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# coding=utf-8
# Copyright 2021 The HuggingFace Inc. team
#
# 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 copy 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 inspect
import jax
import jax.lax as lax
import jax.numpy as jnp
from ..utils import add_start_docstrings
from ..utils.logging import get_logger
logger = get_logger(__name__)
LOGITS_PROCESSOR_INPUTS_DOCSTRING = r"""
Args:
input_ids (`jnp.ndarray` of shape `(batch_size, sequence_length)`):
Indices of input sequence tokens in the vocabulary.
Indices can be obtained using [`PreTrainedTokenizer`]. See [`PreTrainedTokenizer.encode`] and
[`PreTrainedTokenizer.__call__`] for details.
[What are input IDs?](../glossary#input-ids)
scores (`jnp.ndarray` of shape `(batch_size, config.vocab_size)`):
Prediction scores of a language modeling head. These can be logits for each vocabulary when not using beam
search or log softmax for each vocabulary token when using beam search
kwargs (`Dict[str, Any]`, *optional*):
Additional logits processor specific kwargs.
Return:
`jnp.ndarray` of shape `(batch_size, config.vocab_size)`: The processed prediction scores.
"""
class FlaxLogitsProcessor:
"""Abstract base class for all logit processors that can be applied during generation."""
@add_start_docstrings(LOGITS_PROCESSOR_INPUTS_DOCSTRING)
def __call__(self, input_ids: jnp.ndarray, scores: jnp.ndarray) -> jnp.ndarray:
"""Flax method for processing logits."""
raise NotImplementedError(
f"{self.__class__} is an abstract class. Only classes inheriting this class can be called."
)
class FlaxLogitsWarper:
"""Abstract base class for all logit warpers that can be applied during generation with multinomial sampling."""
@add_start_docstrings(LOGITS_PROCESSOR_INPUTS_DOCSTRING)
def __call__(self, input_ids: jnp.ndarray, scores: jnp.ndarray) -> jnp.ndarray:
"""Flax method for warping logits."""
raise NotImplementedError(
f"{self.__class__} is an abstract class. Only classes inheriting this class can be called."
)
class FlaxLogitsProcessorList(list):
"""
This class can be used to create a list of [`FlaxLogitsProcessor`] or [`FlaxLogitsWarper`] to subsequently process
a `scores` input tensor. This class inherits from list and adds a specific *__call__* method to apply each
[`FlaxLogitsProcessor`] or [`FlaxLogitsWarper`] to the inputs.
"""
@add_start_docstrings(LOGITS_PROCESSOR_INPUTS_DOCSTRING)
def __call__(self, input_ids: jnp.ndarray, scores: jnp.ndarray, cur_len: int, **kwargs) -> jnp.ndarray:
for processor in self:
function_args = inspect.signature(processor.__call__).parameters
if len(function_args) > 3:
if not all(arg in kwargs for arg in list(function_args.keys())[2:]):
raise ValueError(
f"Make sure that all the required parameters: {list(function_args.keys())} for "
f"{processor.__class__} are passed to the logits processor."
)
scores = processor(input_ids, scores, cur_len, **kwargs)
else:
scores = processor(input_ids, scores, cur_len)
return scores
class FlaxTemperatureLogitsWarper(FlaxLogitsWarper):
r"""
[`FlaxLogitsWarper`] for temperature (exponential scaling output probability distribution).
Args:
temperature (`float`):
The value used to module the logits distribution.
"""
def __init__(self, temperature: float):
if not isinstance(temperature, float) or not (temperature > 0):
raise ValueError(f"`temperature` has to be a strictly positive float, but is {temperature}")
self.temperature = temperature
def __call__(self, input_ids: jnp.ndarray, scores: jnp.ndarray, cur_len: int) -> jnp.ndarray:
scores = scores / self.temperature
return scores
class FlaxTopPLogitsWarper(FlaxLogitsWarper):
"""
[`FlaxLogitsWarper`] that performs top-p, i.e. restricting to top tokens summing to prob_cut_off <= prob_cut_off.
Args:
top_p (`float`):
If set to < 1, only the smallest set of most probable tokens with probabilities that add up to `top_p` or
higher are kept for generation.
filter_value (`float`, *optional*, defaults to -inf):
All filtered values will be set to this float value.
min_tokens_to_keep (`int`, *optional*, defaults to 1):
Minimum number of tokens that cannot be filtered.
