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# coding=utf-8 | |
# Copyright 2020 The HuggingFace Team Inc. | |
# | |
# Licensed under the Apache License, Version 2.0 (the "License"); | |
# you may not use this file except in compliance with the License. | |
# You may obtain a clone of the License at | |
# | |
# http://www.apache.org/licenses/LICENSE-2.0 | |
# | |
# Unless required by applicable law or agreed to in writing, software | |
# distributed under the License is distributed on an "AS IS" BASIS, | |
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. | |
# See the License for the specific language governing permissions and | |
# limitations under the License. | |
import unittest | |
from transformers import is_torch_available | |
from transformers.testing_utils import require_torch, torch_device | |
from ..test_modeling_common import floats_tensor, ids_tensor | |
if is_torch_available(): | |
import torch | |
from transformers.generation import ( | |
BeamHypotheses, | |
BeamSearchScorer, | |
ConstrainedBeamSearchScorer, | |
DisjunctiveConstraint, | |
PhrasalConstraint, | |
) | |
class BeamSearchTester: | |
def __init__( | |
self, | |
parent, | |
batch_size=3, | |
sequence_length=10, | |
vocab_size=99, | |
pad_token_id=0, | |
max_length=20, | |
num_beams=4, | |
length_penalty=2.0, | |
do_early_stopping=True, | |
num_beam_hyps_to_keep=2, | |
): | |
self.parent = parent | |
self.batch_size = batch_size | |
self.sequence_length = sequence_length | |
self.vocab_size = vocab_size | |
self.pad_token_id = pad_token_id | |
self.max_length = max_length | |
self.num_beams = num_beams | |
self.length_penalty = length_penalty | |
self.do_early_stopping = do_early_stopping | |
self.num_beam_hyps_to_keep = num_beam_hyps_to_keep | |
# cannot be randomly generated | |
self.eos_token_id = vocab_size + 1 | |
def prepare_beam_scorer(self, **kwargs): | |
return BeamSearchScorer( | |
batch_size=kwargs.get("batch_size", self.batch_size), | |
num_beams=kwargs.get("num_beams", self.num_beams), | |
device=torch_device, | |
length_penalty=kwargs.get("length_penalty", self.length_penalty), | |
do_early_stopping=kwargs.get("do_early_stopping", self.do_early_stopping), | |
num_beam_hyps_to_keep=kwargs.get("num_beam_hyps_to_keep", self.num_beam_hyps_to_keep), | |
) | |
def prepare_inputs(self): | |
input_ids = ids_tensor((self.batch_size * self.num_beams, self.sequence_length), self.vocab_size) | |
next_tokens = ids_tensor((self.batch_size, 2 * self.num_beams), self.vocab_size).to(torch_device) | |
next_indices = ids_tensor((self.batch_size, 2 * self.num_beams), self.num_beams).to(torch_device) | |
next_scores, _ = (-floats_tensor((self.batch_size, 2 * self.num_beams)).to(torch_device)).sort(descending=True) | |
return (input_ids, next_tokens, next_indices, next_scores) | |
def check_beam_hypotheses(self, input_ids, *args): | |
# check that correct number of beam hypotheses is set in beam scorer | |
beam_scorer = self.prepare_beam_scorer(do_early_stopping=True) | |
beam_hyp = beam_scorer._beam_hyps[0] | |
self.parent.assertEqual(len(beam_scorer._beam_hyps), self.batch_size) | |
# check correct type | |
self.parent.assertTrue(isinstance(beam_hyp, BeamHypotheses)) | |
# check that num_beams is correctly set | |
self.parent.assertEqual(beam_hyp.num_beams, self.num_beams) | |
# check for early stopping deactivated | |
for beam_idx in range(self.num_beams): | |
beam_hyp.add(input_ids[beam_idx], -10.0) | |
# if early stopping True -> score does not matter | |
self.parent.assertTrue(beam_hyp.is_done(-10.0, 5)) | |
# re-init | |
beam_scorer = self.prepare_beam_scorer(do_early_stopping=False) | |
beam_hyp = beam_scorer._beam_hyps[0] | |
# add `num_beams + 1` beams to change `worst_score` | |
for beam_idx in range(self.num_beams + 1): | |
beam_hyp.add(input_ids[beam_idx], -10.0 + float(beam_idx)) | |
