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import functools |
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import tensorflow as tf |
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import seqio |
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import t5.data |
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from typing import Optional, Sequence |
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def prepend_prompt( |
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dataset: tf.data.Dataset, |
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output_features: seqio.preprocessors.OutputFeaturesType, |
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sequence_length: Optional[seqio.preprocessors.SequenceLengthType] = None, |
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prompt_mode: str = "", |
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key: str = "inputs", |
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mode: str = "", |
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) -> tf.data.Dataset: |
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"""Prepends a prompt at the beginning of an input sequence.""" |
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del sequence_length |
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if prompt_mode and mode: |
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out_keys = list(output_features.keys()) |
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prompt_tokens = output_features[out_keys[0]].vocabulary.encode_tf(prompt_mode) |
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def add_to_inputs(x): |
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x[key] = tf.concat([prompt_tokens, x[key]], axis=0) |
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return x |
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dataset = dataset.map(add_to_inputs) |
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return dataset |
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def split_tokens_to_inputs_length(dataset, sequence_length, output_features, **kwargs): |
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max_tokens = sequence_length["inputs"] |
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out_keys = list(output_features.keys()) |
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if output_features[out_keys[0]].add_eos: |
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max_tokens -= 1 |
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return t5.data.preprocessors.split_tokens( |
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dataset, max_tokens_per_segment=max_tokens, **kwargs |
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) |
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def prefix_lm(dataset, sequence_length, output_features): |
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"""Prefix language modeling objective used in Raffel et al. 2019.""" |
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ds = dataset |
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ds = t5.data.preprocessors.select_random_chunk( |
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ds, output_features=output_features, feature_key="targets", max_length=65536 |
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) |
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ds = split_tokens_to_inputs_length( |
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ds, output_features=output_features, sequence_length=sequence_length |
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) |
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ds = t5.data.preprocessors.denoise( |
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ds, |
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output_features, |
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inputs_fn=t5.data.preprocessors.drop_nonnoise_tokens, |
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targets_fn=t5.data.preprocessors.drop_noise_tokens, |
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noise_density=0.5, |
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noise_mask_fn=t5.data.preprocessors.random_prefix_noise_mask, |
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) |
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return ds |
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def ul2_objective( |
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dataset: tf.data.Dataset, |
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sequence_length: seqio.preprocessors.SequenceLengthType, |
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output_features: seqio.preprocessors.OutputFeaturesType, |
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use_prefix_lm_task: bool = False, |
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rates: Optional[Sequence[float]] = None, |
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mean_noise_span_lengths: Sequence[float] = (3.0,), |
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noise_densities: Sequence[float] = (0.15,), |
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shard_ds: bool = True, |
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optional_task_prefixes: Optional[Sequence[str]] = None, |
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input_feature_key: str = "inputs", |
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merge_examples_to_reduce_padding: bool = True, |
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reserved_for_packing: bool = None, |
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seed: int = 7, |
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) -> tf.data.Dataset: |
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"""UL2-like pre-training objectives. |
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This preprocessor amounts to calling the 'span_corruption' function several |
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times with different values of 'noise_density' and 'mean_noise_span_length'. |
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We either shard or copy the dataset, then apply each function to each shard. |
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Add S-denoising (prefixLM) using use_prefix_lm_task. |
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Args: |
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dataset: A tf.data.Dataset with dictionaries containing the key 'input_feature_key'. |
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sequence_length: dict mapping of feature key to int length for that feature. |
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output_features: mapping of keys to features. |
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use_prefix_lm_task: <bool> If True, include PrefixLM in the task mix. |
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rates: <Optional<List<float>> List of rates per task. If None, tasks are sampled uniformly. |
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mean_noise_span_lengths: List of mean number of tokens per masked span per example. |
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noise_densities: List of what fraction of the tokens to mask. |
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shard_ds: <bool> If True, shard dataset per objective. |
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optional_task_prefixes: <Optional<list<str>> Strings to prepend for each corruption scheme. NOTE: If including prefixLM task, it must be the last prefix. |
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input_feature_key: which feature to use from the dataset as the input text tokens. |
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merge_examples_to_reduce_padding: if True, combines multiple input examples to reduce padding. |
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reserved_for_packing: if specified, reduces the desired inputs length by the specified amount to enable multiple examples to be packed together downstream. |
