def test_misc(self):
secint = mpc.SecInt()
secfxp = mpc.SecFxp()
secfld = mpc.SecFld()
for secnum in (secint, secfxp, secfld):
self.assertEqual(type(mpc.run(mpc.output(secnum(0), raw=True))), secnum.field)
self.assertEqual(mpc.run(mpc.output(mpc._reshare([secnum(0)]))), [0])
self.assertEqual(mpc.run(mpc.output(mpc.all(secnum(1) for _ in range(5)))), True)
self.assertEqual(mpc.run(mpc.output(mpc.all([secnum(1), secnum(1), secnum(0)]))), False)
self.assertEqual(mpc.run(mpc.output(mpc.any(secnum(0) for _ in range(5)))), False)
self.assertEqual(mpc.run(mpc.output(mpc.any([secnum(0), secnum(1), secnum(1)]))), True)
self.assertEqual(mpc.run(mpc.output(mpc.sum([secnum(1)], start=1))), 2)
self.assertEqual(mpc.run(mpc.output(mpc.prod([secnum(1)], start=1))), 1)
self.assertEqual(mpc.run(mpc.output(mpc.sum([secnum(1)], start=secnum(1)))), 2)
self.assertEqual(mpc.run(mpc.output(mpc.min(secint(i) for i in range(-1, 2, 1)))), -1)
self.assertEqual(mpc.run(mpc.output(mpc.argmin(secint(i) for i in range(-1, 2, 1))[0])), 0)
self.assertEqual(mpc.run(mpc.output(mpc.max(secfxp(i) for i in range(-1, 2, 1)))), 1)
self.assertEqual(mpc.run(mpc.output(mpc.argmax(secfxp(i) for i in range(-1, 2, 1))[0])), 2)
self.assertEqual(mpc.run(mpc.output(list(mpc.min_max(map(secfxp, range(5)))))), [0, 4])
x = (secint(i) for i in range(-3, 3))
s = [0, -1, 1, -2, 2, -3]
self.assertEqual(mpc.run(mpc.output(mpc.sorted(x, key=lambda a: a*(2*a+1)))), s)
x = (secfxp(i) for i in range(5))
self.assertEqual(mpc.run(mpc.output(mpc.sorted(x, reverse=True))), [4, 3, 2, 1, 0])
self.assertEqual(mpc.run(mpc.output(mpc.sum(map(secint, range(5))))), 10)
self.assertEqual(mpc.run(mpc.output(mpc.sum([secfxp(2.75)], start=3.125))), 5.875)
self.assertEqual(int(mpc.run(mpc.output(mpc.prod(map(secfxp, range(1, 5)))))), 24)
self.assertEqual(int(mpc.run(mpc.output(mpc.prod([secfxp(1.414214)]*4)))), 4)
def test_misc(self):
secint = mpc.SecInt()
secfxp = mpc.SecFxp()
secfld = mpc.SecFld()
for secnum in (secint, secfxp, secfld):
self.assertEqual(mpc.run(mpc.output(mpc._reshare([secnum(0)]))),
[0])
self.assertEqual(
mpc.run(mpc.output(mpc.all(secnum(1) for _ in range(5)))),
True)
self.assertEqual(
mpc.run(mpc.output(mpc.all([secnum(1),
secnum(1),
secnum(0)]))), False)
self.assertEqual(
mpc.run(mpc.output(mpc.any(secnum(0) for _ in range(5)))),
False)
self.assertEqual(
mpc.run(mpc.output(mpc.any([secnum(0),
secnum(1),
secnum(1)]))), True)
self.assertEqual(
mpc.run(mpc.output(mpc.sum([secnum(1)], start=1))), 2)
self.assertEqual(
mpc.run(mpc.output(mpc.prod([secnum(1)], start=1))), 1)
self.assertEqual(
mpc.run(mpc.output(mpc.sum([secnum(1)], start=secnum(1)))), 2)
self.assertEqual(
mpc.run(mpc.output(mpc.min(secint(i) for i in range(-1, 2, 1)))),
-1)
self.assertEqual(
mpc.run(mpc.output(mpc.max(secfxp(i) for i in range(-1, 2, 1)))),
1)
self.assertEqual(
mpc.run(mpc.output(list(mpc.min_max(map(secfxp, range(5)))))),
[0, 4])
self.assertEqual(mpc.run(mpc.output(mpc.sum(map(secint, range(5))))),
10)
self.assertEqual(
mpc.run(mpc.output(mpc.sum([secfxp(2.72)], start=3.14))), 5.86)
self.assertEqual(
int(mpc.run(mpc.output(mpc.prod(map(secfxp, range(1, 5)))))), 24)
self.assertEqual(
int(mpc.run(mpc.output(mpc.prod([secfxp(1.414214)] * 4)))), 4)
