{ "data": { "question": { "questionId": "385", "questionFrontendId": "385", "boundTopicId": null, "title": "Mini Parser", "titleSlug": "mini-parser", "content": "

Given a string s represents the serialization of a nested list, implement a parser to deserialize it and return the deserialized NestedInteger.

\n\n

Each element is either an integer or a list whose elements may also be integers or other lists.

\n\n

 

\n

Example 1:

\n\n
\nInput: s = "324"\nOutput: 324\nExplanation: You should return a NestedInteger object which contains a single integer 324.\n
\n\n

Example 2:

\n\n
\nInput: s = "[123,[456,[789]]]"\nOutput: [123,[456,[789]]]\nExplanation: Return a NestedInteger object containing a nested list with 2 elements:\n1. An integer containing value 123.\n2. A nested list containing two elements:\n    i.  An integer containing value 456.\n    ii. A nested list with one element:\n         a. An integer containing value 789\n
\n\n

 

\n

Constraints:

\n\n\n", "translatedTitle": null, "translatedContent": null, "isPaidOnly": false, "difficulty": "Medium", "likes": 357, "dislikes": 1116, "isLiked": null, "similarQuestions": "[{\"title\": \"Flatten Nested List Iterator\", \"titleSlug\": \"flatten-nested-list-iterator\", \"difficulty\": \"Medium\", \"translatedTitle\": null}, {\"title\": \"Ternary Expression Parser\", \"titleSlug\": \"ternary-expression-parser\", \"difficulty\": \"Medium\", \"translatedTitle\": null}, {\"title\": \"Remove Comments\", \"titleSlug\": \"remove-comments\", \"difficulty\": \"Medium\", \"translatedTitle\": null}]", "exampleTestcases": "\"324\"\n\"[123,[456,[789]]]\"", "categoryTitle": "Algorithms", "contributors": [], "topicTags": [ { "name": "String", "slug": "string", "translatedName": null, "__typename": "TopicTagNode" }, { "name": "Stack", "slug": "stack", "translatedName": null, "__typename": "TopicTagNode" }, { "name": "Depth-First Search", "slug": "depth-first-search", "translatedName": null, "__typename": "TopicTagNode" } ], "companyTagStats": null, "codeSnippets": [ { "lang": "C++", "langSlug": "cpp", "code": "/**\n * // This is the interface that allows for creating nested lists.\n * // You should not implement it, or speculate about its implementation\n * class NestedInteger {\n * public:\n * // Constructor initializes an empty nested list.\n * NestedInteger();\n *\n * // Constructor initializes a single integer.\n * NestedInteger(int value);\n *\n * // Return true if this NestedInteger holds a single integer, rather than a nested list.\n * bool isInteger() const;\n *\n * // Return the single integer that this NestedInteger holds, if it holds a single integer\n * // The result is undefined if this NestedInteger holds a nested list\n * int getInteger() const;\n *\n * // Set this NestedInteger to hold a single integer.\n * void setInteger(int value);\n *\n * // Set this NestedInteger to hold a nested list and adds a nested integer to it.\n * void add(const NestedInteger &ni);\n *\n * // Return the nested list that this NestedInteger holds, if it holds a nested list\n * // The result is undefined if this NestedInteger holds a single integer\n * const vector &getList() const;\n * };\n */\nclass Solution {\npublic:\n NestedInteger deserialize(string s) {\n \n }\n};", "__typename": "CodeSnippetNode" }, { "lang": "Java", "langSlug": "java", "code": "/**\n * // This is the interface that allows for creating nested lists.\n * // You should not implement it, or speculate about its implementation\n * public interface NestedInteger {\n * // Constructor initializes an empty nested list.\n * public NestedInteger();\n *\n * // Constructor initializes a single integer.\n * public NestedInteger(int value);\n *\n * // @return true if this NestedInteger holds a single integer, rather than a nested list.\n * public boolean isInteger();\n *\n * // @return the single integer that this NestedInteger holds, if it holds a single integer\n * // Return null if this NestedInteger holds a nested list\n * public Integer getInteger();\n *\n * // Set this NestedInteger to hold a single integer.\n * public void setInteger(int value);\n *\n * // Set this NestedInteger to hold a nested list and adds a nested integer to it.