reasoning-gym/reasoning_gym/algorithmic/letter_jumble.py

"""Word letter jumbling task generator"""

import re
from dataclasses import dataclass
from random import Random
from typing import Dict, Optional

from reasoning_gym.data import read_data_file

from ..factory import ProceduralDataset, register_dataset


@dataclass
class LetterJumbleConfig:
    """Configuration for letter jumbling task generation"""

    min_word_len: int = 1  # Minimum word length
    max_word_len: int = 64  # Maximum word length
    min_words: int = 3  # Minimum words per task
    max_words: int = 20  # Maximum words per task
    min_corruption_level: float = 0.1  # Minimum fraction of characters to swap
    max_corruption_level: float = 0.9  # Maximum fraction of characters to swap
    consecutive_words: bool = True  # Whether to select consecutive words from text
    seed: Optional[int] = None
    size: int = 500  # Virtual dataset size

    def validate(self) -> None:
        """Validate configuration parameters"""
        assert self.min_word_len > 0, "min_word_len must be positive"
        assert self.max_word_len >= self.min_word_len, "max_word_len must be >= min_word_len"
        assert self.min_words > 0, "min_words must be positive"
        assert self.max_words >= self.min_words, "max_words must be >= min_words"
        assert 0 <= self.min_corruption_level <= 1, "min_corruption_level must be in [0,1]"
        assert 0 <= self.max_corruption_level <= 1, "max_corruption_level must be in [0,1]"
        assert (
            self.max_corruption_level >= self.min_corruption_level
        ), "max_corruption_level must be >= min_corruption_level"


class LetterJumbleDataset(ProceduralDataset):
    """Generates word letter jumbling tasks"""

    def __init__(self, config: LetterJumbleConfig):
        super().__init__(config=config, seed=config.seed, size=config.size)

        # Load and preprocess text
        text = read_data_file("in_the_year_2889.txt")
        # Extract words and filter by length
        self.words = [
            word
            for word in re.findall(r"\b\w+\b", text)
            if self.config.min_word_len <= len(word) <= self.config.max_word_len and word.isalpha()
        ]

    def _scramble_word(self, word: str, corruption_level: float, rng: Random) -> str:
        """Scramble a word by swapping random pairs of characters"""
        if len(word) < 2:  # Can't scramble 1-character words
            return word

        word = list(word)
        num_swaps = max(1, int(len(word) * corruption_level))  # Ensure at least one swap

        for _ in range(num_swaps):
            # Pick two different random positions
            pos1, pos2 = rng.sample(range(len(word)), 2)
            # Swap characters
            word[pos1], word[pos2] = word[pos2], word[pos1]

        return "".join(word)

    def __getitem__(self, idx: int) -> dict:
        """Generate a single word jumbling task"""
        rng = Random(self.seed + idx)

        # Select number of words and corruption level
        num_words = rng.randint(self.config.min_words, self.config.max_words)
        corruption_level = rng.uniform(self.config.min_corruption_level, self.config.max_corruption_level)

        # Select words based on configuration
        if self.config.consecutive_words:
            # Select consecutive words from a random starting position
            start_idx = rng.randint(0, len(self.words) - num_words)
            selected_words = self.words[start_idx : start_idx + num_words]
        else:
            # Select random words
            selected_words = rng.sample(self.words, num_words)

        # Scramble each word
        scrambled_words = [self._scramble_word(word, corruption_level, rng) for word in selected_words]

        return {
            "question": f"Unscramble these words: {' '.join(scrambled_words)}",
            "answer": " ".join(selected_words),
            "metadata": {
                "num_words": num_words,
                "corruption_level": corruption_level,
                "scrambled_words": scrambled_words,
                "original_words": selected_words,
            },
        }

    def score_answer(self, answer: Optional[str], entry: Dict[str, any]) -> float:
        """Determine if the solution provided solves this task.

        The function awards 1.0 for a correct answer.

        Args:
            answer (Optional[str]): The user's answer.
            entry (Dict[str, any]): The original dataset entry containing the correct answer.

        Returns:
            float: The computed score between 0.0 and 1.0.
        """

        if answer == None:
            return 0.0

        s_answer = answer.strip().lower()
        if not s_answer == entry["answer"].strip().lower():
            return 0.01
        else:
            return 1.0


register_dataset("letter_jumble", LetterJumbleDataset, LetterJumbleConfig)