def test_misc(self):
secint = mpc.SecInt()
secfxp = mpc.SecFxp()
secfld = mpc.SecFld()
for secnum in (secint, secfxp, secfld):
self.assertEqual(type(mpc.run(mpc.output(secnum(0), raw=True))),
secnum.field)
self.assertEqual(mpc.run(mpc.output(mpc._reshare([secnum(0)]))),
[0])
self.assertEqual(
mpc.run(mpc.output(mpc.all(secnum(1) for _ in range(5)))),
True)
self.assertEqual(
mpc.run(mpc.output(mpc.all([secnum(1),
secnum(1),
secnum(0)]))), False)
self.assertEqual(
mpc.run(mpc.output(mpc.any(secnum(0) for _ in range(5)))),
False)
self.assertEqual(
mpc.run(mpc.output(mpc.any([secnum(0),
secnum(1),
secnum(1)]))), True)
self.assertEqual(
mpc.run(mpc.output(mpc.sum([secnum(1)], start=1))), 2)
self.assertEqual(
mpc.run(mpc.output(mpc.prod([secnum(1)], start=1))), 1)
self.assertEqual(
mpc.run(mpc.output(mpc.sum([secnum(1)], start=secnum(1)))), 2)
self.assertEqual(
mpc.run(mpc.output(mpc.find([secnum(1)], 0, e=-1))), -1)
self.assertEqual(mpc.run(mpc.output(mpc.find([secnum(1)], 1))), 0)
self.assertEqual(
mpc.run(mpc.output(mpc.find([secnum(1)], 1, f=lambda i: i))),
0)
self.assertEqual(
mpc.run(mpc.output(mpc.min(secint(i) for i in range(-1, 2, 1)))),
-1)
self.assertEqual(
mpc.run(
mpc.output(mpc.argmin(secint(i) for i in range(-1, 2, 1))[0])),
0)
self.assertEqual(
mpc.run(mpc.output(mpc.max(secfxp(i) for i in range(-1, 2, 1)))),
1)
self.assertEqual(
mpc.run(
mpc.output(mpc.argmax(secfxp(i) for i in range(-1, 2, 1))[0])),
2)
self.assertEqual(
mpc.run(mpc.output(list(mpc.min_max(map(secfxp, range(5)))))),
[0, 4])
x = (secint(i) for i in range(-3, 3))
s = [0, -1, 1, -2, 2, -3]
self.assertEqual(
mpc.run(mpc.output(mpc.sorted(x, key=lambda a: a * (2 * a + 1)))),
s)
x = (secfxp(i) for i in range(5))
self.assertEqual(mpc.run(mpc.output(mpc.sorted(x, reverse=True))),
[4, 3, 2, 1, 0])
self.assertEqual(mpc.run(mpc.output(mpc.sum(map(secint, range(5))))),
10)
self.assertEqual(
mpc.run(mpc.output(mpc.sum([secfxp(2.75)], start=3.125))), 5.875)
self.assertEqual(
int(mpc.run(mpc.output(mpc.prod(map(secfxp, range(1, 5)))))), 24)
self.assertEqual(
int(mpc.run(mpc.output(mpc.prod([secfxp(1.414214)] * 4)))), 4)
self.assertEqual(mpc.find([], 0), 0)
self.assertEqual(mpc.find([], 0, e=None), (1, 0))
self.assertEqual(
mpc.run(mpc.output(list(mpc.find([secfld(1)], 1, e=None)))),
[0, 0])
self.assertEqual(
mpc.run(mpc.output(mpc.find([secfld(2)], 2, bits=False))), 0)
x = [secint(i) for i in range(5)]
f = lambda i: [i**2, 3**i]
self.assertEqual(mpc.run(mpc.output(mpc.find(x, 2, bits=False, f=f))),
[4, 9])
cs_f = lambda b, i: [b * (2 * i + 1) + i**2, (b * 2 + 1) * 3**i]
self.assertEqual(
mpc.run(mpc.output(mpc.find(x, 2, bits=False, cs_f=cs_f))), [4, 9])
def test_secfxp(self):
secfxp = mpc.SecFxp()
self.assertEqual(
mpc.run(mpc.output(mpc.input(secfxp(7.75), senders=0))), 7.75)
c = mpc.to_bits(secfxp(0),
0) # mpc.output() only works for nonempty lists
self.assertEqual(c, [])
c = mpc.run(mpc.output(mpc.to_bits(secfxp(0))))
self.assertEqual(c, [0.0] * 32)
c = mpc.run(mpc.output(mpc.to_bits(secfxp(1))))
self.assertEqual(c, [0.0] * 16 + [1.0] + [0.0] * 15)
c = mpc.run(mpc.output(mpc.to_bits(secfxp(0.5))))
self.assertEqual(c, [0.0] * 15 + [1.0] + [0.0] * 16)
c = mpc.run(mpc.output(mpc.to_bits(secfxp(8113))))
