def main(data_name, method, dimZ, dimH, n_channel, batch_size, K_mc, checkpoint, lbd): # set up dataset specific stuff from config import config labels, n_iter, dimX, shape_high, ll = config(data_name, n_channel) if data_name == 'mnist': from mnist import load_mnist if data_name == 'notmnist': from notmnist import load_notmnist # import functionalities if method == 'onlinevi': from bayesian_generator import generator_head, generator_shared, \ generator, construct_gen if method in ['ewc', 'noreg', 'si', 'laplace']: from generator import generator_head, generator_shared, generator, construct_gen # then define model n_layers_shared = 2 batch_size_ph = tf.placeholder(tf.int32, shape=(), name='batch_size') dec_shared = generator_shared(dimX, dimH, n_layers_shared, 'sigmoid', 'gen') # initialise sessions config = tf.ConfigProto() config.gpu_options.allow_growth = True sess = tf.Session(config=config) string = method if method in ['ewc', 'laplace', 'si']: string = string + '_lbd%.1f' % lbd if method == 'onlinevi' and K_mc > 1: string = string + '_K%d' % K_mc path_name = data_name + '_%s/' % string assert os.path.isdir('save/'+path_name) filename = 'save/' + path_name + 'checkpoint' # visualise the samples N_gen = 10**2 X_ph = tf.placeholder(tf.float32, shape=(batch_size, dimX), name = 'x_ph') # now start fitting N_task = len(labels) gen_ops = [] X_valid_list = [] X_test_list = [] eval_func_list = [] result_list = [] n_layers_head = 2 n_layers_enc = n_layers_shared + n_layers_head - 1 for task in xrange(1, N_task+1): # first load data # first load data if data_name == 'mnist': X_train, X_test, _, _ = load_mnist(digits = labels[task-1], conv = False) if data_name == 'notmnist': X_train, X_test, _, _ = load_notmnist(data_path, digits = labels[task-1], conv = False) N_train = int(X_train.shape[0] * 0.9) X_valid_list.append(X_train[N_train:]) X_train = X_train[:N_train] X_test_list.append(X_test) # define the head net and the generator ops dec = generator(generator_head(dimZ, dimH, n_layers_head, 'gen_%d' % task), dec_shared) enc = encoder(dimX, dimH, dimZ, n_layers_enc, 'enc_%d' % task) gen_ops.append(construct_gen(dec, dimZ, sampling=False)(N_gen)) eval_func_list.append(construct_eval_func(X_ph, enc, dec, ll, batch_size_ph, K = 5000, sample_W = False)) # then load the trained model load_params(sess, filename, checkpoint=task-1, init_all = False) # plot samples x_gen_list = sess.run(gen_ops, feed_dict={batch_size_ph: N_gen}) x_list = [] for i in xrange(len(x_gen_list)): ind = np.random.randint(len(x_gen_list[i])) x_list.append(x_gen_list[i][ind:ind+1]) x_list = np.concatenate(x_list, 0) tmp = np.zeros([10, dimX]) tmp[:task] = x_list if task == 1: x_gen_all = tmp else: x_gen_all = np.concatenate([x_gen_all, tmp], 0) # print test-ll on all tasks tmp_list = [] for i in xrange(len(eval_func_list)): print 'task %d' % (i+1), test_ll = eval_func_list[i](sess, X_test_list[i]) tmp_list.append(test_ll) result_list.append(tmp_list) #x_gen_all = 1.0 - x_gen_all if not os.path.isdir('figs/visualisation/'): os.mkdir('figs/visualisation/') print 'create path figs/visualisation/' plot_images(x_gen_all, shape_high, 'figs/visualisation/', data_name+'_gen_all_'+method) for i in xrange(len(result_list)): print result_list[i] # save results fname = 'results/' + data_name + '_%s.pkl' % string import pickle pickle.dump(result_list, open(fname, 'wb')) print 'test-ll results saved in', fname
def main(data_name, method, dimZ, dimH, n_channel, batch_size, K_mc, checkpoint, lbd): # set up dataset specific stuff from config import config labels, n_iter, dimX, shape_high, ll = config(data_name, n_channel) if data_name == 'mnist': from mnist import load_mnist if data_name == 'notmnist': from notmnist import load_notmnist # import functionalities if method == 'onlinevi': from bayesian_generator import generator_head, generator_shared, \ generator, construct_gen from onlinevi import construct_optimizer, init_shared_prior, \ update_shared_prior, update_q_sigma if method in ['ewc', 'noreg', 'laplace', 'si']: from generator import generator_head, generator_shared, generator, construct_gen if method in ['ewc', 'noreg']: from vae_ewc import construct_optimizer, lowerbound if method == 'ewc': from vae_ewc import update_ewc_loss, compute_fisher if method == 'laplace': from vae_laplace import construct_optimizer, lowerbound from vae_laplace import update_laplace_loss, compute_fisher, init_fisher_accum