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Copy path133.clone-graph.cpp
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133.clone-graph.cpp
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/*
* @lc app=leetcode id=133 lang=cpp
*
* [133] Clone Graph
*
* https://leetcode.com/problems/clone-graph/description/
*
* algorithms
* Medium (25.21%)
* Total Accepted: 199.5K
* Total Submissions: 790.9K
* Testcase Example: '{"$id":"1","neighbors":[{"$id":"2","neighbors":[{"$ref":"1"},{"$id":"3","neighbors":[{"$ref":"2"},{"$id":"4","neighbors":[{"$ref":"3"},{"$ref":"1"}],"val":4}],"val":3}],"val":2},{"$ref":"4"}],"val":1}'
*
* Given a reference of a node in a connected undirected graph, return a deep
* copy (clone) of the graph. Each node in the graph contains a val (int) and a
* list (List[Node]) of its neighbors.
*
*
*
* Example:
*
*
*
*
* Input:
*
* {"$id":"1","neighbors":[{"$id":"2","neighbors":[{"$ref":"1"},{"$id":"3","neighbors":[{"$ref":"2"},{"$id":"4","neighbors":[{"$ref":"3"},{"$ref":"1"}],"val":4}],"val":3}],"val":2},{"$ref":"4"}],"val":1}
*
* Explanation:
* Node 1's value is 1, and it has two neighbors: Node 2 and 4.
* Node 2's value is 2, and it has two neighbors: Node 1 and 3.
* Node 3's value is 3, and it has two neighbors: Node 2 and 4.
* Node 4's value is 4, and it has two neighbors: Node 1 and 3.
*
*
*
*
* Note:
*
*
* The number of nodes will be between 1 and 100.
* The undirected graph is a simple graph, which means no repeated edges and no
* self-loops in the graph.
* Since the graph is undirected, if node p has node q as neighbor, then node q
* must have node p as neighbor too.
* You must return the copy of the given node as a reference to the cloned
* graph.
*
*
*/
#include <vector>
#include <map>
using namespace std;
class Node {
public:
int val;
vector<Node*> neighbors;
Node() {}
Node(int _val, vector<Node*> _neighbors) {
val = _val;
neighbors = _neighbors;
}
};
class Solution {
private:
map<Node*, Node*> m;
public:
Node* cloneGraph(Node* node) {
Node* clone = new Node(node->val,node->neighbors);
m[node] = clone;
if (clone->neighbors.size() > 0) {
for (int i = 0, e = clone->neighbors.size(); i < e; i++) {
if (m.find(clone->neighbors[i]) == m.end()) {
clone->neighbors[i] = cloneGraph(clone->neighbors[i]);
} else {
clone->neighbors[i] = m[clone->neighbors[i]];
}
}
}
return clone;
}
};