# coding=utf-8 # Copyright 2021 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 import numpy as np from transformers import is_flax_available from transformers.testing_utils import require_flax from ..test_modeling_flax_common import ids_tensor if is_flax_available(): import jax import jax.numpy as jnp from transformers.generation import ( FlaxForcedBOSTokenLogitsProcessor, FlaxForcedEOSTokenLogitsProcessor, FlaxLogitsProcessorList, FlaxMinLengthLogitsProcessor, FlaxTemperatureLogitsWarper, FlaxTopKLogitsWarper, FlaxTopPLogitsWarper, ) @require_flax class LogitsProcessorTest(unittest.TestCase): def _get_uniform_logits(self, batch_size: int, length: int): scores = jnp.ones((batch_size, length)) / length return scores def test_temperature_dist_warper(self): input_ids = None length = 20 scores = self._get_uniform_logits(batch_size=2, length=length) # tweak scores to not be uniform anymore scores = scores.at[1, 5].set((1 / length) + 0.1) # peak, 1st batch scores = scores.at[1, 10].set((1 / length) - 0.4) # valley, 1st batch # compute softmax probs = jax.nn.softmax(scores, axis=-1) temp_dist_warper_sharper = FlaxTemperatureLogitsWarper(temperature=0.5) temp_dist_warper_smoother = FlaxTemperatureLogitsWarper(temperature=1.3) warped_prob_sharp = jax.nn.softmax(temp_dist_warper_sharper(input_ids, scores.copy(), cur_len=None), axis=-1) warped_prob_smooth = jax.nn.softmax(temp_dist_warper_smoother(input_ids, scores.copy(), cur_len=None), axis=-1) # uniform distribution stays uniform self.assertTrue(jnp.allclose(probs[0, :], warped_prob_sharp[0, :], atol=1e-3)) self.assertTrue(jnp.allclose(probs[0, :], warped_prob_smooth[0, :], atol=1e-3)) # sharp peaks get higher, valleys get lower self.assertLess(probs[1, :].max(), warped_prob_sharp[1, :].max()) self.assertGreater(probs[1, :].min(), warped_prob_sharp[1, :].min()) # smooth peaks get lower, valleys get higher self.assertGreater(probs[1, :].max(), warped_prob_smooth[1, :].max()) self.assertLess(probs[1, :].min(), warped_prob_smooth[1, :].min()) def test_top_k_dist_warper(self): input_ids = None vocab_size = 10 batch_size = 2 # create ramp distribution ramp_logits = np.broadcast_to(np.arange(vocab_size)[None, :], (batch_size, vocab_size)).copy() ramp_logits[1:, : vocab_size // 2] = ramp_logits[1:, : vocab_size // 2] + vocab_size top_k_warp = FlaxTopKLogitsWarper(3) scores = top_k_warp(input_ids, ramp_logits, cur_len=None) # check that correct tokens are filtered self.assertListEqual(jnp.isinf(scores[0]).tolist(), 7 * [True] + 3 * [False]) self.assertListEqual(jnp.isinf(scores[1]).tolist(), 2 * [True] + 3 * [False] + 5 * [True]) # check special case length = 5 top_k_warp_safety_check = FlaxTopKLogitsWarper(top_k=1, filter_value=0.0, min_tokens_to_keep=3) ramp_logits = np.broadcast_to(np.arange(length)[None, :], (batch_size, length)).copy() scores = top_k_warp_safety_check(input_ids, ramp_logits, cur_len=None) # min_tokens overwrites k: 3 tokens are kept => 2 tokens are nullified self.assertListEqual((scores == 0.0).sum(axis=-1).tolist(), [2, 2]) def test_top_p_dist_warper(self): input_ids = None vocab_size = 10 batch_size = 2 # create distribution and take log (inverse to Softmax as taken in TopPLogitsWarper) dist = np.log(np.array([[0.3, 0.1, 0.1, 0.5], [0.15, 0.3, 0.3, 0.25]])) top_p_warp = FlaxTopPLogitsWarper(0.8) filtered_dist = np.exp(top_p_warp(input_ids, dist, cur_len=None)) # dist should be filtered to keep min num values so that sum is >= top_p # exp (-inf) => 0 EXPECTED_FILTERED_DIST = np.array([[0.3, 0.0, 0.0, 0.5], [0.0, 0.3, 0.3, 0.25]]) self.assertTrue(np.allclose(filtered_dist, EXPECTED_FILTERED_DIST, atol=1e-3)) # check edge cases with negative and extreme logits ramp_logits = np.broadcast_to(np.arange(vocab_size)[None, :], (batch_size, vocab_size)).copy() - ( vocab_size // 2 ) # make ramp_logits more extreme ramp_logits[1] = ramp_logits[1] * 100.0 # make sure at least 2 tokens are kept top_p_warp = FlaxTopPLogitsWarper(0.9, min_tokens_to_keep=2, filter_value=0.0) filtered_dist = top_p_warp(input_ids, ramp_logits, cur_len=None) # first batch should keep three tokens, second batch would keep only 1, but due to `min_tokens_to_keep=2` keeps 2. self.assertListEqual((filtered_dist != 0.0).sum(axis=-1).tolist(), [3, 2]) def test_min_length_dist_processor(self): vocab_size = 20 batch_size = 4 eos_token_id = 0 min_dist_processor = FlaxMinLengthLogitsProcessor(min_length=10, eos_token_id=eos_token_id) # check that min length is applied at length 5 input_ids = ids_tensor((batch_size, 20), vocab_size=20) cur_len = 5 scores = self._get_uniform_logits(batch_size, vocab_size) scores_before_min_length = min_dist_processor(input_ids, scores, cur_len=cur_len) self.assertListEqual(scores_before_min_length[:, eos_token_id].tolist(), 4 * [-float("inf")]) # check that min length is not applied anymore at length 15 scores = self._get_uniform_logits(batch_size, vocab_size) cur_len = 15 scores_before_min_length = min_dist_processor(input_ids, scores, cur_len=cur_len) self.assertFalse(jnp.isinf(scores_before_min_length).any()) def test_forced_bos_token_logits_processor(self): vocab_size = 20 batch_size = 4 bos_token_id = 0 logits_processor = FlaxForcedBOSTokenLogitsProcessor(bos_token_id=bos_token_id) # check that all scores are -inf except the bos_token_id score input_ids = ids_tensor((batch_size, 1), vocab_size=20) cur_len = 1 scores = self._get_uniform_logits(batch_size, vocab_size) scores = logits_processor(input_ids, scores, cur_len=cur_len) self.assertTrue(jnp.isneginf(scores[:, bos_token_id + 1 :]).all()) self.assertListEqual(scores[:, bos_token_id].tolist(), 4 * [0]) # score for bos_token_id shold be zero # check that bos_token_id is not forced if current length is greater than 1 cur_len = 3 scores = self._get_uniform_logits(batch_size, vocab_size) scores = logits_processor(input_ids, scores, cur_len=cur_len) self.assertFalse(jnp.isinf(scores).any()) def test_forced_eos_token_logits_processor(self): vocab_size = 20 batch_size = 4 eos_token_id = 0 max_length = 5 logits_processor = FlaxForcedEOSTokenLogitsProcessor(max_length=max_length, eos_token_id=eos_token_id) # check that all scores are -inf except the eos_token_id when max_length is reached input_ids = ids_tensor((batch_size, 4), vocab_size=20) cur_len = 4 scores = self._get_uniform_logits(batch_size, vocab_size) scores = logits_processor(input_ids, scores, cur_len=cur_len) self.assertTrue(jnp.isneginf(scores[:, eos_token_id + 1 :]).all()) self.assertListEqual(scores[:, eos_token_id].tolist(), 4 * [0]) # score for eos_token_id should be zero # check that eos_token_id is not forced if max_length is not reached cur_len = 3 scores = self._get_uniform_logits(batch_size, vocab_size) scores = logits_processor(input_ids, scores, cur_len=cur_len) self.assertFalse(jnp.isinf(scores).any()) def test_processor_list(self): batch_size = 4 sequence_length = 10 vocab_size = 15 eos_token_id = 2 bos_token_id = 1 max_length = 15 # dummy input_ids and scores input_ids = ids_tensor((batch_size, sequence_length), vocab_size) input_ids_comp = input_ids.copy() scores = self._get_uniform_logits(batch_size, vocab_size) scores_comp = scores.copy() # instantiate all dist processors temp_dist_warp = FlaxTemperatureLogitsWarper(temperature=0.5) top_k_warp = FlaxTopKLogitsWarper(3) top_p_warp = FlaxTopPLogitsWarper(0.8) # instantiate all logits processors min_dist_proc = FlaxMinLengthLogitsProcessor(min_length=10, eos_token_id=eos_token_id) bos_dist_proc = FlaxForcedBOSTokenLogitsProcessor(bos_token_id=bos_token_id) eos_dist_proc = FlaxForcedEOSTokenLogitsProcessor(max_length=max_length, eos_token_id=eos_token_id) cur_len = 10 # no processor list scores = temp_dist_warp(input_ids, scores, cur_len=cur_len) scores = top_k_warp(input_ids, scores, cur_len=cur_len) scores = top_p_warp(input_ids, scores, cur_len=cur_len) scores = min_dist_proc(input_ids, scores, cur_len=cur_len) scores = bos_dist_proc(input_ids, scores, cur_len=cur_len) scores = eos_dist_proc(input_ids, scores, cur_len=cur_len) # with processor list processor = FlaxLogitsProcessorList( [temp_dist_warp, top_k_warp, top_p_warp, min_dist_proc, bos_dist_proc, eos_dist_proc] ) scores_comp = processor(input_ids, scores_comp, cur_len=cur_len) # scores should be equal self.assertTrue(jnp.allclose(scores, scores_comp, atol=1e-3)) # input_ids should never be changed self.assertListEqual(input_ids.tolist(), input_ids_comp.tolist()) def test_processor_list_jitted(self): batch_size = 4 sequence_length = 10 vocab_size = 15 eos_token_id = 2 bos_token_id = 1 max_length = 15 # dummy input_ids and scores input_ids = ids_tensor((batch_size, sequence_length), vocab_size) input_ids_comp = input_ids.copy() scores = self._get_uniform_logits(batch_size, vocab_size) scores_comp = scores.copy() # instantiate all dist processors temp_dist_warp = FlaxTemperatureLogitsWarper(temperature=0.5) top_k_warp = FlaxTopKLogitsWarper(3) top_p_warp = FlaxTopPLogitsWarper(0.8) # instantiate all logits processors min_dist_proc = FlaxMinLengthLogitsProcessor(min_length=10, eos_token_id=eos_token_id) bos_dist_proc = FlaxForcedBOSTokenLogitsProcessor(bos_token_id=bos_token_id) eos_dist_proc = FlaxForcedEOSTokenLogitsProcessor(max_length=max_length, eos_token_id=eos_token_id) cur_len = 10 # no processor list def run_no_processor_list(input_ids, scores, cur_len): scores = temp_dist_warp(input_ids, scores, cur_len=cur_len) scores = top_k_warp(input_ids, scores, cur_len=cur_len) scores = top_p_warp(input_ids, scores, cur_len=cur_len) scores = min_dist_proc(input_ids, scores, cur_len=cur_len) scores = bos_dist_proc(input_ids, scores, cur_len=cur_len) scores = eos_dist_proc(input_ids, scores, cur_len=cur_len) return scores # with processor list def run_processor_list(input_ids, scores, cur_len): processor = FlaxLogitsProcessorList( [temp_dist_warp, top_k_warp, top_p_warp, min_dist_proc, bos_dist_proc, eos_dist_proc] ) scores = processor(input_ids, scores, cur_len=cur_len) return scores jitted_run_no_processor_list = jax.jit(run_no_processor_list) jitted_run_processor_list = jax.jit(run_processor_list) scores = jitted_run_no_processor_list(input_ids, scores, cur_len) scores_comp = jitted_run_processor_list(input_ids, scores_comp, cur_len) # scores should be equal self.assertTrue(jnp.allclose(scores, scores_comp, atol=1e-3)) # input_ids should never be changed self.assertListEqual(input_ids.tolist(), input_ids_comp.tolist())