org/study_deck_02/dsa/arrays-hashing/1408-string-matching-in-an-array.org

#+ANKI_DECK: study_deck_02
* TODO 1408. String Matching in an Array :easy:
:PROPERTIES:
:NEETCODE: [[file:../../roadmap.org::*1408. String Matching in an Array][1408. String Matching in an Array]]
:END:

Given an array of string ~words~, return all strings in/ /~words~/ /that are a substring of another word. You can return the answer in *any order*.

*Example 1:*


#+begin_src
Input: words = ["mass","as","hero","superhero"]
Output: ["as","hero"]
Explanation: "as" is substring of "mass" and "hero" is substring of "superhero".
["hero","as"] is also a valid answer.
#+end_src


*Example 2:*


#+begin_src
Input: words = ["leetcode","et","code"]
Output: ["et","code"]
Explanation: "et", "code" are substring of "leetcode".
#+end_src


*Example 3:*


#+begin_src
Input: words = ["blue","green","bu"]
Output: []
Explanation: No string of words is substring of another string.
#+end_src


*Constraints:*

 - ~1 <= words.length <= 100~

 - ~1 <= words[i].length <= 30~

 - ~words[i]~ contains only lowercase English letters.

 - All the strings of ~words~ are *unique*.

** TODO Approach
Write your approach here.

** TODO Python
#+begin_src python
class Solution:
    def stringMatching(self, words: List[str]) -> List[str]:
#+end_src

** TODO C++
#+begin_src cpp
class Solution {
public:
    vector<string> stringMatching(vector<string>& words) {
        
    }
};
#+end_src
upd 2026-06-01 18:12:40 +08:00			`#+ANKI_DECK: study_deck_02`
fix: move #+PROPERTY: STUDY_DECK_02 to top of file 2026-06-01 17:12:10 +08:00			`* TODO 1408. String Matching in an Array :easy:`
Add solution notes scaffold and sub-heading format 2026-06-01 02:33:30 +08:00			`:PROPERTIES:`
feat: populate note files with problem descriptions and code stubs 2026-06-01 17:22:07 +08:00			`:NEETCODE: [[file:../../roadmap.org::*1408. String Matching in an Array][1408. String Matching in an Array]]`
Add solution notes scaffold and sub-heading format 2026-06-01 02:33:30 +08:00			`:END:`

feat: populate note files with problem descriptions and code stubs 2026-06-01 17:22:07 +08:00			`Given an array of string ~words~, return all strings in/ /~words~/ /that are a substring of another word. You can return the answer in any order.`

			`Example 1:`


			`#+begin_src`
			`Input: words = ["mass","as","hero","superhero"]`
			`Output: ["as","hero"]`
			`Explanation: "as" is substring of "mass" and "hero" is substring of "superhero".`
			`["hero","as"] is also a valid answer.`
			`#+end_src`


			`Example 2:`


			`#+begin_src`
			`Input: words = ["leetcode","et","code"]`
			`Output: ["et","code"]`
			`Explanation: "et", "code" are substring of "leetcode".`
			`#+end_src`


			`Example 3:`


			`#+begin_src`
			`Input: words = ["blue","green","bu"]`
			`Output: []`
			`Explanation: No string of words is substring of another string.`
			`#+end_src`


			`Constraints:`

			`- ~1 <= words.length <= 100~`

			`- ~1 <= words[i].length <= 30~`

			`- ~words[i]~ contains only lowercase English letters.`

			`- All the strings of ~words~ are unique.`

Add TODO checkboxes to Python/C++ sub-headings 2026-06-01 02:39:53 +08:00			`** TODO Approach`
			`Write your approach here.`

			`** TODO Python`
			`#+begin_src python`
feat: populate note files with problem descriptions and code stubs 2026-06-01 17:22:07 +08:00			`class Solution:`
			`def stringMatching(self, words: List[str]) -> List[str]:`
Add TODO checkboxes to Python/C++ sub-headings 2026-06-01 02:39:53 +08:00			`#+end_src`

			`** TODO C++`
Add solution notes scaffold and sub-heading format 2026-06-01 02:33:30 +08:00			`#+begin_src cpp`
feat: populate note files with problem descriptions and code stubs 2026-06-01 17:22:07 +08:00			`class Solution {`
			`public:`
			`vector<string> stringMatching(vector<string>& words) {`

			`}`
			`};`
Add solution notes scaffold and sub-heading format 2026-06-01 02:33:30 +08:00			`#+end_src`