190 lines
7.6 KiB
Text
190 lines
7.6 KiB
Text
# ipv4map.py - no copyright 2011 0x2620.org - public domain
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from __future__ import division
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import Image
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import ImageDraw
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import math
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import os
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import ox
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import pygeoip
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geoip = pygeoip.GeoIP('../dat/GeoLiteCity.dat', pygeoip.MEMORY_CACHE)
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path = '../../../../oxjs.org/source/Ox.Geo/png/flags/'
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projection = {
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'U': [[0, 2, 3, 1], 'DUUC'], # Square 0 1 Segment U = 0 3 = 0 1 E F = D C
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'D': [[0, 1, 3, 2], 'UDDA'], # 2 3 1 2 3 2 D C U U
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'C': [[3, 2, 0, 1], 'ACCU'], # 4 7 8 B
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'A': [[3, 1, 0, 2], 'CAAD'] # 5 6 9 A
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}
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def get_country_code_by_ip(ip):
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replace = {'A1': 'NTHH', 'A2': 'NTHH', 'AN': 'ANHH', 'AP': 'FM', 'O1': 'NTHH'}
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data = geoip.record_by_addr(ip) if not ip.startswith('0.') else None
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country_code = data['country_code'] if data and 'country_code' in data else 'NTHH'
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return replace[country_code] if country_code in replace else country_code
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def get_flag_image(county_code, size):
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flag_size = str(int(pow(4, math.ceil(math.log(size, 2) / 2))))
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flag_image = Image.open(path + flag_size + '/' + county_code + '.png')
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if size != flag_size:
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flag_image = flag_image.resize((size, size), Image.ANTIALIAS)
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return flag_image
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def get_ip_by_n(n):
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ip = []
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for i in range(4):
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ip.append(str(int(n / pow(256, 3 - i)) % 256))
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return '.'.join(ip)
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def get_n_by_ip(ip):
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n = 0
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for i, v in enumerate(ip.split('.')):
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n += int(v) * pow(256, 3 - i)
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return n
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def get_tile_by_ip(ip, z):
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n = get_n_by_ip(ip)
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last_n = n + pow(4, 16 - z) - 1
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last_ip = get_ip_by_n(last_n)
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return '../png/tiles/%s/%s-%s.png' % (ip.split('.')[0], ip, last_ip)
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def get_xy_by_ip(ip, z, w='U'):
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x, y = 0, 0
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n = int(get_n_by_ip(ip) / pow(4, 8 - z))
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for i in range(8 + z):
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p2 = pow(2, 7 + z - i)
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p4 = pow(4, 7 + z - i)
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q = int(n / p4)
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xy = projection[w][0][q]
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x += xy % 2 * p2
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y += int(xy / 2) * p2
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n -= q * p4
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w = projection[w][1][q]
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return [x, y]
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def render_flags():
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# renders an image of 256 flags
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image = Image.new('RGB', (1024, 1024))
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font = '../ttf/DejaVuSansMonoBold.ttf'
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countries = ox.file.read_json(path.replace('png/flags/', 'json/Ox.Geo.json'))
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countries = filter(lambda x: len(x['code']) == 2 and not x['code'] in ['UK', 'XK'], countries)
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for i, country in enumerate(sorted(countries, key=lambda x: x['code'])):
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flag = get_flag_image(country['code'], 64)
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x, y = i % 16 * 64, int(i / 16) * 64
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image.paste(flag, (x, y, x + 64, y + 64))
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ox.image.drawText(image, (x + 5, y + 5), country['code'], font, 8, (64, 64, 64))
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ox.image.drawText(image, (x + 4, y + 4), country['code'], font, 8, (192, 192, 192))
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image.save('../png/flags.png')
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def render_map():
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# renders images of the full map
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if not os.path.exists('../png/ipv4map16.png'):
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mapfile = '../png/ipv4map16384.png'
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mapimage = Image.new('RGB', (16384, 16384))
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for a in range(0, 256, 16):
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print '%d.0.0.0' % a
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image = Image.open('../png/map/%d.0.0.0-%d.255.255.255.png' % (a, a + 15))
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x, y = map(lambda x: int(x / 4096) * 4096, get_xy_by_ip('%d.0.0.0' % a, 6))
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mapimage.paste(image.resize((4096, 4096), Image.ANTIALIAS), (x, y))
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mapimage.save(mapfile)
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for s in [4096, 1024, 16]:
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mapimage.resize((s, s), Image.ANTIALIAS).save(mapfile.replace('16384', str(s)))
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def render_square(values, maxlen, w):
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# recursively renders a square region, given a list of country codes
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length = len(values)
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if length > 4:
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square_length = int(length / 4)
