chess_swdo_ss / tokenizer.py

Chess Challenge submission by swdo

0fced53 verified about 16 hours ago

12.7 kB



	from __future__ import annotations

	import json
	import os
	import re
	from pathlib import Path
	from typing import Dict, List, Optional, Tuple

	from transformers import PreTrainedTokenizer


	class ChessTokenizer(PreTrainedTokenizer):
	"""
	A custom tokenizer

	Example:
	>>> tokenizer = ChessTokenizer()
	>>> tokenizer.encode("WPe2e4 BPe7e5")
	[1, 4, 6, 45, 47, 5, 6, 50, 48, 2] # [BOS, components..., EOS]
	"""

	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]"

	# Chess components
	COLORS = ["[W]", "[B]"]
	PIECES = ["P", "N", "B", "R", "Q", "K"]
	FILES = ["a", "b", "c", "d", "e", "f", "g", "h"]
	RANKS = ["1", "2", "3", "4", "5", "6", "7", "8"]
	SQUARES = [f + r for f in FILES for r in ["1", "2", "3", "4", "5", "6", "7", "8"]]

	MODIFIERS = [
	"x", # Capture
	"+", # Check
	"#", # Checkmate (alternative to +*)
	"+*", # Checkmate (dataset format)
	"=Q", # Promotion to Queen
	"=R", # Promotion to Rook
	"=B", # Promotion to Bishop
	"=N", # Promotion to Knight
	"O-O", # Kingside castling (alternative)
	"O-O-O", # Queenside castling (alternative)
	"o", # Kingside castling (dataset format)
	"O", # Queenside castling (dataset format)
	]

	MOVE_PATTERN = re.compile(
	r'^([WB])' # Color
	r'([PNBRQK])' # Piece
	r'([a-h][1-8])' # From square
	r'([a-h][1-8])' # To square
	r'(=[QRBN])?' # Promotion (optional)
	r'($[xoO+*]+$)?$' # Suffixes in parentheses (optional)
	)

	def __init__(
	self,
	vocab_file: Optional[str] = None,
	vocab: Optional[Dict[str, int]] = None,
	**kwargs,
	):


	self._pad_token = self.PAD_TOKEN
	self._bos_token = self.BOS_TOKEN
	self._eos_token = self.EOS_TOKEN
	self._unk_token = self.UNK_TOKEN

	# Remove any duplicate
	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:
	# Create the fixed decomposed vocabulary
	self._vocab = self._create_default_vocab()

	# Create reverse mapping
	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]:
	"""
	Create the fixed vocabulary from chess components.

	Unlike the standard tokenizer, this creates a small fixed vocab
	of ~88 tokens for decomposed move representation.
	"""
	tokens = []

	# Special tokens first
	tokens.extend([self.PAD_TOKEN, self.BOS_TOKEN, self.EOS_TOKEN, self.UNK_TOKEN])

	# Colors
	tokens.extend(self.COLORS)

	# Pieces
	tokens.extend(self.PIECES)

	# Squares (64)
	tokens.extend(self.SQUARES)

	# Modifiers
	tokens.extend(self.MODIFIERS)

	return {token: idx for idx, token in enumerate(tokens)}

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

	Note: For decomposed tokenizer, this ignores the iterator and
	creates the fixed vocabulary. Provided for API compatibility.

	Args:
	iterator: An iterator yielding game strings (ignored).
	min_frequency: Minimum frequency for a token (ignored).

	Returns:
	A ChessTokenizer with the fixed decomposed vocabulary.
	"""
	# Decomposed tokenizer uses fixed vocabulary
	return cls()

	@classmethod
	def build_vocab_from_dataset(
	cls,
	dataset_name: str = "dlouapre/lichess_2025-01_1M",
	split: str = "train",
	column: str = "moves",
	min_frequency: int = 1,
	max_samples: Optional[int] = None,
	) -> "ChessTokenizer":
	"""
	Build a tokenizer vocabulary from a Hugging Face dataset.

	Note: For decomposed tokenizer, this ignores the dataset and
	creates the fixed vocabulary. Provided for API compatibility.

	Args:
	dataset_name: Name of the dataset on Hugging Face Hub (ignored).
	split: Dataset split to use (ignored).
	column: Column containing move strings (ignored).
	min_frequency: Minimum frequency for inclusion (ignored).
	max_samples: Maximum samples to process (ignored).

	Returns:
	A ChessTokenizer with the fixed decomposed vocabulary.
	"""
	print(f"Note: Decomposed tokenizer uses fixed vocabulary (~88 tokens)")
	return cls()

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

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

	def _parse_move(self, move: str) -> List[str]:
	"""
	Parse a single move into component tokens.

