예제 #1
0
    def __init__(self, args):
        super(Trainer, self).__init__()
        self.config = getattr(configurations, args.proto)()
        self.num_preload = args.num_preload
        self.logger = ut.get_logger(self.config['log_file'])

        self.device = torch.device(
            'cuda:0' if torch.cuda.is_available() else 'cpu')

        self.normalize_loss = self.config['normalize_loss']
        self.patience = self.config['patience']
        self.lr = self.config['lr']
        self.lr_decay = self.config['lr_decay']
        self.max_epochs = self.config['max_epochs']
        self.warmup_steps = self.config['warmup_steps']

        self.train_smooth_perps = []
        self.train_true_perps = []

        self.data_manager = DataManager(self.config)
        self.validator = Validator(self.config, self.data_manager)

        self.val_per_epoch = self.config['val_per_epoch']
        self.validate_freq = int(self.config['validate_freq'])
        self.logger.info('Evaluate every {} {}'.format(
            self.validate_freq, 'epochs' if self.val_per_epoch else 'batches'))

        # For logging
        self.log_freq = 100  # log train stat every this-many batches
        self.log_train_loss = 0.  # total train loss every log_freq batches
        self.log_nll_loss = 0.
        self.log_train_weights = 0.
        self.num_batches_done = 0  # number of batches done for the whole training
        self.epoch_batches_done = 0  # number of batches done for this epoch
        self.epoch_loss = 0.  # total train loss for whole epoch
        self.epoch_nll_loss = 0.  # total train loss for whole epoch
        self.epoch_weights = 0.  # total train weights (# target words) for whole epoch
        self.epoch_time = 0.  # total exec time for whole epoch, sounds like that tabloid

        # get model
        self.model = Model(self.config).to(self.device)

        param_count = sum(
            [numpy.prod(p.size()) for p in self.model.parameters()])
        self.logger.info('Model has {:,} parameters'.format(param_count))

        # get optimizer
        beta1 = self.config['beta1']
        beta2 = self.config['beta2']
        epsilon = self.config['epsilon']
        self.optimizer = torch.optim.Adam(self.model.parameters(),
                                          lr=self.lr,
                                          betas=(beta1, beta2),
                                          eps=epsilon)
예제 #2
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    def __init__(self, args):
        super(Trainer, self).__init__()
        self.config = getattr(configurations, args.proto)()
        self.config['fixed_var_list'] = args.fixed_var_list
        self.num_preload = args.num_preload
        self.logger = ut.get_logger(self.config['log_file'])

        self.lr = self.config['lr']
        self.max_epochs = self.config['max_epochs']
        self.save_freq = self.config['save_freq']
        self.cpkt_path = None
        self.validate_freq = None
        self.train_perps = []

        self.saver = None
        self.train_m = None
        self.dev_m = None

        self.data_manager = DataManager(self.config)
        self.validator = Validator(self.config, self.data_manager)
        self.validate_freq = ut.get_validation_frequency(
            self.data_manager.length_files[ac.TRAINING],
            self.config['validate_freq'], self.config['batch_size'])
        self.logger.info('Evaluate every {} batches'.format(
            self.validate_freq))

        _, self.src_ivocab = self.data_manager.init_vocab(
            self.data_manager.src_lang)
        _, self.trg_ivocab = self.data_manager.init_vocab(
            self.data_manager.trg_lang)

        # For logging
        self.log_freq = 100  # log train stat every this-many batches
        self.log_train_loss = 0.  # total train loss every log_freq batches
        self.log_train_weights = 0.
        self.num_batches_done = 0  # number of batches done for the whole training
        self.epoch_batches_done = 0  # number of batches done for this epoch
        self.epoch_loss = 0.  # total train loss for whole epoch
        self.epoch_weights = 0.  # total train weights (# target words) for whole epoch
        self.epoch_time = 0.  # total exec time for whole epoch, sounds like that tabloid
예제 #3
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    def __init__(self, args):
        super(Trainer, self).__init__()
        self.config = configurations.get_config(
            args.proto, getattr(configurations, args.proto),
            args.config_overrides)
        self.num_preload = args.num_preload
        self.lr = self.config['lr']

        ut.remove_files_in_dir(self.config['save_to'])

        self.logger = ut.get_logger(self.config['log_file'])

        self.train_smooth_perps = []
        self.train_true_perps = []

        # For logging
        self.log_freq = self.config[
            'log_freq']  # log train stat every this-many batches
        self.log_train_loss = []
        self.log_nll_loss = []
        self.log_train_weights = []
        self.log_grad_norms = []
        self.total_batches = 0  # number of batches done for the whole training
        self.epoch_loss = 0.  # total train loss for whole epoch
        self.epoch_nll_loss = 0.  # total train loss for whole epoch
        self.epoch_weights = 0.  # total train weights (# target words) for whole epoch
        self.epoch_time = 0.  # total exec time for whole epoch, sounds like that tabloid

        # get model
        device = ut.get_device()
        self.model = Model(self.config).to(device)
        self.validator = Validator(self.config, self.model)

        self.validate_freq = self.config['validate_freq']
        if self.validate_freq == 1:
            self.logger.info('Evaluate every ' + (
                'epoch' if self.config['val_per_epoch'] else 'batch'))
        else:
            self.logger.info(f'Evaluate every {self.validate_freq:,} ' + (
                'epochs' if self.config['val_per_epoch'] else 'batches'))

