# Convert a BST to sorted doubly linked list(Debug)

Here is a function to convert a binary search tree to sorted doubly linked list.The idea is to do an inorder traversal and put the visited node in a circular array of size 2.The left and right pointers are then adjusted for conversion to doubly linked list.Right pointer of current node is never modified and accessed later.Where is the problem?

void TreetoQueue(node* tnode)
{static node* arr[2]={NULL,NULL};
static int index=0;
if(tnode==NULL) return;
TreetoQueue(tnode->left);
arr[index]=tnode;        //current node
if(arr[1]!=NULL)
{  if(index==0)
{arr[1]->right=arr[0]; //modify right pointer of inorder predecessor to point to current node
arr[0]->left=arr[1];  //modify current node's left pointer to point to inorder predecessor
}

if(index==1)
{arr[0]->right=arr[1];
arr[1]->left=arr[0];
}
cout<<"index-"<<index<<"  "<<arr[0]->val<<"  "<<arr[1]->val<<"\n";
}

index=(index+1)%2;
TreetoQueue(tnode->right);
}

_______5______
/              \
___3__             6__
/      \               \
1       4               _9
/  \
7  10

index-1  1  3
index-0  4  3
index-1  4  5
index-0  6  5
index-1  6  7
index-0  9  7
index-1  9  10
node->left->left->right is NULL //Intended to be 3
node->left->right->left is NULL//intended to be 3
node->left->right->right is NULL//intended to be 5


Edit: It works as intended.Only that i had to change the root to start of the list.I used another function to do this.Could i have achieved this without an extra function?

    node* TreetoQueue2(node* root)
TreetoQueue(root);
}

-
You say if(arr[1] != NULL). Initially its declared as NULL. I don't see it change anytime after. Is there is something I am missing? –  noMAD Mar 7 '12 at 22:42
arr[index]=tnode and index=(index+1)%2.arr[1] changes as you can see it in the output –  bl3e Mar 7 '12 at 22:59
Can you explain your bizarre indentation scheme? –  Lightness Races in Orbit Mar 7 '12 at 23:03
I think it is because index is static, but I can't understand your idea –  perreal Mar 7 '12 at 23:07
Are you sure your tree is what you believe it is? I don't see any cause for a segfault in the posted code, if it receives a valid tree. –  Daniel Fischer Mar 7 '12 at 23:26

To reiterate what Daniel said, the following test code works (with g++-4.7) as expected:

#include <iostream>

using namespace std;

struct node {
node * left;
node * right;
int val;
};

typedef node * node_ptr;

void TreetoQueue(node* tnode) {

static node* arr[2]={NULL,NULL};

static int index=0;

if(tnode==NULL) return;

TreetoQueue(tnode->left);

arr[index]=tnode;        //current node

if(arr[1]!=NULL)
{
if(index==0)
{
arr[1]->right=arr[0]; //modify right pointer of inorder predecessor to point to current node
arr[0]->left=arr[1];  //modify current node's left pointer to point to inorder predecessor
}

if(index==1)
{
arr[0]->right=arr[1];
arr[1]->left=arr[0];
}
cout<<"index-"<<index<<"  "<<arr[0]->val<<"  "<<arr[1]->val<<"\n";
}

index=(index+1)%2;
TreetoQueue(tnode->right);
}

int main(int argc, char *argv[]){
node_ptr np0 = new node();
node_ptr np1 = new node();
node_ptr np2 = new node();
node_ptr np3 = new node();
node_ptr np4 = new node();
node_ptr np5 = new node();
node_ptr np6 = new node();
node_ptr np7 = new node();

np0->val = 5;
np1->val = 3;
np2->val = 1;
np3->val = 4;
np4->val = 6;
np5->val = 9;
np6->val = 7;
np7->val = 10;

np0->left = np1;
np1->left = np2;
np1->right = np3;

np0->right = np4;
np4->right = np5;

np5->left = np6;
np5->right = np7;

TreetoQueue(np0);

}

-
I expected the code to re-arrange the left and right pointers to point to inorder predecessor and successor respectively(forming a doubly linked list) but somehow they remain unchanged –  bl3e Mar 8 '12 at 9:35
@rAkesH Works here, the pointers are transformed as they should. After converting the tree to a doubly linked list with TreetoQueue, I can traverse the list left to right and right to left, giving the expected results. The problem is in the code you're not showing us. –  Daniel Fischer Mar 8 '12 at 10:47
@DanielFischer Yes it works indeed! My bad.Now i had to change the root to start of the list i used a helper function to return the leftmost tree node and call TreetoQueue. –  bl3e Mar 8 '12 at 12:30

I've written what I think is a simpler, more elegant solution that still plays on the idea of a recursive inorder traversal, but doesn't require allocating any memory in each call:

Node* Inorder(Node* _n, Node*& _listHead, Node* _lastP=NULL){
if (_n->left)
if (_lastP){
_lastP->right = _n;
_n->left = _lastP;
}else
if (_n->right)
return _n;
}


The idea is to track the last element that was appended to the list (_lastP). As it's written, the code will destroy the binary search tree structure in place of a sorted doubly-linked list.

Here's the full code:

#include <iostream>
using namespace std;
struct Node{
int data;
Node* left;
Node* right;
Node(int _d=0):data(_d),left(NULL),right(NULL){}
};

Node* Inorder(Node* _n, Node*& _listHead, Node* _lastP=NULL){
if (_n->left)
if (_lastP){
_lastP->right = _n;
_n->left = _lastP;
}else
if (_n->right)
return _n;
}

if(!_treeRoot)
return NULL;
//could make circular with following lines
}

int main(){
//create our tree
Node* root = new Node(5);
Node* n1 = new Node(3);
Node* n2 = new Node(1);
Node* n3 = new Node(4);
Node* n4 = new Node(6);
Node* n5 = new Node(9);
Node* n6 = new Node(7);
Node* n7 = new Node(10);

root->left = n1;
n1->left = n2;
n1->right = n3;
root->right = n4;
n4->right = n5;
n5->left= n6;
n5->right = n7;
/*

_______5______
/              \
___3__             6__
/      \               \
1       4               _9
/  \
7  10
*/