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seed: tf.int64 for controlling the random choice of spans. |
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Returns: |
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a dataset |
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""" |
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if optional_task_prefixes: |
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num_tasks = len(noise_densities) + int(use_prefix_lm_task) |
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valid_number_of_prefixes = num_tasks == len(optional_task_prefixes) |
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if not valid_number_of_prefixes: |
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raise ValueError("Number of task prefixes must match number of tasks.") |
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inputs_length = sequence_length[input_feature_key] |
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input_lengths, targets_lengths = [], [] |
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sequence_lengths = {x: y for x, y in sequence_length.items()} |
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if reserved_for_packing: |
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inputs_length -= reserved_for_packing |
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for x, y in sequence_length.items(): |
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sequence_lengths[x] = y - reserved_for_packing |
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hyperparams = list(zip(mean_noise_span_lengths, noise_densities)) |
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for mean_noise_span_length, noise_density in hyperparams: |
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input_length, targets_length = t5.data.preprocessors.random_spans_helper( |
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extra_tokens_per_span_inputs=1, |
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extra_tokens_per_span_targets=1, |
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inputs_length=inputs_length, |
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mean_noise_span_length=mean_noise_span_length, |
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noise_density=noise_density, |
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) |
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input_lengths.append(input_length) |
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targets_lengths.append(targets_length) |
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if sequence_length["targets"] < targets_length: |
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upper_bound = max(targets_lengths) |
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raise ValueError( |
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f"Expected max targets length for span corruption ({upper_bound}) is " |
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f"greater than configured targets length " |
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f"({sequence_length['targets']})" |
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) |
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ds = dataset |
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ds = t5.data.preprocessors.select_random_chunk( |
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ds, output_features=output_features, feature_key="targets", max_length=65536 |
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) |
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if merge_examples_to_reduce_padding: |
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ds = t5.data.preprocessors.reduce_concat_tokens( |
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ds, feature_key="targets", batch_size=128 |
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) |
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num_shards = len(input_lengths) + int(use_prefix_lm_task) |
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if shard_ds: |
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ds_shards = [ds.shard(num_shards, i) for i in range(num_shards)] |
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else: |
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ds_shards = [ds for _ in range(num_shards)] |
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processed_ds = [] |
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hyperparams = zip(input_lengths, hyperparams, range(num_shards)) |
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for input_length, (noise_span_length, noise_density), i in hyperparams: |
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ds = ds_shards[i] |
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ds = t5.data.preprocessors.split_tokens( |
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ds, |
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feature_key="targets", |
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min_tokens_per_segment=None, |
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max_tokens_per_segment=input_length, |
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) |
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ds = t5.data.preprocessors.denoise( |
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ds, |
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output_features, |
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inputs_fn=t5.data.preprocessors.noise_span_to_unique_sentinel, |
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targets_fn=t5.data.preprocessors.nonnoise_span_to_unique_sentinel, |
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noise_density=noise_density, |
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noise_mask_fn=functools.partial( |
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t5.data.preprocessors.random_spans_noise_mask, |
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mean_noise_span_length=noise_span_length, |
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), |
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input_feature_key=input_feature_key, |
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) |
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if optional_task_prefixes: |
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ds = prepend_prompt( |
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ds, |
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output_features, |
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prompt_mode=optional_task_prefixes[i], |
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mode=optional_task_prefixes[i], |
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key=input_feature_key, |
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) |
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processed_ds.append(ds) |
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if use_prefix_lm_task: |
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ds = ds_shards[-1] |
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ds = prefix_lm(ds, sequence_lengths, output_features) |
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if optional_task_prefixes: |
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ds = prepend_prompt( |
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ds, |
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output_features, |
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prompt_mode=optional_task_prefixes[-1], |
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mode=optional_task_prefixes[-1], |
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key=input_feature_key, |
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) |
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processed_ds.append(ds) |
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ds = tf.data.experimental.sample_from_datasets(processed_ds, rates, seed) |
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return ds |
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