def main(L=2, img_size=64, pxsh=0., z_dim=32, n_hid=1024, num_epochs=12, binary='True',
init_from='', data_file='', batch_size=128, save_to='params', max_per_epoch=-1):
binary = binary.lower()=='true'
# Create VAE model
input_var = T.tensor4('inputs')
print("Building model and compiling functions...")
print("L = {}, z_dim = {}, n_hid = {}, binary={}".format(L, z_dim, n_hid, binary))
l_tup = l_z_mu, l_z_ls, l_x_mu_list, l_x_ls_list, l_x_list, l_x = \
m.build_vcae(input_var, L=L, binary=binary, z_dim=z_dim, n_hid=n_hid)
if len(init_from) > 0:
print('loading from {}'.format(init_from))
load_params(l_x, init_from)
# compile functions
loss, _ = u.build_vae_loss(input_var, *l_tup, deterministic=False, binary=binary, L=L)
test_loss, test_prediction = u.build_vae_loss(input_var, *l_tup, deterministic=True,
binary=binary, L=L)
params = nn.layers.get_all_params(l_x, trainable=True)
updates = nn.updates.adam(loss, params, learning_rate=3e-5)
train_fn = theano.function([input_var], loss, updates=updates)
val_fn = theano.function([input_var], test_loss)
ae_fn = theano.function([input_var], test_prediction)
# run training loop
print('training for {} epochs'.format(num_epochs))
data = u.DataH5PyStreamer(data_file, batch_size=batch_size)
hist = u.train_with_hdf5(data, num_epochs=num_epochs, train_fn=train_fn, test_fn=val_fn,
max_per_epoch=max_per_epoch,
tr_transform=lambda x: u.raw_to_floatX(x[0], pixel_shift=pxsh, center=False),
te_transform=lambda x: u.raw_to_floatX(x[0], pixel_shift=pxsh, center=True))
# generate examples, save training history
te_stream = data.streamer(shuffled=True)
imb, = next(te_stream.get_epoch_iterator())
orig_images = u.raw_to_floatX(imb, pixel_shift=pxsh)
autoencoded_images = ae_fn(orig_images)
for i in range(autoencoded_images.shape[0]):
u.get_image_pair(orig_images, autoencoded_images, index=i, shift=pxsh) \
.save('output_{}.jpg'.format(i))
hist = np.asarray(hist)
np.savetxt('vcae_train_hist.csv', np.asarray(hist), delimiter=',', fmt='%.5f')
u.save_params(l_x, os.path.join(save_to, 'vcae_{}.npz'.format(hist[-1,-1])))
def main(data_file = '', num_epochs=10, batch_size = 128, L=2, z_dim=256,
n_hid=1500, binary='false', img_size = 64, init_from = '', save_to='params',
split_layer='conv7', pxsh = 0.5, specstr = c.pf_cae_specstr,
cae_weights=c.pf_cae_params, deconv_weights = c.pf_deconv_params):
binary = binary.lower() == 'true'
# pre-trained function for extracting convolutional features from images
cae = m.build_cae(input_var=None, specstr=specstr, shape=(img_size,img_size))
laydict = dict((l.name, l) for l in nn.layers.get_all_layers(cae))
convshape = nn.layers.get_output_shape(laydict[split_layer])
convs_from_img, _ = m.encoder_decoder(cae_weights, specstr=specstr, layersplit=split_layer,
shape=(img_size, img_size))
# pre-trained function for returning to images from convolutional features
img_from_convs = m.deconvoluter(deconv_weights, specstr=specstr, shape=convshape)
# Create VAE model
print("Building model and compiling functions...")
