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229 lines
7.1 KiB
Python
Executable File
229 lines
7.1 KiB
Python
Executable File
import hashlib
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import time
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from .utils import human_format
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class NickGenerator:
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"""
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Deterministic nick generator from SHA256 hash.
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It builds Nicknames as:
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Adverb + Adjective + Noun + Numeric(0-999)
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With the current English dictionaries there
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is a total of to 450*4800*12500*1000 =
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28 Trillion deterministic nicks"""
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def __init__(
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self,
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lang="English",
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use_adv=True,
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use_adj=True,
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use_noun=True,
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max_num=999,
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verbose=False,
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):
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"""
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used_adv: bool , True if adverbs are used in the nick.
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used_adj: bool , True if adjectives are used in the nick.
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use_noun: bool , True if nouns are used in the nick.
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max_num: int, max integer to be used in nick (at least 1)
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"""
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if lang == "English":
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from .dicts.en.adjectives import adjectives
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from .dicts.en.adverbs import adverbs
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from .dicts.en.nouns import nouns
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# UNUSED
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# elif lang == "Spanish":
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# from .dicts.es.adjectives import adjectives
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# from .dicts.es.adverbs import adverbs
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# from .dicts.es.nouns import nouns
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# else:
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# raise ValueError("Language not implemented.")
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# UNUSED
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# if verbose:
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# print(
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# f"{lang} SHA256 Nick Generator initialized with:"
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# + f"\nUp to {len(adverbs)} adverbs."
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# + f"\nUp to {len(adjectives)} adjectives."
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# + f"\nUp to {len(nouns)} nouns."
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# + f"\nUp to {max_num+1} numerics.\n"
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# )
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self.use_adv = use_adv
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self.use_adj = use_adj
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self.use_noun = use_noun
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self.max_num = max_num
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self.verbose = verbose
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self.adverbs = adverbs
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self.adjectives = adjectives
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self.nouns = nouns
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def from_SHA256(self, hash=None):
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"""
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Converts hash to int, min-max scales it
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to the pool size of nicks, uses it as
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index to construct the nick element by
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element.
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hash; SHA256 hash as bytes
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"""
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# Get size of dictionaries for each element
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num_adv = len(self.adverbs) if self.use_adv else 1
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num_adj = len(self.adjectives) if self.use_adj else 1
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num_nouns = len(self.nouns) if self.use_noun else 1
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# Compute pool size by combinatorics
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pool_size = self.max_num * num_nouns * num_adj * num_adv
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# Min-Max scale the hash relative to the pool size
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max_int_hash = 2**256
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int_hash = int(hash, 16)
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nick_id = int((int_hash / max_int_hash) * pool_size)
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# Compute adverb id
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if self.use_adv:
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pass
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# UNUSED
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# adv_id = int(nick_id / (self.max_num * num_nouns * num_adj))
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# adv = self.adverbs[adv_id]
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# remainder = nick_id - adv_id * self.max_num * num_nouns * num_adj
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# if self.verbose:
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# print(f"Adverb: {adv}, id {adv_id}.")
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else:
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adv_id, adv, remainder = 0, "", nick_id
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# Compute adjective id
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if self.use_adj:
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adj_id = int(remainder / (self.max_num * num_nouns))
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adj = self.adjectives[adj_id]
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remainder = remainder - adj_id * self.max_num * num_nouns
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if self.verbose:
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print(f"Adjective: {adj}, id {adj_id}.")
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else:
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adj_id, adj = 0, ""
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# Compute noun id
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if self.use_noun:
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noun_id = int(remainder / self.max_num)
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noun = self.nouns[noun_id]
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if self.verbose:
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print(f"Noun: {noun}, id {noun_id}.\n")
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else:
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noun_id, noun = 0, ""
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# Remainder is the numeric element
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if self.max_num > 0:
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num_id = remainder - noun_id * self.max_num
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number = str(num_id)
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else:
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num_id, number = 0, ""
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# Build nick
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nick = adv + adj + noun + number
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return nick, nick_id, pool_size
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def short_from_SHA256(
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self,
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primer_hash=None,
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max_length=25,
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max_iter=10_000,
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):
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"""
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Generates Nicks that are short.
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Iterates trough hashes deterministically
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until it finds a nick that satisfies
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the lenght restriction.
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"""
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hash = primer_hash
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i = 0
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while i < max_iter:
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nick, nick_id, pool_size = self.from_SHA256(hash)
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if len(nick) <= max_length:
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return nick, nick_id, pool_size, i
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else:
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string = str(hash) + str(42)
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hash = hashlib.sha256(str.encode(string)).hexdigest()
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i = i + 1
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return "", 0, 0, i
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def compute_pool_size_loss(self, max_length=22, max_iter=1_000_000, num_runs=5000):
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"""
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Computes median an average loss of
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nick pool diversity due to max_lenght
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restrictions.
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"""
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return
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# UNUSED
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# import random
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# import statistics
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# attempts = []
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# for i in range(num_runs):
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# string = str(random.uniform(0, 1_000_000))
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# hash = hashlib.sha256(str.encode(string)).hexdigest()
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# _, _, pool_size, tries = self.short_from_SHA256(hash, max_length)
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# attempts.append(tries)
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# median = statistics.median(attempts)
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# mean = statistics.mean(attempts)
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# print(f"\nFor max_length of {max_length}:")
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# print(f"Median loss of entropy factor is {median}.")
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# print(f"Mean loss of entropy factor is {mean}.")
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# print(
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# f"Approximate real pool is {human_format( int(pool_size/(mean+1)))} nicks in size."
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# )
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# UNUSED
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# if __name__ == "__main__":
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# # Just for code timming
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# t0 = time.time()
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# # Hardcoded example text and hashing
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# nick_lang = "English" # Spanish
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# hash = hashlib.sha256(b"No one expected such cool nick!!").hexdigest()
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# max_length = 22
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# max_iter = 100_000_000
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# # Initialized nick generator
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# GenNick = NickGenerator(lang=nick_lang)
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# # Generates a short nick with length limit from SHA256
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# nick, nick_id, pool_size, iterations = GenNick.short_from_SHA256(
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# hash, max_length, max_iter
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# )
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# # Output
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# print(
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# f"Nick number {nick_id} has been selected among"
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# + f" {human_format(pool_size)} possible nicks.\n"
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# + f"Needed {iterations} iterations to find one "
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# + f"this short.\nYour nick is {nick} !\n"
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# )
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# print(f"Nick lenght is {len(nick)} characters.")
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# print(f"Nick landed at height {nick_id/(pool_size+1)} on the pool.")
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# print(f"Took {time.time()-t0} secs.\n")
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# # Print many nicks
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# import random
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# random.seed(1)
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# for i in range(100):
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# string = str(random.uniform(0, 1_000_000))
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# hash = hashlib.sha256(str.encode(string)).hexdigest()
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# print(
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# GenNick.short_from_SHA256(hash, max_length=max_length, max_iter=max_iter)[0]
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# )
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# # Other analysis
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# GenNick.compute_pool_size_loss(max_length, max_iter, 200)
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