"""
def __init__(self, top_p: float, filter_value: float = -float("Inf"), min_tokens_to_keep: int = 1):
if not isinstance(top_p, float) or (top_p < 0 or top_p > 1.0):
raise ValueError(f"`top_p` has to be a float > 0 and < 1, but is {top_p}")
if not isinstance(min_tokens_to_keep, int) or (min_tokens_to_keep < 1):
raise ValueError(f"`min_tokens_to_keep` has to be a positive integer, but is {min_tokens_to_keep}")
self.top_p = top_p
self.filter_value = filter_value
self.min_tokens_to_keep = min_tokens_to_keep
def __call__(self, input_ids: jnp.ndarray, scores: jnp.ndarray, cur_len: int) -> jnp.ndarray:
topk_scores, topk_indices = lax.top_k(scores, scores.shape[-1])
mask_scores = jnp.full_like(scores, self.filter_value)
cumulative_probs = jax.nn.softmax(topk_scores, axis=-1).cumsum(axis=-1)
score_mask = cumulative_probs < self.top_p
# include the token that is higher than top_p as well
score_mask = jnp.roll(score_mask, 1)
score_mask |= score_mask.at[:, 0].set(True)
# min tokens to keep
score_mask = score_mask.at[:, : self.min_tokens_to_keep].set(True)
topk_next_scores = jnp.where(score_mask, topk_scores, mask_scores)
next_scores = jax.lax.sort_key_val(topk_indices, topk_next_scores)[-1]
return next_scores
class FlaxTopKLogitsWarper(FlaxLogitsWarper):
r"""
[`FlaxLogitsWarper`] that performs top-k, i.e. restricting to the k highest probability elements.
Args:
top_k (`int`):
The number of highest probability vocabulary tokens to keep for top-k-filtering.
filter_value (`float`, *optional*, defaults to -inf):
All filtered values will be set to this float value.
min_tokens_to_keep (`int`, *optional*, defaults to 1):
Minimum number of tokens that cannot be filtered.
"""
def __init__(self, top_k: int, filter_value: float = -float("Inf"), min_tokens_to_keep: int = 1):
if not isinstance(top_k, int) or top_k <= 0:
raise ValueError(f"`top_k` has to be a strictly positive integer, but is {top_k}")
self.top_k = max(top_k, min_tokens_to_keep)
self.filter_value = filter_value
def __call__(self, input_ids: jnp.ndarray, scores: jnp.ndarray, cur_len: int) -> jnp.ndarray:
batch_size, vocab_size = scores.shape
next_scores_flat = jnp.full(batch_size * vocab_size, self.filter_value)
topk = min(self.top_k, scores.shape[-1]) # Safety check
topk_scores, topk_indices = lax.top_k(scores, topk)
shift = jnp.broadcast_to((jnp.arange(batch_size) * vocab_size)[:, None], (batch_size, topk)).flatten()
topk_scores_flat = topk_scores.flatten()
topk_indices_flat = topk_indices.flatten() + shift
next_scores_flat = next_scores_flat.at[topk_indices_flat].set(topk_scores_flat)
next_scores = next_scores_flat.reshape(batch_size, vocab_size)
return next_scores
class FlaxForcedBOSTokenLogitsProcessor(FlaxLogitsProcessor):
r"""
[`FlaxLogitsProcessor`] that enforces the specified token as the first generated token.
Args:
bos_token_id (`int`):
The id of the token to force as the first generated token.
"""
def __init__(self, bos_token_id: int):
self.bos_token_id = bos_token_id
def __call__(self, input_ids: jnp.ndarray, scores: jnp.ndarray, cur_len: int) -> jnp.ndarray:
new_scores = jnp.full(scores.shape, -float("inf"))
apply_penalty = 1 - jnp.bool_(cur_len - 1)
scores = jnp.where(apply_penalty, new_scores.at[:, self.bos_token_id].set(0), scores)
return scores
class FlaxForcedEOSTokenLogitsProcessor(FlaxLogitsProcessor):
r"""
[`FlaxLogitsProcessor`] that enforces the specified token as the last generated token when `max_length` is reached.
Args:
max_length (`int`):
The maximum length of the sequence to be generated.
eos_token_id (`int`):
The id of the token to force as the last generated token when `max_length` is reached.
