{ "data": { "question": { "questionId": "1353", "questionFrontendId": "2273", "boundTopicId": null, "title": "Find Resultant Array After Removing Anagrams", "titleSlug": "find-resultant-array-after-removing-anagrams", "content": "

You are given a 0-indexed string array words, where words[i] consists of lowercase English letters.

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In one operation, select any index i such that 0 < i < words.length and words[i - 1] and words[i] are anagrams, and delete words[i] from words. Keep performing this operation as long as you can select an index that satisfies the conditions.

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Return words after performing all operations. It can be shown that selecting the indices for each operation in any arbitrary order will lead to the same result.

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An Anagram is a word or phrase formed by rearranging the letters of a different word or phrase using all the original letters exactly once. For example, "dacb" is an anagram of "abdc".

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Example 1:

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\nInput: words = ["abba","baba","bbaa","cd","cd"]\nOutput: ["abba","cd"]\nExplanation:\nOne of the ways we can obtain the resultant array is by using the following operations:\n- Since words[2] = "bbaa" and words[1] = "baba" are anagrams, we choose index 2 and delete words[2].\n  Now words = ["abba","baba","cd","cd"].\n- Since words[1] = "baba" and words[0] = "abba" are anagrams, we choose index 1 and delete words[1].\n  Now words = ["abba","cd","cd"].\n- Since words[2] = "cd" and words[1] = "cd" are anagrams, we choose index 2 and delete words[2].\n  Now words = ["abba","cd"].\nWe can no longer perform any operations, so ["abba","cd"] is the final answer.
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Example 2:

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\nInput: words = ["a","b","c","d","e"]\nOutput: ["a","b","c","d","e"]\nExplanation:\nNo two adjacent strings in words are anagrams of each other, so no operations are performed.
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Constraints:

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If they are, then it can be confirmed that words[i] will not be present in the final answer." ], "solution": null, "status": null, "sampleTestCase": "[\"abba\",\"baba\",\"bbaa\",\"cd\",\"cd\"]", "metaData": "{\n \"name\": \"removeAnagrams\",\n \"params\": [\n {\n \"name\": \"words\",\n \"type\": \"string[]\"\n }\n ],\n \"return\": {\n \"type\": \"list\"\n }\n}", "judgerAvailable": true, "judgeType": "large", "mysqlSchemas": [], "enableRunCode": true, "enableTestMode": false, "enableDebugger": true, "envInfo": "{\"cpp\": [\"C++\", \"

Compiled with clang 11 using the latest C++ 20 standard.

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Your code is compiled with level two optimization (-O2). AddressSanitizer is also enabled to help detect out-of-bounds and use-after-free bugs.

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Most standard library headers are already included automatically for your convenience.

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OpenJDK 17. Java 8 features such as lambda expressions and stream API can be used.

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Most standard library headers are already included automatically for your convenience.

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Includes Pair class from https://docs.oracle.com/javase/8/javafx/api/javafx/util/Pair.html.

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Python 2.7.12.

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Most libraries are already imported automatically for your convenience, such as array, bisect, collections. If you need more libraries, you can import it yourself.

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For Map/TreeMap data structure, you may use sortedcontainers library.

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Note that Python 2.7 will not be maintained past 2020. For the latest Python, please choose Python3 instead.

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Compiled with gcc 8.2 using the gnu11 standard.

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Your code is compiled with level one optimization (-O1). AddressSanitizer is also enabled to help detect out-of-bounds and use-after-free bugs.

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Most standard library headers are already included automatically for your convenience.

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For hash table operations, you may use uthash. \\\"uthash.h\\\" is included by default. Below are some examples:

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1. Adding an item to a hash.\\r\\n

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2. Looking up an item in a hash:\\r\\n

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3. Deleting an item in a hash:\\r\\n

\\r\\nvoid delete_user(struct hash_entry *user) {\\r\\n    HASH_DEL(users, user);  \\r\\n}\\r\\n
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C# 10 with .NET 6 runtime

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Node.js 16.13.2.

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Your code is run with --harmony flag, enabling new ES6 features.

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lodash.js library is included by default.

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For Priority Queue / Queue data structures, you may use 5.3.0 version of datastructures-js/priority-queue and 4.2.1 version of datastructures-js/queue.

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Ruby 3.1

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Some common data structure implementations are provided in the Algorithms module: https://www.rubydoc.info/github/kanwei/algorithms/Algorithms

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Swift 5.5.2.

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Go 1.21

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Support https://godoc.org/github.com/emirpasic/gods@v1.18.1 library.

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Python 3.10.

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Most libraries are already imported automatically for your convenience, such as array, bisect, collections. If you need more libraries, you can import it yourself.

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For Map/TreeMap data structure, you may use sortedcontainers library.

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Scala 2.13.7.

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Kotlin 1.9.0.

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Rust 1.58.1

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Supports rand v0.6\\u00a0from crates.io

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PHP 8.1.

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With bcmath module

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TypeScript 5.1.6, Node.js 16.13.2.

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Run with Racket 8.3.

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Dart 2.17.3

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Your code will be run directly without compiling

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