mirror of https://github.com/xfarrow/lasd.git
613 lines
16 KiB
C++
Executable File
613 lines
16 KiB
C++
Executable File
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#include "../queue/queue.hpp"
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#include "../queue/vec/queuevec.hpp"
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#include "../queue/lst/queuelst.hpp"
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#include "../stack/stack.hpp"
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#include "../stack/lst/stacklst.hpp"
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#include "../stack/vec/stackvec.hpp"
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#include<iostream>
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namespace lasd {
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/* ----- begin of class BinaryTree ----- */
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/* ----- begin of struct Node ----- */
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template <typename Data>
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bool BinaryTree<Data>::Node::operator==(const Node& toEvaluate) const noexcept{
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return EqualNodes(*this, toEvaluate);
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}
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template <typename Data>
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bool BinaryTree<Data>::Node::operator!=(const Node& toEvaluate) const noexcept{
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return !(*this == toEvaluate);
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}
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/* given two nodes, checks if the subtree is the same */
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template <typename Data>
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bool BinaryTree<Data>::Node::EqualNodes(const Node& n1, const Node& n2) const{
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if(n1.data == n2.data){
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if( (n1.HasLeftChild() && !n2.HasLeftChild()) || (n1.HasRightChild() && !n2.HasRightChild()) ) return false;
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if(n1.HasLeftChild() && n1.HasRightChild()){
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return( EqualNodes(n1.LeftChild(),n2.LeftChild()) && EqualNodes(n1.RightChild(),n2.RightChild()));
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}
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else if(n1.HasLeftChild() && !n1.HasRightChild()){
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return( EqualNodes(n1.LeftChild(),n2.LeftChild()));
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}
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else if(!n1.HasLeftChild() && n1.HasRightChild()){
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return( EqualNodes(n1.RightChild(),n2.RightChild()));
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}
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else{ //if leaf
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return true;
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}
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}else{
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return false;
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}
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}
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template <typename Data>
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Data& BinaryTree<Data>::Node::Element(){
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return this->data;
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}
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template <typename Data>
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const Data& BinaryTree<Data>::Node::Element() const{
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return this->data;
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}
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/* ----- end of struct Node ----- */
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template <typename Data>
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bool BinaryTree<Data>::operator==(const BinaryTree& tree) const noexcept{
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if(size == tree.size){
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if(size == 0) return true;
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else return (Root() == tree.Root());
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}else{
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return false;
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}
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}
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template <typename Data>
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bool BinaryTree<Data>::operator!=(const BinaryTree& toCompare) const noexcept{
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return !(*this == toCompare);
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}
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/* ----- Map and fold functions ----- */
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template <typename Data>
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void BinaryTree<Data>::MapPreOrder(const typename MappableContainer<Data>::MapFunctor function, void* par){
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if(size == 0) return;
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MapPreOrder(function, par, &Root());
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}
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template <typename Data>
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void BinaryTree<Data>::MapPostOrder(const typename MappableContainer<Data>::MapFunctor function, void* par){
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if(size == 0) return;
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MapPostOrder(function, par, &Root());
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}
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template <typename Data>
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void BinaryTree<Data>::MapInOrder(const typename MappableContainer<Data>::MapFunctor function, void* par){
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if(size == 0) return;
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MapInOrder(function, par, &Root());
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}
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template <typename Data>
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void BinaryTree<Data>::MapBreadth(const typename MappableContainer<Data>::MapFunctor function, void* par){
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if(size == 0) return;
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MapBreadth(function, par, &Root());
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}
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template <typename Data>
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void BinaryTree<Data>::FoldPreOrder(const typename FoldableContainer<Data>::FoldFunctor function, const void* par, void* acc) const{
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if(size == 0) return;
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FoldPreOrder(function, par, acc, &Root());
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}
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template <typename Data>
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void BinaryTree<Data>::FoldPostOrder(const typename FoldableContainer<Data>::FoldFunctor function, const void* par, void* acc) const{
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if(size == 0) return;
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FoldPostOrder(function, par, acc, &Root());
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}
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template <typename Data>
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void BinaryTree<Data>::FoldInOrder(const typename FoldableContainer<Data>::FoldFunctor function, const void* par, void* acc) const{
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if(size == 0) return;
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FoldInOrder(function, par, acc, &Root());
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}
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template <typename Data>
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void BinaryTree<Data>::FoldBreadth(const typename FoldableContainer<Data>::FoldFunctor function, const void* par, void* acc) const{