\n * public void add(NestedInteger ni);\n *\n * // @return the nested list that this NestedInteger holds, if it holds a nested list\n * // Return empty list if this NestedInteger holds a single integer\n * public List getList();\n * }\n */\nclass Solution {\n public NestedInteger deserialize(String s) {\n \n }\n}", "__typename": "CodeSnippetNode" }, { "lang": "Python", "langSlug": "python", "code": "# \"\"\"\n# This is the interface that allows for creating nested lists.\n# You should not implement it, or speculate about its implementation\n# \"\"\"\n#class NestedInteger(object):\n# def __init__(self, value=None):\n# \"\"\"\n# If value is not specified, initializes an empty list.\n# Otherwise initializes a single integer equal to value.\n# \"\"\"\n#\n# def isInteger(self):\n# \"\"\"\n# @return True if this NestedInteger holds a single integer, rather than a nested list.\n# :rtype bool\n# \"\"\"\n#\n# def add(self, elem):\n# \"\"\"\n# Set this NestedInteger to hold a nested list and adds a nested integer elem to it.\n# :rtype void\n# \"\"\"\n#\n# def setInteger(self, value):\n# \"\"\"\n# Set this NestedInteger to hold a single integer equal to value.\n# :rtype void\n# \"\"\"\n#\n# def getInteger(self):\n# \"\"\"\n# @return the single integer that this NestedInteger holds, if it holds a single integer\n# Return None if this NestedInteger holds a nested list\n# :rtype int\n# \"\"\"\n#\n# def getList(self):\n# \"\"\"\n# @return the nested list that this NestedInteger holds, if it holds a nested list\n# Return None if this NestedInteger holds a single integer\n# :rtype List[NestedInteger]\n# \"\"\"\n\nclass Solution(object):\n def deserialize(self, s):\n \"\"\"\n :type s: str\n :rtype: NestedInteger\n \"\"\"\n ", "__typename": "CodeSnippetNode" }, { "lang": "Python3", "langSlug": "python3", "code": "# \"\"\"\n# This is the interface that allows for creating nested lists.\n# You should not implement it, or speculate about its implementation\n# \"\"\"\n#class NestedInteger:\n# def __init__(self, value=None):\n# \"\"\"\n# If value is not specified, initializes an empty list.\n# Otherwise initializes a single integer equal to value.\n# \"\"\"\n#\n# def isInteger(self):\n# \"\"\"\n# @return True if this NestedInteger holds a single integer, rather than a nested list.\n# :rtype bool\n# \"\"\"\n#\n# def add(self, elem):\n# \"\"\"\n# Set this NestedInteger to hold a nested list and adds a nested integer elem to it.\n# :rtype void\n# \"\"\"\n#\n# def setInteger(self, value):\n# \"\"\"\n# Set this NestedInteger to hold a single integer equal to value.\n# :rtype void\n# \"\"\"\n#\n# def getInteger(self):\n# \"\"\"\n# @return the single integer that this NestedInteger holds, if it holds a single integer\n# Return None if this NestedInteger holds a nested list\n# :rtype int\n# \"\"\"\n#\n# def getList(self):\n# \"\"\"\n# @return the nested list that this NestedInteger holds, if it holds a nested list\n# Return None if this NestedInteger holds a single integer\n# :rtype List[NestedInteger]\n# \"\"\"\n\nclass Solution:\n def deserialize(self, s: str) -> NestedInteger:\n ", "__typename": "CodeSnippetNode" }, { "lang": "C", "langSlug": "c", "code": "/**\n * *********************************************************************\n * // This is the interface that allows for creating nested lists.\n * // You should not implement it, or speculate about its implementation\n * *********************************************************************\n *\n * // Initializes an empty nested list and return a reference to the nested integer.\n * struct NestedInteger *NestedIntegerInit();\n *\n * // Return true if this NestedInteger holds a single integer, rather than a nested list.\n * bool NestedIntegerIsInteger(struct NestedInteger *);\n *\n * // Return the single integer that this NestedInteger holds, if it holds a single integer\n * // The result is undefined if this NestedInteger holds a nested list\n * int NestedIntegerGetInteger(struct NestedInteger *);\n *\n * // Set this NestedInteger to hold a single integer.\n * void NestedIntegerSetInteger(struct NestedInteger *ni, int value);\n *\n * // Set this NestedInteger to hold a nested list and adds a nested integer elem to it.