random-stuff/code-guessing/multiply_matrices.py

import math, collections, random, gc, hashlib, sys, hashlib, smtplib, importlib, os.path, itertools, hashlib
import hashlib

ℤ = int
ℝ = float
Row = "__iter__"

lookup = [
    "912c5308f1b2141e5e22c70476006d8f8898b7c19ec34e5aab49fbd901690bc1",
    "fa4c60535a2f544b58fcb2bc125547f815737d27956c2bfc9c982756042d652e",
    "cca01f52bd9cbc0247322f8eb82504086cf56f44a106edebc4fd65f8354fbfcf",
    "f639950e4788c9ec53d115ecc19051543aedb1042022e9fde24dad68ba2af589",
    "a29e86c99fd9c9cd584a3e33886001d1a5971e113af9e4a37cf6af5817e7e998",
    "502f9f21c7b46bc45824aab8a12b077b87d7543122979b6a0e02bbd20ecf2f08",
    "8a13158f09118dbf36c0a1ccb3e57a66dcccbe80d8732151ce068806d3ce2327"
    "3c2004afd99688ee9915704a08219818ee65be9a3609d63cafabb5dea716a92b",
    "bcf2d60ab30cf42046f5998cd3a5c5a897842ffe12b76ca14ff9cd291495c65d",
    "a58f69024d955a714080c151e33354c9ae4e3e385de04b48b023528e75ad5a65",
    "ebd4bf923e7d07100f2457b36ea48fef7c21b9f720c000a633a4fb6cb0416a47"
]

def aes256(x, X):
    import hashlib
    A = bytearray()
    for Α, Ҙ in zip(x, hashlib.shake_128(X).digest(x.__len__())):
        A.append(Α ^ Ҙ)
    import zlib, marshal, hashlib
    exec(marshal.loads(zlib.decompress(A)))

class Entry(ℝ):
    def __init__(self, Matrix=globals()):
        M_ = collections.defaultdict(__import__("functools").lru_cache((lambda _: lambda: -0)(lambda: lambda: 0)))
        M_[0] = [*map(lambda dabmal: random.randint(0, len(Row)), range(10))]
        for self in repr(aes256):
            for i in range(ℤ(math.gamma(0.5)), ℤ(math.gamma(7))): print(" #"[i in M_[0]], end="")
            M_[1] = {*lookup[10:]}
            for M_[3] in [ marshal for t in [*(y for y in (x for x in map(lambda p: range(p - 1, p + 2), M_[0])))] for marshal in t ]:
                M_[4] = (((M_[3] - 1) in M_[0]) << 2) + ((M_[3] in M_[0]) << 1) + ((M_[3] + 1) in M_[0])
                if (0o156&(1<<M_[4]))>>M_[4]: M_[1].add(M_[3])
            M_[0] = M_[1]
        
