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main_granI_lsunc.py
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main_granI_lsunc.py
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''' Version 1.000
Code provided by Daniel Jiwoong Im and Chris Dongjoo Kim
Permission is granted for anyone to copy, use, modify, or distribute this
program and accompanying programs and documents for any purpose, provided
this copyright notice is retained and prominently displayed, along with
a note saying that the original programs are available from our
web page.
The programs and documents are distributed without any warranty, express or
implied. As the programs were written for research purposes only, they have
not been tested to the degree that would be advisable in any important
application. All use of these programs is entirely at the user's own risk.'''
'''Demo of Generating images with recurrent adversarial networks.
For more information, see: http://arxiv.org/abs/1602.05110
'''
import time, timeit
import hickle as hkl
import theano
import numpy as np
import scipy as sp
import os, sys, glob
import gzip
import theano.sandbox.rng_mrg as RNG_MRG
rng = np.random.RandomState()
MRG = RNG_MRG.MRG_RandomStreams(rng.randint(2 ** 30))
import matplotlib
matplotlib.use('Agg')
import matplotlib.pyplot as plt
from optimize_gan import *
from recGanI import *
from deconv import *
from utils import *
from util_cifar10 import *
debug = sys.gettrace() is not None
if debug:
theano.config.optimizer='fast_compile'
theano.config.exception_verbosity='high'
theano.config.compute_test_value = 'warn'
#datapath='/export/mlrg/imj/machine_learning/data/lsun/cifar-10-batches-py/'
#datapath='/u/imdaniel/Documents/machine_learning/collaborate/gan/data/lsun/preprocessed_toy/0000.hkl'
datapath='/eecs/research/asr/chris/DG_project/dataset/lsun/preprocessed_toy_100/'
# datapath='../data/lsun/'
if not os.path.exists(os.path.dirname(os.path.realpath(__file__)) + "/figs/"):
os.makedirs(os.path.dirname(os.path.realpath(__file__)) + "/figs/")
if not os.path.exists(os.path.dirname(os.path.realpath(__file__)) + "/figs/lsun"):
os.makedirs(os.path.dirname(os.path.realpath(__file__)) + "/figs/lsun")
if not os.path.exists(os.path.dirname(os.path.realpath(__file__)) + "/params/"):
os.makedirs(os.path.dirname(os.path.realpath(__file__)) + "/params/")
def lets_train(model, train_params, num_batchs, theano_fns, opt_params, model_params):
ganI_params, conv_params = model_params
batch_sz, epsilon_gen, epsilon_dis, momentum, num_epoch, N, Nv, Nt, lam = opt_params
batch_sz, D, num_hids, rng, num_z, nkerns, ckern, num_channel, num_steps= ganI_params
num_epoch, epoch_start, contF, train_filenames, valid_filenames, test_filenames = train_params
num_batch_train, num_batch_valid, num_batch_test = num_batchs
get_samples, discriminator_update, generator_update, get_valid_cost, get_test_cost = theano_fns
print '...Start Training'
findex= str(num_hids[0])+'_'
best_vl = np.infty
K=1 #FIXED
num_samples =100;
for epoch in xrange(num_epoch+1):
costs=[[],[], []]
exec_start = timeit.default_timer()
eps_gen = get_epsilon(epsilon_gen, 25, epoch)
eps_dis = get_epsilon(epsilon_dis, 25, epoch)
for batch_i in xrange(num_batch_train):
data = hkl.load(train_filenames[batch_i]) / 255.
data = data.astype('float32').transpose([3,0,1,2]);
a,b,c,d = data.shape
data = data.reshape(a,b*c*d)
cost_disc_i = discriminator_update(data, lr=eps_dis)
costs[0].append(cost_disc_i)
if batch_i % K == 0:
cost_gen_i = generator_update(lr=eps_gen)
costs[1].append(cost_gen_i)
exec_finish = timeit.default_timer()
if epoch==0: print 'Exec Time %f ' % ( exec_finish - exec_start)
if epoch < 6 or epoch > 2 or epoch == (num_epoch-1):
costs_vl = [[],[],[]]
for batch_j in xrange(num_batch_valid):
data = hkl.load(valid_filenames[batch_j]) / 255.
data = data.astype('float32').transpose([3,0,1,2]);
a,b,c,d = data.shape
data = data.reshape(a, b*c*d)
cost_dis_vl_j, cost_gan_vl_j = get_valid_cost(data)
costs_vl[0].append(cost_dis_vl_j)
costs_vl[1].append(cost_gan_vl_j)
# print("validation success !");
cost_dis_vl = np.mean(np.asarray(costs_vl[0]))
cost_gan_vl = np.mean(np.asarray(costs_vl[1]))
cost_dis_tr = np.mean(np.asarray(costs[0]))
cost_gan_tr = np.mean(np.asarray(costs[1]))
cost_tr = cost_dis_tr+cost_gan_tr
cost_vl = cost_dis_vl+cost_gan_vl
print 'Epoch %d, epsilon_gen %f5, epsilon_dis %f5, tr disc gen %g, %g | vl disc gen %g, %g '\
% (epoch, eps_gen, eps_dis, cost_dis_tr, cost_gan_tr, cost_dis_vl, cost_gan_vl)
num_samples=100
samples = get_samples(num_samples).reshape((num_samples, 64*64*3))
display_images(np.asarray(samples * 255, dtype='int32'), tile_shape = (10,10), img_shape=(64,64), fname='./figs/lsun/RG2/1_gan_samples500_' + model_param_save + str(epoch));