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if(size == 0) return;
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FoldBreadth(function, par, acc, &Root());
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}
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/* ----- Auxiliary map and fold functions ----- */
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template <typename Data>
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void BinaryTree<Data>::MapPreOrder(const typename MappableContainer<Data>::MapFunctor function, void* par, Node* node){
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if(node != nullptr){
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function(node->Element(), par);
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if(node->HasLeftChild()){
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MapPreOrder(function, par, &(node->LeftChild()));
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}
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if(node->HasRightChild()){
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MapPreOrder(function, par, &(node->RightChild()));
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}
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}
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}
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template <typename Data>
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void BinaryTree<Data>::MapPostOrder(const typename MappableContainer<Data>::MapFunctor function, void* par, Node* node){
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if(node != nullptr){
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if(node->HasLeftChild()){
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MapPostOrder(function, par, &(node->LeftChild()));
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}
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if(node->HasRightChild()){
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MapPostOrder(function, par, &(node->RightChild()));
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}
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function(node->Element(), par);
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}
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}
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template <typename Data>
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void BinaryTree<Data>::MapInOrder(const typename MappableContainer<Data>::MapFunctor function, void* par, Node* node){
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if(node != nullptr){
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if(node->HasLeftChild()){
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MapInOrder(function, par, &(node->LeftChild()));
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}
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function(node->Element(), par);
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if(node->HasRightChild()){
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MapInOrder(function, par, &(node->RightChild()));
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}
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}
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}
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template <typename Data>
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void BinaryTree<Data>::MapBreadth(const typename MappableContainer<Data>::MapFunctor function, void* par, Node* node){
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QueueLst<struct Node*> toVisit;
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if(node != nullptr){
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toVisit.Enqueue(node);
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while(!toVisit.Empty()){
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function(toVisit.Head()->Element(), par);
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if(toVisit.Head()->HasLeftChild()){
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toVisit.Enqueue(&(toVisit.Head()->LeftChild()));
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}
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if(toVisit.Head()->HasRightChild()){
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toVisit.Enqueue(&(toVisit.Head()->RightChild()));
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}
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toVisit.Dequeue();
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}
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}
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}
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template <typename Data>
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void BinaryTree<Data>::FoldPreOrder(const typename FoldableContainer<Data>::FoldFunctor function, const void* par, void* acc, const Node* node) const{
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if(node != nullptr){
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function(node->Element(), par, acc);
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if(node->HasLeftChild()){
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FoldPreOrder(function, par, acc, &(node->LeftChild()));
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}
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if(node->HasRightChild()){
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FoldPreOrder(function, par, acc, &(node->RightChild()));
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}
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}
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}
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template <typename Data>
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void BinaryTree<Data>::FoldPostOrder(const typename FoldableContainer<Data>::FoldFunctor function, const void* par, void* acc, const Node* node) const{
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if(node != nullptr){
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if(node->HasLeftChild()){
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FoldPostOrder(function, par, acc, &(node->LeftChild()));
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}
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if(node->HasRightChild()){
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FoldPostOrder(function, par, acc, &(node->RightChild()));
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}
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function(node->Element(), par, acc);
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}
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}
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template <typename Data>
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void BinaryTree<Data>::FoldInOrder(const typename FoldableContainer<Data>::FoldFunctor function, const void* par, void* acc, const Node* node) const{
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if(node != nullptr){
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if(node->HasLeftChild()){
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FoldInOrder(function, par, acc, &(node->LeftChild()));
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}
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function(node->Element(), par, acc);
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if(node->HasRightChild()){
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FoldInOrder(function, par, acc, &(node->RightChild()));
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}
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}
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}
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template <typename Data>
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void BinaryTree<Data>::FoldBreadth(const typename FoldableContainer<Data>::FoldFunctor function, const void* par, void* acc, Node* node) const{
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QueueLst<BinaryTree<Data>::Node*> toVisit;
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if(node != nullptr){
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toVisit.Enqueue(node);
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while(!toVisit.Empty()){
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function(toVisit.Head()->Element(), par, acc);
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if(toVisit.Head()->HasLeftChild()){
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toVisit.Enqueue(&(toVisit.Head()->LeftChild()));
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}
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if(toVisit.Head()->HasRightChild()){
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toVisit.Enqueue(&(toVisit.Head()->RightChild()));
