How do I generate all the submasks for a given mask?
→ Pay attention
→ Streams
→ Top rated
| # | User | Rating |
|---|---|---|
| 1 | tourist | 3985 |
| 2 | jiangly | 3814 |
| 3 | jqdai0815 | 3682 |
| 4 | Benq | 3529 |
| 5 | orzdevinwang | 3526 |
| 6 | ksun48 | 3517 |
| 7 | Radewoosh | 3410 |
| 8 | hos.lyric | 3399 |
| 9 | ecnerwala | 3392 |
| 9 | Um_nik | 3392 |
→ Top contributors
| # | User | Contrib. |
|---|---|---|
| 1 | cry | 169 |
| 2 | maomao90 | 162 |
| 2 | Um_nik | 162 |
| 4 | atcoder_official | 161 |
| 5 | djm03178 | 158 |
| 6 | -is-this-fft- | 157 |
| 7 | adamant | 155 |
| 8 | awoo | 154 |
| 8 | Dominater069 | 154 |
| 10 | luogu_official | 150 |
→ Find user
→ Recent actions
Codeforces (c) Copyright 2010-2024 Mike Mirzayanov
The only programming contests Web 2.0 platform
Server time: Dec/23/2024 00:30:49 (j2).
Desktop version, switch to mobile version.
Supported by
Auto comment: topic has been updated by skpro19 (previous revision, new revision, compare).
The easiest way I know is:
If you want 0 as a submask:
You have to know if we want to do something with the submasks of every mask till 2^N the time complexity will be O(3^N) not O(4^N).
Thanks man! It was really helpful.
Can somebody explain please, why is it 3^n ?
$$$3^n=\sum_{k=0}^{n} \binom{n}{k}2^k$$$ by binomial expansion. $$$2^k$$$ is number of submasks if we have $$$k$$$ ones. $$$\binom{n}{k}$$$ is number of masks with $$$k$$$ ones.
Oh, thanks. Ive just read it here https://cp-algorithms.com/algebra/all-submasks.html :)
Better way to think about it is, if you have N items, then each item being considered is either 1. not in the mask, 2. in the mask but not in the submask, 3. in the submask. So 3^N.
Time complexity = O(3^n) if we are generating all submasks for all 2^n numbers for the n bit number else for a particular number having k out of n bits set complexity is O(2^k)