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2-4-partition.cpp
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2-4-partition.cpp
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/**
* Cracking the coding interview edition 6
* Problem 2.4 Partition:
* Write code to partition linked list around a value x, such that
* nodes less than x come before all the nodes greater than or equal to x.
* If x is in the list, the values of x only need to be after the elements less
* than x.
* Example
* 3-->5-->8-->5-->10-->2-->1 (x = 5)
* 3-->1-->2-->10-->5-->5-->8
*
* Approach:
* Start with first node, and add every thing bigger or equal to x at tail
* and smaller values at head.
*/
#include <iostream>
#include <random>
struct Node {
int data;
Node * next;
Node( int d ) : data{ d }, next{ nullptr } { }
};
/**
* [insert - helper routine to insert a new node with data]
* @param head [head of the list]
* @param data [data of the new node]
*/
void insert( Node * & head, int data ) {
Node * newNode = new Node(data);
if ( head == nullptr ) {
head = newNode;
} else {
Node * curr = head;
while( curr->next ) {
curr = curr->next;
}
curr->next = newNode;
}
}
/**
* [printList - helper routine to print the list]
* @param head [head of the list]
*/
void printList( Node * head ) {
while ( head ) {
std::cout << head->data << "-->";
head = head->next;
}
std::cout << "nullptr" << std::endl;
}
/**
* [partition - routine to partition list around x]
* @param head [head of the list]
* @param x [data around which partition is being done]
*/
void partition( Node * & head , int x ) {
Node * tail = head;
Node * curr = head;
while( curr != nullptr ) {
Node * nextNode = curr->next;
if ( curr->data < x ) {
//insert at head
curr->next = head;
head = curr;
} else {
// insert at tail
tail->next = curr;
tail = curr;
}
curr = nextNode;
}
tail->next = nullptr;
}
/**
* [random_range helper routine to generate a random number between min and max (including)]
* @param min [min of range]
* @param max [max of range]
* @return [A random number between min and max]
*/
static inline int random_range(const int min, const int max) {
std::random_device rd;
std::mt19937 mt(rd());
std::uniform_int_distribution<int> distribution(min, max);
return distribution(mt);
}
int main() {
Node * head = nullptr;
for ( int i = 0; i < 10; ++i ) {
insert(head, random_range(1,9));
}
std::cout << "List before partition around 5:\n";
printList(head);
partition(head, 5);
std::cout << "List after partition around 5:\n";
printList(head);
return 0;
}