        # Estimated number of batches per epoch
        self.est_batches = max(self.model.data_manager.training_tok_counts
                               ) // self.config['batch_size']
        self.logger.info(
            f'Guessing around {self.est_batches:,} batches per epoch')

        param_count = sum(
            [numpy.prod(p.size()) for p in self.model.parameters()])
        self.logger.info(f'Model has {int(param_count):,} parameters')

        # Set up parameter-specific options
        params = []
        for p in self.model.parameters():
            ptr = p.data_ptr()
            d = {'params': [p]}
            if ptr in self.model.parameter_attrs:
                attrs = self.model.parameter_attrs[ptr]
                for k in attrs:
                    d[k] = attrs[k]
            params.append(d)

        self.optimizer = torch.optim.Adam(params,
                                          lr=self.lr,
                                          betas=(self.config['beta1'],
                                                 self.config['beta2']),
                                          eps=self.config['epsilon'])
예제 #4
0
class Trainer(object):
    """Trainer"""
    def __init__(self, args):
        super(Trainer, self).__init__()
        self.config = configurations.get_config(
            args.proto, getattr(configurations, args.proto),
            args.config_overrides)
        self.num_preload = args.num_preload
        self.lr = self.config['lr']

        ut.remove_files_in_dir(self.config['save_to'])

        self.logger = ut.get_logger(self.config['log_file'])

        self.train_smooth_perps = []
        self.train_true_perps = []

        # For logging
        self.log_freq = self.config[
            'log_freq']  # log train stat every this-many batches
        self.log_train_loss = []
        self.log_nll_loss = []
        self.log_train_weights = []
        self.log_grad_norms = []
        self.total_batches = 0  # number of batches done for the whole training
        self.epoch_loss = 0.  # total train loss for whole epoch
        self.epoch_nll_loss = 0.  # total train loss for whole epoch
        self.epoch_weights = 0.  # total train weights (# target words) for whole epoch
        self.epoch_time = 0.  # total exec time for whole epoch, sounds like that tabloid

        # get model
        device = ut.get_device()
        self.model = Model(self.config).to(device)
        self.validator = Validator(self.config, self.model)

        self.validate_freq = self.config['validate_freq']
        if self.validate_freq == 1:
            self.logger.info('Evaluate every ' + (
                'epoch' if self.config['val_per_epoch'] else 'batch'))
        else:
            self.logger.info(f'Evaluate every {self.validate_freq:,} ' + (
                'epochs' if self.config['val_per_epoch'] else 'batches'))

        # Estimated number of batches per epoch
        self.est_batches = max(self.model.data_manager.training_tok_counts
                               ) // self.config['batch_size']
        self.logger.info(
            f'Guessing around {self.est_batches:,} batches per epoch')

        param_count = sum(
            [numpy.prod(p.size()) for p in self.model.parameters()])
        self.logger.info(f'Model has {int(param_count):,} parameters')

        # Set up parameter-specific options
        params = []
        for p in self.model.parameters():
            ptr = p.data_ptr()
            d = {'params': [p]}
            if ptr in self.model.parameter_attrs:
                attrs = self.model.parameter_attrs[ptr]
                for k in attrs:
                    d[k] = attrs[k]
            params.append(d)

        self.optimizer = torch.optim.Adam(params,
                                          lr=self.lr,
                                          betas=(self.config['beta1'],
                                                 self.config['beta2']),
                                          eps=self.config['epsilon'])

    def report_epoch(self, epoch, batches):

        self.logger.info(f'Finished epoch {epoch}')
        self.logger.info(f'    Took {ut.format_time(self.epoch_time)}')
        self.logger.info(
            f'    avg words/sec {self.epoch_weights / self.epoch_time:.2f}')
        self.logger.info(f'    avg sec/batch {self.epoch_time / batches:.2f}')
        self.logger.info(f'    {batches} batches')

        if self.epoch_weights:
            train_smooth_perp = self.epoch_loss / self.epoch_weights
            train_true_perp = self.epoch_nll_loss / self.epoch_weights
        else:
            train_smooth_perp = float('inf')
            train_true_perp = float('inf')

        self.est_batches = batches
        self.epoch_time = 0.
        self.epoch_nll_loss = 0.
        self.epoch_loss = 0.
        self.epoch_weights = 0.
        self.log_train_loss = []
        self.log_nll_loss = []
        self.log_train_weights = []
        self.log_grad_norms = []

        train_smooth_perp = numpy.exp(
            train_smooth_perp) if train_smooth_perp < 300 else float('inf')
        self.train_smooth_perps.append(train_smooth_perp)
        train_true_perp = numpy.exp(
            train_true_perp) if train_true_perp < 300 else float('inf')
        self.train_true_perps.append(train_true_perp)

        self.logger.info(
            f'    smooth, true perp: {float(train_smooth_perp):.2f}, {float(train_true_perp):.2f}'
        )