# -10.0 is removed => -9.0 is worst score | |
self.parent.assertAlmostEqual(beam_hyp.worst_score, -9.0 / (self.sequence_length**beam_hyp.length_penalty)) | |
# -5.0 is better than worst score => should not be finished | |
self.parent.assertFalse(beam_hyp.is_done(-5.0, self.sequence_length)) | |
# -20.0 is worse than worst score => should be finished | |
self.parent.assertTrue(beam_hyp.is_done(-20.0, self.sequence_length)) | |
def check_beam_scorer_update(self, input_ids, next_tokens, next_indices, next_scores): | |
# check too many eos tokens | |
beam_scorer = self.prepare_beam_scorer() | |
tokens = next_tokens.clone() | |
tokens[0, :] = self.eos_token_id | |
with self.parent.assertRaises(ValueError): | |
beam_scorer.process(input_ids, next_scores, tokens, next_indices, eos_token_id=self.eos_token_id) | |
# check all batches are done | |
beam_scorer = self.prepare_beam_scorer() | |
tokens = next_tokens.clone() | |
tokens[:, : self.num_beams] = self.eos_token_id | |
beam_indices = torch.zeros_like(input_ids) + torch.arange(input_ids.shape[-1], device=input_ids.device) | |
beam_indices = tuple(tuple(b) for b in beam_indices) | |
beam_scorer.process( | |
input_ids, next_scores, tokens, next_indices, eos_token_id=self.eos_token_id, beam_indices=beam_indices | |
) | |
# beam scorer should be done | |
self.parent.assertTrue(beam_scorer.is_done) | |
# check | |
beam_scorer = self.prepare_beam_scorer() | |
tokens = next_tokens.clone() | |
tokens[:, 1] = self.eos_token_id | |
beam_outputs = beam_scorer.process( | |
input_ids, next_scores, tokens, next_indices, eos_token_id=self.eos_token_id, beam_indices=beam_indices | |
) | |
output_scores = beam_outputs["next_beam_scores"] | |
output_tokens = beam_outputs["next_beam_tokens"] | |
output_indices = beam_outputs["next_beam_indices"] | |
def cut_expected_tensor(tensor): | |
return torch.cat([tensor[:, :1], tensor[:, 2 : self.num_beams + 1]], dim=1).flatten() | |
# check all outptus | |
# cut out id of eos token and take best `num_beams` outputs | |
expected_output_tokens = cut_expected_tensor(tokens) | |
expected_output_scores = cut_expected_tensor(next_scores) | |
# add num_beams * batch_idx | |
offset = torch.div( | |
torch.arange(self.num_beams * self.batch_size, device=torch_device), self.num_beams, rounding_mode="floor" | |
) | |
expected_output_indices = cut_expected_tensor(next_indices) + offset * self.num_beams | |
self.parent.assertListEqual(expected_output_tokens.tolist(), output_tokens.tolist()) | |
self.parent.assertListEqual(expected_output_indices.tolist(), output_indices.tolist()) | |
self.parent.assertTrue(torch.allclose(expected_output_scores, output_scores, atol=1e-3)) | |
# make sure ids of eos token are correctly saved in beam_hyps of beam scorer | |
expected_beam_indices = list(range(10)) | |
for batch_idx in range(self.batch_size): | |
correct_idx = batch_idx * self.num_beams + next_indices[batch_idx, 1] | |
self.parent.assertListEqual( | |
input_ids[correct_idx].tolist(), beam_scorer._beam_hyps[batch_idx].beams[0][1].tolist() | |
) | |
self.parent.assertListEqual( | |
expected_beam_indices + [correct_idx], | |
torch.tensor(beam_scorer._beam_hyps[batch_idx].beams[0][2]).tolist(), | |
) | |
def check_beam_scores_finalize(self, input_ids, next_tokens, next_indices, next_scores): | |
# max_length should be only one more than current input_ids to check that eos is correctly appended | |
max_length = self.sequence_length + 1 | |
beam_scorer = self.prepare_beam_scorer(num_beam_hyps_to_keep=1, length_penalty=1.0, do_early_stopping=False) | |
# update beams and append to input_ids | |
tokens = next_tokens.clone() | |
# first batch, first output has to finish with eos token id since scores are correctly sorted | |
tokens[0, 0] = self.eos_token_id | |
