def test(self, args):
self.preTest()
size, pad = 256, 32
model_name = kld.basename(args.model_dir)
suffix = '%s_%d.jpg' % (model_name, args.image_test['size'])
self.load_model()
files = kld.get_dir_files(args.input_dir)
for file in files:
print('%d - %s' % (args.image_test['size'], file))
file_name = kld.basename(file)[:-4]
file_dir = '%s/%s' % (args.input_dir, file_name)
kld.make_dir(file_dir)
input = self.load_image(file, args.image_test)
h, w, c = input.shape
n = int(np.ceil(max(h, w) / size))
# small = scipy.misc.imresize( input , 1.0 / n , interp = 'nearest' )
small = input
output = self.sess.run(self.yh,
feed_dict={
self.x: input,
self.xs: small
})
path = '%s/full_%s_%s' % (file_dir, file_name, suffix)
kld.save_image(output, path)
def test(self, args):
self.preTest()
model_name = kld.basename(args.model_dir)
suffix = '%s_%d.jpg' % (model_name, args.image_test['size'])
self.load_model()
files = kld.get_dir_files(args.input_dir)
for file in files:
print('%d - %s' % (args.image_test['size'], file))
file_name = kld.basename(file)[:-4]
file_dir = '%s/%s' % (args.input_dir, file_name)
kld.make_dir(file_dir)
input = self.load_image(file, args.image_test)
size, pad = 256, 128
h, w, c = input.shape
n = int(np.ceil(max(h, w) / size))
hs, ws = int(h / n), int(w / n)
canvas = np.zeros(input.shape)
for i in range(0, h, hs):
for j in range(0, w, ws):
hst, hfn = i, i + hs
wst, wfn = j, j + ws
hstp, hfnp, wstp, wfnp = 0, 0, 0, 0
if i > 0: hstp -= pad
if j > 0: wstp -= pad
if i < n - 1: hfnp += pad
if j < n - 1: wfnp += pad
input_ij = input[hst + hstp:hfn + hfnp,
wst + wstp:wfn + wfnp, :]
output_ij = self.sess.run(self.yh,
feed_dict={self.x: input_ij})
canvas[hst:hfn, wst:wfn, :] = output_ij[-hstp:hs - hstp,
-wstp:ws - wstp, :]
path = '%s/split_%s_%s' % (file_dir, file_name, suffix)
kld.save_image(canvas, path)
output = self.sess.run(self.yh, feed_dict={self.x: input})
path = '%s/%s_%s' % (file_dir, file_name, suffix)
kld.save_image(output, path)
self.store_model('fast_style_transfer')
def test( self , args ):
self.preTest()
model_name = kld.basename( args.model_dir )
suffix = '%s_%d.jpg' % ( model_name , args.image_test['size'] )
self.load_model()
files = kld.get_dir_files( args.input_dir )
for file in files:
print( '%d - %s' % ( args.image_test['size'] , file ) )
file_name = kld.basename( file )[:-4]
file_dir = '%s/%s' % ( args.input_dir , file_name )
kld.make_dir( file_dir )
input = self.load_image( file , args.image_test )
size , pad = 256 , 32
h , w , c = input.shape
n = int( np.ceil( max( h , w ) / size ) )
hs , ws = int( h / n ) , int( w / n )
import scipy
small = scipy.misc.imresize( input , 1.0 / n , interp = 'nearest' )
pars = self.sess.run( args.net.pars_calc , feed_dict = { self.x : small } )
for p in pars:
print( p.shape )
print( p )
pars_dict = {}
for i in range( len( pars ) ):
pars_dict[args.net.pars_eval[i]] = pars[i]
output = self.sess.run( self.yh , feed_dict = { **{ self.x : input } , **pars_dict } )
path = '%s/full_%s_%s' % ( file_dir , file_name , suffix )
kld.save_image( output , path )
def test(self, args):
self.preTest()
model_name = kld.basename(args.model_dir)
suffix = '%s_%d.jpg' % (model_name, args.image_test['size'])
self.load_model()
files = kld.get_dir_files(args.input_dir)
for file in files:
print('%d - %s' % (args.image_test['size'], file))