    def clip_grad_values(self):
        """
        Adapted from https://pytorch.org/docs/stable/_modules/torch/nn/utils/clip_grad.html#clip_grad_value_
        This is the same as torch.nn.utils.clip_grad_value_, except is also sets nan gradients to 0.0
        """
        parameters = self.model.parameters()
        clip_value = float(self.config['grad_clamp'])
        if isinstance(parameters, torch.Tensor):
            parameters = [parameters]
        for p in filter(lambda p: p.grad is not None, parameters):
            p.grad.data.clamp_(min=-clip_value, max=clip_value)
            p.grad.data[torch.isnan(p.grad.data)] = 0.0

    def get_params(self, pe=False):
        for n, p in self.model.named_parameters():
            if (n in self.model.struct_params) == pe:
                yield p

    def run_log(self, batch, epoch, batch_data):
        #with torch.autograd.detect_anomaly(): # throws exception when any forward computation produces nan
        start = time.time()
        _, src_toks, src_structs, trg_toks, targets = batch_data

        # zero grad
        self.optimizer.zero_grad()

        # get loss
        ret = self.model(src_toks, src_structs, trg_toks, targets, batch,
                         epoch)
        loss = ret['loss']
        nll_loss = ret['nll_loss']

        if self.config['normalize_loss'] == ac.LOSS_TOK:
            opt_loss = loss / (targets != ac.PAD_ID).sum()
        elif self.config['normalize_loss'] == ac.LOSS_BATCH:
            opt_loss = loss / targets.size()[0]
        else:
            opt_loss = loss

        opt_loss.backward()
        # clip gradient
        if self.config['grad_clamp']: self.clip_grad_values()
        if self.config['grad_clip_pe']:
            pms = list(self.get_params(True))
            if pms:
                torch.nn.utils.clip_grad_norm_(pms,
                                               self.config['grad_clip_pe'])
            pms = self.get_params()
        else:
            pms = self.model.parameters()
        grad_norm = torch.nn.utils.clip_grad_norm_(
            self.model.parameters(), self.config['grad_clip']).detach()

        # update
        self.adjust_lr()
        self.optimizer.step()

        # update training stats
        num_words = (targets != ac.PAD_ID).detach().sum()

        loss = loss.detach()
        nll_loss = nll_loss.detach()
        self.total_batches += 1
        self.log_train_loss.append(loss)
        self.log_nll_loss.append(nll_loss)
        self.log_train_weights.append(num_words)
        self.log_grad_norms.append(grad_norm)
        self.epoch_time += time.time() - start

        if self.total_batches % self.log_freq == 0:

            log_train_loss = torch.tensor(0.0)
            log_nll_loss = torch.tensor(0.0)
            log_train_weights = torch.tensor(0.0)
            log_all_weights = torch.tensor(0.0)
            for smooth, nll, weight in zip(self.log_train_loss,
                                           self.log_nll_loss,
                                           self.log_train_weights):
                if not self.config['grad_clamp'] or (torch.isfinite(smooth)
                                                     and torch.isfinite(nll)):
                    log_train_loss += smooth
                    log_nll_loss += nll
                    log_train_weights += weight
                log_all_weights += weight
            #log_train_loss = sum(x for x in self.log_train_loss).item()
            #log_nll_loss = sum(x for x in self.log_nll_loss).item()
            #log_train_weights = sum(x for x in self.log_train_weights).item()
            avg_smooth_perp = log_train_loss / log_train_weights
            avg_smooth_perp = numpy.exp(
                avg_smooth_perp) if avg_smooth_perp < 300 else float('inf')
            avg_true_perp = log_nll_loss / log_train_weights
            avg_true_perp = numpy.exp(
                avg_true_perp) if avg_true_perp < 300 else float('inf')

            self.epoch_loss += log_train_loss
            self.epoch_nll_loss += log_nll_loss
            self.epoch_weights += log_all_weights

            acc_speed_word = self.epoch_weights / self.epoch_time
            acc_speed_time = self.epoch_time / batch

            avg_grad_norm = sum(self.log_grad_norms) / len(self.log_grad_norms)
            #median_grad_norm = sorted(self.log_grad_norms)[len(self.log_grad_norms)//2]

            est_percent = int(100 * batch / self.est_batches)
            epoch_len = max(5, ut.get_num_digits(self.config['max_epochs']))
            batch_len = max(5, ut.get_num_digits(self.est_batches))
            if batch > self.est_batches: remaining = '?'
            else:
                remaining = ut.format_time(acc_speed_time *
                                           (self.est_batches - batch))

            self.log_train_loss = []
            self.log_nll_loss = []
            self.log_train_weights = []
            self.log_grad_norms = []
            cells = [
                f'{epoch:{epoch_len}}', f'{batch:{batch_len}}',
                f'{est_percent:3}%', f'{remaining:>9}',
                f'{acc_speed_word:#10.4g}', f'{acc_speed_time:#6.4g}s',
                f'{avg_smooth_perp:#11.4g}', f'{avg_true_perp:#9.4g}',
                f'{avg_grad_norm:#9.4g}'
            ]
            self.logger.info('  '.join(cells))

