from blocks.bricks import MLP, Rectifier, Linear, Sigmoid, Identity, Softmax from blocks.bricks.lookup import LookupTable import numpy import theano from theano import tensor import data import error class Model(object): def __init__(self, config): # The input and the targets x_firstk_latitude = (tensor.matrix('first_k_latitude') - data.train_gps_mean[0]) / data.train_gps_std[0] x_firstk_longitude = (tensor.matrix('first_k_longitude') - data.train_gps_mean[1]) / data.train_gps_std[1] x_lastk_latitude = (tensor.matrix('last_k_latitude') - data.train_gps_mean[0]) / data.train_gps_std[0] x_lastk_longitude = (tensor.matrix('last_k_longitude') - data.train_gps_mean[1]) / data.train_gps_std[1] x_input_time = tensor.lvector('input_time') input_list = [x_firstk_latitude, x_firstk_longitude, x_lastk_latitude, x_lastk_longitude] embed_tables = [] self.require_inputs = ['first_k_latitude', 'first_k_longitude', 'last_k_latitude', 'last_k_longitude', 'input_time'] for (varname, num, dim) in config.dim_embeddings: self.require_inputs.append(varname) vardata = tensor.lvector(varname) tbl = LookupTable(length=num, dim=dim, name='%s_lookup'%varname) embed_tables.append(tbl) input_list.append(tbl.apply(vardata)) y_dest = tensor.concatenate((tensor.vector('destination_latitude')[:, None], tensor.vector('destination_longitude')[:, None]), axis=1) y_time = tensor.lvector('travel_time') # Define the model common_mlp = MLP(activations=[Rectifier() for _ in config.dim_hidden], dims=[config.dim_input] + config.dim_hidden) dest_mlp = MLP(activations=[Rectifier() for _ in config.dim_hidden_dest] + [Softmax()], dims=[config.dim_hidden[-1]] + config.dim_hidden_dest + [config.dim_output_dest], name='dest_mlp') dest_classes = theano.shared(numpy.array(config.dest_tgtcls, dtype=theano.config.floatX), name='dest_classes') time_mlp = MLP(activations=[Rectifier() for _ in config.dim_hidden_time] + [Softmax()], dims=[config.dim_hidden[-1]] + config.dim_hidden_time + [config.dim_output_time], name='time_mlp') time_classes = theano.shared(numpy.array(config.time_tgtcls, dtype=theano.config.floatX), name='time_classes') # Create the Theano variables inputs = tensor.concatenate(input_list, axis=1) # inputs = theano.printing.Print("inputs")(inputs) hidden = common_mlp.apply(inputs) dest_cls_probas = dest_mlp.apply(hidden) dest_outputs = tensor.dot(dest_cls_probas, dest_classes) dest_outputs.name = 'dest_outputs' time_cls_probas = time_mlp.apply(hidden) time_outputs = tensor.dot(time_cls_probas, time_classes) + x_input_time time_outputs.name = 'time_outputs' # Calculate the cost dest_cost = error.erdist(dest_outputs, y_dest).mean() dest_cost.name = 'dest_cost' dest_hcost = error.hdist(dest_outputs, y_dest).mean() dest_hcost.name = 'dest_hcost' time_cost = error.rmsle(time_outputs.flatten(), y_time.flatten()) time_cost.name = 'time_cost' cost = dest_cost + time_cost cost.name = 'cost' # Initialization for tbl in embed_tables: tbl.weights_init = config.embed_weights_init tbl.initialize() for mlp in [common_mlp, dest_mlp, time_mlp]: mlp.weights_init = config.mlp_weights_init mlp.biases_init = config.mlp_biases_init mlp.initialize() self.cost = cost self.monitor = [cost, dest_cost, dest_hcost, time_cost] self.outputs = tensor.concatenate([dest_outputs, time_outputs[:, None]], axis=1) self.outputs.name = 'outputs' self.pred_vars = ['destination_longitude', 'destination_latitude', 'travel_time']