# Space-efficient algorithm for checking if strings with backspaces are equal?

I was recently asked this question in an interview:

Given two strings s and t, return if they are equal when both are typed into empty text editors. # means a backspace character.

``````Input: S = "ab#c", T = "ad#c"
Output: true
Explanation: Both S and T become "ac".
``````

I came up with below solution but it is not space efficient:

``````  public static boolean sol(String s, String t) {
return helper(s).equals(helper(t));
}

public static String helper(String s) {
Stack<Character> stack = new Stack<>();
for (char c : s.toCharArray()) {
if (c != '#')
stack.push(c);
else if (!stack.empty())
stack.pop();
}
return String.valueOf(stack);
}
``````

I wanted to see if there is any better way to solve this problem which doesn't use stack. I mean can we solve it in O(1) space complexity?

Note: we could have multiple backspace characters in as well.

• Are you looking for # or a backspace character? Commented Jun 15, 2019 at 23:47
• Look at my example in the above question, you will understand. It's a backspace character. Commented Jun 15, 2019 at 23:47
• I imagine a regex could remove any character immediately preceding the # Commented Jun 15, 2019 at 23:49
• You don't need any extra storage at all to do this. Just the two original strings. Commented Jun 16, 2019 at 0:27
• Possible duplicate of Scala String Equality Question from Programming Interview Commented Jun 17, 2019 at 15:00

In order to achieve `O(1)` space complexity, use Two Pointers and start from the end of the string:

``````public static boolean sol(String s, String t) {
int i = s.length() - 1;
int j = t.length() - 1;
while (i >= 0 || j >= 0) {
i = consume(s, i);
j = consume(t, j);
if (i >= 0 && j >= 0 && s.charAt(i) == t.charAt(j)) {
i--;
j--;
} else {
return i == -1 && j == -1;
}
}
return true;
}
``````

The main idea is to maintain the `#` counter: increment `cnt` if character is `#`, otherwise decrement it. And if `cnt > 0` and `s.charAt(pos) != '#'` - skip the character (decrement position):

``````private static int consume(String s, int pos) {
int cnt = 0;
while (pos >= 0 && (s.charAt(pos) == '#' || cnt > 0)) {
cnt += (s.charAt(pos) == '#') ? +1 : -1;
pos--;
}
return pos;
}
``````

Time complexity: `O(n)`.

Source 1, Source 2.

• Do you know the time complexity of this? My hunch is that while there are two loops now, it is still bounded by the number of backspaces, which in turn is bounded by the combined length of the strings (i.e. linear). Commented Jun 16, 2019 at 2:48
• @Thilo You are right! The time complexity is `O(n)`: the outer `while` loop just passes the responsibility to the inner loop from time to time. Commented Jun 16, 2019 at 9:36
• sol("", "a") will return true in this code. Perhaps ok for an interview. Not ok for a correct solution. Commented Oct 29, 2021 at 0:19

Corrected pseudocode of templatetypedef

``````// Index of next spot to read from each string
let sIndex = s.length() - 1
let tIndex = t.length() - 1
let sSkip = 0
let tSkip = 0

while sIndex >= 0 and tIndex >= 0:
if s[sIndex] = #:
sIndex = sIndex - 1
sSkip = sSkip + 1
continue
else if sSkip > 0
sIndex = sIndex - 1
sSkip = sSkip - 1
continue

// Do the same thing for t.
if t[tIndex] = #:
tIndex = tIndex - 1
tSkip = tSkip + 1
continue
else if tSkip > 0
tIndex = tIndex - 1
tSkip = tSkip - 1
continue

// Compare characters.
if s[sIndex] != t[tIndex], return false

// Back up to the next character
sIndex = sIndex - 1
tIndex = tIndex - 1

// The strings match if we’ve exhausted all characters.
return sIndex < 0 and tIndex < 0
``````