def test_vader_save_load_transfer_learning(self):
save_folder = "test_vader_save_load_transfer_learning"
save_path = f"{save_folder}//weights"
if os.path.exists(save_folder):
shutil.rmtree(save_folder)
X_train, W_train, y_train = generate_x_w_y(7, 400)
# noinspection PyTypeChecker
vader = VADER(X_train=X_train,
W_train=W_train,
y_train=y_train,
save_path=save_path,
n_hidden=[12, 2],
k=4,
learning_rate=1e-3,
output_activation=None,
recurrent=True,
batch_size=16)
vader.pre_fit(n_epoch=10, verbose=True)
vader.fit(n_epoch=10, verbose=True)
clustering_before_loading = vader.cluster(X_train)
X_train_ft, W_train_ft, y_train_ft = generate_x_w_y(7, 400)
vader = VADER(X_train=X_train_ft,
W_train=W_train_ft,
y_train=y_train_ft,
save_path=None,
n_hidden=[12, 2],
k=4,
learning_rate=1e-3,
output_activation=None,
recurrent=True,
batch_size=16)
vader.load_weights(save_path)
vader.pre_fit(n_epoch=10, verbose=True)
vader.fit(n_epoch=10, verbose=True)
# get the clusters
clustering = vader.cluster(X_train_ft)
if os.path.exists(save_folder):
shutil.rmtree(save_folder)
assert any(clustering)
assert len(clustering) == len(X_train_ft)
# get the re-constructions
prediction = vader.predict(X_train_ft)
assert prediction.shape == X_train_ft.shape
# compute the loss given the network
loss = vader.get_loss(X_train_ft)
assert loss
assert "reconstruction_loss" in loss
assert "latent_loss" in loss
assert loss["reconstruction_loss"] >= 0
assert loss["latent_loss"] >= 0
def test1():
save_path = os.path.join('test_vader', 'vader.ckpt')
x_train, y_train, w_train = prepare_data()
# json.dump(x_train, open("x_train.json", "wb"))
# json.dump(y_train, open("y_train.json", "wb"))
# json.dump(w_train, open("w_train.json", "wb"))
pickle.dump(x_train, open("x_train.pickle", "wb"))
pickle.dump(y_train, open("y_train.pickle", "wb"))
pickle.dump(w_train, open("w_train.pickle", "wb"))
# Note: y_train is used purely for monitoring performance when a ground truth clustering is available.
# It can be omitted if no ground truth is available.
vader = VADER(x_train=x_train,
w_train=w_train,
y_train=y_train,
save_path=save_path,
n_hidden=[12, 2],
k=4,
learning_rate=1e-3,
output_activation=None,
recurrent=True,
batch_size=16)
# pre-train without latent loss
vader.pre_fit(n_epoch=50, verbose=True)
# train with latent loss
vader.fit(n_epoch=50, verbose=True)
# get the clusters
c = vader.cluster(x_train)
# get the re-constructions
p = vader.predict(x_train)
def main():
output_path = Path('../output/try2_exactly_7_times')
output_path.mkdir(exist_ok=True)
save_path = output_path / 'vader.ckpt'
# w_train, x_train, names = read_premade(DAYS_ORDERED)
w_train, x_train, names = read_data()
x_train = (x_train - np.mean(x_train)) / np.std(x_train)
vader = VADER(x_train=x_train,
w_train=w_train,
save_path=save_path,
n_hidden=[128, 32],
k=5,
learning_rate=1e-3,
output_activation=None,
recurrent=True,
batch_size=8,
alpha=0.1)
# pre-train without latent loss
vader.pre_fit(n_epoch=20, verbose=True)
# train with latent loss
vader.fit(n_epoch=100, verbose=True)
# get the clusters
c = vader.cluster(x_train, w_train)
# get the re-constructions
p = vader.predict(x_train)
print(vader.get_clusters_on_x())
def test_vader_save_load(self):
save_path = "test_vader_save_load"
if os.path.exists(save_path):
shutil.rmtree(save_path)
X_train, W_train, y_train = generate_x_w_y(7, 400)
# noinspection PyTypeChecker
vader = VADER(X_train=X_train,
W_train=W_train,
y_train=y_train,
save_path=save_path,
n_hidden=[12, 2],
k=4,
learning_rate=1e-3,
output_activation=None,
recurrent=True,
batch_size=16)
vader.pre_fit(n_epoch=10, verbose=True)
vader.fit(n_epoch=10, verbose=True)
clustering_before_loading = vader.cluster(X_train)
loaded_vader = VADER.load_model(save_path, X_train, W_train, y_train)
clustering_after_loading = loaded_vader.cluster(X_train)
if os.path.exists(save_path):
shutil.rmtree(save_path)
assert list(clustering_before_loading) == list(
clustering_after_loading)
def test_vader_recur(self):
X_train, W_train, y_train = generate_x_w_y(7, 400)