    def adjust_lr(self):
        if self.config['warmup_style'] == ac.ORG_WARMUP:
            step = self.total_batches + 1.0
            if step < self.config['warmup_steps']:
                lr = self.config['embed_dim']**(
                    -0.5) * step * self.config['warmup_steps']**(-1.5)
            else:
                lr = max(self.config['embed_dim']**(-0.5) * step**(-0.5),
                         self.config['min_lr'])
            for p in self.optimizer.param_groups:
                p['lr'] = lr
        elif self.config['warmup_style'] == ac.FIXED_WARMUP:
            warmup_steps = self.config['warmup_steps']
            step = self.total_batches + 1.0
            start_lr = self.config['start_lr']
            peak_lr = self.config['lr']
            min_lr = self.config['min_lr']
            if step < warmup_steps:
                lr = start_lr + (peak_lr - start_lr) * step / warmup_steps
            else:
                lr = max(min_lr, peak_lr * warmup_steps**(0.5) * step**(-0.5))
            for p in self.optimizer.param_groups:
                p['lr'] = lr
        elif self.config['warmup_style'] == ac.UPFLAT_WARMUP:
            warmup_steps = self.config['warmup_steps']
            step = self.total_batches + 1.0
            start_lr = self.config['start_lr']
            peak_lr = self.config['lr']
            min_lr = self.config['min_lr']
            if step < warmup_steps:
                lr = start_lr + (peak_lr - start_lr) * step / warmup_steps
                for p in self.optimizer.param_groups:
                    p['lr'] = lr
        else:
            pass

    def train(self):
        self.model.train()
        stop_early = False

        early_stop_msg_num = self.config[
            'early_stop_patience'] * self.validate_freq
        early_stop_msg_metric = 'epochs' if self.config[
            'val_by_bleu'] else 'batches'
        early_stop_msg = f'No improvement for last {early_stop_msg_num} {early_stop_msg_metric}; stopping early!'
        for epoch in range(1, self.config['max_epochs'] + 1):
            batch = 0
            for batch_data in self.model.data_manager.get_batches(
                    mode=ac.TRAINING, num_preload=self.num_preload):
                if batch == 0:
                    self.logger.info(f'Begin epoch {epoch}')
                    epoch_str = ' ' * max(
                        0,
                        ut.get_num_digits(self.config['max_epochs']) -
                        5) + 'epoch'
                    batch_str = ' ' * max(
                        0,
                        ut.get_num_digits(self.est_batches) - 5) + 'batch'
                    self.logger.info('  '.join([
                        epoch_str, batch_str, 'est%', 'remaining',
                        'trg word/s', 's/batch', 'smooth perp', 'true perp',
                        'grad norm'
                    ]))
                batch += 1
                self.run_log(batch, epoch, batch_data)
                if not self.config['val_per_epoch']:
                    stop_early = self.maybe_validate()
                    if stop_early:
                        self.logger.info(early_stop_msg)
                        break
            if stop_early:
                break
            self.report_epoch(epoch, batch)
            if self.config['val_per_epoch'] and epoch % self.validate_freq == 0:
                stop_early = self.maybe_validate(just_validate=True)
                if stop_early:
                    self.logger.info(early_stop_msg)
                    break

        if not self.config['val_by_bleu'] and not stop_early:
            # validate 1 last time
            self.maybe_validate(just_validate=True)

        self.logger.info('Training finished')
        self.logger.info('Train smooth perps:')
        self.logger.info(', '.join(
            [f'{x:.2f}' for x in self.train_smooth_perps]))
        self.logger.info('Train true perps:')
        self.logger.info(', '.join([f'{x:.2f}'
                                    for x in self.train_true_perps]))
        numpy.save(
            os.path.join(self.config['save_to'], 'train_smooth_perps.npy'),
            self.train_smooth_perps)
        numpy.save(
            os.path.join(self.config['save_to'], 'train_true_perps.npy'),
            self.train_true_perps)

        self.model.save()

        # Evaluate test
        test_file = self.model.data_manager.data_files[ac.TESTING][
            self.model.data_manager.src_lang]
        dev_file = self.model.data_manager.data_files[ac.VALIDATING][
            self.model.data_manager.src_lang]
        if os.path.exists(test_file):
            self.logger.info('Evaluate test')
            self.restart_to_best_checkpoint()
            self.model.save()
            self.validator.translate(test_file, to_ids=True)
            self.logger.info('Translate dev set')
            self.validator.translate(dev_file, to_ids=True)

    def restart_to_best_checkpoint(self):
        if self.config['val_by_bleu']:
            best_bleu = numpy.max(self.validator.best_bleus)
            best_cpkt_path = self.validator.get_cpkt_path(best_bleu)
        else:
            best_perp = numpy.min(self.validator.best_perps)
            best_cpkt_path = self.validator.get_cpkt_path(best_perp)

        self.logger.info(f'Restore best cpkt from {best_cpkt_path}')
        self.model.load_state_dict(torch.load(best_cpkt_path))

    def is_patience_exhausted(self, patience, if_worst=False):
        '''
        if_worst=False (default) -> check if last patience epochs have failed to improve dev score
        if_worst=True            -> check if last epoch was WORSE than the patience epochs before it
        '''
        curve = self.validator.bleu_curve if self.config[
            'val_by_bleu'] else self.validator.perp_curve
        best_worse = max if self.config['val_by_bleu'] is not if_worst else min
        return patience and len(
            curve) > patience and curve[-1 if if_worst else -1 -
                                        patience] == best_worse(
                                            curve[-1 - patience:])

    def maybe_validate(self, just_validate=False):
        if self.total_batches % self.validate_freq == 0 or just_validate:
            self.model.save()
            self.validator.validate_and_save()