"""
def __init__(self, max_length: int, eos_token_id: int):
self.max_length = max_length
self.eos_token_id = eos_token_id
def __call__(self, input_ids: jnp.ndarray, scores: jnp.ndarray, cur_len: int) -> jnp.ndarray:
new_scores = jnp.full(scores.shape, -float("inf"))
apply_penalty = 1 - jnp.bool_(cur_len - self.max_length + 1)
scores = jnp.where(apply_penalty, new_scores.at[:, self.eos_token_id].set(0), scores)
return scores
class FlaxMinLengthLogitsProcessor(FlaxLogitsProcessor):
r"""
[`FlaxLogitsProcessor`] enforcing a min-length by setting EOS probability to 0.
Args:
min_length (`int`):
The minimum length below which the score of `eos_token_id` is set to `-float("Inf")`.
eos_token_id (`int`):
The id of the *end-of-sequence* token.
"""
def __init__(self, min_length: int, eos_token_id: int):
if not isinstance(min_length, int) or min_length < 0:
raise ValueError(f"`min_length` has to be a positive integer, but is {min_length}")
if not isinstance(eos_token_id, int) or eos_token_id < 0:
raise ValueError(f"`eos_token_id` has to be a positive integer, but is {eos_token_id}")
self.min_length = min_length
self.eos_token_id = eos_token_id
def __call__(self, input_ids: jnp.ndarray, scores: jnp.ndarray, cur_len: int) -> jnp.ndarray:
# create boolean flag to decide if min length penalty should be applied
apply_penalty = 1 - jnp.clip(cur_len - self.min_length, 0, 1)
scores = jnp.where(apply_penalty, scores.at[:, self.eos_token_id].set(-float("inf")), scores)
return scores
class FlaxSuppressTokensAtBeginLogitsProcessor(FlaxLogitsProcessor):
r"""
[`FlaxLogitsProcessor`] supressing a list of tokens as soon as the `generate` function starts generating using
`begin_index` tokens. This should ensure that the tokens defined by `begin_suppress_tokens` are not sampled at the
begining of the generation.
Args:
begin_suppress_tokens (`List[int]`):
Tokens to not sample.
begin_index (`int`):
Index where the tokens are suppressed.
"""
def __init__(self, begin_suppress_tokens, begin_index):
self.begin_suppress_tokens = list(begin_suppress_tokens)
self.begin_index = begin_index
def __call__(self, input_ids, scores, cur_len: int):
apply_penalty = 1 - jnp.bool_(cur_len - self.begin_index)
scores = jnp.where(apply_penalty, scores.at[:, self.begin_suppress_tokens].set(-float("inf")), scores)
return scores
class FlaxSuppressTokensLogitsProcessor(FlaxLogitsProcessor):
r"""
[`FlaxLogitsProcessor`] suppressing a list of tokens at each decoding step. The processor will set their log probs
to be `-inf` so they are not sampled.
Args:
suppress_tokens (`list`):
Tokens to not sample.
"""
def __init__(self, suppress_tokens: list):
self.suppress_tokens = list(suppress_tokens)
def __call__(self, input_ids: jnp.ndarray, scores: jnp.ndarray, cur_len: int) -> jnp.ndarray:
scores = scores.at[..., self.suppress_tokens].set(-float("inf"))
return scores
class FlaxForceTokensLogitsProcessor(FlaxLogitsProcessor):
r"""
[`FlaxLogitsProcessor`] that takes a list of pairs of integers which indicates a mapping from generation indices to
token indices that will be forced before sampling. The processor will set their log probs to 0 and all other tokens
to `-inf` so that they are sampled at their corresponding index.
Args:
force_token_map (`list`):
Map giving token ids and indices where they will be forced to be sampled.
"""
def __init__(self, force_token_map):
force_token_map = dict(force_token_map)
