[LeetCode] 787. Cheapest Flights Within K Stops_Medium tag: Dynamic Programming, BFS, Heap

时间:2023-03-10 03:08:36
[LeetCode] 787. Cheapest Flights Within K Stops_Medium tag: Dynamic Programming, BFS, Heap

There are n cities connected by m flights. Each fight starts from city and arrives at v with a price w.

Now given all the cities and fights, together with starting city src and the destination dst, your task is to find the cheapest price from src to dst with up to k stops. If there is no such route, output -1.

Example 1:
Input:
n = 3, edges = [[0,1,100],[1,2,100],[0,2,500]]
src = 0, dst = 2, k = 1
Output: 200
Explanation:
The graph looks like this:

[LeetCode] 787. Cheapest Flights Within K Stops_Medium tag: Dynamic Programming, BFS, Heap

The cheapest price from city 0 to city 2 with at most 1 stop costs 200, as marked red in the picture.
Example 2:
Input:
n = 3, edges = [[0,1,100],[1,2,100],[0,2,500]]
src = 0, dst = 2, k = 0
Output: 500
Explanation:
The graph looks like this:

[LeetCode] 787. Cheapest Flights Within K Stops_Medium tag: Dynamic Programming, BFS, Heap

The cheapest price from city 0 to city 2 with at most 0 stop costs 500, as marked blue in the picture.

Note:

  • The number of nodes n will be in range [1, 100], with nodes labeled from 0 to n - 1.
  • The size of flights will be in range [0, n * (n - 1) / 2].
  • The format of each flight will be (src, dst, price).
  • The price of each flight will be in the range [1, 10000].
  • k is in the range of [0, n - 1].
  • There will not be any duplicated flights or self cycles.

这个题目有点类似于[Leetcode] 863. All Nodes Distance K in Binary Tree_ Medium tag: BFS, Amazon, 所以我用BFS, 只是不将dst add进入visited里面, 然后利用 stops <K来做一个

避免太多判断, 但是并不能pass所有的test cases, 我想可能是因为有些node需要重复利用, 因此就将visited去掉, 但是利用stops <K 和 psum <= ans 来避免过多的重复遍历某些不需要的值.

1. Constraints

1) 题目的Note解释很清楚, 基本没有特殊的test case, 但是没提到src == dst, 所以加上这个edge case

2. Ideas

BFS     时间复杂度还真的不好说...

3. Code

class Solution:
def cheapestFlight(self, n, flights, src, dst, K):
if src == dst: return 0
queue, graph, prices, ans = collections.deque([(src, -1, 0)]), collections.defaultdict(set), collections.Counter(), None
for s, e, p in flights:
graph[s].add(e)
prices[(s,e)] = p
while queue:
node, stops, psum = queue.popleft()
if stops <= K and (not ans or psum < ans):
if node == dst:
ans = psum
for each in graph[node]:
queue.append((each, stops + 1, psum + prices[(node, each)]))
return ans if ans else -1