# Getting all paths from root to leaf nodes

a
/    \
a       a
/ \     /  \
a   c    a   f
/ \      / \
b   d    e   g

I have a tree that looks like the above, represented by a linked structure:

class Node
{
Node* leftChild;
Node* rightChild;
char data;
}

class Tree
{
Node* root;
}

My goal is to find all the paths from the root to leaf nodes.

My tree traversal algorithm looks like this:

void inorder()
{
in(root);
}

void in(CharNode* currentNode)
{
if(currentNode)
{
in(currentNode->leftChild);
cout << currentNode->data << endl;
in(currentNode->rightChild);
}
}

When I run this, I am positive that the tree is being built as shown. I have tested that. I cannot, however, figure out why my tree traversal segmentation faults.

The output I get is :

b

Segmentation fault.

I have tested it on trees with smaller heights, and it works. But for some reason it doesn't work on a trees with heights larger than 2. I thought it was something going wrong with the tree, I have gone through and printed each parent, left child, and right child and they print out as shown. So it's definitely the traversal algorithm.

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Traversal algorithm looks fine to me. Post a compilable example and I'm sure the error will be quickly found. –  jahhaj Jul 29 '12 at 6:45
what is CharNode? are you sure you're building the tree correctly? –  Donotalo Jul 29 '12 at 6:45
@Donotalo, he's sure, but I suspect he's wrong. –  jahhaj Jul 29 '12 at 6:46
Assign null to the pointers in the Node's constructor. –  Yochai Timmer Jul 29 '12 at 6:47
Well my code is a little complex, I simplified the example a lot but okay I can post a compilable version. I didn't think anyone would want to read it all –  ordinary Jul 29 '12 at 6:50

As you build your tree, be sure to initialize leftChild and rightChild to NULL (0) on your nodes. This is critical for leaf-nodes and for nodes missing either a leftChild or a rightChild.

class Node
: leftChild(0)
, rightChild(0)
, data(0)
{
Node* leftChild;
Node* rightChild;
char data;
}
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That was it. Thanks a lot. I can't believe I missed something that simple. Aren't they automatically assigned to NULL pointers though if they are uninitialized? –  ordinary Jul 29 '12 at 6:54
Not true in C/C++. True in Java, which can be a cause for confusion. –  Richard Sitze Jul 29 '12 at 6:55
/*
** Binary Tree Problems
** Printing all Root to Leaf paths in a Binary Tree
*/

# include <stdio.h>
# include <stdlib.h>

# define SIZE 20
# define MAX(A,B) A>B?A:B;

typedef struct BinaryTree
{
int data;
struct BinaryTree *left;
struct BinaryTree *right;
}BST;

int A[SIZE]={10,12,15,17,8,18,9,3,11,14,2,1,16,10};
int no_of_nodes=14;

BST* newNode(int data)
{
BST *node;

node=(BST *)malloc(sizeof(BST));
if(!node)
return NULL;

node->data = data;
node->left=NULL;
node->right=NULL;

return node;
}

BST *Insert(BST *root,int d,int l)
{
if(root==NULL)
return(newNode(d));

else
{
if(d < root->data)
root->left=Insert(root->left,d,++l);
else
root->right=Insert(root->right,d,++l);

return(root);
}
}

BST* CreateTree(BST *root1)
{
int i=0;

for(i=0;i<no_of_nodes;i++)
{
root1=Insert(root1,A[i],1);
}

return(root1);
}

void Inorder(BST *root1)
{
if(root1==NULL)
return;

Inorder(root1->left);
printf(" %3d ", root1->data);
Inorder(root1->right);
}

void Preorder(BST *root1)
{
if(root1==NULL)
return;

printf(" %3d ", root1->data);
Preorder(root1->left);
Preorder(root1->right);
}

void PrintArr(int *arr,int len)
{
static int pathNo=0;
int i;

printf("\nPath %d ->",++pathNo);

for(i=0;i<len;i++)
printf(" %d ",arr[i]);

return;
}

void PrintR2LPaths(BST *root,int pathArr[],int pathLen)
{
if(root==NULL)
return;

pathArr[pathLen]=root->data;
pathLen++;

if(root->left==NULL && root->right==NULL)
{
PrintArr(pathArr,pathLen);
return;
}
else
{
PrintR2LPaths(root->left,pathArr,pathLen);
PrintR2LPaths(root->right,pathArr,pathLen);
}
}

int main()
{
int result=0;
BST *root1=NULL;
int pathArr[SIZE];

root1=CreateTree(root1);

printf("\n\n---------------------------------------------------\n");

printf("\n\nPreorder Traversal of Tree : ");
Preorder(root1);

printf("\n\nInorder Traversal of Tree  : ");
Inorder(root1);

printf("\n\n---------------------------------------------------\n");

printf("\nPrinting Paths\n\n");
PrintR2LPaths(root1,pathArr,0);

printf("\n\n---------------------------------------------------\n");
getchar();

return(0);
}
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