You are playing a simplified Pacman game. You start at the point (0, 0), and your destination is (target[0], target[1]). There are several ghosts on the map, the i-th ghost starts at (ghosts[i][0], ghosts[i][1]).
Each turn, you and all ghosts simultaneously may move in one of 4 cardinal directions: north, east, west, or south, going from the previous point to a new point 1 unit of distance away.
You escape if and only if you can reach the target before any ghost reaches you (for any given moves the ghosts may take.) If you reach any square (including the target) at the same time as a ghost, it doesn't count as an escape.
Return True if and only if it is possible to escape.
Input: ghosts = [[1, 0], [0, 3]] target = [0, 1] Output: true Explanation: You can directly reach the destination (0, 1) at time 1, while the ghosts located at (1, 0) or (0, 3) have no way to catch up with you.
Input: ghosts = [[1, 0]] target = [2, 0] Output: false Explanation: You need to reach the destination (2, 0), but the ghost at (1, 0) lies between you and the destination.
Input: ghosts = [[2, 0]] target = [1, 0] Output: false Explanation: The ghost can reach the target at the same time as you.
- All points have coordinates with absolute value <=
10000. - The number of ghosts will not exceed
100.
# @param {Integer[][]} ghosts
# @param {Integer[]} target
# @return {Boolean}
def escape_ghosts(ghosts, target)
min_distance = 20001
ghosts.each do |ghost|
distance = (ghost[0] - target[0]).abs + (ghost[1] - target[1]).abs
min_distance = distance if distance < min_distance
end
return min_distance > target[0].abs + target[1].abs
endimpl Solution {
pub fn escape_ghosts(ghosts: Vec<Vec<i32>>, target: Vec<i32>) -> bool {
ghosts
.iter()
.map(|v| (v[0] - target[0]).abs() + (v[1] - target[1]).abs())
.min()
.unwrap_or(20001)
> (target[0].abs() + target[1].abs())
}
}