ai-content-maker/.venv/Lib/site-packages/tokenizers/implementations/byte_level_bpe.py

from typing import Dict, Iterator, List, Optional, Tuple, Union

from tokenizers import AddedToken, Tokenizer, decoders, pre_tokenizers, processors, trainers
from tokenizers.models import BPE
from tokenizers.normalizers import Lowercase, Sequence, unicode_normalizer_from_str

from .base_tokenizer import BaseTokenizer


class ByteLevelBPETokenizer(BaseTokenizer):
    """ByteLevelBPETokenizer

    Represents a Byte-level BPE as introduced by OpenAI with their GPT-2 model
    """

    def __init__(
        self,
        vocab: Optional[Union[str, Dict[str, int]]] = None,
        merges: Optional[Union[str, Dict[Tuple[int, int], Tuple[int, int]]]] = None,
        add_prefix_space: bool = False,
        lowercase: bool = False,
        dropout: Optional[float] = None,
        unicode_normalizer: Optional[str] = None,
        continuing_subword_prefix: Optional[str] = None,
        end_of_word_suffix: Optional[str] = None,
        trim_offsets: bool = False,
    ):
        if vocab is not None and merges is not None:
            tokenizer = Tokenizer(
                BPE(
                    vocab,
                    merges,
                    dropout=dropout,
                    continuing_subword_prefix=continuing_subword_prefix or "",
                    end_of_word_suffix=end_of_word_suffix or "",
                )
            )
        else:
            tokenizer = Tokenizer(BPE())

        # Check for Unicode normalization first (before everything else)
        normalizers = []

        if unicode_normalizer:
            normalizers += [unicode_normalizer_from_str(unicode_normalizer)]

        if lowercase:
            normalizers += [Lowercase()]

        # Create the normalizer structure
        if len(normalizers) > 0:
            if len(normalizers) > 1:
                tokenizer.normalizer = Sequence(normalizers)
            else:
                tokenizer.normalizer = normalizers[0]

        tokenizer.pre_tokenizer = pre_tokenizers.ByteLevel(add_prefix_space=add_prefix_space)
        tokenizer.decoder = decoders.ByteLevel()
        tokenizer.post_processor = processors.ByteLevel(trim_offsets=trim_offsets)

        parameters = {
            "model": "ByteLevelBPE",
            "add_prefix_space": add_prefix_space,
            "lowercase": lowercase,
            "dropout": dropout,
            "unicode_normalizer": unicode_normalizer,
            "continuing_subword_prefix": continuing_subword_prefix,
            "end_of_word_suffix": end_of_word_suffix,
            "trim_offsets": trim_offsets,
        }

        super().__init__(tokenizer, parameters)

    @staticmethod
    def from_file(vocab_filename: str, merges_filename: str, **kwargs):
        vocab, merges = BPE.read_file(vocab_filename, merges_filename)
        return ByteLevelBPETokenizer(vocab, merges, **kwargs)

    def train(
        self,
        files: Union[str, List[str]],
        vocab_size: int = 30000,
        min_frequency: int = 2,
        show_progress: bool = True,
        special_tokens: List[Union[str, AddedToken]] = [],
    ):
        """Train the model using the given files"""

        trainer = trainers.BpeTrainer(
            vocab_size=vocab_size,
            min_frequency=min_frequency,
            show_progress=show_progress,
            special_tokens=special_tokens,
            initial_alphabet=pre_tokenizers.ByteLevel.alphabet(),
        )
        if isinstance(files, str):
            files = [files]
        self._tokenizer.train(files, trainer=trainer)

    def train_from_iterator(
        self,
        iterator: Union[Iterator[str], Iterator[Iterator[str]]],
        vocab_size: int = 30000,
        min_frequency: int = 2,
        show_progress: bool = True,
        special_tokens: List[Union[str, AddedToken]] = [],
        length: Optional[int] = None,
    ):
        """Train the model using the given iterator"""

        trainer = trainers.BpeTrainer(
            vocab_size=vocab_size,
            min_frequency=min_frequency,
            show_progress=show_progress,
            special_tokens=special_tokens,
            initial_alphabet=pre_tokenizers.ByteLevel.alphabet(),
        )
        self._tokenizer.train_from_iterator(
            iterator,
            trainer=trainer,
            length=length,
        )
first commit 2024-05-03 04:18:51 +03:00			`from typing import Dict, Iterator, List, Optional, Tuple, Union`