# Note: y_train is used purely for monitoring performance when a ground truth clustering is available.
# It can be omitted if no ground truth is available.
# noinspection PyTypeChecker
vader = VADER(X_train=X_train,
W_train=W_train,
y_train=y_train,
save_path=None,
n_hidden=[12, 2],
k=4,
learning_rate=1e-3,
output_activation=None,
recurrent=True,
batch_size=16)
# pre-train without latent loss
vader.pre_fit(n_epoch=10, verbose=True)
# train with latent loss
vader.fit(n_epoch=10, verbose=True)
# get the clusters
clustering = vader.cluster(X_train)
assert any(clustering)
assert len(clustering) == len(X_train)
# get the re-constructions
prediction = vader.predict(X_train)
assert prediction.shape == X_train.shape
# compute the loss given the network
loss = vader.get_loss(X_train)
assert loss
assert "reconstruction_loss" in loss
assert "latent_loss" in loss
assert loss["reconstruction_loss"] >= 0
assert loss["latent_loss"] >= 0
def test_vader_nonrecur(self):
NUM_OF_TIME_POINTS = 7
X_train, y_train = generate_x_y_for_nonrecur(NUM_OF_TIME_POINTS, 400)
# Run VaDER non-recurrently (ordinary VAE with GM prior)
# noinspection PyTypeChecker
vader = VADER(X_train=X_train,
y_train=y_train,
n_hidden=[12, 2],
k=2,
learning_rate=1e-3,
output_activation=None,
recurrent=False,
batch_size=16)
# pre-train without latent loss
vader.pre_fit(n_epoch=10, verbose=True)
# train with latent loss
vader.fit(n_epoch=10, verbose=True)
# get the clusters
clustering = vader.cluster(X_train)
assert any(clustering)
assert len(clustering) == len(X_train)
# get the re-constructions
prediction = vader.predict(X_train)
assert prediction.shape == X_train.shape
# compute the loss given the network
loss = vader.get_loss(X_train)
assert loss
assert "reconstruction_loss" in loss
assert "latent_loss" in loss
assert loss["reconstruction_loss"] >= 0
assert loss["latent_loss"] >= 0
# generate some samples
NUM_OF_GENERATED_SAMPLES = 10
generated_samples = vader.generate(NUM_OF_GENERATED_SAMPLES)
assert generated_samples
assert "clusters" in generated_samples
assert "samples" in generated_samples
assert len(generated_samples["clusters"]) == NUM_OF_GENERATED_SAMPLES
assert generated_samples["samples"].shape == (NUM_OF_GENERATED_SAMPLES,
NUM_OF_TIME_POINTS)
def test_vader_transfer_learning(self):
X_train, W_train, y_train = generate_x_w_y(7, 400)
# noinspection PyTypeChecker
vader = VADER(X_train=X_train,
W_train=W_train,
y_train=y_train,
save_path=None,
n_hidden=[12, 2],
k=4,
learning_rate=1e-3,
output_activation=None,
recurrent=True,
batch_size=16)
# pre-train without latent loss
vader.pre_fit(n_epoch=10, verbose=True)
# train with latent loss
vader.fit(n_epoch=10, verbose=True)
X_train_ft, W_train_ft, y_train_ft = generate_x_w_y(7, 400)
vader.set_inputs(X_train_ft, W_train_ft, y_train_ft)
# pre-train without latent loss
vader.pre_fit(n_epoch=10, verbose=True)
# train with latent loss
vader.fit(n_epoch=10, verbose=True)
# get the clusters
clustering = vader.cluster(X_train_ft)
