from quantumRandom import QuantumRandom
from randomDotOrg import RandomDotOrg
GENERATE = 4500 # CHANGE ME
MULT = 1*10**10
# Get a bunch of random numbers (like thousands) and store in a file
qr = QuantumRandom()
with open('quantumrandom.txt', 'a') as qrfile:
for x in range(0,GENERATE):
num = int(qr.random() * MULT)
qrfile.write(str(num) + '\n')
qrfile.close()
#except IOError as err:
# print err
print 'Done Quantum Random'
rdo = RandomDotOrg()
before = rdo.checkBitQuota()
# max 1,000,000 bits per day. if we have any less than 10,000 that's critical
if before<10000:
print 'We only have ' + str(before) + ' bits left today. Critically low - exiting!'
exit()
with open('randomdotorg.txt', 'a') as rdofile:
# get them all at once (easier)
nums = rdo.random(GENERATE)
for num in nums:
from quantumRandom import QuantumRandom
from randomDotOrg import RandomDotOrg
GENERATE = 4500 # CHANGE ME
MULT = 1 * 10**10
# Get a bunch of random numbers (like thousands) and store in a file
qr = QuantumRandom()
with open('quantumrandom.txt', 'a') as qrfile:
for x in range(0, GENERATE):
num = int(qr.random() * MULT)
qrfile.write(str(num) + '\n')
qrfile.close()
#except IOError as err:
# print err
print 'Done Quantum Random'
rdo = RandomDotOrg()
before = rdo.checkBitQuota()
# max 1,000,000 bits per day. if we have any less than 10,000 that's critical
if before < 10000:
print 'We only have ' + str(
before) + ' bits left today. Critically low - exiting!'
exit()
with open('randomdotorg.txt', 'a') as rdofile:
# get them all at once (easier)
nums = rdo.random(GENERATE)
for num in nums:
num = int(num * MULT)
result = (tester.run_test_battery('random seeding twister', nums=nums))
result.display()
# time seeding mersenne
nums = []
seeds = 100
runs_per_seed = int(sample_size / seeds)
for a in range(0,100):
seed = timeseed.get_seed()
nums.extend(twister.get_random_numbers(seed, runs_per_seed))
result = (tester.run_test_battery('time seeding twister', nums=nums))
result.display()
# quantum random seeding mersenne
nums = []
qr = QuantumRandom()
seeds = 100
runs_per_seed = int(sample_size / seeds)
for a in range(0,100):
seed = int(qr.random() * 2**30)
# only use first few for seeding use each one to seed for 100 more
nums.extend(twister.get_random_numbers(seed, runs_per_seed))
result = (tester.run_test_battery('quantum seeding twister', nums=nums))
result.display()
'''
# default random
results_list = []
bits = 10
for trialnum in range(0,trials):
nums = [int(random.getrandbits(bits)) for x in range(0,sample_size)] # 0 -> 2**bits - 1