\n * void NestedIntegerAdd(struct NestedInteger *ni, struct NestedInteger *elem);\n *\n * // Return the nested list that this NestedInteger holds, if it holds a nested list\n * // The result is undefined if this NestedInteger holds a single integer\n * struct NestedInteger **NestedIntegerGetList(struct NestedInteger *);\n *\n * // Return the nested list's size that this NestedInteger holds, if it holds a nested list\n * // The result is undefined if this NestedInteger holds a single integer\n * int NestedIntegerGetListSize(struct NestedInteger *);\n * };\n */\n\n\nstruct NestedInteger* deserialize(char * s){\n\n}", "__typename": "CodeSnippetNode" }, { "lang": "C#", "langSlug": "csharp", "code": "/**\n * // This is the interface that allows for creating nested lists.\n * // You should not implement it, or speculate about its implementation\n * interface NestedInteger {\n *\n * // Constructor initializes an empty nested list.\n * public NestedInteger();\n *\n * // Constructor initializes a single integer.\n * public NestedInteger(int value);\n *\n * // @return true if this NestedInteger holds a single integer, rather than a nested list.\n * bool IsInteger();\n *\n * // @return the single integer that this NestedInteger holds, if it holds a single integer\n * // Return null if this NestedInteger holds a nested list\n * int GetInteger();\n *\n * // Set this NestedInteger to hold a single integer.\n * public void SetInteger(int value);\n *\n * // Set this NestedInteger to hold a nested list and adds a nested integer to it.\n * public void Add(NestedInteger ni);\n *\n * // @return the nested list that this NestedInteger holds, if it holds a nested list\n * // Return null if this NestedInteger holds a single integer\n * IList GetList();\n * }\n */\npublic class Solution {\n public NestedInteger Deserialize(string s) {\n \n }\n}", "__typename": "CodeSnippetNode" }, { "lang": "JavaScript", "langSlug": "javascript", "code": "/**\n * // This is the interface that allows for creating nested lists.\n * // You should not implement it, or speculate about its implementation\n * function NestedInteger() {\n *\n * Return true if this NestedInteger holds a single integer, rather than a nested list.\n * @return {boolean}\n * this.isInteger = function() {\n * ...\n * };\n *\n * Return the single integer that this NestedInteger holds, if it holds a single integer\n * Return null if this NestedInteger holds a nested list\n * @return {integer}\n * this.getInteger = function() {\n * ...\n * };\n *\n * Set this NestedInteger to hold a single integer equal to value.\n * @return {void}\n * this.setInteger = function(value) {\n * ...\n * };\n *\n * Set this NestedInteger to hold a nested list and adds a nested integer elem to it.\n * @return {void}\n * this.add = function(elem) {\n * ...\n * };\n *\n * Return the nested list that this NestedInteger holds, if it holds a nested list\n * Return null if this NestedInteger holds a single integer\n * @return {NestedInteger[]}\n * this.getList = function() {\n * ...\n * };\n * };\n */\n/**\n * @param {string} s\n * @return {NestedInteger}\n */\nvar deserialize = function(s) {\n \n};", "__typename": "CodeSnippetNode" }, { "lang": "Ruby", "langSlug": "ruby", "code": "# This is the interface that allows for creating nested lists.\n# You should not implement it, or speculate about its implementation\n#\n#class NestedInteger\n# def is_integer()\n# \"\"\"\n# Return true if this NestedInteger holds a single integer, rather than a nested list.\n# @return {Boolean}\n# \"\"\"\n#\n# def get_integer()\n# \"\"\"\n# Return the single integer that this NestedInteger holds, if it holds a single integer\n# Return nil if this NestedInteger holds a nested list\n# @return {Integer}\n# \"\"\"\n#\n# def set_integer(value)\n# \"\"\"\n# Set this NestedInteger to hold a single integer equal to value.\n# @return {Void}\n# \"\"\"\n#\n# def add(elem)\n# \"\"\"\n# Set this NestedInteger to hold a nested list and adds a nested integer elem to it.