reasoning-gym/reasoning_gym/algorithmic/spiral_matrix.py

"""Print elements of a matrix in spiral order.

A popular Leetcode problem:
https://leetcode.com/problems/spiral-matrix/description/
"""

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

from ..factory import ProceduralDataset, register_dataset

QUESTION_TEMPLATE = """Given a matrix, your job is to generate a list of elements in spiral order, starting from the top-left element.

Example:
- Input: For the matrix below, what is the list of elements in spiral order?
1 2 3
4 5 6
7 8 9
- Output: 1 2 3 6 9 8 7 4 5
- Explanation:
    - We start from the top-left element (1) and move right until we reach the end of the row: 1 2 3
    - Then, we move down until we reach the last column: 1 2 3 6 9
    - Next, we move left until we reach the first column: 1 2 3 6 9 8 7
    - Then, we move up until we reach the second row (i.e. one below the previously traversed row): 1 2 3 6 9 8 7 4
    - Finally, we move right until we reach the second to last column: 1 2 3 6 9 8 7 4 5
    - The output format is a space-separated list of elements in spiral order (as opposed to a python list)

For the matrix below, what is the list of elements in spiral order?
{matrix}
"""


@dataclass
class SpiralMatrixConfig:
    """Configuration for Spiral Matrix dataset generation"""

    max_n: int = 10  # Maximum number of rows/cols in the matrix

    size: int = 500  # Virtual dataset size
    seed: Optional[int] = None

    def validate(self):
        """Validate configuration parameters"""
        assert 2 <= self.max_n, "max_n must be at least 2"


class SpiralMatrixDataset(ProceduralDataset):
    """Generates Spiral Matrix exercises with configurable difficulty"""

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

    def _get_matrix(self, rng: Random) -> list[list[int]]:
        """Generate a random matrix"""
        n = rng.randint(2, self.config.max_n)
        numbers = [rng.randint(0, 9) for _ in range(n**2)]
        rng.shuffle(numbers)
        matrix = [numbers[i * n : (i + 1) * n] for i in range(n)]
        return matrix

    def _get_spiral(self, matrix: list[list[int]]) -> list[int]:
        """Return the elements of the matrix in spiral order"""
        t, b = 0, len(matrix)
        l, r = 0, len(matrix[0])

        out = []

        while True:
            for i in range(l, r):
                out.append(matrix[t][i])
            t += 1
            if t == b:
                break

            for i in range(t, b):
                out.append(matrix[i][r - 1])
            r -= 1
            if l == r:
                break

            for i in range(r - 1, l - 1, -1):
                out.append(matrix[b - 1][i])
            b -= 1
            if t == b:
                break

            for i in range(b - 1, t - 1, -1):
                out.append(matrix[i][l])
            l += 1
            if l == r:
                break

        return out

    def _matrix_to_str(self, matrix: list[list[int]]) -> str:
        """Get a string representation of the matrix"""
        return "\n".join(" ".join(str(x) for x in row) for row in matrix)

    def _list_to_str(self, array: list[int]) -> str:
        """Get a string representation of the array"""
        return " ".join(str(x) for x in array)

    def __getitem__(self, idx: int) -> dict:
        """Generate a single Spiral Matrix question"""
        rng = Random(self.seed + idx)

        matrix = self._get_matrix(rng)
        matrix_str = self._matrix_to_str(matrix)
        answer = self._get_spiral(matrix)
        answer_str = self._list_to_str(answer)

        return {
            "question": QUESTION_TEMPLATE.format(matrix=matrix_str),
            "answer": answer_str,
            "metadata": {"matrix": matrix, "solution": answer},
        }

    def score_answer(self, answer: Optional[str], entry: Dict[str, any]) -> float:
        """Overwrite this method in derived classes if a single oracle answer is not available."""
        oracle_answer = entry["answer"].strip()

        if answer is not None and len(answer) > 0:
            answer = answer.strip()

            # Exact match
            if answer == oracle_answer:
                return 1.0

            # Try to see if the model's answer is a python list
            try:
                answer = " ".join(str(item) for item in eval(answer))
                if answer == oracle_answer:
                    return 0.5
                else:
                    return 0.01
            except Exception as e:
                return 0.01

        return 0.0


register_dataset("spiral_matrix", SpiralMatrixDataset, SpiralMatrixConfig)