Given a non-negative integer num represented as a string, remove k digits from the number so that the new number is the smallest possible.
Note:
- The length of num is less than 10002 and will be ≥ k.
- The given num does not contain any leading zero.
Example 1:
Input: num = "1432219", k = 3 Output: "1219" Explanation: Remove the three digits 4, 3, and 2 to form the new number 1219 which is the smallest.
Example 2:
Input: num = "10200", k = 1 Output: "200" Explanation: Remove the leading 1 and the number is 200. Note that the output must not contain leading zeroes.
Example 3:
Input: num = "10", k = 2 Output: "0" Explanation: Remove all the digits from the number and it is left with nothing which is 0.
Approach #1: C++. [brute force]
class Solution {
public:
string removeKdigits(string num, int k) {
int len = num.length();
if (len == k) return "0";
int rmd = len - k;
string ans = "";
int idx = 0;
for (int i = 0; i < len; i = idx+1) {
int temp = INT_MAX;
rmd--;
for (int j = i; j < len-rmd; ++j) {
if (num[j]-'0' < temp) {
temp = num[j] - '0';
idx = j;
}
}
ans += to_string(temp);
if (ans.length() == len - k) break;
}
while (ans[0] == '0' && ans.length() > 1)
ans = ans.substr(1);
return ans;
}
};
Time complex: O(n^2)
Approach #2: Java. [stack]
class Solution {
public String removeKdigits(String num, int k) {
int digits = num.length() - k;
char[] stk = new char[num.length()];
int top = 0;
for (int i = 0; i < num.length(); ++i) {
char c = num.charAt(i);
while (top > 0 && stk[top-1] > c && k > 0) {
top--;
k--;
}
stk[top++] = c;
}
int idx = 0;
while (idx < digits && stk[idx] == '0') idx++;
return idx == digits ? "0" : new String(stk, idx, digits-idx);
}
}
Time complex: O(n).