\n# @return {Void}\n# \"\"\"\n#\n# def get_list()\n# \"\"\"\n# Return the nested list that this NestedInteger holds, if it holds a nested list\n# Return nil if this NestedInteger holds a single integer\n# @return {NestedInteger[]}\n# \"\"\"\n\n# @param {String} s\n# @return {NestedInteger}\ndef deserialize(s)\n \nend", "__typename": "CodeSnippetNode" }, { "lang": "Swift", "langSlug": "swift", "code": "/**\n * // This is the interface that allows for creating nested lists.\n * // You should not implement it, or speculate about its implementation\n * class NestedInteger {\n * // Return true if this NestedInteger holds a single integer, rather than a nested list.\n * public func isInteger() -> Bool\n *\n * // Return the single integer that this NestedInteger holds, if it holds a single integer\n * // The result is undefined if this NestedInteger holds a nested list\n * public func getInteger() -> Int\n *\n * // Set this NestedInteger to hold a single integer.\n * public func setInteger(value: Int)\n *\n * // Set this NestedInteger to hold a nested list and adds a nested integer to it.\n * public func add(elem: NestedInteger)\n *\n * // Return the nested list that this NestedInteger holds, if it holds a nested list\n * // The result is undefined if this NestedInteger holds a single integer\n * public func getList() -> [NestedInteger]\n * }\n */\nclass Solution {\n func deserialize(_ s: String) -> NestedInteger {\n \n }\n}", "__typename": "CodeSnippetNode" }, { "lang": "Go", "langSlug": "golang", "code": "/**\n * // This is the interface that allows for creating nested lists.\n * // You should not implement it, or speculate about its implementation\n * type NestedInteger struct {\n * }\n *\n * // Return true if this NestedInteger holds a single integer, rather than a nested list.\n * func (n NestedInteger) IsInteger() bool {}\n *\n * // Return the single integer that this NestedInteger holds, if it holds a single integer\n * // The result is undefined if this NestedInteger holds a nested list\n * // So before calling this method, you should have a check\n * func (n NestedInteger) GetInteger() int {}\n *\n * // Set this NestedInteger to hold a single integer.\n * func (n *NestedInteger) SetInteger(value int) {}\n *\n * // Set this NestedInteger to hold a nested list and adds a nested integer to it.\n * func (n *NestedInteger) Add(elem NestedInteger) {}\n *\n * // Return the nested list that this NestedInteger holds, if it holds a nested list\n * // The list length is zero if this NestedInteger holds a single integer\n * // You can access NestedInteger's List element directly if you want to modify it\n * func (n NestedInteger) GetList() []*NestedInteger {}\n */\nfunc deserialize(s string) *NestedInteger {\n \n}", "__typename": "CodeSnippetNode" }, { "lang": "Scala", "langSlug": "scala", "code": "/**\n * // This is the interface that allows for creating nested lists.\n * // You should not implement it, or speculate about its implementation\n * trait NestedInteger {\n *\n * // Return true if this NestedInteger holds a single integer, rather than a nested list.\n * def isInteger: Boolean\n *\n * // Return the single integer that this NestedInteger holds, if it holds a single integer.\n * def getInteger: Int\n *\n * // Set this NestedInteger to hold a single integer.\n * def setInteger(i: Int): Unit\n *\n * // Return the nested list that this NestedInteger holds, if it holds a nested list.\n * def getList: Array[NestedInteger]\n *\n * // Set this NestedInteger to hold a nested list and adds a nested integer to it.\n * def add(ni: NestedInteger): Unit\n * }\n */\nobject Solution {\n def deserialize(s: String): NestedInteger = {\n \n }\n}", "__typename": "CodeSnippetNode" }, { "lang": "Kotlin", "langSlug": "kotlin", "code": "/**\n * // This is the interface that allows for creating nested lists.\n * // You should not implement it, or speculate about its implementation\n * class NestedInteger {\n * // Constructor initializes an empty nested list.\n * constructor()\n *\n * // Constructor initializes a single integer.\n * constructor(value: Int)\n *\n * // @return true if this NestedInteger holds a single integer, rather than a nested list.\n * fun isInteger(): Boolean\n *\n * // @return the single integer that this NestedInteger holds, if it holds a single integer\n * // Return null if this NestedInteger holds a nested list\n * fun getInteger(): Int?