# make sure corresponding score is as good as possible to surely be picked first | |
next_scores[0, 0] = 0.0 | |
beam_outputs = beam_scorer.process( | |
input_ids, next_scores, tokens, next_indices, eos_token_id=self.eos_token_id | |
) | |
output_scores = beam_outputs["next_beam_scores"] | |
output_tokens = beam_outputs["next_beam_tokens"] | |
output_indices = beam_outputs["next_beam_indices"] | |
input_ids = torch.cat([input_ids[output_indices, :], output_tokens.unsqueeze(-1)], dim=-1) | |
# finalize | |
beam_indices = torch.zeros_like(input_ids) + torch.arange(input_ids.shape[-1], device=input_ids.device) | |
beam_indices = tuple(tuple(b) for b in beam_indices) | |
sequence_output = beam_scorer.finalize( | |
input_ids, | |
output_scores, | |
output_tokens, | |
output_indices, | |
pad_token_id=self.pad_token_id, | |
eos_token_id=self.eos_token_id, | |
max_length=max_length, | |
beam_indices=beam_indices, | |
) | |
sequences = sequence_output["sequences"] | |
sequence_scores = sequence_output["sequence_scores"] | |
# since `num_beam_hyps_to_keep` = 1 => only return `batch_size` x `max_length` | |
self.parent.assertListEqual(list(sequences.shape), [self.batch_size, max_length]) | |
self.parent.assertListEqual(list(sequence_scores.shape), [self.batch_size]) | |
# check sequence_scores | |
self.parent.assertFalse((sequence_scores > 0).any().item()) | |
# first batch has to finish with eos_token | |
self.parent.assertEqual(sequences[0, -1].item(), self.eos_token_id) | |
# other batches cannot finish with eos token | |
self.parent.assertNotEqual(sequences[1, -1].item(), self.eos_token_id) | |
self.parent.assertNotEqual(sequences[2, -1].item(), self.eos_token_id) | |
# now test that if `num_beam_hyps_to_keep` is 3 => all beams are returned | |
beam_scorer.num_beam_hyps_to_keep = self.num_beams | |
sequence_output = beam_scorer.finalize( | |
input_ids, | |
output_scores, | |
output_tokens, | |
output_indices, | |
pad_token_id=self.pad_token_id, | |
eos_token_id=self.eos_token_id, | |
max_length=max_length, | |
beam_indices=beam_indices, | |
) | |
sequences = sequence_output["sequences"] | |
sequence_scores = sequence_output["sequence_scores"] | |
self.parent.assertListEqual(list(sequences.shape), [self.num_beams * self.batch_size, max_length]) | |
self.parent.assertListEqual(list(sequence_scores.shape), [self.num_beams * self.batch_size]) | |
class ConstrainedBeamSearchTester: | |
def __init__( | |
self, | |
parent, | |
constraints=None, | |
batch_size=3, | |
sequence_length=10, | |
vocab_size=99, | |
pad_token_id=0, | |
max_length=20, | |
num_beams=4, | |
length_penalty=2.0, | |
do_early_stopping=True, | |
num_beam_hyps_to_keep=2, | |
): | |
self.parent = parent | |
self.batch_size = batch_size | |
self.sequence_length = sequence_length | |
self.vocab_size = vocab_size | |
self.pad_token_id = pad_token_id | |
self.max_length = max_length | |
self.num_beams = num_beams | |
self.length_penalty = length_penalty | |
self.do_early_stopping = do_early_stopping | |
self.num_beam_hyps_to_keep = num_beam_hyps_to_keep | |
if constraints is None: | |
force_tokens = torch.randint(10, 50, (1, 2))[0].tolist() | |
disjunctive_tokens = torch.randint(10, 50, (2, 2)).tolist() | |
constraints = [PhrasalConstraint(force_tokens), DisjunctiveConstraint(disjunctive_tokens)] | |
self.constraints = constraints | |
# cannot be randomly generated | |
self.eos_token_id = vocab_size + 1 | |
def prepare_constrained_beam_scorer(self, **kwargs): | |
return ConstrainedBeamSearchScorer( | |
constraints=kwargs.get("constraints", self.constraints), | |
batch_size=kwargs.get("batch_size", self.batch_size), | |
num_beams=kwargs.get("num_beams", self.num_beams), | |
device=torch_device, | |
length_penalty=kwargs.get("length_penalty", self.length_penalty), | |
do_early_stopping=kwargs.get("do_early_stopping", self.do_early_stopping), | |