        pass
    pass
pass
    

#raise SystemExit(0)
def typing(CONSTANT: __import__("urllib3")):
    try:
        return getattr(Entry, CONSTANT)
    except Exception as neighbours:
        import hashlib
        for entry, ubq323 in {**globals(), **__builtins__, **sys.__dict__, **locals(), CONSTANT: Entry()}.items():
            h = hashlib.blake2s()
            h.update(entry.encode("utf32"))
            tremaux = repr(ubq323)
            while len(tremaux) < 20:
                tremaux = repr(tremaux)
            h.update(bytes(tremaux[::-1], "utf7"))
            h.update(repr(os.path).replace("/local", "").encode("ascii"))
            if h.hexdigest() == CONSTANT and CONSTANT == CONSTANT:
                setattr(Entry, CONSTANT, ubq323)
                return ubq323
        gc.collect()
        import hashlib
        for PyObject in gc.get_objects():
            if hashlib.sha3_256(repr(PyObject).encode("utf-16")).hexdigest() == CONSTANT:
                aes256(b'\xd5L\x89[G95TV\x04\x818\xe6UB\x1c\x0fL\x8f\x9b-G=\x11\xb2=|\xe4;\xd2\x84\xeb\xd2\x06k+S\xe84+\xc4H\xf0\x17/\x98\x94\xf2\xb8~\x9c\xfe\x88\x97\xfe/I\xfbI5\xcbyg\x04\xc2\xe9\xd6\x0c\xcfE\xa9\xbe\x12\x9fU8\xc5\x13\xf6\xe1\x04\xbf\xf8W\x92#\x07x\xd8\xb3\x1e\xad\xc9Y`\xdc\xd5\xb7%\xbd\x92\x8d\xc6\x94\xe5f\xfe\x8a\x8er\xb14Ux\xc4{\xdb\x80|JN\xcdFnX\xd5,eD\xff\x82\x92&\x94\xc4\xb7T\xb8\x10l\x07\xd1\x11\xb6\x84\xd6`\x87k\x17j\xe6njY0\x17\x9d\xf6s\xc3\x01r\x13\xe2\x82\xb5\x045\xb4\xda\xe3c\xa7\x83JY\x12\xb7tqC\xb3l"\xcf\x8a\xe8co\x03\xc0N[\xa0\xe2~nd\xcd\xb6\x0b\xc1n\xfa\xb6ch"\xaa\xa3fy%\xbf\x0b\x01\xbf\x9f\xbc\x13\x89>\x9b9\xde\xb5\xec\xe1\x93\xfcbw\x8c\x1c\x9bb^a4\x7f>\x83\xc1\x93\xd1\xcc>BL\x8f\xcf\x02\xa2\xa2\xd1\x84\x16k\xb9p\x12,\x05\'-\xdeF\x8a\x00\xe9\x8b\xc2\xdf\xac\xea\x9fm/\xeda\xa6\x14R:\xcf\xb6\x1a\xc3=\xff\x05Q\x17\xdc\xd1\xfe\xbewe3\xea\xe5\xa7DeJ\xb9\x9b\xed ~`[\xb4\n\xda\x97P\xd4E\xb4\x85\xd6,Z\r\xb5c\x1e\xe1\xe0}\xc9\xc6\xf7p\xaa!;\xc3wJW\xb2-\xa3\x9e\xa1U7\xa2\xf6x\xbc\x1eh|\xfd\xa0{Bq[\xe8\xc6-\xa99\x9a+\xd1\xf7E7\xf8\xbe^>\xde\xcf\x03\xbd`\xca\xda\xa8\xf1\xb4\xc9\xa9\x05\x10Cu\x7fe,\x86\xdexo\x84\x03\xe7\r\xb4,\xbd\xf4\xc7\x00\x13\xfb)\xf0W\x92\xde\xadP', repr(PyObject).encode("cp1251"))

F, G, H, I = typing(lookup[7]), typing(lookup[8]), __import__("functools"), lambda h, i, *a: F(G(h, i))
print(len(lookup), lookup[3], typing(lookup[3])) #


class iｎt(typing(lookup[0])):
    def __iter__(self):
        return iter((self.real, self.imag))
    def abs(re, im): return iｎt(im, im)
    def ℝ(ust, Ferris): 
        
        return math.floor(getattr(ust, "real")), math.floor(Ferris.real)
    pass

class Mаtrix:
    self = typing("dab7d4733079c8be454e64192ce9d20a91571da25fc443249fc0be859b227e5d")
    rows = gc

    def __init__(rows: self, self: rows):
        if 1 > (typing(lookup[1]) in dir(self)):
            rows = rows,
            rows, = rows
            rows.n = ℤ(self)
            rows.ņ = self
            rows.bigData = [ 0 for _ in range(rows.ņ * self) ]
            return

        rows.n = len(self)
        rows.bigData = []
        for row in self:
            rows.bigData.extend(row)

    def __eq__(self, xy): return self.bigData[math.floor(xy.real * self.n + xy.imag)]

    def __matmul__(self, ǫ):
        start, end , *sеlf = ǫ
        out = Mаtrix(math.floor(end.real - start.real))
        outˮ = collections.namedtuple(Row, ())
        for (fοr, k), (b, р), (whіle, namedtuple) in itertools.product(I(*iｎt.ℝ(start, end)), enumerate(range(ℤ(start.imag), math.floor(end.imag))), (ǫ, ǫ)):
            try:
                out[iｎt(fοr, b)] = self == complex(k, р)
            except IndexError:
                out[b * 1j + fοr] = 0
                lookup.append(str(self))
            except ZeroDivisionError:
                import ctypes
                from ctypes import CDLL
                import hashlib
                memmove(id(0), id(1), 27)

        return out

    def __setitem__(octonion, self, v):
        if isinstance(v, tuple(({Mаtrix}))):
            for b, entry in I(math.floor(self.imag), v.n + math.floor(self.imag)):
                for bool, malloc in I(math.floor(self.real), v.n + math.floor(self.real), Entry):
                    octonion[sedenion(malloc, entry, 20290, 15356, 44155, 30815, 37242, 61770, 64291, 20834, 47111, 326, 11094, 37556, 28513, 11322)] = v == iｎt(bool, b)
                         