# change the name to save to when new model is found.
save_the_weight(model, './params/recgan_'+ model_param_save + str(epoch))# + findex+ str(K))
num_samples=100
samples = get_samples(num_samples).reshape((num_samples, 3*64*64))
display_images(np.asarray(samples * 255, dtype='int32'), tile_shape=(10,10), img_shape=(64,64), fname='./figs/lsun/RG1/1_gan_samples500_'+ '_'+ findex + str(K))
return model
def load_model(model_params, contF=True):
if not contF:
print '...Starting from the beginning'''
model = GRAN(model_params)
else:
print '...Continuing from Last time'''
#model = unpickle(os.path.dirname(os.path.realpath(__file__)) + '/params/'+'recgan_param_lsun_ts2.save')
model = unpickle(os.path.dirname(os.path.realpath(__file__)) + '/params/'+'recgan_num_hid100.batch100.eps_dis3e-05.eps_gen0.0001.num_z100.num_epoch150.lam1e-05_lsun.save')
return model
def set_up_train(model, opt_params):
batch_sz, epsilon_gen, epsilon_dis, momentum, num_epoch, N, Nv, Nt, lam = opt_params
opt_params = batch_sz, epsilon_gen, epsilon_dis, momentum, num_epoch, N, Nv, Nt
compile_start = timeit.default_timer()
opt = Optimize(opt_params)
discriminator_update, generator_update, get_valid_cost, get_test_cost\
= opt.optimize_gan_hkl(model)
get_samples = opt.get_samples(model)
compile_finish = timeit.default_timer()
print 'Compile Time %f ' % ( compile_finish - compile_start)
return opt, get_samples, discriminator_update, generator_update, get_valid_cost, get_test_cost
def main(opt_params, ganI_params, train_params, conv_params):
batch_sz, epsilon_gen, epsilon_dis, momentum, num_epoch, N, Nv, Nt, lam = opt_params
batch_sz, D, num_hids, rng, num_z, nkerns, ckern, num_channel, num_steps = ganI_params
conv_num_hid, D, num_class, batch_sz, num_channel = conv_params
num_epoch, epoch_start, contF,train_filenames, valid_filenames, test_filenames = train_params
num_batch_train = len(train_filenames)
num_batch_valid = len(valid_filenames)
num_batch_test = len(test_filenames)
model_params = [ganI_params, conv_params]
ganI = load_model(model_params, contF)
opt, get_samples, discriminator_update, generator_update, get_valid_cost, get_test_cost\
= set_up_train(ganI, opt_params)
theano_fns = [get_samples, discriminator_update, generator_update, get_valid_cost, get_test_cost]
num_batchs = [num_batch_train, num_batch_valid, num_batch_test]
lets_train(ganI, train_params, num_batchs, theano_fns, opt_params, model_params)
### MODEL PARAMS
# CONV (DISC)
conv_num_hid= 100
num_channel = 3 # FIXED
num_class = 1 # FIXED
D = 64*64*3
# ganI (GEN)
filter_sz = 4 #FIXED
nkerns = [1,8,4,2,1]
ckern = 172
num_hid1 = nkerns[0]*ckern*filter_sz*filter_sz # FIXED.
num_steps = 5 # time steps
num_z = 100
### OPT PARAMS
batch_sz = 100
epsilon_dis = 0.0001
epsilon_gen = 0.0002
momentum = 0.0 #Not Used
lam1 = 0.000001
### TRAIN PARAMS
num_epoch = 10
epoch_start = 0
contF = False #continue flag. usually FIXED
N=1000
Nv=N
Nt=N #Dummy variable
D = 12288
### SAVE PARAM
model_param_save = 'num_hid%d.batch%d.eps_dis%g.eps_gen%g.num_z%d.num_epoch%g.lam%g.ts%d.data.100_CONV_lsun'%(conv_num_hid,batch_sz, epsilon_dis, epsilon_gen, num_z, num_epoch, lam1, num_steps)
#model_param_save = 'gran_param_lsun_ts%d.save' % num_steps
if __name__ == '__main__':
# store the filenames into a list.
train_filenames = sorted(glob.glob(datapath + 'train_hkl_b100_b_100/*' + '.hkl'))
valid_filenames = sorted(glob.glob(datapath + 'val_hkl_b100_b_100/*' + '.hkl'))
test_filenames = sorted(glob.glob(datapath + 'test_hkl_b100_b_100/*' + '.hkl'))
print 'num_hid%d.batch sz %d, epsilon_gen %g, epsilon_disc %g, num_z %d, num_epoch %d, lambda %g, ckern %d' % \
(conv_num_hid, batch_sz, epsilon_gen, epsilon_dis, num_z, num_epoch, lam1, ckern)
num_hids = [num_hid1]
train_params = [num_epoch, epoch_start, contF, train_filenames, valid_filenames, test_filenames]
opt_params = [batch_sz, epsilon_gen, epsilon_dis, momentum, num_epoch, N, Nv, Nt, lam1]
ganI_params = [batch_sz, D, num_hids, rng, num_z, nkerns, ckern, num_channel, num_steps]
conv_params = [conv_num_hid, D, num_class, batch_sz, num_channel]
book_keeping = main(opt_params, ganI_params, train_params, conv_params)