4.9 BST Sequences: A binary search tree was created by traversing through an array from left to right and inserting each element. Given a binary search tree with distinct elements, print all possible arrays that could have led to this tree.

Example: For the given tree : enter image description here

I tried to code the given solution as per the book using c++ but it's crashing at run-time.

Failed to find the bug, but I think it has something to do with the references& in c++.

Below is my code:

#include <iostream>
using namespace std;
class TreeNode{
    int val;
    TreeNode* left;
    TreeNode* right;
    TreeNode(int v){
        val = v; left = nullptr; right = nullptr;
void weave(vector<list<int>> &, list<int> &, list<int> &, list<int> &);
vector<list<int>>& allSequence(TreeNode *);

vector<list<int>>& allSequence(TreeNode *root){

    vector<list<int>> result_seq;

        return result_seq;

    list<int> prefix ;

    vector<list<int>> &leftSeq =  allSequence(root->left);
    vector<list<int>> &rightSeq = allSequence(root->right);

    for(int i = 0; i < leftSeq.size(); i++){

        for(int j = 0; j < rightSeq.size(); j++){
            vector<list<int>> weaved;
            weave(weaved, leftSeq[i], rightSeq[j], prefix);

            result_seq.insert(result_seq.end(), weaved.begin(), weaved.end());

    return result_seq;

/** Weave lists together in all possible ways. This algorithm works by removing the
 head from one list, recursing, and then doing the same thing with the other
 list. */

void weave(vector<list<int>> &results, list<int> &first, list<int> &second, list<int> &prefix){
    /** One list is empty. Add remainder to [a cloned] prefix and store result. */

    if(first.size() == 0 || second.size() == 0){

        list<int> result(prefix.begin(), prefix.end());
        (first.size()) ? (result.insert(result.end(), first.begin(), first.end())) : (result.insert(result.end(), second.begin(), second.end()));



    int headFirst = first.front(); first.pop_front();
    weave(results, first, second, prefix);

    int headSecond = second.front(); second.pop_front();
    weave(results, first, second, prefix);

int main() {
TreeNode *root = new TreeNode(5);
    root->right = new TreeNode(7);
    root->left = new TreeNode(3);

    vector<list<int>> allSequence_As_list = allSequence(root)

    /// print
    for(auto i = allSequence_As_list.begin(); i != allSequence_As_list.end(); i++){
        for(auto j = (*i).begin(); j!= (*i).end(); j++)
            cout<<*j<<" ";

  • 1
    allSequence should probably not return a reference. in general you don't want to return references or pointers to variables which are scoped to the body of a function and are not allocated on the heap. when the function finishes executing you should assume these types of local variables in the function are invalid. – Collin Jun 11 at 14:45
  • make sure to pay attention to the warnings your compiler gives you – Collin Jun 11 at 14:52
  • @Collin Warning : BST_sequence.cpp|24|warning: reference to local variable 'result_seq' returned But I think declaring vectors as : vector<Type> vect allocates the vector on the heap. – rawat Jun 11 at 15:29
  • 1
    the vector class itself is on the stack. the class internally stores data on the heap, but that heap memory will be reclaimed when the result_seq goes out of scope and the destructor is called – Collin Jun 11 at 15:35
  • Ohh yeah that's right. Thanks! – rawat Jun 11 at 15:38

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