# Converts the dictionary of format {index: token} containing the tokens to be forced to an array, where the
# index of the array corresponds to the index of the token to be forced, for XLA compatibility.
# Indexes without forced tokens will have a negative value.
force_token_array = jnp.ones((max(force_token_map.keys()) + 1), dtype=jnp.int32) * -1
for index, token in force_token_map.items():
if token is not None:
force_token_array = force_token_array.at[index].set(token)
self.force_token_array = jnp.int32(force_token_array)
def __call__(self, input_ids: jnp.ndarray, scores: jnp.ndarray, cur_len: int) -> jnp.ndarray:
def _force_token(generation_idx):
batch_size = scores.shape[0]
current_token = self.force_token_array[generation_idx]
new_scores = jnp.ones_like(scores, dtype=scores.dtype) * -float("inf")
updates = jnp.zeros((batch_size, 1), dtype=scores.dtype)
new_scores = lax.dynamic_update_slice(new_scores, updates, (0, current_token))
return new_scores
scores = lax.cond(
cur_len >= self.force_token_array.shape[0],
# If the current length is geq than the length of force_token_array, the processor does nothing.
lambda: scores,
# Otherwise, it may force a certain token.
lambda: lax.cond(
self.force_token_array[cur_len] >= 0,
# Only valid (positive) tokens are forced
lambda: _force_token(cur_len),
# Otherwise, the processor does nothing.
lambda: scores,
),
)
return scores
class FlaxWhisperTimeStampLogitsProcessor(FlaxLogitsProcessor):
r"""
Whisper specific Processor. This processor can be used to force a list of tokens. The processor will set their log
probs to `inf` so that they are sampled at their corresponding index.
Args:
generate_config (`GenerateConfig`):
The generate config used to generate the output. The following parameters are required:
eos_token_id (`int`, *optional*, defaults to 50257):
The id of the *end-of-sequence* token.
no_timestamps_token_id (`int`, *optional*, defaults to 50363):
The id of the `"<|notimestamps|>"` token.
max_initial_timestamp_index (`int`, *optional*, defaults to 1):
Used to set the maximum value of the initial timestamp. This is used to prevent the model from
predicting timestamps that are too far in the future.
"""
def __init__(self, generate_config, model_config, decoder_input_length):
self.eos_token_id = generate_config.eos_token_id
self.no_timestamps_token_id = generate_config.no_timestamps_token_id
self.timestamp_begin = generate_config.no_timestamps_token_id + 1
self.begin_index = decoder_input_length + 1
if generate_config.is_multilingual:
# room for language token and task token
self.begin_index += 2
if hasattr(generate_config, "max_initial_timestamp_index"):
self.max_initial_timestamp_index = generate_config.max_initial_timestamp_index
else:
self.max_initial_timestamp_index = model_config.vocab_size
if self.max_initial_timestamp_index is None:
self.max_initial_timestamp_index = model_config.vocab_size
def __call__(self, input_ids, scores, cur_len):
# suppress <|notimestamps|> which is handled by without_timestamps
scores = scores.at[:, self.no_timestamps_token_id].set(-float("inf"))
def handle_pairs(input_ids_k, scores_k):
last_was_timestamp = jnp.where((cur_len - self.begin_index) >= 1, True, False)
last_was_timestamp = jnp.where(
input_ids_k[cur_len - 1] >= self.timestamp_begin,
True and last_was_timestamp,
False,
)
penultimate_was_timestamp = jnp.where((cur_len - self.begin_index) < 2, True, False)
penultimate_was_timestamp = jnp.where(
input_ids_k[cur_len - 2] >= self.timestamp_begin,
True,
penultimate_was_timestamp,
)
return jnp.where(
last_was_timestamp,
jnp.where(
penultimate_was_timestamp > 0,
scores_k.at[self.timestamp_begin :].set(-float("inf")),
scores_k.at[: self.eos_token_id].set(-float("inf")),
),
scores_k,
)
scores = jax.vmap(handle_pairs)(input_ids, scores)
apply_max_initial_timestamp = jnp.where(cur_len == self.begin_index, True, False)
apply_max_initial_timestamp = jnp.where(
self.max_initial_timestamp_index is not None,
True and apply_max_initial_timestamp,
False,
)
last_allowed = self.timestamp_begin + self.max_initial_timestamp_index
scores = jnp.where(
apply_max_initial_timestamp,
scores.at[:, last_allowed + 1 :].set(-float("inf")),
scores,
)
# if sum of probability over timestamps is above any other token, sample timestamp
logprobs = jax.nn.log_softmax(scores, axis=-1)
def handle_cumulative_probs(logprobs_k, scores_k):
timestamp_logprob = jax.nn.logsumexp(logprobs_k[self.timestamp_begin :], axis=-1)
max_text_token_logprob = jnp.max(logprobs_k[: self.timestamp_begin])
return jnp.where(
timestamp_logprob > max_text_token_logprob,
scores_k.at[: self.timestamp_begin].set(-float("inf")),
scores_k,
)
scores = jax.vmap(handle_cumulative_probs)(logprobs, scores)
return scores
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