#!/usr/bin/env python2 import importlib import logging import operator import os import sys from functools import reduce from theano import tensor import blocks import fuel from blocks import roles from blocks.algorithms import AdaDelta, CompositeRule, GradientDescent, RemoveNotFinite, StepRule, Momentum from blocks.extensions import Printing, FinishAfter from blocks.extensions.monitoring import DataStreamMonitoring, TrainingDataMonitoring blocks.config.default_seed = 123 fuel.config.default_seed = 123 try: from blocks.extras.extensions.plot import Plot use_plot = True except ImportError: use_plot = False from blocks.filter import VariableFilter from blocks.graph import ComputationGraph, apply_dropout, apply_noise from blocks.main_loop import MainLoop from blocks.model import Model from ext_saveload import SaveLoadParams from ext_test import RunOnTest logger = logging.getLogger(__name__) if __name__ == "__main__": if len(sys.argv) < 2 or len(sys.argv) > 3: print >> sys.stderr, 'Usage: %s [--tvt | --largevalid] config' % sys.argv[0] sys.exit(1) model_name = sys.argv[-1] config = importlib.import_module('.%s' % model_name, 'config') logger.info('# Configuration: %s' % config.__name__) for key in dir(config): if not key.startswith('__') and isinstance(getattr(config, key), (int, str, list, tuple)): logger.info(' %20s %s' % (key, str(getattr(config, key)))) model = config.Model(config) model.initialize() stream = config.Stream(config) inputs = stream.inputs() req_vars = model.cost.inputs train_stream = stream.train(req_vars) valid_stream = stream.valid(req_vars) cost = model.cost(**inputs) cg = ComputationGraph(cost) monitored = set([cost] + VariableFilter(roles=[roles.COST])(cg.variables)) valid_monitored = monitored if hasattr(model, 'valid_cost'): valid_cost = model.valid_cost(**inputs) valid_cg = ComputationGraph(valid_cost) valid_monitored = set([valid_cost] + VariableFilter(roles=[roles.COST])(valid_cg.variables)) if hasattr(config, 'dropout') and config.dropout < 1.0: cg = apply_dropout(cg, config.dropout_inputs(cg), config.dropout) if hasattr(config, 'noise') and config.noise > 0.0: cg = apply_noise(cg, config.noise_inputs(cg), config.noise) cost = cg.outputs[0] cg = Model(cost) logger.info('# Parameter shapes:') parameters_size = 0 for value in cg.parameters: logger.info(' %20s %s' % (value.get_value().shape, value.name)) parameters_size += reduce(operator.mul, value.get_value().shape, 1) logger.info('Total number of parameters: %d in %d matrices' % (parameters_size, len(cg.parameters))) if hasattr(config, 'step_rule'): step_rule = config.step_rule else: step_rule = AdaDelta() logger.info("Fuel seed: %d" % fuel.config.default_seed) logger.info("Blocks seed: %d" % blocks.config.default_seed) params = cg.parameters algorithm = GradientDescent( cost=cost, step_rule=CompositeRule([ RemoveNotFinite(), step_rule ]), parameters=params) plot_vars = [['valid_' + x.name for x in valid_monitored] + ['train_' + x.name for x in valid_monitored]] logger.info('Plotted variables: %s' % str(plot_vars)) dump_path = os.path.join('model_data', model_name) + '.pkl' logger.info('Dump path: %s' % dump_path) extensions=[TrainingDataMonitoring(monitored, prefix='train', every_n_batches=10000), DataStreamMonitoring(valid_monitored, valid_stream, prefix='valid', every_n_batches=10000), Printing(every_n_batches=10000), FinishAfter(every_n_batches=10000000), SaveLoadParams(dump_path, cg, before_training=True, # before training -> load params every_n_batches=10000, # every N batches -> save params after_epoch=True, # after epoch -> save params after_training=True, # after training -> save params ), RunOnTest(model_name, model, stream, every_n_batches=10000), ] if use_plot: extensions.append(Plot(model_name, channels=plot_vars, every_n_batches=500, server_url='http://eos6:5006/')) main_loop = MainLoop( model=cg, data_stream=train_stream, algorithm=algorithm, extensions=extensions) main_loop.run() main_loop.profile.report()