assert any(clustering)
assert len(clustering) == len(X_train_ft)
# get the re-constructions
prediction = vader.predict(X_train_ft)
assert prediction.shape == X_train_ft.shape
# compute the loss given the network
loss = vader.get_loss(X_train_ft)
assert loss
assert "reconstruction_loss" in loss
assert "latent_loss" in loss
assert loss["reconstruction_loss"] >= 0
assert loss["latent_loss"] >= 0
def test2():
x_train, y_train = get_dete_for_seconed_test()
vader = VADER(x_train=x_train,
y_train=y_train,
n_hidden=[12, 2],
k=2,
learning_rate=1e-3,
output_activation=None,
recurrent=False,
batch_size=16)
# pre-train without latent loss
vader.pre_fit(n_epoch=50, verbose=True)
# train with latent loss
vader.fit(n_epoch=50, verbose=True)
# get the clusters
c = vader.cluster(x_train)
# get the re-constructions
p = vader.predict(x_train)
# compute the loss given the network
l = vader.get_loss(x_train)
# generate some samples
g = vader.generate(10)
# compute the loss given the network
l = vader.get_loss(x_train)
learning_rate=args.learning_rate,
batch_size=args.batch_size,
alpha=args.alpha,
seed=args.seed,
save_path=args.save_path,
output_activation=None,
recurrent=True)
vader.pre_fit(n_epoch=10, verbose=False)
vader.fit(n_epoch=args.n_epoch,
verbose=False,
early_stopping_ratio=args.early_stopping_ratio,
early_stopping_batch_size=args.early_stopping_batch_size)
fig = plot_loss_history(vader, model_name=f"Model #{j}")
loss_history_pdf.savefig(fig)
# noinspection PyTypeChecker
clustering = vader.cluster(input_data, input_weights)
effective_k = len(Counter(clustering))
y_pred_repeats.append(clustering)
effective_k_repeats.append(effective_k)
train_reconstruction_loss_repeats.append(
vader.reconstruction_loss[-1])
train_latent_loss_repeats.append(vader.latent_loss[-1])
effective_k = np.mean(effective_k_repeats)
num_of_clusters = round(float(effective_k))
clustering = ClusteringUtils.consensus_clustering(
y_pred_repeats, num_of_clusters)
reconstruction_loss = np.mean(train_reconstruction_loss_repeats)
latent_loss = np.mean(train_latent_loss_repeats)
loss_history_pdf.close()
else:
seed = f"{args.seed}{i}" if args.seed else None
W_train=W_train,
y_train=y_train,
save_path=save_path,
n_hidden=[12, 2],
k=4,
learning_rate=1e-3,
output_activation=None,
recurrent=True,
batch_size=16)
# pre-train without latent loss
vader.pre_fit(n_epoch=50, verbose=True)
# train with latent loss
vader.fit(n_epoch=50, verbose=True)
# get the clusters
c = vader.cluster(X_train)
# get the re-constructions
p = vader.predict(X_train)
# compute the loss given the network
l = vader.get_loss(X_train)
# Run VaDER non-recurrently (ordinary VAE with GM prior)
nt = int(8)
ns = int(2e2)
sigma = np.diag(np.repeat(2, nt))
mu1 = np.repeat(-1, nt)
mu2 = np.repeat(1, nt)
a1 = np.random.multivariate_normal(mu1, sigma, ns)
a2 = np.random.multivariate_normal(mu2, sigma, ns)
X_train = np.concatenate((a1, a2), axis=0)
y_train = np.repeat([0, 1], ns)