num_beam_hyps_to_keep=kwargs.get("num_beam_hyps_to_keep", self.num_beam_hyps_to_keep), | |
) | |
def prepare_inputs(self): | |
input_ids = ids_tensor((self.batch_size * self.num_beams, self.sequence_length), self.vocab_size) | |
next_tokens = ids_tensor((self.batch_size, 2 * self.num_beams), self.vocab_size).to(torch_device) | |
next_indices = ids_tensor((self.batch_size, 2 * self.num_beams), self.num_beams).to(torch_device) | |
next_scores, _ = (-floats_tensor((self.batch_size, 2 * self.num_beams)).to(torch_device)).sort(descending=True) | |
scores_for_all_vocab, _ = ( | |
-floats_tensor((self.batch_size * self.num_beams, self.vocab_size)).to(torch_device) | |
).sort(descending=True) | |
return (input_ids, next_tokens, next_indices, next_scores, scores_for_all_vocab) | |
def check_beam_hypotheses(self, input_ids, *args): | |
# check that correct number of beam hypotheses is set in beam scorer | |
constrained_beam_scorer = self.prepare_constrained_beam_scorer(do_early_stopping=True) | |
beam_hyp = constrained_beam_scorer._beam_hyps[0] | |
self.parent.assertEqual(len(constrained_beam_scorer._beam_hyps), self.batch_size) | |
# check correct type | |
self.parent.assertTrue(isinstance(beam_hyp, BeamHypotheses)) | |
# check that num_beams is correctly set | |
self.parent.assertEqual(beam_hyp.num_beams, self.num_beams) | |
# check for early stopping deactivated | |
for beam_idx in range(self.num_beams): | |
beam_hyp.add(input_ids[beam_idx], -10.0) | |
# if early stopping True -> score does not matter | |
self.parent.assertTrue(beam_hyp.is_done(-10.0, 5)) | |
# re-init | |
constrained_beam_scorer = self.prepare_constrained_beam_scorer(do_early_stopping=False) | |
beam_hyp = constrained_beam_scorer._beam_hyps[0] | |
# add `num_beams + 1` beams to change `worst_score` | |
for beam_idx in range(self.num_beams + 1): | |
beam_hyp.add(input_ids[beam_idx], -10.0 + float(beam_idx)) | |
# -10.0 is removed => -9.0 is worst score | |
self.parent.assertAlmostEqual(beam_hyp.worst_score, -9.0 / (self.sequence_length**beam_hyp.length_penalty)) | |
# -5.0 is better than worst score => should not be finished | |
self.parent.assertFalse(beam_hyp.is_done(-5.0, self.sequence_length)) | |
# -20.0 is worse than worst score => should be finished | |
self.parent.assertTrue(beam_hyp.is_done(-20.0, self.sequence_length)) | |
def check_constrained_beam_scorer_update( | |
self, input_ids, next_tokens, next_indices, next_scores, scores_for_all_vocab | |
): | |
# check too many eos tokens | |
constrained_beam_scorer = self.prepare_constrained_beam_scorer() | |
stacked_token_ids = [] | |
for constraint in self.constraints: | |
token_ids = constraint.token_ids | |
token_ids = token_ids[0] if isinstance(token_ids[0], list) else token_ids | |
stacked_token_ids = stacked_token_ids + token_ids | |
fulfilling_sequence = torch.LongTensor(stacked_token_ids) | |
fulfill_len = fulfilling_sequence.size(0) | |
input_ids[:, :fulfill_len] = fulfilling_sequence | |
tokens = next_tokens.clone() | |
tokens[0, :] = self.eos_token_id | |
with self.parent.assertRaises(ValueError): | |
constrained_beam_scorer.process( | |
input_ids, next_scores, tokens, next_indices, scores_for_all_vocab, eos_token_id=self.eos_token_id | |
) | |
# check all batches are done | |
constrained_beam_scorer = self.prepare_constrained_beam_scorer() | |
tokens = next_tokens.clone() | |
tokens[:, : self.num_beams] = self.eos_token_id | |
constrained_beam_scorer.process( | |
input_ids, next_scores, tokens, next_indices, scores_for_all_vocab, eos_token_id=self.eos_token_id | |
) | |
# beam scorer should be done | |
self.parent.assertTrue(constrained_beam_scorer.is_done) | |
# check | |
constrained_beam_scorer = self.prepare_constrained_beam_scorer() | |
tokens = next_tokens.clone() | |
tokens[:, 1] = self.eos_token_id | |