            # if doing annealing
            step = self.total_batches + 1.0
            warmup_steps = self.config['warmup_steps']

            if self.config['warmup_style'] == ac.NO_WARMUP \
               or (self.config['warmup_style'] == ac.UPFLAT_WARMUP and step >= warmup_steps) \
               and self.config['lr_decay'] > 0:

                if self.is_patience_exhausted(self.config['lr_decay_patience'],
                                              if_worst=True):
                    if self.config['val_by_bleu']:
                        metric = 'bleu'
                        scores = self.validator.bleu_curve
                    else:
                        metric = 'perp'
                        scores = self.validator.perp_curve
                    scores = ', '.join([
                        str(x)
                        for x in scores[-1 - self.config['lr_decay_patience']:]
                    ])

                    self.logger.info(f'Past {metric} scores are {scores}')
                    # when don't use warmup, decay lr if dev not improve
                    if self.lr * self.config['lr_decay'] >= self.config[
                            'min_lr']:
                        new_lr = self.lr * self.config['lr_decay']
                        self.logger.info(
                            f'Anneal the learning rate from {self.lr} to {new_lr}'
                        )
                        self.lr = new_lr
                        for p in self.optimizer.param_groups:
                            p['lr'] = self.lr
        return self.is_patience_exhausted(self.config['early_stop_patience'])
예제 #5
0
class Trainer(object):
    """Trainer"""
    def __init__(self, args):
        super(Trainer, self).__init__()
        self.config = getattr(configurations, args.proto)()
        self.num_preload = args.num_preload
        self.logger = ut.get_logger(self.config['log_file'])

        self.device = torch.device(
            'cuda:0' if torch.cuda.is_available() else 'cpu')

        self.normalize_loss = self.config['normalize_loss']
        self.patience = self.config['patience']
        self.lr = self.config['lr']
        self.lr_decay = self.config['lr_decay']
        self.max_epochs = self.config['max_epochs']
        self.warmup_steps = self.config['warmup_steps']

        self.train_smooth_perps = []
        self.train_true_perps = []

        self.data_manager = DataManager(self.config)
        self.validator = Validator(self.config, self.data_manager)

        self.val_per_epoch = self.config['val_per_epoch']
        self.validate_freq = int(self.config['validate_freq'])
        self.logger.info('Evaluate every {} {}'.format(
            self.validate_freq, 'epochs' if self.val_per_epoch else 'batches'))

        # For logging
        self.log_freq = 100  # log train stat every this-many batches
        self.log_train_loss = 0.  # total train loss every log_freq batches
        self.log_nll_loss = 0.
        self.log_train_weights = 0.
        self.num_batches_done = 0  # number of batches done for the whole training
        self.epoch_batches_done = 0  # number of batches done for this epoch
        self.epoch_loss = 0.  # total train loss for whole epoch
        self.epoch_nll_loss = 0.  # total train loss for whole epoch
        self.epoch_weights = 0.  # total train weights (# target words) for whole epoch
        self.epoch_time = 0.  # total exec time for whole epoch, sounds like that tabloid

        # get model
        self.model = Model(self.config).to(self.device)

        param_count = sum(
            [numpy.prod(p.size()) for p in self.model.parameters()])
        self.logger.info('Model has {:,} parameters'.format(param_count))

        # get optimizer
        beta1 = self.config['beta1']
        beta2 = self.config['beta2']
        epsilon = self.config['epsilon']
        self.optimizer = torch.optim.Adam(self.model.parameters(),
                                          lr=self.lr,
                                          betas=(beta1, beta2),
                                          eps=epsilon)

    def report_epoch(self, e):
        self.logger.info('Finish epoch {}'.format(e))
        self.logger.info('    It takes {}'.format(
            ut.format_seconds(self.epoch_time)))
        self.logger.info('    Avergage # words/second    {}'.format(
            self.epoch_weights / self.epoch_time))
        self.logger.info('    Average seconds/batch    {}'.format(
            self.epoch_time / self.epoch_batches_done))

        train_smooth_perp = self.epoch_loss / self.epoch_weights
        train_true_perp = self.epoch_nll_loss / self.epoch_weights

        self.epoch_batches_done = 0
        self.epoch_time = 0.
        self.epoch_nll_loss = 0.
        self.epoch_loss = 0.
        self.epoch_weights = 0.

        train_smooth_perp = numpy.exp(
            train_smooth_perp) if train_smooth_perp < 300 else float('inf')
        self.train_smooth_perps.append(train_smooth_perp)
        train_true_perp = numpy.exp(
            train_true_perp) if train_true_perp < 300 else float('inf')
        self.train_true_perps.append(train_true_perp)

        self.logger.info(
            '    smoothed train perplexity: {}'.format(train_smooth_perp))
        self.logger.info(
            '    true train perplexity: {}'.format(train_true_perp))

    def run_log(self, b, e, batch_data):
        start = time.time()
        src_toks, trg_toks, targets = batch_data
        src_toks_cuda = src_toks.to(self.device)
        trg_toks_cuda = trg_toks.to(self.device)
        targets_cuda = targets.to(self.device)