\n *\n * // Set this NestedInteger to hold a single integer.\n * fun setInteger(value: Int): Unit\n *\n * // Set this NestedInteger to hold a nested list and adds a nested integer to it.\n * fun add(ni: NestedInteger): Unit\n *\n * // @return the nested list that this NestedInteger holds, if it holds a nested list\n * // Return null if this NestedInteger holds a single integer\n * fun getList(): List?\n * }\n */\nclass Solution {\n fun deserialize(s: String): NestedInteger {\n \n }\n}", "__typename": "CodeSnippetNode" }, { "lang": "Rust", "langSlug": "rust", "code": "// #[derive(Debug, PartialEq, Eq)]\n// pub enum NestedInteger {\n// Int(i32),\n// List(Vec)\n// }\nimpl Solution {\n pub fn deserialize(s: String) -> NestedInteger {\n \n }\n}", "__typename": "CodeSnippetNode" }, { "lang": "PHP", "langSlug": "php", "code": "/**\n * // This is the interface that allows for creating nested lists.\n * // You should not implement it, or speculate about its implementation\n * class NestedInteger {\n\n * // if value is not specified, initializes an empty list.\n * // Otherwise initializes a single integer equal to value.\n * function __construct($value = null)\n\n * // Return true if this NestedInteger holds a single integer, rather than a nested list.\n * function isInteger() : bool\n *\n * // Return the single integer that this NestedInteger holds, if it holds a single integer\n * // The result is undefined if this NestedInteger holds a nested list\n * function getInteger()\n *\n * // Set this NestedInteger to hold a single integer.\n * function setInteger($i) : void\n *\n * // Set this NestedInteger to hold a nested list and adds a nested integer to it.\n * function add($ni) : void\n *\n * // Return the nested list that this NestedInteger holds, if it holds a nested list\n * // The result is undefined if this NestedInteger holds a single integer\n * function getList() : array\n * }\n */\nclass Solution {\n\n /**\n * @param String $s\n * @return NestedInteger\n */\n function deserialize($s) {\n \n }\n}", "__typename": "CodeSnippetNode" }, { "lang": "TypeScript", "langSlug": "typescript", "code": "/**\n * // This is the interface that allows for creating nested lists.\n * // You should not implement it, or speculate about its implementation\n * class NestedInteger {\n * If value is provided, then it holds a single integer\n * Otherwise it holds an empty nested list\n * constructor(value?: number) {\n * ...\n * };\n *\n * Return true if this NestedInteger holds a single integer, rather than a nested list.\n * isInteger(): boolean {\n * ...\n * };\n *\n * Return the single integer that this NestedInteger holds, if it holds a single integer\n * Return null if this NestedInteger holds a nested list\n * getInteger(): number | null {\n * ...\n * };\n *\n * Set this NestedInteger to hold a single integer equal to value.\n * setInteger(value: number) {\n * ...\n * };\n *\n * Set this NestedInteger to hold a nested list and adds a nested integer elem to it.\n * add(elem: NestedInteger) {\n * ...\n * };\n *\n * Return the nested list that this NestedInteger holds,\n * or an empty list if this NestedInteger holds a single integer\n * getList(): NestedInteger[] {\n * ...\n * };\n * };\n */\n\nfunction deserialize(s: string): NestedInteger {\n\n};", "__typename": "CodeSnippetNode" }, { "lang": "Racket", "langSlug": "racket", "code": ";; This is the interface that allows for creating nested lists.\n;; You should not implement it, or speculate about its implementation\n\n#|\n\n(define nested-integer%\n (class object%\n ...\n\n ; Return true if this nested-integer% holds a single integer, rather than a nested list.\n ; -> boolean?\n (define/public (is-integer)\n ...)\n\n ; Return the single integer that this nested-integer% holds, if it holds a single integer,\n ; or #f if this nested-integer% holds a nested list.\n ; -> integer?\n (define/public (get-integer)\n ...)\n\n ; Set this nested-integer% to hold a single integer equal to value.\n ; -> integer? void?\n (define/public (set-integer i)\n ...)\n\n ; Set this nested-integer% to hold a nested list and adds a nested integer elem to it.\n ; -> (is-a?/c nested-integer%) void?\n (define/public (add ni)\n ...)