#!/usr/bin/env python3

import collections


DELTAS = [(1, 0), (-1, 0), (0, 1), (0, -1)]
IMPOSSIBLE = -1


def solve(size, start_life, start, goal, stage):
    max_cost = max(max(stage_row) for stage_row in stage)
    # 解説を参考に「枝刈り」
    if start_life >= 2 * size * max_cost:
        return sum(abs(s - g) for s, g in zip(start, goal))
    life = [[0 for _ in range(size)] for _ in range(size)]
    life[start[0]][start[1]] = start_life
    q = collections.deque()
    q.append((0, start_life, start))
    while q:
        dist, life0, (r0, c0) = q.popleft()
        if (r0, c0) == goal:
            return dist
        for dr, dc in DELTAS:
            r, c = r0 + dr, c0 + dc
            if r < 0 or c < 0 or r >= size or c >= size:
                continue
            new_life = life0 - stage[r][c]
            if new_life <= life[r][c]:
                continue
            life[r][c] = new_life
            q.append((dist + 1, new_life, (r, c)))
    return IMPOSSIBLE


def main():
    size, start_life, start_c, start_r, goal_c, goal_r = map(int,
                                                             input().split())
    start = (start_r - 1, start_c - 1)
    goal = (goal_r - 1, goal_c - 1)
    stage = [[int(l) for l in input().split()] for _ in range(size)]
    print(solve(size, start_life, start, goal, stage))


if __name__ == '__main__':
    main()