        # zero grad
        self.optimizer.zero_grad()

        # get loss
        ret = self.model(src_toks_cuda, trg_toks_cuda, targets_cuda)
        loss = ret['loss']
        nll_loss = ret['nll_loss']
        if self.normalize_loss == ac.LOSS_TOK:
            opt_loss = loss / (targets_cuda != ac.PAD_ID).type(
                loss.type()).sum()
        elif self.normalize_loss == ac.LOSS_BATCH:
            opt_loss = loss / targets_cuda.size()[0].type(loss.type())
        else:
            opt_loss = loss

        opt_loss.backward()
        # clip gradient
        global_norm = torch.nn.utils.clip_grad_norm_(self.model.parameters(),
                                                     self.config['grad_clip'])

        # update
        self.adjust_lr()
        self.optimizer.step()

        # update training stats
        num_words = (targets != ac.PAD_ID).detach().numpy().sum()

        loss = loss.cpu().detach().numpy()
        nll_loss = nll_loss.cpu().detach().numpy()
        self.num_batches_done += 1
        self.log_train_loss += loss
        self.log_nll_loss += nll_loss
        self.log_train_weights += num_words

        self.epoch_batches_done += 1
        self.epoch_loss += loss
        self.epoch_nll_loss += nll_loss
        self.epoch_weights += num_words
        self.epoch_time += time.time() - start

        if self.num_batches_done % self.log_freq == 0:
            acc_speed_word = self.epoch_weights / self.epoch_time
            acc_speed_time = self.epoch_time / self.epoch_batches_done

            avg_smooth_perp = self.log_train_loss / self.log_train_weights
            avg_smooth_perp = numpy.exp(
                avg_smooth_perp) if avg_smooth_perp < 300 else float('inf')
            avg_true_perp = self.log_nll_loss / self.log_train_weights
            avg_true_perp = numpy.exp(
                avg_true_perp) if avg_true_perp < 300 else float('inf')

            self.log_train_loss = 0.
            self.log_nll_loss = 0.
            self.log_train_weights = 0.

            self.logger.info('Batch {}, epoch {}/{}:'.format(
                b, e + 1, self.max_epochs))
            self.logger.info(
                '   avg smooth perp:   {0:.2f}'.format(avg_smooth_perp))
            self.logger.info(
                '   avg true perp:   {0:.2f}'.format(avg_true_perp))
            self.logger.info('   acc trg words/s: {}'.format(
                int(acc_speed_word)))
            self.logger.info(
                '   acc sec/batch:   {0:.2f}'.format(acc_speed_time))
            self.logger.info('   global norm:     {0:.2f}'.format(global_norm))

    def adjust_lr(self):
        if self.config['warmup_style'] == ac.ORG_WARMUP:
            step = self.num_batches_done + 1.0
            if step < self.config['warmup_steps']:
                lr = self.config['embed_dim']**(
                    -0.5) * step * self.config['warmup_steps']**(-1.5)
            else:
                lr = max(self.config['embed_dim']**(-0.5) * step**(-0.5),
                         self.config['min_lr'])

            for p in self.optimizer.param_groups:
                p['lr'] = lr

    def train(self):
        self.model.train()
        train_ids_file = self.data_manager.data_files['ids']
        for e in range(self.max_epochs):
            b = 0
            for batch_data in self.data_manager.get_batch(
                    ids_file=train_ids_file,
                    shuffle=True,
                    num_preload=self.num_preload):
                b += 1
                self.run_log(b, e, batch_data)
                if not self.val_per_epoch:
                    self.maybe_validate()

            self.report_epoch(e + 1)
            if self.val_per_epoch and (e + 1) % self.validate_freq == 0:
                self.maybe_validate(just_validate=True)

        # validate 1 last time
        if not self.config['val_per_epoch']:
            self.maybe_validate(just_validate=True)

        self.logger.info('It is finally done, mate!')
        self.logger.info('Train smoothed perps:')
        self.logger.info(', '.join(map(str, self.train_smooth_perps)))
        self.logger.info('Train true perps:')
        self.logger.info(', '.join(map(str, self.train_true_perps)))
        numpy.save(join(self.config['save_to'], 'train_smooth_perps.npy'),
                   self.train_smooth_perps)
        numpy.save(join(self.config['save_to'], 'train_true_perps.npy'),
                   self.train_true_perps)

        self.logger.info('Save final checkpoint')
        self.save_checkpoint()