self.assertEqual(c, [0.0] * 16 +
[1, 0, 0, 0, 1, 1, 0, 1, 1, 1, 1, 1, 1, 0, 0, 0])
c = mpc.run(mpc.output(mpc.to_bits(secfxp(2**15 - 1))))
self.assertEqual(c, [0] * 16 + [1] * 15 + [0])
c = mpc.run(mpc.output(mpc.to_bits(secfxp(-1))))
self.assertEqual(c, [0] * 16 + [1] * 16)
c = mpc.run(mpc.output(mpc.to_bits(secfxp(-2**15))))
self.assertEqual(c, [0] * 31 + [1])
for f in [8, 16, 32, 64]:
secfxp = mpc.SecFxp(2 * f)
c = mpc.run(mpc.output(secfxp(1) + secfxp(1)))
self.assertEqual(c, 2)
c = mpc.run(mpc.output(secfxp(2**-f) + secfxp(1)))
if f != 64: # NB: 1 + 2**-64 == 1 in Python
self.assertEqual(c, 1 + 2**-f)
self.assertEqual(mpc.run(mpc.output(secfxp(0.5) * secfxp(2.0))), 1)
self.assertEqual(mpc.run(mpc.output(secfxp(2.0) * secfxp(0.5))), 1)
c = mpc.run(
mpc.output(
secfxp(2**(f // 2 - 1) - 0.5) *
secfxp(-2**(f // 2) + 0.5)))
self.assertEqual(c, -2**(f - 1) + 1.5 * 2**(f // 2 - 1) - 0.25)
s = [10.75, -3.375, 0.125, -0.125]
self.assertEqual(mpc.run(mpc.output(list(map(secfxp, s)))), s)
s = [10.5, -3.25, 0.125, -0.125]
a, b, c, d = list(map(secfxp, s))
t = [v * v for v in s]
self.assertEqual(mpc.run(mpc.output([a * a, b * b, c * c, d * d])),
t)
x = [a, b, c, d]
self.assertEqual(mpc.run(mpc.output(mpc.schur_prod(x, x))), t)
self.assertEqual(mpc.run(mpc.output(mpc.schur_prod(x, x[:]))), t)
t = sum(t)
self.assertEqual(mpc.run(mpc.output(mpc.in_prod(x, x))), t)
self.assertEqual(mpc.run(mpc.output(mpc.in_prod(x, x[:]))), t)
self.assertEqual(
mpc.run(mpc.output(mpc.matrix_prod([x], [x], True)[0])), [t])
u = mpc.unit_vector(secfxp(3), 4)
self.assertEqual(
mpc.run(mpc.output(mpc.matrix_prod([x], [u], True)[0])),
[s[3]])
self.assertEqual(
mpc.run(mpc.output(mpc.matrix_prod([u], [x], True)[0])),
[s[3]])
self.assertEqual(
mpc.run(mpc.output(mpc.gauss([[a]], b, [a], [b])[0])), [0])
t = [_ for a, b, c, d in [s] for _ in [a + b, a * b, a - b]]
self.assertEqual(mpc.run(mpc.output([a + b, a * b, a - b])), t)
t = [
_ for a, b, c, d in [s]
for _ in [(a + b)**2, (a + b)**2 + 3 * c]
]
self.assertEqual(
mpc.run(mpc.output([(a + b)**2, (a + b)**2 + 3 * c])), t)
t = [_ for a, b, c, d in [s] for _ in [a < b, b < c, c < d]]
self.assertEqual(mpc.run(mpc.output([a < b, b < c, c < d])), t)
t = s[0] < s[1] and s[1] < s[2]
self.assertEqual(mpc.run(mpc.output((a < b) & (b < c))), t)
t = s[0] < s[1] or s[1] < s[2]
self.assertEqual(mpc.run(mpc.output((a < b) | (b < c))), t)
t = (int(s[0] < s[1]) ^ int(s[1] < s[2]))
self.assertEqual(mpc.run(mpc.output((a < b) ^ (b < c))), t)
t = (int(not s[0] < s[1]) ^ int(s[1] < s[2]))
self.assertEqual(mpc.run(mpc.output(~(a < b) ^ b < c)), t)
t = [s[0] > 1, 10 * s[1] < 5, 10 * s[0] == 5]
self.assertEqual(
mpc.run(mpc.output([a > 1, 10 * b < 5, 10 * a == 5])), t)
s[3] = -0.120
d = secfxp(s[3])
t = s[3] / 0.25
self.assertAlmostEqual(mpc.run(mpc.output(d / 0.25)),
t,
delta=2**(1 - f))
t = round(s[3] / s[2] + s[0])
self.assertEqual(round(mpc.run(mpc.output(d / c + a))), t)
t = ((s[0] + s[1])**2 + 3 * s[2]) / s[2]
self.assertAlmostEqual(mpc.run(mpc.output(
((a + b)**2 + 3 * c) / c)),
t,
delta=2**(8 - f))
t = 1 / s[3]
self.assertAlmostEqual(mpc.run(mpc.output(1 / d)),
t,
delta=2**(6 - f))
t = s[2] / s[3]
self.assertAlmostEqual(mpc.run(mpc.output(c / d)),
t,