			`from tokenizers import AddedToken, Tokenizer, decoders, pre_tokenizers, processors, trainers`
			`from tokenizers.models import BPE`
			`from tokenizers.normalizers import Lowercase, Sequence, unicode_normalizer_from_str`

			`from .base_tokenizer import BaseTokenizer`


			`class ByteLevelBPETokenizer(BaseTokenizer):`
			`"""ByteLevelBPETokenizer`

			`Represents a Byte-level BPE as introduced by OpenAI with their GPT-2 model`
			`"""`

			`def __init__(`
			`self,`
			`vocab: Optional[Union[str, Dict[str, int]]] = None,`
			`merges: Optional[Union[str, Dict[Tuple[int, int], Tuple[int, int]]]] = None,`
			`add_prefix_space: bool = False,`
			`lowercase: bool = False,`
			`dropout: Optional[float] = None,`
			`unicode_normalizer: Optional[str] = None,`
			`continuing_subword_prefix: Optional[str] = None,`
			`end_of_word_suffix: Optional[str] = None,`
			`trim_offsets: bool = False,`
			`):`
			`if vocab is not None and merges is not None:`
			`tokenizer = Tokenizer(`
			`BPE(`
			`vocab,`
			`merges,`
			`dropout=dropout,`
			`continuing_subword_prefix=continuing_subword_prefix or "",`
			`end_of_word_suffix=end_of_word_suffix or "",`
			`)`
			`)`
			`else:`
			`tokenizer = Tokenizer(BPE())`

			`# Check for Unicode normalization first (before everything else)`
			`normalizers = []`

			`if unicode_normalizer:`
			`normalizers += [unicode_normalizer_from_str(unicode_normalizer)]`

			`if lowercase:`
			`normalizers += [Lowercase()]`

			`# Create the normalizer structure`
			`if len(normalizers) > 0:`
			`if len(normalizers) > 1:`
			`tokenizer.normalizer = Sequence(normalizers)`
			`else:`
			`tokenizer.normalizer = normalizers[0]`

			`tokenizer.pre_tokenizer = pre_tokenizers.ByteLevel(add_prefix_space=add_prefix_space)`
			`tokenizer.decoder = decoders.ByteLevel()`
			`tokenizer.post_processor = processors.ByteLevel(trim_offsets=trim_offsets)`

			`parameters = {`
			`"model": "ByteLevelBPE",`
			`"add_prefix_space": add_prefix_space,`
			`"lowercase": lowercase,`
			`"dropout": dropout,`
			`"unicode_normalizer": unicode_normalizer,`
			`"continuing_subword_prefix": continuing_subword_prefix,`
			`"end_of_word_suffix": end_of_word_suffix,`
			`"trim_offsets": trim_offsets,`
			`}`

			`super().__init__(tokenizer, parameters)`

			`@staticmethod`
			`def from_file(vocab_filename: str, merges_filename: str, **kwargs):`
			`vocab, merges = BPE.read_file(vocab_filename, merges_filename)`
			`return ByteLevelBPETokenizer(vocab, merges, **kwargs)`

			`def train(`
			`self,`
			`files: Union[str, List[str]],`
			`vocab_size: int = 30000,`
			`min_frequency: int = 2,`
			`show_progress: bool = True,`
			`special_tokens: List[Union[str, AddedToken]] = [],`
			`):`
			`"""Train the model using the given files"""`

			`trainer = trainers.BpeTrainer(`
			`vocab_size=vocab_size,`
			`min_frequency=min_frequency,`
			`show_progress=show_progress,`
			`special_tokens=special_tokens,`
			`initial_alphabet=pre_tokenizers.ByteLevel.alphabet(),`
			`)`
			`if isinstance(files, str):`
			`files = [files]`
			`self._tokenizer.train(files, trainer=trainer)`

			`def train_from_iterator(`
			`self,`
			`iterator: Union[Iterator[str], Iterator[Iterator[str]]],`
			`vocab_size: int = 30000,`
			`min_frequency: int = 2,`
			`show_progress: bool = True,`
			`special_tokens: List[Union[str, AddedToken]] = [],`
			`length: Optional[int] = None,`
			`):`
			`"""Train the model using the given iterator"""`

			`trainer = trainers.BpeTrainer(`
			`vocab_size=vocab_size,`
			`min_frequency=min_frequency,`
			`show_progress=show_progress,`
			`special_tokens=special_tokens,`
			`initial_alphabet=pre_tokenizers.ByteLevel.alphabet(),`
			`)`
			`self._tokenizer.train_from_iterator(`
			`iterator,`
			`trainer=trainer,`
			`length=length,`
			`)`