if method == 'si': from vae_si import construct_optimizer, lowerbound, update_si_reg # then define model n_layers_shared = 2 batch_size_ph = tf.placeholder(tf.int32, shape=(), name='batch_size') dec_shared = generator_shared(dimX, dimH, n_layers_shared, 'sigmoid', 'gen') # initialise sessions config = tf.ConfigProto() config.gpu_options.allow_growth = True sess = tf.Session(config=config) string = method if method in ['ewc', 'laplace', 'si']: string = string + '_lbd%.1f' % lbd if method == 'onlinevi' and K_mc > 1: string = string + '_K%d' % K_mc path_name = data_name + '_%s/' % string if not os.path.isdir('save/'): os.mkdir('save/') if not os.path.isdir('save/' + path_name): os.mkdir('save/' + path_name) print 'create path save/' + path_name filename = 'save/' + path_name + 'checkpoint' if checkpoint < 0: print 'training from scratch' old_var_list = init_variables(sess) else: load_params(sess, filename, checkpoint) checkpoint += 1 # visualise the samples N_gen = 10**2 path = 'figs/' + path_name if not os.path.isdir('figs/'): os.mkdir('figs/') if not os.path.isdir(path): os.mkdir(path) print 'create path ' + path X_ph = tf.placeholder(tf.float32, shape=(batch_size, dimX), name='x_ph') # now start fitting N_task = len(labels) gen_ops = [] X_valid_list = [] X_test_list = [] eval_func_list = [] result_list = [] if method == 'onlinevi': shared_prior_params = init_shared_prior() if method in ['ewc', 'noreg']: ewc_loss = 0.0 if method == 'laplace': F_accum = init_fisher_accum() laplace_loss = 0.0 if method == 'si': old_params_shared = None si_reg = None n_layers_head = 2 n_layers_enc = n_layers_shared + n_layers_head - 1 for task in xrange(1, N_task + 1): # first load data if data_name == 'mnist': X_train, X_test, _, _ = load_mnist(digits=labels[task - 1], conv=False) if data_name == 'notmnist': X_train, X_test, _, _ = load_notmnist(data_path, digits=labels[task - 1], conv=False) N_train = int(X_train.shape[0] * 0.9) X_valid_list.append(X_train[N_train:]) X_train = X_train[:N_train] X_test_list.append(X_test) # define the head net and the generator ops dec = generator( generator_head(dimZ, dimH, n_layers_head, 'gen_%d' % task), dec_shared) enc = encoder(dimX, dimH, dimZ, n_layers_enc, 'enc_%d' % task) gen_ops.append(construct_gen(dec, dimZ, sampling=False)(N_gen)) print 'construct eval function...' eval_func_list.append(construct_eval_func(X_ph, enc, dec, ll, \ batch_size_ph, K=100, sample_W=False)) # then construct loss func and fit func print 'construct fit function...' if method == 'onlinevi': fit = construct_optimizer(X_ph, enc, dec, ll, X_train.shape[0], batch_size_ph, \ shared_prior_params, task, K_mc) if method in ['ewc', 'noreg']: bound = lowerbound(X_ph, enc, dec, ll) fit = construct_optimizer(X_ph, batch_size_ph, bound, X_train.shape[0], ewc_loss) if method == 'ewc': fisher, var_list = compute_fisher(X_ph, batch_size_ph, bound, X_train.shape[0]) if method == 'laplace': bound = lowerbound(X_ph, enc, dec, ll) fit = construct_optimizer(X_ph, batch_size_ph, bound, X_train.shape[0], laplace_loss) fisher, var_list = compute_fisher(X_ph, batch_size_ph, bound, X_train.shape[0]) if method == 'si': bound = lowerbound(X_ph, enc, dec, ll) fit, shared_var_list = construct_optimizer(X_ph, batch_size_ph, bound, X_train.shape[0], si_reg, old_params_shared, lbd) if old_params_shared is None: old_params_shared = sess.run(shared_var_list) # initialise all the uninitialised stuff old_var_list = init_variables(sess, old_var_list) # start training for each task if method == 'si': new_params_shared, w_params_shared = fit(sess, X_train, n_iter, lr) else: fit(sess, X_train, n_iter, lr) # plot samples x_gen_list = sess.run(gen_ops, feed_dict={batch_size_ph: N_gen}) for i in xrange(len(x_gen_list)): plot_images(x_gen_list[i], shape_high, path, \ data_name + '_gen_task%d_%d' % (task, i + 1)) x_list = [x_gen_list[i][:1] for i in xrange(len(x_gen_list))] x_list = np.concatenate(x_list, 0) tmp = np.zeros([10, dimX]) tmp[:task] = x_list if task == 1: x_gen_all = tmp else: x_gen_all = np.concatenate([x_gen_all, tmp], 0) # print test-ll on all tasks tmp_list = [] for i in xrange(len(eval_func_list)): print 'task %d' % (i + 1), test_ll = eval_func_list[i](sess, X_valid_list[i]) tmp_list.append(test_ll) result_list.append(tmp_list) # save param values save_params(sess, filename, checkpoint) checkpoint += 1 # update regularisers/priors