Description
A certain bug's home is on the x-axis at position x. Help them get there from position 0.
The bug jumps according to the following rules:
- It can jump exactly
apositions forward (to the right). - It can jump exactly
bpositions backward (to the left). - It cannot jump backward twice in a row.
- It cannot jump to any
forbiddenpositions.
The bug may jump forward beyond its home, but it cannot jump to positions numbered with negative integers.
Given an array of integers forbidden, where forbidden[i] means that the bug cannot jump to the position forbidden[i], and integers a, b, and x, return the minimum number of jumps needed for the bug to reach its home. If there is no possible sequence of jumps that lands the bug on position x, return -1.
Β
Example 1:
Input: forbidden = [14,4,18,1,15], a = 3, b = 15, x = 9 Output: 3 Explanation: 3 jumps forward (0 -> 3 -> 6 -> 9) will get the bug home.
Example 2:
Input: forbidden = [8,3,16,6,12,20], a = 15, b = 13, x = 11 Output: -1
Example 3:
Input: forbidden = [1,6,2,14,5,17,4], a = 16, b = 9, x = 7 Output: 2 Explanation: One jump forward (0 -> 16) then one jump backward (16 -> 7) will get the bug home.
Β
Constraints:
1 <= forbidden.length <= 10001 <= a, b, forbidden[i] <= 20000 <= x <= 2000- All the elements in
forbiddenare distinct. - Position
xis not forbidden.
Solution
Python3
class Solution:
def minimumJumps(self, forbidden: List[int], a: int, b: int, x: int) -> int:
f = set(forbidden)
queue = deque([(0, 0, False)])
maxVal = max([x] + forbidden) + a + b
visited = set([0])
while queue:
curr, steps, isBackward = queue.popleft()
if curr == x:
return steps
forward = curr + a
if forward <= maxVal and forward not in f and (forward, False) not in visited:
visited.add((forward, False))
queue.append((forward, steps + 1, False))
backward = curr - b
if not isBackward and backward >= 0 and backward not in f and (backward, True) not in visited:
visited.add((backward, True))
queue.append((backward, steps + 1, True))
return -1