Chess Challenge submission by Tanguy85

6a4d75f verified 3 months ago

7.52 kB

	"""
	Custom Chess Tokenizer for the Chess1MChallenge.

	Goal: maximize legal-move rate in the evaluation.

	Key idea:
	- The evaluator only needs to recover the UCI move (e.g. "e2e4") from the model output.
	It extracts squares like [a-h][1-8] and builds a move from the first 2 squares.
	- So we normalize dataset tokens like "WPe2e4(x+)" to plain UCI "e2e4" (plus promotion suffix "q/r/b/n").
	- We use a FIXED UCI vocabulary so there is (almost) no OOV -> far fewer [UNK] -> higher legal-move rate.

	Vocabulary:
	- All from-to square pairs: "a1a2", ..., excluding from==to.
	- All promotion moves: e7e8[qrbn], a2a1[qrbn], including capture-promotions (still covered by from-to).
	"""

	from __future__ import annotations

	import json
	import os
	import re
	from typing import Dict, List, Optional

	from transformers import PreTrainedTokenizer


	_SQUARE_RE = re.compile(r"[a-h][1-8]")
	_PROMO_RE = re.compile(r"=([QRBN])") # dataset often uses "=Q"


	class ChessTokenizer(PreTrainedTokenizer):
	"""
	Tokenizer that maps each chess move to a single token.

	It is compatible with Hugging Face `AutoTokenizer(..., trust_remote_code=True)`.

	Notes:
	- Input text may contain "extended UCI" tokens from the Lichess dataset
	(e.g. "WPe2e4", "BKe8g8(O)", "WPe7e8=Q(+)" ...).
	- We normalize those tokens to plain UCI: "e2e4", "e8g8", "e7e8q", ...
	"""

	model_input_names = ["input_ids", "attention_mask"]
	vocab_files_names = {"vocab_file": "vocab.json"}

	# Special tokens
	PAD_TOKEN = "[PAD]"
	BOS_TOKEN = "[BOS]"
	EOS_TOKEN = "[EOS]"
	UNK_TOKEN = "[UNK]"

	def __init__(
	self,
	vocab_file: Optional[str] = None,
	vocab: Optional[Dict[str, int]] = None,
	**kwargs,
	):
	# Initialize special tokens
	self._pad_token = self.PAD_TOKEN
	self._bos_token = self.BOS_TOKEN
	self._eos_token = self.EOS_TOKEN
	self._unk_token = self.UNK_TOKEN

	# Avoid duplicate special-token args when loading from disk
	kwargs.pop("pad_token", None)
	kwargs.pop("bos_token", None)
	kwargs.pop("eos_token", None)
	kwargs.pop("unk_token", None)

	# Load or create vocabulary
	if vocab is not None:
	self._vocab = vocab
	elif vocab_file is not None and os.path.exists(vocab_file):
	with open(vocab_file, "r", encoding="utf-8") as f:
	self._vocab = json.load(f)
	else:
	self._vocab = self._create_default_vocab()

	self._ids_to_tokens = {v: k for k, v in self._vocab.items()}

	super().__init__(
	pad_token=self._pad_token,
	bos_token=self._bos_token,
	eos_token=self._eos_token,
	unk_token=self._unk_token,
	**kwargs,
	)

	def _create_default_vocab(self) -> Dict[str, int]:
	special = [self.PAD_TOKEN, self.BOS_TOKEN, self.EOS_TOKEN, self.UNK_TOKEN]
	return {tok: i for i, tok in enumerate(special)}

	@staticmethod
	def _normalize_one_token(tok: str) -> str:
	"""
	Convert an extended token to plain UCI.

