You are given two strings start
and target
, both of length n
. Each string consists only of the characters 'L'
, 'R'
, and '_'
where:
- The characters
'L'
and'R'
represent pieces, where a piece'L'
can move to the left only if there is a blank space directly to its left, and a piece'R'
can move to the right only if there is a blank space directly to its right. - The character
'_'
represents a blank space that can be occupied by any of the'L'
or'R'
pieces.
Return true
if it is possible to obtain the string target
by moving the pieces of the string start
any number of times. Otherwise, return false
.
Input: start = "_L__R__R_", target = "L______RR" Output: true Explanation: We can obtain the string target from start by doing the following moves: - Move the first piece one step to the left, start becomes equal to "L___R__R_". - Move the last piece one step to the right, start becomes equal to "L___R___R". - Move the second piece three steps to the right, start becomes equal to "L______RR". Since it is possible to get the string target from start, we return true.
Input: start = "R_L_", target = "__LR" Output: false Explanation: The 'R' piece in the string start can move one step to the right to obtain "_RL_". After that, no pieces can move anymore, so it is impossible to obtain the string target from start.
Input: start = "_R", target = "R_" Output: false Explanation: The piece in the string start can move only to the right, so it is impossible to obtain the string target from start.
n == start.length == target.length
1 <= n <= 105
start
andtarget
consist of the characters'L'
,'R'
, and'_'
.
impl Solution {
pub fn can_change(start: String, target: String) -> bool {
let mut start_pieces = start
.chars()
.enumerate()
.filter(|(_, c)| *c != '_')
.collect::<Vec<_>>();
let mut target_pieces = target
.chars()
.enumerate()
.filter(|(_, c)| *c != '_')
.collect::<Vec<_>>();
if start_pieces.len() != target_pieces.len() {
return false;
}
for i in 0..start_pieces.len() {
match (start_pieces[i], target_pieces[i]) {
((j, 'L'), (k, 'L')) if j >= k => (),
((j, 'R'), (k, 'R')) if j <= k => (),
_ => return false,
}
}
true
}
}