delta=2**(3 - f))
t = -s[3] / s[2]
self.assertAlmostEqual(mpc.run(mpc.output(-d / c)),
t,
delta=2**(3 - f))
self.assertEqual(mpc.run(mpc.output(mpc.sgn(+a))), s[0] > 0)
self.assertEqual(mpc.run(mpc.output(mpc.sgn(-a))), -(s[0] > 0))
self.assertEqual(mpc.run(mpc.output(mpc.sgn(secfxp(0)))), 0)
self.assertEqual(mpc.run(mpc.output(abs(secfxp(-1.5)))), 1.5)
self.assertEqual(mpc.run(mpc.output(mpc.min(a, b, c, d))), min(s))
self.assertEqual(mpc.run(mpc.output(mpc.min(a, 0))), min(s[0], 0))
self.assertEqual(mpc.run(mpc.output(mpc.min(0, b))), min(0, s[1]))
self.assertEqual(mpc.run(mpc.output(mpc.max(a, b, c, d))), max(s))
self.assertEqual(mpc.run(mpc.output(mpc.max(a, 0))), max(s[0], 0))
self.assertEqual(mpc.run(mpc.output(mpc.max(0, b))), max(0, s[1]))
self.assertEqual(
mpc.run(mpc.output(list(mpc.min_max(a, b, c, d)))),
[min(s), max(s)])
self.assertEqual(mpc.run(mpc.output(mpc.argmin([a, b, c, d])[0])),
1)
self.assertEqual(
mpc.run(mpc.output(mpc.argmin([a, b], key=operator.neg)[1])),
max(s))
self.assertEqual(mpc.run(mpc.output(mpc.argmax([a, b, c, d])[0])),
0)
self.assertEqual(
mpc.run(mpc.output(mpc.argmax([a, b], key=operator.neg)[1])),
min(s))
self.assertEqual(mpc.run(mpc.output(secfxp(5) % 2)), 1)
self.assertEqual(mpc.run(mpc.output(secfxp(1) % 2**(1 - f))), 0)
self.assertEqual(mpc.run(mpc.output(secfxp(2**-f) % 2**(1 - f))),
2**-f)
self.assertEqual(
mpc.run(mpc.output(secfxp(2 * 2**-f) % 2**(1 - f))), 0)
self.assertEqual(mpc.run(mpc.output(secfxp(1) // 2**(1 - f))),
2**(f - 1))
self.assertEqual(mpc.run(mpc.output(secfxp(27.0) % 7.0)), 6.0)
self.assertEqual(mpc.run(mpc.output(secfxp(-27.0) // 7.0)), -4.0)
self.assertEqual(
mpc.run(mpc.output(list(divmod(secfxp(27.0), 6.0)))),
[4.0, 3.0])
self.assertEqual(mpc.run(mpc.output(secfxp(21.5) % 7.5)), 6.5)
self.assertEqual(mpc.run(mpc.output(secfxp(-21.5) // 7.5)), -3.0)
self.assertEqual(
mpc.run(mpc.output(list(divmod(secfxp(21.5), 0.5)))),
[43.0, 0.0])
def test_secfxp(self):
secfxp = mpc.SecFxp()
c = mpc.to_bits(secfxp(0),
0) # mpc.output() only works for non-empty lists
self.assertEqual(c, [])
c = mpc.run(mpc.output(mpc.to_bits(secfxp(0))))
self.assertEqual(c, [0.0] * 32)
c = mpc.run(mpc.output(mpc.to_bits(secfxp(1))))
self.assertEqual(c, [0.0] * 16 + [1.0] + [0.0] * 15)
c = mpc.run(mpc.output(mpc.to_bits(secfxp(8113))))
self.assertEqual(c, [0.0] * 16 + [
float(b) for b in [1, 0, 0, 0, 1, 1, 0, 1, 1, 1, 1, 1, 1, 0, 0, 0]
])
c = mpc.run(mpc.output(mpc.to_bits(secfxp(2**15 - 1))))
self.assertEqual(c, [float(b) for b in [0] * 16 + [1] * 15 + [0]])
c = mpc.run(mpc.output(mpc.to_bits(secfxp(-1))))
self.assertEqual(c, [float(b) for b in [0] * 16 + [1] * 16])
c = mpc.run(mpc.output(mpc.to_bits(secfxp(-2**15))))
self.assertEqual(c, [float(b) for b in [0] * 31 + [1]])
for f in [8, 16, 32, 64]:
secfxp = mpc.SecFxp(2 * f)
d = mpc.run(mpc.output(secfxp(1) + secfxp(1)))
self.assertEqual(d.frac_length, f)
self.assertEqual(d, 2)
d = mpc.run(mpc.output(secfxp(2**-f) + secfxp(1)))
f == 64 or self.assertEqual(
d, 1 + 2**-f) # NB: 1 + 2**-64 == 1 in Python
d = mpc.run(mpc.output(secfxp(0.5) * secfxp(2.0)))
self.assertEqual(d, 1)
d = mpc.run(mpc.output(secfxp(2.0) * secfxp(0.5)))
self.assertEqual(d, 1)
s = [10.7, -3.4, 0.1, -0.11]