beam_outputs = constrained_beam_scorer.process( | |
input_ids, next_scores, tokens, next_indices, scores_for_all_vocab, eos_token_id=self.eos_token_id | |
) | |
output_scores = beam_outputs["next_beam_scores"] | |
output_tokens = beam_outputs["next_beam_tokens"] | |
output_indices = beam_outputs["next_beam_indices"] | |
def cut_expected_tensor(tensor): | |
return torch.cat([tensor[:, :1], tensor[:, 2 : self.num_beams + 1]], dim=1).flatten() | |
# check all outptus | |
# cut out id of eos token and take best `num_beams` outputs | |
expected_output_tokens = cut_expected_tensor(tokens) | |
expected_output_scores = cut_expected_tensor(next_scores) | |
# add num_beams * batch_idx | |
offset = torch.div( | |
torch.arange(self.num_beams * self.batch_size, device=torch_device), self.num_beams, rounding_mode="floor" | |
) | |
expected_output_indices = cut_expected_tensor(next_indices) + offset * self.num_beams | |
self.parent.assertListEqual(expected_output_tokens.tolist(), output_tokens.tolist()) | |
self.parent.assertListEqual(expected_output_indices.tolist(), output_indices.tolist()) | |
self.parent.assertTrue(torch.allclose(expected_output_scores, output_scores, atol=1e-3)) | |
# make sure ids of eos token are correctly saved in beam_hyps of beam scorer | |
for batch_idx in range(self.batch_size): | |
correct_idx = batch_idx * self.num_beams + next_indices[batch_idx, 1] | |
self.parent.assertListEqual( | |
input_ids[correct_idx].tolist(), constrained_beam_scorer._beam_hyps[batch_idx].beams[0][1].tolist() | |
) | |
def check_constrained_beam_scorer_finalize( | |
self, input_ids, next_tokens, next_indices, next_scores, scores_for_all_vocab | |
): | |
# max_length should be only one more than current input_ids to check that eos is correctly appended | |
max_length = self.sequence_length + 1 | |
# for testing finalize, we do want to have fulfilled constraints | |
stacked_token_ids = [] | |
for constraint in self.constraints: | |
token_ids = constraint.token_ids | |
token_ids = token_ids[0] if isinstance(token_ids[0], list) else token_ids | |
stacked_token_ids = stacked_token_ids + token_ids | |
fulfilling_sequence = torch.LongTensor(stacked_token_ids) | |
fulfill_len = fulfilling_sequence.size(0) | |
input_ids[:, :fulfill_len] = fulfilling_sequence | |
constrained_beam_scorer = self.prepare_constrained_beam_scorer( | |
num_beam_hyps_to_keep=1, length_penalty=1.0, do_early_stopping=False | |
) | |
constraints = constrained_beam_scorer.constraints | |
# update beams and append to input_ids | |
tokens = next_tokens.clone() | |
# first batch, first output has to finish with eos token id since scores are correctly sorted | |
tokens[0, 0] = self.eos_token_id | |
# make sure corresponding score is as good as possible to surely be picked first | |
next_scores[0, 0] = 0.0 | |
beam_outputs = constrained_beam_scorer.process( | |
input_ids, next_scores, tokens, next_indices, scores_for_all_vocab, eos_token_id=self.eos_token_id | |
) | |
output_scores = beam_outputs["next_beam_scores"] | |
output_tokens = beam_outputs["next_beam_tokens"] | |
output_indices = beam_outputs["next_beam_indices"] | |
input_ids = torch.cat([input_ids[output_indices, :], output_tokens.unsqueeze(-1)], dim=-1) | |
# finalize | |
sequence_output = constrained_beam_scorer.finalize( | |
input_ids, | |
output_scores, | |
output_tokens, | |
output_indices, | |
pad_token_id=self.pad_token_id, | |
eos_token_id=self.eos_token_id, | |
max_length=max_length, | |
) | |
sequences = sequence_output["sequences"] | |
sequence_scores = sequence_output["sequence_scores"] | |
# since `num_beam_hyps_to_keep` = 1 => only return `batch_size` x `max_length` | |
self.parent.assertListEqual(list(sequences.shape), [self.batch_size, max_length]) | |
self.parent.assertListEqual(list(sequence_scores.shape), [self.batch_size]) | |
