program.bit_length = 80
print "program.bit_length: ", program.bit_length
program.security = 40

sfix.set_precision(16, 32)
cfix.set_precision(16, 32)

n = 10
m = 5

# array of fixed points
A = Array(n, sfix)

for i in range(n):
	A[i] = sfix(i)

print_ln('array of fixed points')
for i in range(n):
	print_ln('%s', A[i].reveal())

# matrix of fixed points
M = Matrix(n, m, sfix)

for i in range(n):
	for j in range(m):
		M[i][j] = sfix(i*j)

print_ln('matrix of fixed points')
for i in range(n):
	for j in range(m):
		print_str('%s ', M[i][j].reveal())
	print_ln(' ')


# assign scalar to sfix
A[5] = sfix(1.12345)
print_ln('%s', A[5].reveal())

AC = Array(n, cfix)

for i in range(n):
	AC[i] = cfix(1.5 * i)

for i in range(n):
	print_ln('%s', AC[i])

# assign sint to sfix
s = sint(10)
sa = sfix(); sa.load_int(s)
print_ln('successfully assigned sint to sfix %s', sa.reveal())

# division between fixed points
sb = sfix(2.5)
print_ln('division between %s %s = %s', sa.reveal(), sb.reveal(), (sa/sb).reveal())