Beispiel #1
0
def test(a, p, target):
    E.params(a, -a, p)
    s = set()
    e = E(1, 1) + E(1, 1)

    cnt = 1
    while e.P != (1, 1):
        e = e + E(1, 1)
        cnt = cnt + 1
    return cnt == target
Beispiel #2
0
def test(a, p): 
  E.params(a, -a, p)
  s = set()
  e = E(1, 1) + E(1, 1)

  cnt = 1
  while e.P != (1, 1):
    e = e + E(1, 1)
    cnt = cnt + 1
  print(cnt)
Beispiel #3
0
def order(a):
    s = set((1, 1))
    count = 0
    Q = E(1, 1)
    while (Q + E(1, 1)).P not in s:
        Q = Q + E(1, 1)
        s.add(Q.P)
        count += 1
    print(count)
    return count
Beispiel #4
0
def doubleAndAdd(P, n):
    R = E(0)
    Q = P
    while n > 0:
        if (n % 2) == 1: R = R + Q
        n = n // 2
        Q = Q + Q
    return R
Beispiel #5
0
def fastMult(e, poww):
    res = E(0)
    z = e

    while (poww > 0):
        res = res + (poww % 2) * z
        poww = poww // 2
        z = z + z

    return res
Beispiel #6
0
def check(p):
    a = 1
    E.params(a, -a, p)

    while True:
        a += 1
        E.params(a, -a, p)
        if doubleAndAdd(E(1, 1), 1000000) == E(0):
            print(a)
            if order(a) == 1000000:
                return a
Beispiel #7
0

def fastMult(e, poww):
    res = E(0)
    z = e

    while (poww > 0):
        res = res + (poww % 2) * z
        poww = poww // 2
        z = z + z

    return res


if __name__ == '__main__':
    p = 36028797018964019
    q = 36028796930959053
    a = 12730951283832694
    E.params(a, -a, p)
    s = 788139760620004
    e = 57233552642126
    s1 = fastMult(E(1, 1), e).P[0]
    d = 8675309
    s2 = ((d + s * s1) * inv(e, q)) % q

    print fastMult(E(1, 1), q)
    print fastMult(E(1, 1), s)

    print s1
    print s2
Beispiel #8
0
        res = res + (poww % 2) * z
        poww = poww // 2
        z = z + z

    return res


def test(a, p, target):
    E.params(a, -a, p)
    s = set()
    e = E(1, 1) + E(1, 1)

    cnt = 1
    while e.P != (1, 1):
        e = e + E(1, 1)
        cnt = cnt + 1
    return cnt == target


if __name__ == '__main__':
    p = 1000003
    trials = 100000
    target = 1000000

    for i in range(trials):
        a = random.randrange(1, p)
        E.params(a, -a, p)
        if E(0) == fastMult(E(1, 1), target):  # see if order(E(1, 1)) | target
            if test(a, p, target):  # see if order(E(1, 1)) == target
                print(str(a) + " " + str(p))
Beispiel #9
0
a = 12730951283832694
p = 36028797018964019
ph = 36028796930959053


def f(ee, pp, qq, P, Q):
    if 0 <= ee.P[0] < p / 3: return (ee + P, (pp + 1) % ph, qq)
    elif p / 3 <= ee.P[0] < 2 * p / 3:
        return (ee + ee, (pp * 2) % ph, (qq * 2) % ph)
    else:
        return (ee + Q, pp, (qq + 1) % ph)


if __name__ == '__main__':
    E.params(a, -a, p)
    P = E(1, 1)
    Q = E(32676541629070164, 35161284104701659)

    a = f(P, 1, 0, P, Q)
    b = f(a[0], a[1], a[2], P, Q)

    cnt = 0
    while a[0].P != b[0].P:
        a = f(a[0], a[1], a[2], P, Q)
        b = f(b[0], b[1], b[2], P, Q)
        b = f(b[0], b[1], b[2], P, Q)

        cnt = cnt + 1
        if cnt % 100000 == 0: print(cnt)
Beispiel #10
0
from ec import E

p = 977245356317
ph = 977244806323

def fastMult(e, poww): 
  res = E(0)
  z = e

  while(poww > 0):
    res = res + (poww%2)*z
    poww = poww//2
    z = z + z
  
  return res

if __name__ == '__main__':
  E.params(454619944748, 67189121909, p)
  P = E(474177197796,218937542115)
  Q = E(287274742986,103070012816)

  print(fastMult(P, 777244806324))

  E.params(508139, -508139, 900001)
  print(fastMult(E(1, 1), 10000))
Beispiel #11
0
def fastMult(e, poww):
    res = E(0)
    z = e

    while (poww > 0):
        res = res + (poww % 2) * z
        poww = poww // 2
        z = z + z

    return res


if __name__ == '__main__':
    p = nextprime((1 << 55) + random.randrange(0, 1 << 8))
    a = random.randrange(p / 4, 3 * p / 4)
    E.params(a, -a, p)

    lb = long(p - 2 * sqrt(p))
    ub = long(p + 2 * sqrt(p))

    # tries 4*sqrt(p), but rho algorithm takes sqrt(p)... just BRUTE
    # let's assume professor's checking code timeouts in a minute. RUN THIS FOR FOUR MINUTES THEN

    z = fastMult(E(1, 1), lb)
    for q in range(0, long(4 * sqrt(p))):
        if q % long(4 * sqrt(p) / 100) == 0:
            perc = long(q / (4 * sqrt(p)) * 100 + 0.5)
            print(perc)

        if z == E(0):
            print(a, p, lb + q)