self.assertEqual(mpc.run(mpc.output(list(map(secfxp, s)))), s)
s = [10.5, -3.25, 0.125, -0.125]
x, y, z, w = list(map(secfxp, s))
s2 = [v * v for v in s]
self.assertEqual(mpc.run(mpc.output([x * x, y * y, z * z, w * w])),
s2)
self.assertEqual(
mpc.run(mpc.output(mpc.schur_prod([x, y, z, w],
[x, y, z, w]))), s2)
s2 = [_ for x, y, z, w in [s] for _ in [x + y, x * y, x - y]]
self.assertEqual(mpc.run(mpc.output([x + y, x * y, x - y])), s2)
s2 = [
_ for x, y, z, w in [s]
for _ in [(x + y)**2, (x + y)**2 + 3 * z]
]
self.assertEqual(
mpc.run(mpc.output([(x + y)**2, (x + y)**2 + 3 * z])), s2)
s2 = [int(_) for x, y, z, w in [s] for _ in [x < y, y < z, z < w]]
self.assertEqual(mpc.run(mpc.output([x < y, y < z, z < w])), s2)
s2 = int(s[0] < s[1] and s[1] < s[2])
self.assertEqual(mpc.run(mpc.output((x < y) & (y < z))), s2)
s2 = int(s[0] < s[1] or s[1] < s[2])
self.assertEqual(mpc.run(mpc.output((x < y) | (y < z))), s2)
s2 = (int(s[0] < s[1]) ^ int(s[1] < s[2]))
self.assertEqual(mpc.run(mpc.output((x < y) ^ (y < z))), s2)
s2 = (int(not s[0] < s[1]) ^ int(s[1] < s[2]))
self.assertEqual(mpc.run(mpc.output(~(x < y) ^ y < z)), s2)
s2 = [int(s[0] < 1), int(10 * s[1] < 5), int(10 * s[0] == 5)]
self.assertEqual(
mpc.run(mpc.output([x < 1, 10 * y < 5, 10 * x == 5])), s2)
s[3] = -0.120
w = secfxp(s[3])
for _ in range(3):
s2 = s[3] / s[2] + s[0]
self.assertAlmostEqual(mpc.run(mpc.output(w / z + x)).signed(),
s2,
delta=1)
ss2 = round(s2 * (1 << f))
self.assertAlmostEqual(mpc.run(mpc.output(w / z + x)),
ss2,
delta=1)
s2 = ((s[0] + s[1])**2 + 3 * s[2]) / s[2]
self.assertAlmostEqual(mpc.run(
mpc.output(((x + y)**2 + 3 * z) / z)).signed(),
s2,
delta=2)
s2 = 1 / s[3]
self.assertAlmostEqual((mpc.run(mpc.output(1 / w))).signed(),
s2,
delta=1)
s2 = s[2] / s[3]
self.assertAlmostEqual(mpc.run(mpc.output(z / w)).signed(),
s2,
delta=1)
s2 = -s[3] / s[2]
ss2 = round(s2 * (1 << f))
self.assertAlmostEqual(mpc.run(mpc.output(-w / z)),
ss2,
delta=1)
s2 = s[2] / s[3]
ss2 = round(s2 * (1 << f))
self.assertAlmostEqual(mpc.run(mpc.output(w / z)),
ss2,
delta=1)
self.assertEqual(mpc.run(mpc.output(mpc.sgn(x))), int(s[0] > 0))
self.assertEqual(mpc.run(mpc.output(mpc.sgn(-x))), -int(s[0] > 0))
self.assertEqual(mpc.run(mpc.output(mpc.sgn(secfxp(0)))), 0)
self.assertEqual(mpc.run(mpc.output(mpc.min(x, y, w, z))), min(s))
self.assertEqual(mpc.run(mpc.output(mpc.min(x, 0))), min(s[0], 0))
self.assertEqual(mpc.run(mpc.output(mpc.min(0, y))), min(0, s[1]))
self.assertEqual(mpc.run(mpc.output(mpc.max(x, y, w, z))), max(s))
self.assertEqual(mpc.run(mpc.output(mpc.max(x, 0))), max(s[0], 0))
self.assertEqual(mpc.run(mpc.output(mpc.max(0, y))), max(0, s[1]))
self.assertEqual(mpc.run(mpc.output(secfxp(5) % 2)), 1 * (2**f))
self.assertEqual(mpc.run(mpc.output(secfxp(1) % 2**(1 - f))),
0 * (2**f))
self.assertEqual(
mpc.run(mpc.output(secfxp(1 / 2**f) % 2**(1 - f))), 1)
self.assertEqual(
mpc.run(mpc.output(secfxp(2 / 2**f) % 2**(1 - f))), 0)
self.assertEqual(mpc.run(mpc.output(secfxp(1) // 2**(1 - f))),
2**(f - 1))
self.assertEqual(mpc.run(mpc.output(secfxp(27.0) % 7.0)), 6.0)
self.assertEqual(mpc.run(mpc.output(secfxp(-27.0) // 7.0)), -4.0)
self.assertEqual(
mpc.run(mpc.output(list(divmod(secfxp(27.0), 6.0)))),
[4.0, 3.0])