print("L = {}, z_dim = {}, n_hid = {}, binary={}".format(L, z_dim, n_hid, binary))
input_var = T.tensor4('inputs')
c,w,h = convshape[1], convshape[2], convshape[3]
l_tup = l_z_mu, l_z_ls, l_x_mu_list, l_x_ls_list, l_x_list, l_x = \
m.build_vae(input_var, L=L, binary=binary, z_dim=z_dim, n_hid=n_hid,
shape=(w,h), channels=c)
if len(init_from) > 0:
print("loading from {}".format(init_from))
u.load_params(l_x, init_from)
# build loss, updates, training, prediction functions
loss,_ = u.build_vae_loss(input_var, *l_tup, deterministic=False, binary=binary, L=L)
test_loss, test_prediction = u.build_vae_loss(input_var, *l_tup, deterministic=True,
binary=binary, L=L)
lr = theano.shared(nn.utils.floatX(1e-5))
params = nn.layers.get_all_params(l_x, trainable=True)
updates = nn.updates.adam(loss, params, learning_rate=lr)
train_fn = theano.function([input_var], loss, updates=updates)
val_fn = theano.function([input_var], test_loss)
ae_fn = theano.function([input_var], test_prediction)
# run training loop
def data_transform(x, do_center):
floatx_ims = u.raw_to_floatX(x, pixel_shift=pxsh, square=True, center=do_center)
return convs_from_img(floatx_ims)
print("training for {} epochs".format(num_epochs))
data = u.DataH5PyStreamer(data_file, batch_size=batch_size)
hist = u.train_with_hdf5(data, num_epochs=num_epochs, train_fn=train_fn, test_fn=val_fn,
tr_transform=lambda x: data_transform(x[0], do_center=False),
te_transform=lambda x: data_transform(x[0], do_center=True))
# generate examples, save training history
te_stream = data.streamer(shuffled=True)
imb, = next(te_stream.get_epoch_iterator())
orig_feats = data_transform(imb, do_center=True)
reconstructed_feats = ae_fn(orig_feats).reshape(orig_feats.shape)
orig_feats_deconv = img_from_convs(orig_feats)
reconstructed_feats_deconv = img_from_convs(reconstructed_feats)
for i in range(reconstructed_feats_deconv.shape[0]):
u.get_image_pair(orig_feats_deconv, reconstructed_feats_deconv, index=i, shift=pxsh)\
.save('output_{}.jpg'.format(i))
hist = np.asarray(hist)
np.savetxt('vae_convs_train_hist.csv', np.asarray(hist), delimiter=',', fmt='%.5f')
u.save_params(l_x, os.path.join(save_to, 'vae_convs_{}.npz'.format(hist[-1,-1])))
def main(L=2,
img_size=64,
pxsh=0.,
z_dim=32,
n_hid=1024,
num_epochs=12,
binary='True',
init_from='',
data_file='',
batch_size=128,
save_to='params',
max_per_epoch=-1):
binary = binary.lower() == 'true'
# Create VAE model
input_var = T.tensor4('inputs')
print("Building model and compiling functions...")
print("L = {}, z_dim = {}, n_hid = {}, binary={}".format(
L, z_dim, n_hid, binary))
l_tup = l_z_mu, l_z_ls, l_x_mu_list, l_x_ls_list, l_x_list, l_x = \
m.build_vcae(input_var, L=L, binary=binary, z_dim=z_dim, n_hid=n_hid)
if len(init_from) > 0:
print('loading from {}'.format(init_from))
load_params(l_x, init_from)
# compile functions
loss, _ = u.build_vae_loss(input_var,
*l_tup,
deterministic=False,
binary=binary,
L=L)
test_loss, test_prediction = u.build_vae_loss(input_var,
*l_tup,
deterministic=True,
binary=binary,
L=L)
params = nn.layers.get_all_params(l_x, trainable=True)
updates = nn.updates.adam(loss, params, learning_rate=3e-5)
train_fn = theano.function([input_var], loss, updates=updates)
val_fn = theano.function([input_var], test_loss)
ae_fn = theano.function([input_var], test_prediction)
# run training loop
print('training for {} epochs'.format(num_epochs))
data = u.DataH5PyStreamer(data_file, batch_size=batch_size)
hist = u.train_with_hdf5(data,
num_epochs=num_epochs,
train_fn=train_fn,
test_fn=val_fn,
max_per_epoch=max_per_epoch,
tr_transform=lambda x: u.raw_to_floatX(
x[0], pixel_shift=pxsh, center=False),
te_transform=lambda x: u.raw_to_floatX(
x[0], pixel_shift=pxsh, center=True))