\n\n ; Return the nested list that this nested-integer% holds,\n ; or an empty list if this nested-integer% holds a single integer.\n ; -> gvector?\n (define/public (get-list)\n ...)))\n\n|#\n\n(define/contract (deserialize s)\n (-> string? (is-a?/c nested-integer%))\n\n )", "__typename": "CodeSnippetNode" }, { "lang": "Erlang", "langSlug": "erlang", "code": "%% % This is the interface that allows for creating nested lists.\n%% % You should not implement it, or speculate about its implementation\n%%\n%% % Create an empty nested list.\n%% nested_integer:new() -> nested_integer().\n%%\n%% % Create a single integer.\n%% nested_integer:new(Val :: integer()) -> nested_integer().\n%%\n%% % Return true if argument NestedInteger holds a single integer, rather than a nested list.\n%% nested_integer:is_integer(NestedInteger :: nested_integer()) -> boolean().\n%%\n%% % Return the single integer that NestedInteger holds, if it holds a single integer.\n%% % The result is undefined if it holds a nested list.\n%% nested_integer:get_integer(NestedInteger :: nested_integer()) -> integer().\n%%\n%% % Return a copy of argument NestedInteger with it set to hold a single integer Val.\n%% nested_integer:set_integer(NestedInteger :: nested_integer(), Val :: integer()) -> nested_integer().\n%%\n%% % Return a copy of argument NestedInteger with it set to hold a nested list and adds a nested_integer Elem to it.\n%% nested_integer:add(NestedInteger :: nested_integer(), Elem :: nested_integer()) -> nested_integer().\n%%\n%% % Return the nested list that NestedInteger holds, if it holds a nested list.\n%% % The result is undefined if it holds a single integer.\n%% nested_integer:get_list(NestedInteger :: nested_integer()) -> array:array(nested_integer()).\n\n-spec deserialize(S :: unicode:unicode_binary()) -> nested_integer:nested_integer().\ndeserialize(S) ->\n .", "__typename": "CodeSnippetNode" }, { "lang": "Elixir", "langSlug": "elixir", "code": "# # This is the interface that allows for creating nested lists.\n# # You should not implement it, or speculate about its implementation\n#\n# # Create an empty nested list.\n# :nested_integer.new() :: :nested_integer.nested_integer\n#\n# # Create a single integer.\n# :nested_integer.new(val :: integer) :: :nested_integer.nested_integer\n#\n# # Return true if argument nested_integer holds a single integer, rather than a nested list.\n# :nested_integer.is_integer(nested_integer :: :nested_integer.nested_integer) :: boolean\n#\n# # Return the single integer that nested_integer holds, if it holds a single integer\n# # The result is undefined if it holds a nested list.\n# :nested_integer.get_integer(nested_integer :: :nested_integer.nested_integer) :: integer\n#\n# # Return a copy of argument nested_integer with it set to hold a single integer val.\n# :nested_integer.set_integer(nested_integer :: :nested_integer.nested_integer, val :: integer) :: :nested_integer.nested_integer\n#\n# # Return a copy of argument nested_integer with it set to hold a nested list and adds a nested_integer elem to it.\n# :nested_integer.add(nested_integer :: :nested_integer.nested_integer, elem :: :nested_integer.nested_integer) :: :nested_integer.nested_integer\n#\n# # Return the nested list that nested_integer holds, if it holds a nested list.\n# # The result is undefined if it holds a single integer.\n# :nested_integer.get_list(nested_integer :: :nested_integer.nested_integer) :: :array.array(:nested_integer.nested_integer)\n\ndefmodule Solution do\n @spec deserialize(s :: String.t) :: :nested_integer.nested_integer\n def deserialize(s) do\n\n end\nend", "__typename": "CodeSnippetNode" } ], "stats": "{\"totalAccepted\": \"47.3K\", \"totalSubmission\": \"132.4K\", \"totalAcceptedRaw\": 47318, \"totalSubmissionRaw\": 132425, \"acRate\": \"35.7%\"}", "hints": [], "solution": null, "status": null, "sampleTestCase": "\"324\"", "metaData": "{\n \"name\": \"deserialize\",\n \"params\": [\n {\n \"name\": \"s\",\n \"type\": \"string\"\n }\n ],\n \"return\": {\n \"type\": \"NestedInteger\"\n },\n \"manual\": false\n}", "judgerAvailable": true, "judgeType": "large", "mysqlSchemas": [], "enableRunCode": true, "enableTestMode": false, "enableDebugger": true, "envInfo": "{\"cpp\": [\"C++\", \"

