def sample_fn(x):
return sampler_py.bernoulli_sample(logits=x, dtype=tf.bool)
def testStepWithInferenceHelperMultilabel(self):
batch_size = 5
vocabulary_size = 7
cell_depth = vocabulary_size
start_token = 0
end_token = 6
start_inputs = tf.one_hot(
np.ones(batch_size, dtype=np.int32) * start_token, vocabulary_size)
# The sample function samples independent bernoullis from the logits.
sample_fn = (
lambda x: sampler_py.bernoulli_sample(logits=x, dtype=tf.bool))
# The next inputs are a one-hot encoding of the sampled labels.
next_inputs_fn = lambda x: tf.cast(x, tf.float32)
end_fn = lambda sample_ids: sample_ids[:, end_token]
with self.cached_session(use_gpu=True):
cell = tf.keras.layers.LSTMCell(vocabulary_size)
sampler = sampler_py.InferenceSampler(
sample_fn,
sample_shape=[cell_depth],
sample_dtype=tf.bool,
end_fn=end_fn,
next_inputs_fn=next_inputs_fn)
initial_state = cell.get_initial_state(batch_size=batch_size,
dtype=tf.float32)
my_decoder = basic_decoder.BasicDecoder(cell=cell, sampler=sampler)
(first_finished, first_inputs,
first_state) = my_decoder.initialize(start_inputs,
initial_state=initial_state)
output_size = my_decoder.output_size
output_dtype = my_decoder.output_dtype
self.assertEqual(
basic_decoder.BasicDecoderOutput(cell_depth, cell_depth),
output_size)
self.assertEqual(
basic_decoder.BasicDecoderOutput(tf.float32, tf.bool),
output_dtype)
(step_outputs, step_state, step_next_inputs,
step_finished) = my_decoder.step(tf.constant(0), first_inputs,
first_state)
batch_size_t = my_decoder.batch_size
self.assertLen(first_state, 2)
self.assertLen(step_state, 2)
self.assertTrue(
isinstance(step_outputs, basic_decoder.BasicDecoderOutput))
self.assertEqual((batch_size, cell_depth),
step_outputs[0].get_shape())
self.assertEqual((batch_size, cell_depth),
step_outputs[1].get_shape())
self.assertEqual((batch_size, cell_depth),
first_state[0].get_shape())
self.assertEqual((batch_size, cell_depth),
first_state[1].get_shape())
self.assertEqual((batch_size, cell_depth),
step_state[0].get_shape())
self.assertEqual((batch_size, cell_depth),
step_state[1].get_shape())
self.evaluate(tf.compat.v1.global_variables_initializer())
eval_result = self.evaluate({
"batch_size": batch_size_t,
"first_finished": first_finished,
"first_inputs": first_inputs,
"first_state": first_state,
"step_outputs": step_outputs,
"step_state": step_state,
"step_next_inputs": step_next_inputs,
"step_finished": step_finished
})
sample_ids = eval_result["step_outputs"].sample_id
self.assertEqual(output_dtype.sample_id, sample_ids.dtype)
expected_step_finished = sample_ids[:, end_token]
expected_step_next_inputs = sample_ids.astype(np.float32)
self.assertAllEqual(expected_step_finished,
eval_result["step_finished"])
self.assertAllEqual(expected_step_next_inputs,
eval_result["step_next_inputs"])