file_name = kld.basename(file)[:-4]
file_dir = '%s/%s' % (args.input_dir, file_name)
kld.make_dir(file_dir)
input = self.load_image(file, args.image_test)
output = self.sess.run(self.yh, feed_dict={self.x: input})
path = '%s/%s_%s' % (file_dir, file_name, suffix)
kld.save_image(output, path)
self.store_model('fast_style_transfer')
def test(self, args):
self.preTest()
size1, size2, pad = 1024, 256, 32
model_name = kld.basename(args.model_dir)
suffix = '%s_%d.jpg' % (model_name, args.image_test['size'])
yc = np.zeros([args.batch_size] + args.image_content['shape'],
dtype=np.float32)
yc0 = self.load_image(self.ycL[0], args.image_content)
hc, wc, cc = yc0.shape
n1c = int(np.ceil(max(hc, wc) / size1))
n2c = int(np.ceil(max(hc, wc) / size2))
yc0 = self.load_image(self.ycL[0], args.image_test)
ht, wt, ct = yc0.shape
n1t = int(np.ceil(max(ht, wt) / size1))
n2t = int(np.ceil(max(ht, wt) / size2))
self.load_model()
self.sess.run(self.op_updt)
for epoch in range(0, args.num_epochs):
kld.shuffle_list(self.ycL)
lr = self.calc_learn_rate(epoch)
files = kld.get_dir_files(args.input_dir)
for file in files:
print('%d - %s' % (args.image_test['size'], file))
file_name = kld.basename(file)[:-4]
file_dir = '%s/%s' % (args.input_dir, file_name)
kld.make_dir(file_dir)
input = self.load_image(file, args.image_test)
small1 = scipy.misc.imresize(input,
1.0 / n1t,
interp='nearest')
output1 = self.sess.run(self.yh1,
feed_dict={
self.x: [input],
self.xs1: [small1]
})
path = '%s/full4A_%02d_%s_%s' % (file_dir, epoch, file_name,
suffix)
kld.save_image(output1, path)
small2 = scipy.misc.imresize(input,
1.0 / n2t,
interp='nearest')
output2 = self.sess.run(self.yh2,
feed_dict={
self.x: [input],
self.xs2: [small2]
})
path = '%s/full4B_%02d_%s_%s' % (file_dir, epoch, file_name,
suffix)
kld.save_image(output2, path)
print(input.shape)
print(small1.shape)
print(small2.shape)
print(n1c, n2c, n1t, n2t)
for iter in range(args.num_iters):
print(epoch, args.num_epochs, iter, args.num_iters)
yc_small1, yc_small2 = [], []
curr, last = self.next_idxs(iter)
for j, path in enumerate(self.ycL[curr:last]):
yc[j] = self.load_image(path, args.image_content)
yc_small1.append(
scipy.misc.imresize(yc[j], 1.0 / n1c,
interp='nearest'))
yc_small2.append(
scipy.misc.imresize(yc[j], 1.0 / n2c,
interp='nearest'))
self.sess.run(
[self.optim],
feed_dict={
self.x: yc,
self.xs1: yc_small1,
self.xs2: yc_small2,
self.lr: lr
})
def test(self, args):
self.preTest()
model_name = kld.basename(args.model_dir)
suffix = '%s_%d.jpg' % (model_name, args.image_test['size'])
self.load_model()
files = kld.get_dir_files(args.input_dir)
for file in files:
print('%d - %s' % (args.image_test['size'], file))
file_name = kld.basename(file)[:-4]
file_dir = '%s/%s' % (args.input_dir, file_name)
kld.make_dir(file_dir)
input = self.load_image(file, args.image_test)
size, pad = 256, 32
h, w, c = input.shape
n = int(np.ceil(max(h, w) / size))
hs, ws = int(h / n), int(w / n)
print('AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA')
# print( input.shape )
# arr = []
# i = 0
# while i < input.shape[0]:
# arr.append( i )
# if ( i + 1 ) % 4 == 0 : i += 13
# else: i += 1
# arr = np.asarray( arr )
# small = input[ arr , : , : ]
# print( small.shape )
# arr = []
# i = 0
# while i < input.shape[1]:
# arr.append( i )
# if ( i + 1 ) % 4 == 0 : i += 13
# else: i += 1
# arr = np.asarray( arr )
# small = small[ : , arr , : ]
# print( small.shape )
# pars = self.sess.run( args.net.pars , feed_dict = { self.x : small } )
import scipy