# check sequence_scores | |
self.parent.assertFalse((sequence_scores > 0).any().item()) | |
# first batch has to finish with eos_token | |
self.parent.assertEqual(sequences[0, -1].item(), self.eos_token_id) | |
# other batches cannot finish with eos token | |
self.parent.assertNotEqual(sequences[1, -1].item(), self.eos_token_id) | |
self.parent.assertNotEqual(sequences[2, -1].item(), self.eos_token_id) | |
# test that the constraint is indeed fulfilled | |
for output, constraint in [(s, c) for s in sequences for c in constraints]: | |
forced_token_ids = constraint.token_ids | |
if isinstance(forced_token_ids[0], list): | |
# disjunctive case | |
flag = False | |
for token_ids in forced_token_ids: | |
if self._check_sequence_inside_sequence(output, token_ids): | |
flag = True | |
break | |
self.parent.assertEqual(flag, True) | |
else: | |
self.parent.assertEqual(self._check_sequence_inside_sequence(output, forced_token_ids), True) | |
# now test that if `num_beam_hyps_to_keep` is 3 => all beams are returned | |
# constrained_beam_scorer.num_beam_hyps_to_keep = self.num_beams | |
constrained_beam_scorer = self.prepare_constrained_beam_scorer( | |
num_beam_hyps_to_keep=self.num_beams, length_penalty=1.0, do_early_stopping=False | |
) | |
sequence_output = constrained_beam_scorer.finalize( | |
input_ids, | |
output_scores, | |
output_tokens, | |
output_indices, | |
pad_token_id=self.pad_token_id, | |
eos_token_id=self.eos_token_id, | |
max_length=max_length, | |
) | |
sequences = sequence_output["sequences"] | |
sequence_scores = sequence_output["sequence_scores"] | |
self.parent.assertListEqual(list(sequences.shape), [self.num_beams * self.batch_size, max_length]) | |
self.parent.assertListEqual(list(sequence_scores.shape), [self.num_beams * self.batch_size]) | |
def _check_sequence_inside_sequence(self, tensor_1, tensor_2): | |
# check if tensor_1 inside tensor_2 or tensor_2 inside tensor_1. | |
# set to same device. we don't care what device. | |
if not isinstance(tensor_1, list): | |
tensor_1 = tensor_1.cpu().tolist() | |
if not isinstance(tensor_2, list): | |
tensor_2 = tensor_2.cpu().tolist() | |
in_order = len(tensor_1) <= len(tensor_2) | |
longer = tensor_2 if in_order else tensor_1 | |
shorter = tensor_1 if in_order else tensor_2 | |
flag = False | |
chunk_size = len(shorter) | |
for chunk_idx in range(len(longer) - chunk_size + 1): | |
subseq = longer[chunk_idx : chunk_idx + chunk_size] | |
if subseq == shorter: | |
flag = True | |
break | |
return flag | |
class BeamSearchTest(unittest.TestCase): | |
def setUp(self): | |
self.beam_search_tester = BeamSearchTester(self) | |
def test_beam_hypotheses(self): | |
inputs = self.beam_search_tester.prepare_inputs() | |
self.beam_search_tester.check_beam_hypotheses(*inputs) | |
def test_beam_scorer_update(self): | |
inputs = self.beam_search_tester.prepare_inputs() | |
self.beam_search_tester.check_beam_scorer_update(*inputs) | |
def test_beam_scorer_finalize(self): | |
inputs = self.beam_search_tester.prepare_inputs() | |
self.beam_search_tester.check_beam_scores_finalize(*inputs) | |
class ConstrainedBeamSearchTest(unittest.TestCase): | |
def setUp(self): | |
self.constrained_beam_search_tester = ConstrainedBeamSearchTester(self) | |
def test_constrained_beam_hypotheses(self): | |
inputs = self.constrained_beam_search_tester.prepare_inputs() | |
self.constrained_beam_search_tester.check_beam_hypotheses(*inputs) | |
def test_constrained_beam_scorer_update(self): | |
inputs = self.constrained_beam_search_tester.prepare_inputs() | |
self.constrained_beam_search_tester.check_constrained_beam_scorer_update(*inputs) | |
def test_constrained_beam_scorer_finalize(self): | |
inputs = self.constrained_beam_search_tester.prepare_inputs() | |
self.constrained_beam_search_tester.check_constrained_beam_scorer_finalize(*inputs) | |