How to use POT - 7 common examples

To help you get started, we’ve selected a few POT examples, based on popular ways it is used in public projects.

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github tolstikhin / adagan / pot.py View on Github external
def __init__(self, opts, data, weights):

        # One more placeholder for batch norm
        self._is_training_ph = None
        Pot.__init__(self, opts, data, weights)
github pyGBot / pyGBot / trunk / pyGBot / Plugins / games / pokerfiles / tourney.py View on Github external
# subtract trigger amount from other active action
                    for o in active:
                        seat = o.hand.seat
                        self.pots[-1].players.append(o)
                        self.pots[-1].value += amt
                        action[seat] -= amt

            # Add leftovers to the first pot
            for amt in action:
                self.pots[0].value += amt

            self.pots.reverse()

        else:
            self.pots.append(Pot())
            self.pots[0].value = self.pot
            self.pots[0].players = self.activeplayers()
github tolstikhin / adagan / pot.py View on Github external
"""Build a TensorFlow graph with all the necessary ops.

        """
        assert False, 'POT base class has no build_model method defined.'

    def _train_internal(self, opts):
        assert False, 'POT base class has no train method defined.'

    def _sample_internal(self, opts, num):
        assert False, 'POT base class has no sample method defined.'

    def _train_mixture_discriminator_internal(self, opts, fake_images):
        assert False, 'POT base class has no mixture discriminator method defined.'


class ImagePot(Pot):
    """A simple POT implementation, suitable for pictures.

    """

    def __init__(self, opts, data, weights):

        # One more placeholder for batch norm
        self._is_training_ph = None
        Pot.__init__(self, opts, data, weights)


    def dcgan_like_arch(self, opts, noise, is_training, reuse, keep_prob):
        output_shape = self._data.data_shape
        num_units = opts['g_num_filters']

        batch_size = tf.shape(noise)[0]
github pyGBot / pyGBot / trunk / pyGBot / Plugins / games / pokerfiles / tourney.py View on Github external
for seat in xrange(len(self.players)):
                action.append(self.players[seat].inplay)

            active = self.activeplayers()
            active.sort(Player.actionsort)

            while len(active):
                p = active.pop(0)
                seat = p.hand.seat
                if action[seat]:

                    # get trigger amount
                    amt = action[seat]

                    # add a new pot, setting the trigger
                    self.pots.append(Pot(amt))

                    # add current player to pot
                    self.pots[-1].players.append(p)

                    # add trigger amount to pot
                    self.pots[-1].value += amt

                    # subtract trigger amount from trigger's action
                    action[seat] -= amt

                    # subtract trigger amount from other active action
                    for o in active:
                        seat = o.hand.seat
                        self.pots[-1].players.append(o)
                        self.pots[-1].value += amt
                        action[seat] -= amt
github pyGBot / pyGBot / pyGBot / Plugins / games / pokerfiles / tourney.py View on Github external
for seat in xrange(len(self.players)):
                action.append(self.players[seat].inplay)

            active = self.activeplayers()
            active.sort(Player.actionsort)

            while len(active):
                p = active.pop(0)
                seat = p.hand.seat
                if action[seat]:

                    # get trigger amount
                    amt = action[seat]

                    # add a new pot, setting the trigger
                    self.pots.append(Pot(amt))

                    # add current player to pot
                    self.pots[-1].players.append(p)

                    # add trigger amount to pot
                    self.pots[-1].value += amt

                    # subtract trigger amount from trigger's action
                    action[seat] -= amt

                    # subtract trigger amount from other active action
                    for o in active:
                        seat = o.hand.seat
                        self.pots[-1].players.append(o)
                        self.pots[-1].value += amt
                        action[seat] -= amt
github pyGBot / pyGBot / pyGBot / Plugins / games / pokerfiles / tourney.py View on Github external
# subtract trigger amount from other active action
                    for o in active:
                        seat = o.hand.seat
                        self.pots[-1].players.append(o)
                        self.pots[-1].value += amt
                        action[seat] -= amt

            # Add leftovers to the first pot
            for amt in action:
                self.pots[0].value += amt

            self.pots.reverse()

        else:
            self.pots.append(Pot())
            self.pots[0].value = self.pot
            self.pots[0].players = self.activeplayers()
github tolstikhin / adagan / adagan.py View on Github external
if opts['dataset'] in ('gmm', 'circle_gmm'):
            if opts['unrolled'] is True:
                gan_class = GAN.ToyUnrolledGan
            else:
                gan_class = GAN.ToyGan
        elif opts['dataset'] in pic_datasets:
            if opts['unrolled']:
                gan_class = GAN.ImageUnrolledGan
                # gan_class = GAN.ToyUnrolledGan
            else:
                if 'vae' in opts and opts['vae']:
                    gan_class = VAE.ImageVae
                    assert opts['latent_space_distr'] == 'normal',\
                        'VAE works only with Gaussian prior'
                elif 'pot' in opts and opts['pot']:
                    gan_class = POT.ImagePot
                else:
                    gan_class = GAN.ImageGan
                    if opts['dataset'] in supervised_pic_datasets\
                            and 'conditional' in opts and opts['conditional']:
                        gan_class = GAN.MNISTLabelGan
        elif opts['dataset'] == 'guitars':
            if opts['unrolled']:
                gan_class = GAN.ImageUnrolledGan
            else:
                gan_class = GAN.BigImageGan
        else:
            assert False, "We don't have any other GAN implementations yet..."
        self._gan_class = gan_class
        if opts["inverse_metric"]:
            inv_num = opts['inverse_num']
            assert inv_num < data.num_points, \

POT

Python Optimal Transport Library

MIT
Latest version published 4 months ago

Package Health Score

81 / 100
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