small = scipy.misc.imresize(input, 1.0 / n, interp='nearest')
# arr = np.arange( 2 , input.shape[0] , 4 )
# small = input[ arr , : , : ]
# arr = np.arange( 2 , input.shape[1] , 4 )
# small = small[ : , arr , : ]
pars = self.sess.run(args.net.pars_calc, feed_dict={self.x: small})
# for i in range( len( pars ) ):
# if i % 2 == 1: pars[i] = np.sqrt( pars[i] * n * n )
# h2 , w2 = int( h / 2 ) , int( w / 2 )
# hs2 , ws2 = int( hs / 2 ) , int( ws / 2 )
# pars = self.sess.run( args.net.pars , feed_dict = { self.x : input[ h2 - hs2 : h2 + hs2 ,
# w2 - ws2 : w2 + ws2 , : ] } )
# small = input[ hs:2*hs , ws:2*ws , : ]
# pars = self.sess.run( args.net.pars , feed_dict = { self.x : small } )
print('BBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBB')
# pars2 = self.sess.run( args.net.pars , feed_dict = { self.x : input } )
print('CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC')
# pars3 = []
# for i in range( n ):
# for j in range( n ):
# input_ij = input[ i * hs : ( i + 1 ) * hs ,
# j * ws : ( j + 1 ) * ws , : ]
# tmp = self.sess.run( args.net.pars , feed_dict = { self.x : input_ij } )
# if len( pars3 ) == 0:
# pars3 = tmp
## for k in range( len( pars3 ) ):
## if k % 2 == 1: pars3[k] = np.sqrt( pars3[k] )
# else:
# for k in range( len( pars3 ) ):
# if k % 2 == 0: pars3[k] += tmp[k]
# if k % 2 == 1: pars3[k] += tmp[k]
# for k in range( len( pars3 ) ):
# if k % 2 == 0: pars3[k] /= n ** 2
# if k % 2 == 1: pars3[k] /= n ** 2
print('DDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDD')
# pars = pars2
# for i in range( len( pars ) ):
# if i % 2 == 0: pars[i] = pars3[i]
# if i % 2 == 1: pars[i] = pars3[i]
# [ print( p.shape ) for p in pars ]
print(len(pars))
print(len(args.net.pars_eval))
pars_dict = {}
for i in range(len(pars)):
pars_dict[args.net.pars_eval[i]] = pars[i]
# for i in range( 1 , len(pars) , 2 ):
# print( '###############################################' , i )
# print( pars[i] / pars2[i] )
print('EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE')
canvasfull = np.zeros(input.shape)
hst, hfn, wst, wfn = 0, 0, 0, 0
# for i in range( n ):
# for j in range( n ):
# hst , hfn = i * hs , ( i + 1 ) * hs
# wst , wfn = j * ws , ( j + 1 ) * ws
# hstp = 0 if i == 0 else - pad
# wstp = 0 if j == 0 else - pad
# hfnp = 0 if i == n - 1 else pad
# wfnp = 0 if j == n - 1 else pad
# input_ij = input[ hst + hstp : hfn + hfnp , wst + wstp : wfn + wfnp , : ]
# output_ij = self.sess.run( self.yh , feed_dict = { **{ self.x : input_ij } , **pars_dict } )
# canvasfull[ hst : hfn , wst : wfn , : ] = output_ij[ - hstp : hs - hstp , - wstp : ws - wstp , : ]
# canvas = np.zeros( input.shape )
# canvas[ hst + hstp : hfn + hfnp , wst + wstp : wfn + wfnp , : ] = output_ij
# path = '%s/split_%2d-%2d_%s_%s' % ( file_dir , i , j , file_name , suffix )
# kld.save_image( canvas , path )
# path = '%s/fullsplit_%s_%s' % ( file_dir , file_name , suffix )
# kld.save_image( canvasfull , path )
output = self.sess.run(self.yh,
feed_dict={
**{
self.x: input
},
**pars_dict
})
path = '%s/full_%s_%s' % (file_dir, file_name, suffix)
kld.save_image(output, path)