Compiled with clang 11 using the latest C++ 17 standard.

\\r\\n\\r\\n

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

\\r\\n\\r\\n

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

\"], \"java\": [\"Java\", \"

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.

\"], \"python\": [\"Python\", \"

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.

\\r\\n\\r\\n

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.

\"], \"c\": [\"C\", \"

Compiled with gcc 8.2 using the gnu99 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.

\\r\\n\\r\\n

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

\\r\\n\\r\\n

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

\\r\\nstruct hash_entry {\\r\\n    int id;            /* we'll use this field as the key */\\r\\n    char name[10];\\r\\n    UT_hash_handle hh; /* makes this structure hashable */\\r\\n};\\r\\n\\r\\nstruct hash_entry *users = NULL;\\r\\n\\r\\nvoid add_user(struct hash_entry *s) {\\r\\n    HASH_ADD_INT(users, id, s);\\r\\n}\\r\\n
\\r\\n

\\r\\n\\r\\n

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

\\r\\nstruct hash_entry *find_user(int user_id) {\\r\\n    struct hash_entry *s;\\r\\n    HASH_FIND_INT(users, &user_id, s);\\r\\n    return s;\\r\\n}\\r\\n
\\r\\n

\\r\\n\\r\\n

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
\\r\\n

\"], \"csharp\": [\"C#\", \"

C# 10 with .NET 6 runtime

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Your code is compiled with debug flag enabled (/debug).

\"], \"javascript\": [\"JavaScript\", \"

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 datastructures-js/priority-queue and datastructures-js/queue.

\"], \"ruby\": [\"Ruby\", \"

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

\"], \"swift\": [\"Swift\", \"

Swift 5.5.2.

\"], \"golang\": [\"Go\", \"

Go 1.17.6.

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

\"], \"python3\": [\"Python3\", \"

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.

\"], \"scala\": [\"Scala\", \"

Scala 2.13.7.

\"], \"kotlin\": [\"Kotlin\", \"

Kotlin 1.3.10.

\"], \"rust\": [\"Rust\", \"

Rust 1.58.1

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Supports rand v0.6\\u00a0from crates.io

\"], \"php\": [\"PHP\", \"

PHP 8.1.

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With bcmath module

\"], \"typescript\": [\"Typescript\", \"

TypeScript 4.5.4, Node.js 16.13.2.

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Your code is run with --harmony flag, enabling new ES2020 features.

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lodash.js library is included by default.

\"], \"racket\": [\"Racket\", \"

Run with Racket 8.3.

\"], \"erlang\": [\"Erlang\", \"Erlang/OTP 24.2\"], \"elixir\": [\"Elixir\", \"Elixir 1.13.0 with Erlang/OTP 24.2\"]}", "libraryUrl": null, "adminUrl": null, "challengeQuestion": null, "__typename": "QuestionNode" } } }