# generate examples, save training history
te_stream = data.streamer(shuffled=True)
imb, = next(te_stream.get_epoch_iterator())
orig_images = u.raw_to_floatX(imb, pixel_shift=pxsh)
autoencoded_images = ae_fn(orig_images)
for i in range(autoencoded_images.shape[0]):
u.get_image_pair(orig_images, autoencoded_images, index=i, shift=pxsh) \
.save('output_{}.jpg'.format(i))
hist = np.asarray(hist)
np.savetxt('vcae_train_hist.csv',
np.asarray(hist),
delimiter=',',
fmt='%.5f')
u.save_params(l_x, os.path.join(save_to, 'vcae_{}.npz'.format(hist[-1,
-1])))
def main(data_file='',
num_epochs=10,
batch_size=128,
L=2,
z_dim=256,
n_hid=1500,
binary='false',
img_size=64,
init_from='',
save_to='params',
split_layer='conv7',
pxsh=0.5,
specstr=c.pf_cae_specstr,
cae_weights=c.pf_cae_params,
deconv_weights=c.pf_deconv_params):
binary = binary.lower() == 'true'
# pre-trained function for extracting convolutional features from images
cae = m.build_cae(input_var=None,
specstr=specstr,
shape=(img_size, img_size))
laydict = dict((l.name, l) for l in nn.layers.get_all_layers(cae))
convshape = nn.layers.get_output_shape(laydict[split_layer])
convs_from_img, _ = m.encoder_decoder(cae_weights,
specstr=specstr,
layersplit=split_layer,
shape=(img_size, img_size))
# pre-trained function for returning to images from convolutional features
img_from_convs = m.deconvoluter(deconv_weights,
specstr=specstr,
shape=convshape)
# Create VAE model
print("Building model and compiling functions...")
print("L = {}, z_dim = {}, n_hid = {}, binary={}".format(
L, z_dim, n_hid, binary))
input_var = T.tensor4('inputs')
c, w, h = convshape[1], convshape[2], convshape[3]
l_tup = l_z_mu, l_z_ls, l_x_mu_list, l_x_ls_list, l_x_list, l_x = \
m.build_vae(input_var, L=L, binary=binary, z_dim=z_dim, n_hid=n_hid,
shape=(w,h), channels=c)
if len(init_from) > 0:
print("loading from {}".format(init_from))
u.load_params(l_x, init_from)
# build loss, updates, training, prediction functions
loss, _ = u.build_vae_loss(input_var,
*l_tup,
deterministic=False,
binary=binary,
L=L)
test_loss, test_prediction = u.build_vae_loss(input_var,
*l_tup,
deterministic=True,
binary=binary,
L=L)
lr = theano.shared(nn.utils.floatX(1e-5))
params = nn.layers.get_all_params(l_x, trainable=True)
updates = nn.updates.adam(loss, params, learning_rate=lr)
train_fn = theano.function([input_var], loss, updates=updates)
val_fn = theano.function([input_var], test_loss)
ae_fn = theano.function([input_var], test_prediction)
# run training loop
def data_transform(x, do_center):
floatx_ims = u.raw_to_floatX(x,
pixel_shift=pxsh,
square=True,
center=do_center)
return convs_from_img(floatx_ims)
print("training for {} epochs".format(num_epochs))
data = u.DataH5PyStreamer(data_file, batch_size=batch_size)
hist = u.train_with_hdf5(
data,
num_epochs=num_epochs,
train_fn=train_fn,
test_fn=val_fn,
tr_transform=lambda x: data_transform(x[0], do_center=False),
te_transform=lambda x: data_transform(x[0], do_center=True))
# generate examples, save training history
te_stream = data.streamer(shuffled=True)
imb, = next(te_stream.get_epoch_iterator())
orig_feats = data_transform(imb, do_center=True)
reconstructed_feats = ae_fn(orig_feats).reshape(orig_feats.shape)
orig_feats_deconv = img_from_convs(orig_feats)
reconstructed_feats_deconv = img_from_convs(reconstructed_feats)
for i in range(reconstructed_feats_deconv.shape[0]):
u.get_image_pair(orig_feats_deconv, reconstructed_feats_deconv, index=i, shift=pxsh)\
.save('output_{}.jpg'.format(i))
hist = np.asarray(hist)
np.savetxt('vae_convs_train_hist.csv',
np.asarray(hist),
delimiter=',',
fmt='%.5f')
u.save_params(
l_x, os.path.join(save_to, 'vae_convs_{}.npz'.format(hist[-1, -1])))