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square_values = map(lambda x: values[x * square_length:(x + 1) * square_length], range(4))
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values = []
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for i, v in enumerate(square_values):
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values.append(render_square(v, maxlen, projection[w][1][i]))
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equal = values[0] == values[1] == values[2] == values[3]
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if length < maxlen and equal:
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return values[0]
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else:
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order = projection[w][0]
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image_size = int(math.sqrt(length) * 16)
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flag_size = image_size if equal else int(image_size / 2)
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image = Image.new('RGB', (image_size, image_size))
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for i, value in enumerate([values[0]] if equal else values):
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flag = get_flag_image(value, flag_size) if isinstance(value, str) else value
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image.paste(flag, (order[i] % 2 * flag_size, int(order[i] / 2) * flag_size))
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if length == pow(4, 4):
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image.save('../png/_tmp/' + str(values) + '.png')
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return image
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def render_tile(ip, z):
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# recursively renders the map tile for a given ip at a given zoom level
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n = get_n_by_ip(ip)
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file = get_tile_by_ip(ip, z)
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if not os.path.exists(file):
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tiles_n = map(lambda x: n + x * pow(4, 15 - z), range(4))
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tiles_ip = map(lambda x: get_ip_by_n(x), tiles_n)
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tiles = map(lambda x: render_tile(x, z + 1), tiles_ip)
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image = Image.new('RGB', (256, 256))
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x, y = map(lambda x: int(x / 256) * 256, get_xy_by_ip(ip, z))
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for i in range(4):
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x_, y_ = map(lambda x: int(x / 128) * 128, get_xy_by_ip(tiles_ip[i], z))
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image.paste(tiles[i].resize((128, 128), Image.ANTIALIAS), (x_ - x, y_ - y))
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image.save(file)
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else:
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image = Image.open(file)
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return image
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def render_tiles():
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# renders all tiles at the maximum zoom level
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w = ''
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for v in projection['U'][1]:
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w += projection[v][1]
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file256 = '../png/ipv4map16384.png'
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for a in range(256):
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print '%d.0.0.0' % a
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if a % 16 == 0:
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values = []
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file = '../png/map/%d.0.0.0-%d.255.255.255.png' % (a, a + 15)
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if not os.path.exists(file):
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for b in range(256):
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for c in range(256):
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values.append(get_country_code_by_ip('%d.%d.%d.0' % (a, b, c)))
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if a % 16 == 15:
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image = render_square(values, len(values), w[int(a / 16)]).save(file)
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if a % 16 == 15:
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image = Image.open(file)
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for a_ in range(a - 15, a + 1):
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for b in range(256):
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file = '../png/tiles/%d/%d.%d.0.0-%d.%d.255.255.png' % (a_, a_, b, a_, b)
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if not os.path.exists(file):
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x, y = map(lambda x: int(x % 16384 / 256) * 256, get_xy_by_ip('%d.%d.0.0' % (a_, b), 8))
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dirs = os.path.split(file)[0]
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if dirs and not os.path.exists(dirs):
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os.makedirs(dirs)
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image.crop((x, y, x + 256, y + 256)).save(file)
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def render_projection():
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# renders an image of the map projection
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image = Image.new('RGB', (1024, 1024))
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draw = ImageDraw.Draw(image)
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font = '../ttf/DejaVuSansCondensedBold.ttf'
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for i in range(256):
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x, y = map(lambda x: int(x / 64) * 64, get_xy_by_ip('%d.0.0.0' % i, 2))
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rgb = ox.getRGB((i * 360 / 256, 1, 0.5))
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draw.rectangle((x, y, x + 64, y + 64), fill=rgb)
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ox.image.drawText(image, (x + 4, y + 4), str(i), font, 8, (0, 0, 0))
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draw.rectangle((x + 30, y + 30, x + 34, y + 33), fill=0)
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if i:
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draw.line((x_ + 32, y_ + 32, x + 32, y + 32), fill=0, width=4)
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x_, y_ = x, y
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image.save('../png/projection.png')
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if __name__ == '__main__':
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render_flags()
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render_projection()
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render_tiles()
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render_tile('0.0.0.0', 0)
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render_map()
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# to get a sufficiently large "international" icon, run:
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# qlmanage -t -s 16384 -o . ../../../../oxjs.org/tools/geo/svg/icons/NTHH.svg
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