if method == 'ewc': # update EWC loss print 'update ewc loss...' X_batch = X_train[np.random.permutation(range( X_train.shape[0]))[:batch_size]] ewc_loss = update_ewc_loss(sess, ewc_loss, var_list, fisher, lbd, X_batch) if method == 'laplace': # update EWC loss print 'update laplace loss...' X_batch = X_train[np.random.permutation(range( X_train.shape[0]))[:batch_size]] laplace_loss, F_accum = update_laplace_loss( sess, F_accum, var_list, fisher, lbd, X_batch) if method == 'onlinevi': # update prior print 'update prior...' shared_prior_params = update_shared_prior(sess, shared_prior_params) # reset the variance of q update_q_sigma(sess) if method == 'si': # update regularisers/priors print 'update SI big omega matrices...' si_reg, _ = update_si_reg(sess, si_reg, new_params_shared, old_params_shared, w_params_shared) old_params_shared = new_params_shared plot_images(x_gen_all, shape_high, path, data_name + '_gen_all') for i in xrange(len(result_list)): print result_list[i] # save results fname = 'results/' + data_name + '_%s.pkl' % string import pickle pickle.dump(result_list, open(fname, 'wb')) print 'test-ll results saved in', fname
def main(data_name, method, dimZ, dimH, n_channel, batch_size, K_mc, checkpoint, lbd): # set up dataset specific stuff from config import config labels, n_iter, dimX, shape_high, ll = config(data_name, n_channel) # import functionalities if method == 'onlinevi': from bayesian_generator import generator_head, generator_shared, \ generator, construct_gen if method in ['ewc', 'noreg', 'si', 'si2', 'laplace']: from generator import generator_head, generator_shared, generator, construct_gen # then define model n_layers_shared = 2 batch_size_ph = tf.placeholder(tf.int32, shape=(), name='batch_size') dec_shared = generator_shared(dimX, dimH, n_layers_shared, 'sigmoid', 'gen') # initialise sessions config = tf.ConfigProto() config.gpu_options.allow_growth = True sess = tf.Session(config=config) keras.backend.set_session(sess) string = method if method in ['ewc', 'laplace']: string = string + '_lbd%d' % lbd if method in ['si', 'si2']: string = string + '_lbd%.1f' % lbd if method == 'onlinevi' and K_mc > 1: string = string + '_K%d' % K_mc path_name = data_name + '_%s_no_share_enc/' % string assert os.path.isdir('save/' + path_name) filename = 'save/' + path_name + 'checkpoint' # load the classifier cla = load_model(data_name) # print test error X_ph = tf.placeholder(tf.float32, shape=(batch_size, 28**2)) y_ph = tf.placeholder(tf.float32, shape=(batch_size, 10)) y_pred = cla(X_ph) correct_pred = tf.equal(tf.argmax(y_ph, 1), tf.argmax(y_pred, 1)) acc = tf.reduce_mean(tf.cast(correct_pred, tf.float32)) y_pred_ = tf.clip_by_value(y_pred, 1e-9, 1.0) kl = tf.reduce_mean(-tf.reduce_sum(y_ph * tf.log(y_pred_), 1)) for task in range(1): if data_name == 'mnist': from mnist import load_mnist _, X_test, _, Y_test = load_mnist([task]) if data_name == 'notmnist': from notmnist import load_notmnist _, X_test, _, Y_test = load_notmnist(data_path, [task], conv=False) test_acc = 0.0 test_kl = 0.0 N_test = X_test.shape[0] for i in range(N_test / batch_size): indl = i * batch_size indr = min((i + 1) * batch_size, N_test) tmp1, tmp2 = sess.run( (acc, kl), feed_dict={ X_ph: X_test[indl:indr], y_ph: Y_test[indl:indr], keras.backend.learning_phase(): 0 }) test_acc += tmp1 / (N_test / batch_size) test_kl += tmp2 / (N_test / batch_size) print('classification accuracy on test data', test_acc) print('kl on test data', test_kl) # now start fitting N_task = len(labels) eval_func_list = [] result_list = [] n_layers_head = 2 n_layers_enc = n_layers_shared + n_layers_head - 1 for task in range(1, N_task + 1): # define the head net and the generator ops dec = generator( generator_head(dimZ, dimH, n_layers_head, 'gen_%d' % task), dec_shared) eval_func_list.append(construct_eval_func(dec, cla, batch_size_ph, \ dimZ, task-1, sample_W = True)) # then load the trained model load_params(sess, filename, checkpoint=task - 1, init_all=False) # print test-ll on all tasks tmp_list = [] for i in range(len(eval_func_list)): print('task %d' % (i + 1)) kl = eval_func_list[i](sess) tmp_list.append(kl) result_list.append(tmp_list) for i in range(len(result_list)): print(result_list[i]) # save results fname = 'results/' + data_name + '_%s_gen_class.pkl' % string import pickle pickle.dump(result_list, open(fname, 'wb')) print 'test-ll results saved in', fname