self.assertEqual(mpc.run(mpc.output(secfxp(21.5) % 7.5)), 6.5)
self.assertEqual(mpc.run(mpc.output(secfxp(-21.5) // 7.5)), -3.0)
self.assertEqual(
mpc.run(mpc.output(list(divmod(secfxp(21.5), 0.5)))),
[43.0, 0.0])
def test_secfxp(self):
secfxp = mpc.SecFxp()
c = mpc.to_bits(secfxp(0),
0) # mpc.output() only works for nonempty lists
self.assertEqual(c, [])
c = mpc.run(mpc.output(mpc.to_bits(secfxp(0))))
self.assertEqual(c, [0.0] * 32)
c = mpc.run(mpc.output(mpc.to_bits(secfxp(1))))
self.assertEqual(c, [0.0] * 16 + [1.0] + [0.0] * 15)
c = mpc.run(mpc.output(mpc.to_bits(secfxp(0.5))))
self.assertEqual(c, [0.0] * 15 + [1.0] + [0.0] * 16)
c = mpc.run(mpc.output(mpc.to_bits(secfxp(8113))))
self.assertEqual(c, [0.0] * 16 + [
float(b) for b in [1, 0, 0, 0, 1, 1, 0, 1, 1, 1, 1, 1, 1, 0, 0, 0]
])
c = mpc.run(mpc.output(mpc.to_bits(secfxp(2**15 - 1))))
self.assertEqual(c, [float(b) for b in [0] * 16 + [1] * 15 + [0]])
c = mpc.run(mpc.output(mpc.to_bits(secfxp(-1))))
self.assertEqual(c, [float(b) for b in [0] * 16 + [1] * 16])
c = mpc.run(mpc.output(mpc.to_bits(secfxp(-2**15))))
self.assertEqual(c, [float(b) for b in [0] * 31 + [1]])
for f in [8, 16, 32, 64]:
secfxp = mpc.SecFxp(2 * f)
c = mpc.run(mpc.output(secfxp(1) + secfxp(1)))
self.assertEqual(c.frac_length, f)
self.assertEqual(c, 2)
c = mpc.run(mpc.output(secfxp(2**-f) + secfxp(1)))
if f != 64: # NB: 1 + 2**-64 == 1 in Python
self.assertEqual(c, 1 + 2**-f)
self.assertEqual(mpc.run(mpc.output(secfxp(0.5) * secfxp(2.0))), 1)
self.assertEqual(mpc.run(mpc.output(secfxp(2.0) * secfxp(0.5))), 1)
s = [10.7, -3.4, 0.1, -0.11]
self.assertEqual(mpc.run(mpc.output(list(map(secfxp, s)))), s)
s = [10.5, -3.25, 0.125, -0.125]
a, b, c, d = list(map(secfxp, s))
t = [v * v for v in s]
self.assertEqual(mpc.run(mpc.output([a * a, b * b, c * c, d * d])),
t)
x = [a, b, c, d]
self.assertEqual(mpc.run(mpc.output(mpc.schur_prod(x, x))), t)
self.assertEqual(mpc.run(mpc.output(mpc.schur_prod(x, x[:]))), t)
t = sum(t)
self.assertEqual(mpc.run(mpc.output(mpc.in_prod(x, x))), t)
self.assertEqual(mpc.run(mpc.output(mpc.in_prod(x, x[:]))), t)
self.assertEqual(
mpc.run(mpc.output(mpc.matrix_prod([x], [x], True)[0])), [t])
t = [_ for a, b, c, d in [s] for _ in [a + b, a * b, a - b]]
self.assertEqual(mpc.run(mpc.output([a + b, a * b, a - b])), t)
t = [
_ for a, b, c, d in [s]
for _ in [(a + b)**2, (a + b)**2 + 3 * c]
]
self.assertEqual(
mpc.run(mpc.output([(a + b)**2, (a + b)**2 + 3 * c])), t)
t = [int(_) for a, b, c, d in [s] for _ in [a < b, b < c, c < d]]
self.assertEqual(mpc.run(mpc.output([a < b, b < c, c < d])), t)
t = int(s[0] < s[1] and s[1] < s[2])
self.assertEqual(mpc.run(mpc.output((a < b) & (b < c))), t)
t = int(s[0] < s[1] or s[1] < s[2])
self.assertEqual(mpc.run(mpc.output((a < b) | (b < c))), t)
t = (int(s[0] < s[1]) ^ int(s[1] < s[2]))
self.assertEqual(mpc.run(mpc.output((a < b) ^ (b < c))), t)
t = (int(not s[0] < s[1]) ^ int(s[1] < s[2]))
self.assertEqual(mpc.run(mpc.output(~(a < b) ^ b < c)), t)
t = [int(s[0] > 1), int(10 * s[1] < 5), int(10 * s[0] == 5)]
self.assertEqual(
mpc.run(mpc.output([a > 1, 10 * b < 5, 10 * a == 5])), t)
s[3] = -0.120
d = secfxp(s[3])
t = s[3] / 0.25
self.assertAlmostEqual(mpc.run(mpc.output(d / 0.25)).signed(),
t,
