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generate_caps.py
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generate_caps.py
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"""
Sampling script for attention models
Works on CPU with support for multi-process
"""
import argparse
import numpy
import cPickle as pkl
from capgen import build_sampler, gen_sample, \
load_params, \
init_params, \
init_tparams, \
get_dataset \
from multiprocessing import Process, Queue
# single instance of a sampling process
def gen_model(queue, rqueue, pid, model, options, k, normalize, word_idict, sampling):
import theano
from theano import tensor
from theano.sandbox.rng_mrg import MRG_RandomStreams as RandomStreams
trng = RandomStreams(1234)
# this is zero indicate we are not using dropout in the graph
use_noise = theano.shared(numpy.float32(0.), name='use_noise')
# get the parameters
params = init_params(options)
params = load_params(model, params)
tparams = init_tparams(params)
# build the sampling computational graph
# see capgen.py for more detailed explanations
f_init, f_next = build_sampler(tparams, options, use_noise, trng, sampling=sampling)
def _gencap(cc0):
sample, score = gen_sample(tparams, f_init, f_next, cc0, options,
trng=trng, k=k, maxlen=200, stochastic=False)
# adjust for length bias
if normalize:
lengths = numpy.array([len(s) for s in sample])
score = score / lengths
sidx = numpy.argmin(score)
return sample[sidx]
while True:
req = queue.get()
# exit signal
if req is None:
break
idx, context = req[0], req[1]
print pid, '-', idx
seq = _gencap(context)
rqueue.put((idx, seq))
return
def main(model, saveto, k=5, normalize=False, zero_pad=False, n_process=5, datasets='dev,test', sampling=False, pkl_name=None):
# load model model_options
if pkl_name is None:
pkl_name = model
with open('%s.pkl'% pkl_name, 'rb') as f:
options = pkl.load(f)
# fetch data, skip ones we aren't using to save time
load_data, prepare_data = get_dataset(options['dataset'])
_, valid, test, worddict = load_data(load_train=False, load_dev=True if 'dev' in datasets else False,
load_test=True if 'test' in datasets else False)
# <eos> means end of sequence (aka periods), UNK means unknown
word_idict = dict()
for kk, vv in worddict.iteritems():
word_idict[vv] = kk
word_idict[0] = '<eos>'
word_idict[1] = 'UNK'
# create processes
queue = Queue()
rqueue = Queue()
processes = [None] * n_process
for midx in xrange(n_process):
processes[midx] = Process(target=gen_model,
args=(queue,rqueue,midx,model,options,k,normalize,word_idict, sampling))
processes[midx].start()
# index -> words
def _seqs2words(caps):
capsw = []
for cc in caps:
ww = []
for w in cc:
if w == 0:
break
ww.append(word_idict[w])
capsw.append(' '.join(ww))
return capsw
# unsparsify, reshape, and queue
def _send_jobs(contexts):
for idx, ctx in enumerate(contexts):
cc = ctx.todense().reshape([14*14,512])
if zero_pad:
cc0 = numpy.zeros((cc.shape[0]+1, cc.shape[1])).astype('float32')
cc0[:-1,:] = cc
else:
cc0 = cc
queue.put((idx, cc0))
# retrieve caption from process
def _retrieve_jobs(n_samples):
caps = [None] * n_samples
for idx in xrange(n_samples):
resp = rqueue.get()
caps[resp[0]] = resp[1]
if numpy.mod(idx, 10) == 0:
print 'Sample ', (idx+1), '/', n_samples, ' Done'
return caps
ds = datasets.strip().split(',')
# send all the features for the various datasets
for dd in ds:
if dd == 'dev':
print 'Development Set...',
_send_jobs(valid[1])
caps = _seqs2words(_retrieve_jobs(len(valid[1])))
with open(saveto+'.dev.txt', 'w') as f:
print >>f, '\n'.join(caps)
print 'Done'
if dd == 'test':
print 'Test Set...',
_send_jobs(test[1])
caps = _seqs2words(_retrieve_jobs(len(test[1])))
with open(saveto+'.test.txt', 'w') as f:
print >>f, '\n'.join(caps)
print 'Done'
# end processes
for midx in xrange(n_process):
queue.put(None)
if __name__ == "__main__":
parser = argparse.ArgumentParser()
parser.add_argument('-k', type=int, default=1)
parser.add_argument('-sampling', action="store_true", default=False) # this only matters for hard attention
parser.add_argument('-p', type=int, default=5, help="number of processes to use")
parser.add_argument('-n', action="store_true", default=False)
parser.add_argument('-z', action="store_true", default=False)
parser.add_argument('-d', type=str, default='dev,test')
parser.add_argument('-pkl_name', type=str, default=None, help="name of pickle file (without the .pkl)")
parser.add_argument('model', type=str)
parser.add_argument('saveto', type=str)
args = parser.parse_args()
main(args.model, args.saveto, k=args.k, zero_pad=args.z, pkl_name=args.pkl_name, n_process=args.p, normalize=args.n, datasets=args.d, sampling=args.sampling)