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robohash.py
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robohash.py
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# This Python file uses the following encoding: utf-8
import os
import hashlib
from PIL import Image
import natsort
class Robohash(object):
"""
Robohash is a quick way of generating unique avatars for a site.
The original use-case was to create somewhat memorable images to represent a RSA key.
"""
def __init__(self,string,hashcount=11,ignoreext = True):
"""
Creates our Robohasher
Takes in the string to make a Robohash out of.
"""
# Default to png
self.format = 'png'
# Optionally remove an images extension before hashing.
if ignoreext is True:
string = self._remove_exts(string)
string = string.encode('utf-8')
hash = hashlib.sha512()
hash.update(string)
self.hexdigest = hash.hexdigest()
self.hasharray = []
#Start this at 4, so earlier is reserved
#0 = Color
#1 = Set
#2 = bgset
#3 = BG
self.iter = 4
self._create_hashes(hashcount)
self.resourcedir = os.path.dirname(__file__) + '/'
# Get the list of backgrounds and RobotSets
self.sets = self._listdirs(self.resourcedir + 'sets')
self.bgsets = self._listdirs(self.resourcedir + 'backgrounds')
# Get the colors in set1
self.colors = self._listdirs(self.resourcedir + 'sets/set1')
def _remove_exts(self,string):
"""
Sets the string, to create the Robohash
"""
# If the user hasn't disabled it, we will detect image extensions, such as .png, .jpg, etc.
# We'll remove them from the string before hashing.
# This ensures that /Bear.png and /Bear.bmp will send back the same image, in different formats.
if string.lower().endswith(('.png','.gif','.jpg','.bmp','.jpeg','.ppm','.datauri')):
format = string[string.rfind('.') +1 :len(string)]
if format.lower() == 'jpg':
format = 'jpeg'
self.format = format
string = string[0:string.rfind('.')]
return string
def _create_hashes(self,count):
"""
Breaks up our hash into slots, so we can pull them out later.
Essentially, it splits our SHA/MD5/etc into X parts.
"""
for i in range(0,count):
#Get 1/numblocks of the hash
blocksize = int(len(self.hexdigest) / count)
currentstart = (1 + i) * blocksize - blocksize
currentend = (1 +i) * blocksize
self.hasharray.append(int(self.hexdigest[currentstart:currentend],16))
# Workaround for adding more sets in 2019.
# We run out of blocks, because we use some for each set, whether it's called or not.
# I can't easily change this without invalidating every hash so far :/
# This shouldn't reduce the security since it should only draw from one set of these in practice.
self.hasharray = self.hasharray + self.hasharray
def _listdirs(self,path):
return [d for d in natsort.natsorted(os.listdir(path)) if os.path.isdir(os.path.join(path, d))]
def _get_list_of_files(self,path):
"""
Go through each subdirectory of `path`, and choose one file from each to use in our hash.
Continue to increase self.iter, so we use a different 'slot' of randomness each time.
"""
chosen_files = []
# Get a list of all subdirectories
directories = []
for root, dirs, files in natsort.natsorted(os.walk(path, topdown=False)):
for name in dirs:
if name[:1] != '.':
directories.append(os.path.join(root, name))
directories = natsort.natsorted(directories)
# Go through each directory in the list, and choose one file from each.
# Add this file to our master list of robotparts.
for directory in directories:
files_in_dir = []
for imagefile in natsort.natsorted(os.listdir(directory)):
files_in_dir.append(os.path.join(directory,imagefile))
files_in_dir = natsort.natsorted(files_in_dir)
# Use some of our hash bits to choose which file
element_in_list = self.hasharray[self.iter] % len(files_in_dir)
chosen_files.append(files_in_dir[element_in_list])
self.iter += 1
return chosen_files
def assemble(self,roboset=None,color=None,format=None,bgset=None,sizex=300,sizey=300):
"""
Build our Robot!
Returns the robot image itself.
"""
# Allow users to manually specify a robot 'set' that they like.
# Ensure that this is one of the allowed choices, or allow all
# If they don't set one, take the first entry from sets above.
if roboset == 'any':
roboset = self.sets[self.hasharray[1] % len(self.sets) ]
elif roboset in self.sets:
roboset = roboset
else:
roboset = self.sets[0]
# Only set1 is setup to be color-seletable. The others don't have enough pieces in various colors.
# This could/should probably be expanded at some point..
# Right now, this feature is almost never used. ( It was < 44 requests this year, out of 78M reqs )
if roboset == 'set1':
if color in self.colors:
roboset = 'set1/' + color
else:
randomcolor = self.colors[self.hasharray[0] % len(self.colors) ]
roboset = 'set1/' + randomcolor
# If they specified a background, ensure it's legal, then give it to them.
if bgset in self.bgsets:
bgset = bgset
elif bgset == 'any':
bgset = self.bgsets[ self.hasharray[2] % len(self.bgsets) ]
# If we set a format based on extension earlier, use that. Otherwise, PNG.
if format is None:
format = self.format
# Each directory in our set represents one piece of the Robot, such as the eyes, nose, mouth, etc.
# Each directory is named with two numbers - The number before the # is the sort order.
# This ensures that they always go in the same order when choosing pieces, regardless of OS.
# The second number is the order in which to apply the pieces.
# For instance, the head has to go down BEFORE the eyes, or the eyes would be hidden.
# First, we'll get a list of parts of our robot.
roboparts = self._get_list_of_files(self.resourcedir + 'sets/' + roboset)
# Now that we've sorted them by the first number, we need to sort each sub-category by the second.
roboparts.sort(key=lambda x: x.split("#")[1])
if bgset is not None:
bglist = []
backgrounds = natsort.natsorted(os.listdir(self.resourcedir + 'backgrounds/' + bgset))
backgrounds.sort()
for ls in backgrounds:
if not ls.startswith("."):
bglist.append(self.resourcedir + 'backgrounds/' + bgset + "/" + ls)
background = bglist[self.hasharray[3] % len(bglist)]
# Paste in each piece of the Robot.
roboimg = Image.open(roboparts[0])
roboimg = roboimg.resize((1024,1024))
for png in roboparts:
img = Image.open(png)
img = img.resize((1024,1024))
roboimg.paste(img,(0,0),img)
if bgset is not None:
bg = Image.open(background)
bg = bg.resize((1024,1024))
bg.paste(roboimg,(0,0),roboimg)
roboimg = bg
# If we're a BMP, flatten the image.
if format in ['bmp','jpeg']:
#Flatten bmps
r, g, b, a = roboimg.split()
roboimg = Image.merge("RGB", (r, g, b))
self.img = roboimg.resize((sizex,sizey),Image.LANCZOS)
self.format = format