delta=1)
t = s[3] / s[2] + s[0]
self.assertAlmostEqual(mpc.run(mpc.output(d / c + a)).signed(),
t,
delta=1)
t = round(t * (1 << f))
self.assertAlmostEqual(mpc.run(mpc.output(d / c + a)), t, delta=1)
t = ((s[0] + s[1])**2 + 3 * s[2]) / s[2]
self.assertAlmostEqual(mpc.run(mpc.output(
((a + b)**2 + 3 * c) / c)).signed(),
t,
delta=2)
t = 1 / s[3]
self.assertAlmostEqual((mpc.run(mpc.output(1 / d))).signed(),
t,
delta=1)
t = s[2] / s[3]
self.assertAlmostEqual(mpc.run(mpc.output(c / d)).signed(),
t,
delta=1)
t = -s[3] / s[2]
t = round(t * (1 << f))
self.assertAlmostEqual(mpc.run(mpc.output(-d / c)), t, delta=1)
t = s[2] / s[3]
t = round(t * (1 << f))
self.assertAlmostEqual(mpc.run(mpc.output(d / c)), t, delta=1)
self.assertEqual(mpc.run(mpc.output(mpc.sgn(+a))), int(s[0] > 0))
self.assertEqual(mpc.run(mpc.output(mpc.sgn(-a))), -int(s[0] > 0))
self.assertEqual(mpc.run(mpc.output(mpc.sgn(secfxp(0)))), 0)
self.assertEqual(mpc.run(mpc.output(abs(secfxp(-1.5)))), 1.5)
self.assertEqual(mpc.run(mpc.output(mpc.min(a, b, c, d))), min(s))
self.assertEqual(mpc.run(mpc.output(mpc.min(a, 0))), min(s[0], 0))
self.assertEqual(mpc.run(mpc.output(mpc.min(0, b))), min(0, s[1]))
self.assertEqual(mpc.run(mpc.output(mpc.max(a, b, c, d))), max(s))
self.assertEqual(mpc.run(mpc.output(mpc.max(a, 0))), max(s[0], 0))
self.assertEqual(mpc.run(mpc.output(mpc.max(0, b))), max(0, s[1]))
self.assertEqual(
mpc.run(mpc.output(list(mpc.min_max(a, b, c, d)))),
[min(s), max(s)])
self.assertEqual(mpc.run(mpc.output(secfxp(5) % 2)), 1)
self.assertEqual(mpc.run(mpc.output(secfxp(1) % 2**(1 - f))), 0)
self.assertEqual(mpc.run(mpc.output(secfxp(2**-f) % 2**(1 - f))),
2**-f)
self.assertEqual(
mpc.run(mpc.output(secfxp(2 * 2**-f) % 2**(1 - f))), 0)
self.assertEqual(mpc.run(mpc.output(secfxp(1) // 2**(1 - f))),
2**(f - 1))
self.assertEqual(mpc.run(mpc.output(secfxp(27.0) % 7.0)), 6.0)
self.assertEqual(mpc.run(mpc.output(secfxp(-27.0) // 7.0)), -4.0)
self.assertEqual(
mpc.run(mpc.output(list(divmod(secfxp(27.0), 6.0)))),
[4.0, 3.0])
self.assertEqual(mpc.run(mpc.output(secfxp(21.5) % 7.5)), 6.5)
self.assertEqual(mpc.run(mpc.output(secfxp(-21.5) // 7.5)), -3.0)
self.assertEqual(
mpc.run(mpc.output(list(divmod(secfxp(21.5), 0.5)))),
[43.0, 0.0])
def test_secfxp(self):
secfxp = mpc.SecFxp()
f = 16
d = mpc.run(mpc.output(secfxp(1) + secfxp(1)))
self.assertEqual(d.frac_length, f)
self.assertEqual(d, 2 * 2**f)
d = mpc.run(mpc.output(secfxp(2**-f) + secfxp(1)))
self.assertEqual(d, 1 + 2**f)
s = [10.7, -3.4, 0.1, -0.11]
ss = [round(v * (1 << f)) for v in s]
self.assertEqual(mpc.run(mpc.output(list(map(secfxp, s)))), ss)
s = [10.5, -3.25, 0.125, -0.125]
x, y, z, w = list(map(secfxp, s))
s2 = [v * v for v in s]
ss2 = [round(v * (1 << f)) for v in s2]
self.assertEqual(mpc.run(mpc.output([x * x, y * y, z * z, w * w])),
ss2)
s2 = [s[0] + s[1], s[0] * s[1], s[0] - s[1]]
ss2 = [round(v * (1 << f)) for v in s2]
self.assertEqual(mpc.run(mpc.output([x + y, x * y, x - y])), ss2)
s2 = [(s[0] + s[1])**2, (s[0] + s[1])**2 + 3 * s[2]]
ss2 = [round(v * (1 << f)) for v in s2]
self.assertEqual(mpc.run(mpc.output([(x + y)**2, (x + y)**2 + 3 * z])),
ss2)
ss2 = [int(s[i] < s[i + 1]) * (1 << f) for i in range(len(s) - 1)]