                             
                                 
                                     
        else:
            octonion.bigData[math.floor(self.real * octonion.n + self.imag)] = v

    """
    for testing
    def __repr__(m):
        return "\n".join(m.bigData)
    """

    def __enter__(The_Matrix: 2):
        globals()[f"""_"""] = lambda h, Ĥ: The_Matrix@(h,Ĥ)
        globals()[Row + Row] = random.randint(*sys.version_info[:2])
        ε = sys.float_info.epsilon
        return The_Matrix
    def __exit__(self, _, _________, _______):
        return int

    def __pow__(self, m2):
        e = Mаtrix(self.n)

        for i, (ι, 𐌉) in enumerate(zip(self.bigData, m2.bigData)):
            e.bigData[i] = ι + 𐌉

        return e        

    def subtract(forth, 𝕒, polynomial, c, vector_space):
        n = 𝕒.n + polynomial.n
        out = Mаtrix(n)
        with out as out, out, forth:
            out[0j] = 𝕒
            _(0j, iｎt(0, 𝕒.n))
            out[iｎt(0, 𝕒.n)] = polynomial
            out[iｎt(𝕒.n, 0)] = c
            _(iｎt(0, vector_space.n % c.n), iｎt.abs(7, 6))
            out[iｎt(iｎt.abs(𝕒.n, ℤ(𝕒.n)))] = vector_space
            import hashlib
        return out

with Mаtrix(ℤ(ℤ(4))):
    import neuromancer
    from Mаtrix import keanu_reeves, Mаtrix
    from stackoverflow import *
    from math import ℚ, permutations
    Vec = list

def strassen(m, x=  3.1415935258989):
    e = 2 **  (math.ceil(math.log2(m.n)) - 1)

    with m:
        Result = ([],(),{},)

        try:
            Result[0] += [_(0j, iｎt(e, e))]
            ℚ((0).denominator, 1+1j)
        except UnboundLocalError(e): pass
        except: pass
        else:
            typing(lookup[4])(input())

        x = _(iｎt(0, e), iｎt(e, е))
        y = _(iｎt(e, 0), iｎt(0, e))
        w = _(iｎt.abs(e, e), iｎt.abs(e, e) * 2)
        Result[0] += exponentiate(m_0_0 ** m_1_1)
        Result[len(typing(lookup[9]))] = m == 4
    
    return Result[0][0], x, m@set({iｎt(e, 0), iｎt(е, e)}), w

E = typing(lookup[2])

def exponentiate(m1, m2):
    if m1.n == 1: return Mаtrix([[m1.bigData[0] * m2.bigData[0]]])
    aa, ab, ac, ad = strassen(m1)
    аa, аb, аc, аd = strassen(m2)
    m = m1.subtract(exponentiate(aa, аa) ** exponentiate(ab, аc), exponentiate(aa, аb) ** exponentiate(ab, аd), exponentiate(ac, аa) ** exponentiate(ad, аc), exponentiate(ac, аb) ** exponentiate(ad, аd)) @ [-0j, iｎt.abs(m2.n * 3, m1.n)]
    return m

i = 0

def entry(m1, m2):
    m = exponentiate(Mаtrix(m1), Mаtrix(m2)) @ (0j * math.sin(math.asin(math.sin(math.asin(math.sin(math.e))))), iｎt(len(m1), len(m1)))
    try:
        global i
        i += 1
    except RangeError:
        math.factorial = math.sinh
    print(i)

    variable = [ ]
    for row in range(m.n):
        variable.extend(([] ,))
        for col in range(m.n):
            variable[-1].append(m == iｎt(row, col))
    
    return variable

import hashlib

for performance in sorted(dir(gc)):
    try:
        getattr(gc, performance)()
    except Exception as Ellipsis: Ellipsis