	Args:
	move: Move in extended UCI format (e.g., "WPe2e4", "BNg8f6(x+)")

	Returns:
	List of component tokens.
	"""
	match = self.MOVE_PATTERN.match(move)

	if not match:
	return [self.UNK_TOKEN]

	tokens = []

	# Color - map 'W' -> '[W]' and 'B' -> '[B]'
	color = match.group(1)
	tokens.append(f"[{color}]")

	# Piece
	tokens.append(match.group(2))

	# From square
	tokens.append(match.group(3))

	# To square
	tokens.append(match.group(4))

	# Promotion (optional)
	if match.group(5):
	tokens.append(match.group(5))

	# Parse suffixes (optional)
	if match.group(6):
	suffix = match.group(6)
	suffix_content = suffix[1:-1]

	if "x" in suffix_content:
	tokens.append("x")
	if "+*" in suffix_content:
	tokens.append("+*")
	elif "+" in suffix_content:
	tokens.append("+")
	if suffix_content == "o":
	tokens.append("o")
	elif suffix_content == "O":
	tokens.append("O")

	return tokens

	def _tokenize(self, text: str) -> List[str]:
	"""
	Tokenize a string of moves into component tokens.

	Args:
	text: Space-separated moves in extended UCI format.

	Returns:
	List of component tokens.
	"""
	tokens = []
	moves = text.strip().split()

	for move in moves:
	move_tokens = self._parse_move(move)
	tokens.extend(move_tokens)

	return tokens

	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:
	"""
	Convert tokens back to move string.

	Reconstructs moves from component tokens.
	"""
	special = {self.PAD_TOKEN, self.BOS_TOKEN, self.EOS_TOKEN, self.UNK_TOKEN}

	result = []
	current_move = []

	for token in tokens:
	if token in special:
	if current_move:
	result.append(self._reconstruct_move(current_move))
	current_move = []
	continue

	current_move.append(token)

	# Check if we have a complete move
	if self._is_complete_move(current_move):
	result.append(self._reconstruct_move(current_move))
	current_move = []

	# Handle remaining tokens
	if current_move:
	result.append(self._reconstruct_move(current_move))

	return " ".join(result)

	def _is_complete_move(self, tokens: List[str]) -> bool:
	"""Check if tokens form a complete move."""
	if len(tokens) < 4:
	return False

	# Basic move: Color + Piece + From + To
	if (tokens[0] in self.COLORS and
	tokens[1] in self.PIECES and
	tokens[2] in self.SQUARES and
	tokens[3] in self.SQUARES):

	if len(tokens) == 4:
	return True

	# Check for modifiers
	remaining = tokens[4:]
	for t in remaining:
	if t in self.COLORS:
	return True
	if t not in self.MODIFIERS and not t.startswith("="):
	return True

	return True

	return False

	def _reconstruct_move(self, tokens: List[str]) -> str:
	"""Reconstruct a move string from component tokens."""
	if not tokens:
	return ""

	if len(tokens) >= 4:
	# Convert [W] -> W and [B] -> B for colors
	color = tokens[0]
	if color in self.COLORS:
	color = color[1]

	move = color + "".join(tokens[1:4])

	# Add modifiers
	suffixes = []
	for t in tokens[4:]:
	if t.startswith("="):
	move += t
	elif t in ["x", "+", "+*", "o", "O"]:
	suffixes.append(t)

	if suffixes:
	move += "(" + "".join(suffixes) + ")"

	return move

	return "".join(tokens)

	def save_vocabulary(
	self,
	save_directory: str,
	filename_prefix: Optional[str] = None,
	) -> Tuple[str]:
	"""
	Save the vocabulary to a file.

	Args:
	save_directory: Directory to save the vocabulary.
	filename_prefix: Optional prefix for the vocabulary file.

	Returns:
	Tuple containing the path to the saved vocabulary file.
	"""
	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,)


	def count_vocab_from_dataset(
	dataset_name: str = "dlouapre/lichess_2025-01_1M",
	split: str = "train",
	column: str = "moves",
	max_samples: Optional[int] = None,
	) -> Dict[str, int]:
	"""
	Count token frequencies in a dataset.

	Note: For decomposed tokenizer, this counts component frequencies
	rather than whole-move frequencies.

	Args:
	dataset_name: Name of the dataset.
	split: Dataset split.
	column: Column with moves.
	max_samples: Max samples to process.

	Returns:
	Dictionary of token frequencies.
	"""
	from collections import Counter
	from datasets import load_dataset

	tokenizer = ChessTokenizer()

	dataset = load_dataset(dataset_name, split=split)
	if max_samples:
	dataset = dataset.select(range(min(max_samples, len(dataset))))

	counts = Counter()
	for example in dataset:
	tokens = tokenizer.tokenize(example[column])
	counts.update(tokens)

	return dict(counts)