self.assertEqual(mpc.run(mpc.output([x < y, y < z, z < w])), ss2)
ss2 = int(s[0] < s[1] and s[1] < s[2]) * (1 << f)
self.assertEqual(mpc.run(mpc.output((x < y) & (y < z))), ss2)
ss2 = int(s[0] < s[1] or s[1] < s[2]) * (1 << f)
self.assertEqual(mpc.run(mpc.output((x < y) | (y < z))), ss2)
ss2 = (int(s[0] < s[1]) ^ int(s[1] < s[2])) * (1 << f)
self.assertEqual(mpc.run(mpc.output((x < y) ^ (y < z))), ss2)
ss2 = (int(not s[0] < s[1]) ^ int(s[1] < s[2])) * (1 << f)
self.assertEqual(mpc.run(mpc.output(~(x < y) ^ y < z)), ss2)
s2 = [s[0] < 1, 10 * s[1] < 5, 10 * s[0] == 5]
ss2 = [round(v * (1 << f)) for v in s2]
self.assertEqual(mpc.run(mpc.output([x < 1, 10 * y < 5, 10 * x == 5])),
ss2)
s[3] = -0.120
w = secfxp(s[3])
for _ in range(3):
s2 = s[3] / s[2] + s[0]
self.assertAlmostEqual(mpc.run(mpc.output(w / z + x)).signed(),
s2,
delta=1)
ss2 = round(s2 * (1 << f))
self.assertAlmostEqual(mpc.run(mpc.output(w / z + x)),
ss2,
delta=1)
s2 = ((s[0] + s[1])**2 + 3 * s[2]) / s[2]
self.assertAlmostEqual(mpc.run(mpc.output(
((x + y)**2 + 3 * z) / z)).signed(),
s2,
delta=2)
s2 = 1 / s[3]
self.assertAlmostEqual((mpc.run(mpc.output(1 / w))).signed(),
s2,
delta=1)
s2 = s[2] / s[3]
self.assertAlmostEqual(mpc.run(mpc.output(z / w)).signed(),
s2,
delta=1)
s2 = -s[3] / s[2]
ss2 = round(s2 * (1 << f))
self.assertAlmostEqual(mpc.run(mpc.output(-w / z)), ss2, delta=1)
s2 = s[2] / s[3]
ss2 = round(s2 * (1 << f))
self.assertAlmostEqual(mpc.run(mpc.output(w / z)), ss2, delta=1)
a = mpc._norm(w)
self.assertEqual(mpc.run(mpc.output(mpc.sgn(x))),
int(s[0] > 0) * (1 << f))
self.assertEqual(mpc.run(mpc.output(mpc.sgn(-x))),
-int(s[0] > 0) * (1 << f))
self.assertEqual(mpc.run(mpc.output(mpc.sgn(secfxp(0)))), 0)
ss2 = round(min(s) * (1 << f))
self.assertEqual(mpc.run(mpc.output(mpc.min(x, y, w, z))), ss2)
ss2 = round(min(s[0], 0) * (1 << f))
self.assertEqual(mpc.run(mpc.output(mpc.min(x, 0))), ss2)
ss2 = round(min(0, s[1]) * (1 << f))
self.assertEqual(mpc.run(mpc.output(mpc.min(0, y))), ss2)
ss2 = round(max(s) * (1 << f))
self.assertEqual(mpc.run(mpc.output(mpc.max(x, y, w, z))), ss2)
ss2 = round(max(s[0], 0) * (1 << f))
self.assertEqual(mpc.run(mpc.output(mpc.max(x, 0))), ss2)
ss2 = round(max(0, s[1]) * (1 << f))
self.assertEqual(mpc.run(mpc.output(mpc.max(0, y))), ss2)
self.assertEqual(mpc.run(mpc.output(mpc.lsb(secfxp(1)))), 0 * (2**f))
self.assertEqual(mpc.run(mpc.output(mpc.lsb(secfxp(1 / 2**f)))),
1 * (2**f))
self.assertEqual(mpc.run(mpc.output(mpc.lsb(secfxp(2 / 2**f)))),
0 * (2**f))
else:
print(f'Unsupported type: {type(vi)}')
sys.exit()
###############################################################################
print('\n' + "=" * 50)
mpc.run(mpc.start()) #### START THE MPC ROUNDS OF COMPUTATION ####
print("=" * 50, '\n')
###############################################################################
all_sec_vi = mpc.input(sec_vi)
cmd = 'std'
if cmd == 'min':
sec_minimum = mpc.min(all_sec_vi)
minimum = mpc.run(mpc.output(sec_minimum))
print(minimum)
elif cmd == 'max':
sec_maximum = mpc.max(all_sec_vi)
maximum = mpc.run(mpc.output(sec_maximum))
print(maximum)
elif cmd == 'mean':
sec_sum = mpc.sum(all_sec_vi)
sec_mean = mpc.div(sec_sum, nb_parties)
mean = mpc.run(mpc.output(sec_mean))
print(mean)
elif cmd == 'std':