        # Evaluate on test
        for checkpoint in self.data_manager.checkpoints:
            self.logger.info('Translate for {}'.format(checkpoint))
            dev_file = self.data_manager.dev_files[checkpoint][
                self.data_manager.src_lang]
            test_file = self.data_manager.test_files[checkpoint][
                self.data_manager.src_lang]
            if exists(test_file):
                self.logger.info('  Evaluate on test')
                self.restart_to_best_checkpoint(checkpoint)
                self.validator.translate(self.model, test_file)
                self.logger.info('  Also translate dev')
                self.validator.translate(self.model, dev_file)

    def save_checkpoint(self):
        cpkt_path = join(self.config['save_to'],
                         '{}.pth'.format(self.config['model_name']))
        torch.save(self.model.state_dict(), cpkt_path)

    def restart_to_best_checkpoint(self, checkpoint):
        best_perp = numpy.min(self.validator.best_perps[checkpoint])
        best_cpkt_path = self.validator.get_cpkt_path(checkpoint, best_perp)

        self.logger.info('Restore best cpkt from {}'.format(best_cpkt_path))
        self.model.load_state_dict(torch.load(best_cpkt_path))

    def maybe_validate(self, just_validate=False):
        if self.num_batches_done % self.validate_freq == 0 or just_validate:
            self.save_checkpoint()
            self.validator.validate_and_save(self.model)

            # if doing annealing
            if self.config[
                    'warmup_style'] == ac.NO_WARMUP and self.lr_decay > 0:
                cond = len(
                    self.validator.perp_curve
                ) > self.patience and self.validator.perp_curve[-1] > max(
                    self.validator.perp_curve[-1 - self.patience:-1])
                if cond:
                    metric = 'perp'
                    scores = self.validator.perp_curve[-1 - self.patience:]
                    scores = map(str, list(scores))
                    scores = ', '.join(scores)

                    self.logger.info('Past {} are {}'.format(metric, scores))
                    # when don't use warmup, decay lr if dev not improve
                    if self.lr * self.lr_decay >= self.config['min_lr']:
                        self.logger.info(
                            'Anneal the learning rate from {} to {}'.format(
                                self.lr, self.lr * self.lr_decay))
                        self.lr = self.lr * self.lr_decay
                        for p in self.optimizer.param_groups:
                            p['lr'] = self.lr
예제 #6
0
class Trainer(object):
    def __init__(self, args):
        super(Trainer, self).__init__()
        self.config = getattr(configurations, args.proto)()
        self.config['fixed_var_list'] = args.fixed_var_list
        self.num_preload = args.num_preload
        self.logger = ut.get_logger(self.config['log_file'])

        self.lr = self.config['lr']
        self.max_epochs = self.config['max_epochs']
        self.save_freq = self.config['save_freq']
        self.cpkt_path = None
        self.validate_freq = None
        self.train_perps = []

        self.saver = None
        self.train_m = None
        self.dev_m = None

        self.data_manager = DataManager(self.config)
        self.validator = Validator(self.config, self.data_manager)
        self.validate_freq = ut.get_validation_frequency(
            self.data_manager.length_files[ac.TRAINING],
            self.config['validate_freq'], self.config['batch_size'])
        self.logger.info('Evaluate every {} batches'.format(
            self.validate_freq))

        _, self.src_ivocab = self.data_manager.init_vocab(
            self.data_manager.src_lang)
        _, self.trg_ivocab = self.data_manager.init_vocab(
            self.data_manager.trg_lang)

        # For logging
        self.log_freq = 100  # log train stat every this-many batches
        self.log_train_loss = 0.  # total train loss every log_freq batches
        self.log_train_weights = 0.
        self.num_batches_done = 0  # number of batches done for the whole training
        self.epoch_batches_done = 0  # number of batches done for this epoch
        self.epoch_loss = 0.  # total train loss for whole epoch
        self.epoch_weights = 0.  # total train weights (# target words) for whole epoch
        self.epoch_time = 0.  # total exec time for whole epoch, sounds like that tabloid

    def get_model(self, mode):
        reuse = mode != ac.TRAINING
        d = self.config['init_range']
        initializer = tf.random_uniform_initializer(-d, d, seed=ac.SEED)
        with tf.variable_scope(self.config['model_name'],
                               reuse=reuse,
                               initializer=initializer):
            return Model(self.config, mode)

    def reload_and_get_cpkt_saver(self, config, sess):
        cpkt_path = join(config['save_to'],
                         '{}.cpkt'.format(config['model_name']))
        saver = tf.train.Saver(var_list=tf.trainable_variables(),
                               max_to_keep=config['n_best'] + 1)

        # TF some version >= 0.11, no longer .cpkt so check for meta file instead
        if exists(cpkt_path + '.meta') and config['reload']:
            self.logger.info('Reload model from {}'.format(cpkt_path))
            saver.restore(sess, cpkt_path)

        self.cpkt_path = cpkt_path
        self.saver = saver

    def train(self):
        tf.reset_default_graph()
        with tf.Graph().as_default():
            tf.set_random_seed(ac.SEED)
            self.train_m = self.get_model(ac.TRAINING)
            self.dev_m = self.get_model(ac.VALIDATING)

            with tf.Session() as sess:
                sess.run(tf.global_variables_initializer())
                self.reload_and_get_cpkt_saver(self.config, sess)
                self.logger.info('Set learning rate to {}'.format(self.lr))
                sess.run(tf.assign(self.train_m.lr, self.lr))

                for e in xrange(self.max_epochs):
                    for b, batch_data in self.data_manager.get_batch(
                            mode=ac.TRAINING, num_batches=self.num_preload):
                        self.run_log_save(sess, b, e, batch_data)
                        self.maybe_validate(sess)

                    self.report_epoch(e)

                self.logger.info('It is finally done, mate!')
                self.logger.info('Train perplexities:')
                self.logger.info(', '.join(map(str, self.train_perps)))
                numpy.save(join(self.config['save_to'], 'train_perps.npy'),
                           self.train_perps)

                self.logger.info('Save final checkpoint')
                self.saver.save(sess, self.cpkt_path)

