Esempio n. 1
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 def auth(self):
     self.qrbg = qrbg(auth['qrbg']['login'], auth['qrbg']['pass'])
     self.qrng = QuantumRNG()
Esempio n. 2
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 def auth(self):
     self.qrbg = qrbg(auth['qrbg']['login'], auth['qrbg']['pass'])
     self.qrng = QuantumRNG()
Esempio n. 3
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class RandomMess:

    begin = 1
    end = 21000

    def __init__(self):
        self.qrbg = None
        self.qrng = None
        self.active = next(self.algs.itervalues())

        # Behold! Stats!
        self.generations = 0
        self.total_time_s = 0.0

    def auth(self):
        self.qrbg = qrbg(auth['qrbg']['login'], auth['qrbg']['pass'])
        self.qrng = QuantumRNG()

    def set_active(self, alg):
        if alg in self.algs:
            self.active = alg

    def random_short(self):
        pass

    def random_int(self):
        self.measure()

        result = self.algs[self.active](self)
        if result is None:
            raise MessedUpException("Could not get random number!")

        self.measure(end=True)
        return abs(result)

    def random_range(self, begin=begin, end=end):
        self.measure()

        result = self.algs[self.active](self, begin, end)
        if result is None:
            raise MessedUpException("Could not get random number!")

        self.measure(end=True)
        return result

    def random_float(self):
        return abs(self.algs[self.active](self, floating=True))

    # Sub-methods #

    def random_numpy(self, floating = False):
        return np.random.randint(1, Kanji.query.count())

    def random_gsl(self, begin=begin, end=end, floating = False):
        pass

    def random_org(self, begin=begin, end=end, floating = False):
        return RandomDotOrg().randint(begin, end)

    def random_qrBitG(self, begin=begin, end=end, floating = False):
        if self.qrbg is None:
            raise MessedUpException("Not authorized on QR-BIT-G service!")
        return self.qrbg.getShort()

    def random_qrNumberG(self, begin=begin, end=end, floating = False):
        if self.qrng is None or not self.qrng.active():
            raise MessedUpException("Not authorized on QR-NUMBER-G service!")
        result = self.qrng.getInt()
        if result is not None:
            return result.value

    # Algorithms names and corresponding methods
    algs = {'Quantum Random Number Generator' : random_qrNumberG,
            'Quantum Random Bit Generator'    : random_qrBitG,
            'Random.org'                      : random_org,
            #'GNU Scientific Library'          : random_gsl,
            'Numpy random sampling'           : random_numpy,
            }

    # Utility methods #

    def measure(self, end=False):
        if not end:
            self.start_time = time()
        else:
            passed = time() - self.start_time
            self.generations += 1
            self.total_time_s += passed
            print passed

    def ex_stats(self):
        return "[RNG perfomance] Total generations: %d | total time: %f (sec)" \
                % (self.generations, self.total_time_s)
Esempio n. 4
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class RandomMess:

    begin = 1
    end = 21000

    def __init__(self):
        self.qrbg = None
        self.qrng = None
        self.active = next(self.algs.itervalues())

        # Behold! Stats!
        self.generations = 0
        self.total_time_s = 0.0

    def auth(self):
        self.qrbg = qrbg(auth['qrbg']['login'], auth['qrbg']['pass'])
        self.qrng = QuantumRNG()

    def set_active(self, alg):
        if alg in self.algs:
            self.active = alg

    def random_short(self):
        pass

    def random_int(self):
        self.measure()

        result = self.algs[self.active](self)
        if result is None:
            raise MessedUpException("Could not get random number!")

        self.measure(end=True)
        return abs(result)

    def random_range(self, begin=begin, end=end):
        self.measure()

        result = self.algs[self.active](self, begin, end)
        if result is None:
            raise MessedUpException("Could not get random number!")

        self.measure(end=True)
        return result

    def random_float(self):
        return abs(self.algs[self.active](self, floating=True))

    # Sub-methods #

    def random_numpy(self, floating=False):
        return np.random.randint(1, Kanji.query.count())

    def random_gsl(self, begin=begin, end=end, floating=False):
        pass

    def random_org(self, begin=begin, end=end, floating=False):
        return RandomDotOrg().randint(begin, end)

    def random_qrBitG(self, begin=begin, end=end, floating=False):
        if self.qrbg is None:
            raise MessedUpException("Not authorized on QR-BIT-G service!")
        return self.qrbg.getShort()

    def random_qrNumberG(self, begin=begin, end=end, floating=False):
        if self.qrng is None or not self.qrng.active():
            raise MessedUpException("Not authorized on QR-NUMBER-G service!")
        result = self.qrng.getInt()
        if result is not None:
            return result.value

    # Algorithms names and corresponding methods
    algs = {
        'Quantum Random Number Generator': random_qrNumberG,
        'Quantum Random Bit Generator': random_qrBitG,
        'Random.org': random_org,
        #'GNU Scientific Library'          : random_gsl,
        'Numpy random sampling': random_numpy,
    }

    # Utility methods #

    def measure(self, end=False):
        if not end:
            self.start_time = time()
        else:
            passed = time() - self.start_time
            self.generations += 1
            self.total_time_s += passed
            print passed

    def ex_stats(self):
        return "[RNG perfomance] Total generations: %d | total time: %f (sec)" \
                % (self.generations, self.total_time_s)