
		else:
			canvas.add_line(p2[0], p2[1])
		#lines.append( canvas.add_line(point1[0], point1[1]) )
		#lines.append( canvas.add_line(point2[0], point2[1]) )
		oldpoint2 = point2

		x += step1
		if x > 360: x -= 360
		y += step2
		if y > 360: y -= 360

		#for line in lines:
		#	canvas.delete(line)
		lines = []
		time.sleep(0.005)
	canvas.close_path()
	canvas.set_line_width(1)
	canvas.draw_path()
Esempio n. 4
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def draw_tree(x, y, trunk_thickness, leaf_h, tree_w, trunk_h):
    canvas.begin_path()
    canvas.move_to(x - tree_w / 2, y + trunk_h)
    canvas.add_line(x + tree_w / 2, y + trunk_h)
    canvas.add_line(x, y + trunk_h + leaf_h)
    canvas.close_path()
    canvas.set_fill_color(0.25, 0.50, 0.00)
    canvas.fill_path()
    canvas.set_stroke_color(0.50, 0.25, 0.00)
    canvas.set_line_width(trunk_thickness)
    canvas.draw_line(x, y + trunk_h, x, y)
Esempio n. 5
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def draw_heart(scale = 18):  # 18 = full canvas
    #print(scale)  # useful for debugging
    first_time = True
    (xorigin, yorigin) = canvas.get_size()
    xorigin *= 0.5    # in the center
    yorigin *= 0.588  # north of center
    detail = 100
    canvas.begin_path()
    for t in range(int(2 * math.pi * detail)):
        t *= detail
        x = scale * (16 * math.sin(t) ** 3)
        y = scale * (13 * math.cos(t) - 5*math.cos(2*t) - 2*math.cos(3*t) - math.cos(4 * t))
        if first_time:  # hide the seams
            canvas.move_to(x + xorigin, y + yorigin)
            first_time = False
        canvas.add_line(x + xorigin, y + yorigin)
    canvas.set_line_width(1)
    canvas.close_path()
    canvas.draw_path()  # try commenting out this line...
    canvas.set_fill_color(1, 0, 0)
    canvas.fill_path()  # how do I fill just the inner part?
Esempio n. 6
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def draw_heart(scale = 18):  # 18 = full canvas
    #print(scale)  # useful for debugging
    first_time = True
    (xorigin, yorigin) = canvas.get_size()
    xorigin *= 0.5    # in the center
    yorigin *= 0.588  # north of center
    detail = 100
    canvas.begin_path()
    for t in xrange(int(2 * math.pi * detail)):
        t *= detail
        x = scale * (16 * math.sin(t) ** 3)
        y = scale * (13 * math.cos(t) - 5*math.cos(2*t) - 2*math.cos(3*t) - math.cos(4 * t))
        if first_time:  # hide the seams
            canvas.move_to(x + xorigin, y + yorigin)
            first_time = False
        canvas.add_line(x + xorigin, y + yorigin)
    canvas.set_line_width(1)
    canvas.close_path()
    canvas.draw_path()  # try commenting out this line...
    canvas.set_fill_color(1, 0, 0)
    canvas.fill_path()  # how do I fill just the inner part?
Esempio n. 7
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import canvas
w = h = 512
canvas.set_size(w, h)
canvas.move_to(w * 0.45, h * 0.1)
canvas.add_line(w * 0.8, h * 0.55)
canvas.add_line(w * 0.55, h * 0.65)
canvas.add_line(w * 0.65, h * 0.85)
canvas.add_line(w * 0.3, h * 0.55)
canvas.add_line(w * 0.55, h * 0.45)
canvas.close_path()
canvas.set_line_width(3)
canvas.draw_path()
canvas.fill_path()
Esempio n. 8
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import canvas
w = h = 512
canvas.set_size(w, h)
canvas.move_to(w*0.45, h*0.1)
canvas.add_line(w*0.8, h*0.55)
canvas.add_line(w*0.55, h*0.65)
canvas.add_line(w*0.65, h*0.85)
canvas.add_line(w*0.3, h*0.55)
canvas.add_line(w*0.55, h*0.45)
canvas.close_path()
canvas.set_line_width(3)
canvas.draw_path()
canvas.fill_path()