                # Evaluate on test
                if exists(self.data_manager.ids_files[ac.TESTING]):
                    self.logger.info('Evaluate on test')
                    best_bleu = numpy.max(self.validator.best_bleus)
                    best_cpkt_path = self.validator.get_cpkt_path(best_bleu)
                    self.logger.info(
                        'Restore best cpkt from {}'.format(best_cpkt_path))
                    self.saver.restore(sess, best_cpkt_path)
                    self.validator.evaluate(sess, self.dev_m, mode=ac.TESTING)

    def report_epoch(self, e):
        self.logger.info('Finish epoch {}'.format(e + 1))
        self.logger.info('    It takes {}'.format(
            ut.format_seconds(self.epoch_time)))
        self.logger.info('    Avergage # words/second    {}'.format(
            self.epoch_weights / self.epoch_time))
        self.logger.info('    Average seconds/batch    {}'.format(
            self.epoch_time / self.epoch_batches_done))

        train_perp = self.epoch_loss / self.epoch_weights

        self.epoch_batches_done = 0
        self.epoch_time = 0.
        self.epoch_loss = 0.
        self.epoch_weights = 0.

        train_perp = numpy.exp(train_perp) if train_perp < 300 else float(
            'inf')
        self.train_perps.append(train_perp)
        self.logger.info('    train perplexity: {}'.format(train_perp))

    def sample_input(self, batch_data):
        # TODO: more on sampling
        src_sent = batch_data[0][0]
        src_length = batch_data[1][0]
        trg_sent = batch_data[2][0]
        target = batch_data[3][0]
        weight = batch_data[4][0]

        src_sent = map(self.src_ivocab.get, src_sent)
        src_sent = u' '.join(src_sent)
        trg_sent = map(self.trg_ivocab.get, trg_sent)
        trg_sent = u' '.join(trg_sent)
        target = map(self.trg_ivocab.get, target)
        target = u' '.join(target)
        weight = ' '.join(map(str, weight))

        self.logger.info('Sample input data:')
        self.logger.info(u'Src: {}'.format(src_sent))
        self.logger.info(u'Src len: {}'.format(src_length))
        self.logger.info(u'Trg: {}'.format(trg_sent))
        self.logger.info(u'Tar: {}'.format(target))
        self.logger.info(u'W: {}'.format(weight))

    def run_log_save(self, sess, b, e, batch_data):
        start = time.time()
        src_inputs, src_seq_lengths, trg_inputs, trg_targets, target_weights = batch_data
        feed = {
            self.train_m.src_inputs: src_inputs,
            self.train_m.src_seq_lengths: src_seq_lengths,
            self.train_m.trg_inputs: trg_inputs,
            self.train_m.trg_targets: trg_targets,
            self.train_m.target_weights: target_weights
        }
        loss, _ = sess.run([self.train_m.loss, self.train_m.train_op], feed)

        num_trg_words = numpy.sum(target_weights)
        self.num_batches_done += 1
        self.epoch_batches_done += 1
        self.epoch_loss += loss
        self.epoch_weights += num_trg_words
        self.log_train_loss += loss
        self.log_train_weights += num_trg_words
        self.epoch_time += time.time() - start

        if self.num_batches_done % (10 * self.log_freq) == 0:
            self.sample_input(batch_data)

        if self.num_batches_done % self.log_freq == 0:
            acc_speed_word = self.epoch_weights / self.epoch_time
            acc_speed_time = self.epoch_time / self.epoch_batches_done

            avg_word_perp = self.log_train_loss / self.log_train_weights
            avg_word_perp = numpy.exp(
                avg_word_perp) if avg_word_perp < 300 else float('inf')
            self.log_train_loss = 0.
            self.log_train_weights = 0.

            self.logger.info('Batch {}, epoch {}/{}:'.format(
                b, e + 1, self.max_epochs))
            self.logger.info(
                '   avg word perp:   {0:.2f}'.format(avg_word_perp))
            self.logger.info('   acc trg words/s: {}'.format(
                int(acc_speed_word)))
            self.logger.info(
                '   acc sec/batch:   {0:.2f}'.format(acc_speed_time))

        if self.num_batches_done % self.save_freq == 0:
            start = time.time()
            self.saver.save(sess, self.cpkt_path)
            self.logger.info('Save model to {}, takes {}'.format(
                self.cpkt_path, ut.format_seconds(time.time() - start)))

    def maybe_validate(self, sess):
        if self.num_batches_done % self.validate_freq == 0:
            self.validator.validate_and_save(sess, self.dev_m, self.saver)

    def _call_me_maybe(self):
        pass  # NO