mirror of https://github.com/tp4a/teleport
187 lines
5.4 KiB
Python
187 lines
5.4 KiB
Python
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"""
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"""
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import random
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from wheezy.captcha.comp import Draw
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from wheezy.captcha.comp import Image
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from wheezy.captcha.comp import ImageFilter
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from wheezy.captcha.comp import getrgb
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from wheezy.captcha.comp import truetype
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from wheezy.captcha.comp import xrange
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def captcha(drawings, width=200, height=75):
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def render(text):
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image = Image.new('RGB', (width, height), (255, 255, 255))
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for drawing in drawings:
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image = drawing(image, text)
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assert image
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return image
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return render
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# region: captcha drawers
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def background(color='#EEEECC'):
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color = getrgb(color)
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def drawer(image, text):
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Draw(image).rectangle([(0, 0), image.size], fill=color)
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return image
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return drawer
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def smooth():
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def drawer(image, text):
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return image.filter(ImageFilter.SMOOTH)
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return drawer
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def curve(color='#5C87B2', width=4, number=6):
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from wheezy.captcha.bezier import make_bezier
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if not callable(color):
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c = getrgb(color)
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def color():
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return c
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def drawer(image, text):
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dx, height = image.size
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dx = dx / number
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path = [(dx * i, random.randint(0, height))
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for i in range(1, number)]
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bcoefs = make_bezier(number - 1)
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points = []
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for coefs in bcoefs:
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points.append(tuple(sum([coef * p for coef, p in zip(coefs, ps)])
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for ps in zip(*path)))
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draw = Draw(image)
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draw.line(points, fill=color(), width=width)
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return image
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return drawer
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def noise(number=50, color='#EEEECC', level=2):
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if not callable(color):
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c = getrgb(color)
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def color():
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return c
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def drawer(image, text):
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width, height = image.size
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dx = width / 10
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width = width - dx
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dy = height / 10
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height = height - dy
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draw = Draw(image)
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for i in xrange(number):
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x = int(random.uniform(dx, width))
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y = int(random.uniform(dy, height))
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draw.line(((x, y), (x + level, y)), fill=color(), width=level)
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return image
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return drawer
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def text(fonts, font_sizes=None, drawings=None, color='#5C87B2',
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squeeze_factor=0.8):
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fonts = tuple([truetype(name, size)
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for name in fonts
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for size in font_sizes or (65, 70, 75)])
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if not callable(color):
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c = getrgb(color)
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def color():
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return c
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def drawer(image, text):
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draw = Draw(image)
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char_images = []
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for c in text:
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font = random.choice(fonts)
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c_width, c_height = draw.textsize(c, font=font)
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char_image = Image.new('RGB', (c_width, c_height), (0, 0, 0))
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char_draw = Draw(char_image)
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char_draw.text((0, 0), c, font=font, fill=color())
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char_image = char_image.crop(char_image.getbbox())
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for drawing in drawings:
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char_image = drawing(char_image)
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char_images.append(char_image)
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width, height = image.size
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offset = int((width - sum(int(i.size[0] * squeeze_factor)
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for i in char_images[:-1]) -
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char_images[-1].size[0]) / 2)
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for char_image in char_images:
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c_width, c_height = char_image.size
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mask = char_image.convert('L').point(lambda i: i * 1.97)
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image.paste(char_image,
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(offset, int((height - c_height) / 2)),
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mask)
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offset += int(c_width * squeeze_factor)
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return image
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return drawer
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# region: text drawers
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def warp(dx_factor=0.27, dy_factor=0.21):
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def drawer(image):
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width, height = image.size
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dx = width * dx_factor
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dy = height * dy_factor
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x1 = int(random.uniform(-dx, dx))
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y1 = int(random.uniform(-dy, dy))
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x2 = int(random.uniform(-dx, dx))
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y2 = int(random.uniform(-dy, dy))
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image2 = Image.new('RGB',
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(width + abs(x1) + abs(x2),
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height + abs(y1) + abs(y2)))
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image2.paste(image, (abs(x1), abs(y1)))
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width2, height2 = image2.size
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return image2.transform(
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(width, height), Image.QUAD,
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(x1, y1,
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-x1, height2 - y2,
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width2 + x2, height2 + y2,
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width2 - x2, -y1))
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return drawer
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def offset(dx_factor=0.1, dy_factor=0.2):
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def drawer(image):
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width, height = image.size
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dx = int(random.random() * width * dx_factor)
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dy = int(random.random() * height * dy_factor)
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image2 = Image.new('RGB', (width + dx, height + dy))
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image2.paste(image, (dx, dy))
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return image2
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return drawer
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def rotate(angle=25):
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def drawer(image):
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return image.rotate(
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random.uniform(-angle, angle), Image.BILINEAR, expand=1)
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return drawer
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if __name__ == '__main__':
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import string
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captcha_image = captcha(drawings=[
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background(),
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text(fonts=[
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'fonts/CourierNew-Bold.ttf',
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'fonts/LiberationMono-Bold.ttf'],
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drawings=[
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warp(),
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rotate(),
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offset()
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]),
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curve(),
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noise(),
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smooth()
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])
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image = captcha_image(random.sample(string.uppercase + string.digits, 4))
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image.save('sample.jpg', 'JPEG', quality=75)
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