	Examples:
	"WPe2e4" -> "e2e4"
	"BKe8g8(O)" -> "e8g8"
	"WPe7e8=Q(+)" -> "e7e8q"
	"WPe5d6(x)" -> "e5d6"
	"""
	squares = _SQUARE_RE.findall(tok)
	if len(squares) < 2:
	return ChessTokenizer.UNK_TOKEN

	uci = squares[0] + squares[1]

	m = _PROMO_RE.search(tok)
	if m:
	uci += m.group(1).lower() # Q->q etc.

	return uci

	@classmethod
	def build_fixed_uci_vocab(cls) -> "ChessTokenizer":
	"""
	Build a FIXED vocabulary of (almost) all possible UCI moves.

	This dramatically reduces OOV compared to building vocab from the dataset
	with a high min_frequency.
	"""
	files = "abcdefgh"
	ranks = "12345678"

	tokens: List[str] = []

	# All from-to square pairs (excluding from==to)
	for f1 in files:
	for r1 in ranks:
	for f2 in files:
	for r2 in ranks:
	if f1 == f2 and r1 == r2:
	continue
	tokens.append(f"{f1}{r1}{f2}{r2}")

	# Promotions: white (7->8) and black (2->1), with q/r/b/n
	promos = "qrbn"

	# White promotions
	for f in files:
	fr = f + "7"
	for df in (-1, 0, 1):
	j = files.index(f) + df
	if 0 <= j < 8:
	to = files[j] + "8"
	base = fr + to
	for p in promos:
	tokens.append(base + p)

	# Black promotions
	for f in files:
	fr = f + "2"
	for df in (-1, 0, 1):
	j = files.index(f) + df
	if 0 <= j < 8:
	to = files[j] + "1"
	base = fr + to
	for p in promos:
	tokens.append(base + p)

	tokens = sorted(set(tokens))

	special = [cls.PAD_TOKEN, cls.BOS_TOKEN, cls.EOS_TOKEN, cls.UNK_TOKEN]
	vocab = {tok: i for i, tok in enumerate(special + tokens)}
	return cls(vocab=vocab)

	@classmethod
	def build_vocab_from_iterator(cls, iterator, min_frequency: int = 1) -> "ChessTokenizer":
	"""
	Optional: build vocabulary from an iterator of strings.

	We normalize tokens to UCI before counting.
	"""
	from collections import Counter

	counts = Counter()
	for game in iterator:
	raw = game.strip().split()
	norm = [cls._normalize_one_token(t) for t in raw]
	counts.update(norm)

	tokens = [t for t, c in counts.items() if c >= min_frequency]
	tokens = sorted(set(tokens))

	special = [cls.PAD_TOKEN, cls.BOS_TOKEN, cls.EOS_TOKEN, cls.UNK_TOKEN]
	vocab = {tok: i for i, tok in enumerate(special + tokens)}
	return cls(vocab=vocab)

	@property
	def vocab_size(self) -> int:
	return len(self._vocab)

	def get_vocab(self) -> Dict[str, int]:
	return dict(self._vocab)

	def _tokenize(self, text: str) -> List[str]:
	raw = text.strip().split()
	return [self._normalize_one_token(t) for t in raw]

	def _convert_token_to_id(self, token: str) -> int:
	return self._vocab.get(token, self._vocab.get(self.UNK_TOKEN, 0))

	def _convert_id_to_token(self, index: int) -> str:
	return self._ids_to_tokens.get(index, self.UNK_TOKEN)

	def convert_tokens_to_string(self, tokens: List[str]) -> str:
	special = {self.PAD_TOKEN, self.BOS_TOKEN, self.EOS_TOKEN, self.UNK_TOKEN}
	return " ".join(t for t in tokens if t not in special)

	def save_vocabulary(self, save_directory: str, filename_prefix: Optional[str] = None) -> tuple:
	if not os.path.isdir(save_directory):
	os.makedirs(save_directory, exist_ok=True)

	vocab_file = os.path.join(
	save_directory,
	(filename_prefix + "-" if filename_prefix else "") + "vocab.json",
	)

	with open(vocab_file, "w", encoding="utf-8") as f:
	json.dump(self._vocab, f, ensure_ascii=False, indent=2)

	return (vocab_file,)