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}
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toVisit.Dequeue();
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}
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}
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}
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/* ----- end of class BinaryTree ----- */
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/* ----- begin of class BTPreOrderIterator ----- */
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template <typename Data>
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BTPreOrderIterator<Data>::BTPreOrderIterator(const BinaryTree<Data>& tree){
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if(tree.Size() > 0)
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curr = &tree.Root();
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else
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curr = nullptr;
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}
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template <typename Data>
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BTPreOrderIterator<Data>::BTPreOrderIterator(const BTPreOrderIterator& itr){
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curr = itr.curr;
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stack = itr.stack;
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}
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template <typename Data>
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BTPreOrderIterator<Data>::BTPreOrderIterator(BTPreOrderIterator&& itr) noexcept{
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std::swap(curr, itr.curr);
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std::swap(stack, itr.stack);
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}
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template <typename Data>
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BTPreOrderIterator<Data>::~BTPreOrderIterator(){
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stack.Clear();
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curr = nullptr;
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}
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template <typename Data>
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BTPreOrderIterator<Data>& BTPreOrderIterator<Data>::operator=(const BTPreOrderIterator& itr){
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curr = itr.curr;
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stack = itr.stack;
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return *this;
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}
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template <typename Data>
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BTPreOrderIterator<Data>& BTPreOrderIterator<Data>::operator=(BTPreOrderIterator&& itr) noexcept{
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std::swap(curr, itr.curr);
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std::swap(stack, itr.stack);
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return *this;
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}
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template <typename Data>
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bool BTPreOrderIterator<Data>::operator==(const BTPreOrderIterator& itr) const noexcept{
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return ( curr==itr.curr && stack==itr.stack );
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}
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template <typename Data>
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bool BTPreOrderIterator<Data>::operator!=(const BTPreOrderIterator& itr) const noexcept{
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return !(*this == itr);
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}
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template <typename Data>
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Data& BTPreOrderIterator<Data>::operator*() const{
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if(Terminated()) throw std::out_of_range("Iterator is terminated!");
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return curr->Element();
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}
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template <typename Data>
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bool BTPreOrderIterator<Data>::Terminated() const noexcept{
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return (curr==nullptr);
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}
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template <typename Data>
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void BTPreOrderIterator<Data>::operator++(){
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if(Terminated()) throw std::out_of_range("Iterator is terminated!");
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if(curr->HasLeftChild()){
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if( curr->HasRightChild() ){
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stack.Push(&(curr->RightChild()));
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}
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curr = &(curr->LeftChild());
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}else if(curr->HasRightChild()){
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curr = &curr->RightChild();
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}
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else{ // is leaf
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if(stack.Empty()){
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curr = nullptr;
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}else{
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curr = stack.TopNPop();
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}
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}
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}
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/* ----- end of class BTPreOrderIterator ----- */
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/* ----- begin of class BTPostOrderIterator ----- */
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template <typename Data>
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struct BinaryTree<Data>::Node* BTPostOrderIterator<Data>::DeepestLeftLeaf(struct BinaryTree<Data>::Node* node){
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if(node->HasLeftChild()){
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stack.Push(node);
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return DeepestLeftLeaf(&(node->LeftChild()));
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}
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else if(node->HasRightChild()){
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stack.Push(node);
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return DeepestLeftLeaf(&(node->RightChild()));
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}
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else
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return node;
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}
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template <typename Data>
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BTPostOrderIterator<Data>::BTPostOrderIterator(const BinaryTree<Data>& tree){
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if(tree.Size() > 0)
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curr = DeepestLeftLeaf(&tree.Root());
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else
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curr = nullptr;
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}
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template <typename Data>
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BTPostOrderIterator<Data>::BTPostOrderIterator(const BTPostOrderIterator& itr){
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curr = itr.curr;
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stack = itr.stack;
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}
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template <typename Data>
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BTPostOrderIterator<Data>::BTPostOrderIterator(BTPostOrderIterator&& itr) noexcept{
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std::swap(curr, itr.curr);
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std::swap(stack, itr.stack);
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}
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template <typename Data>
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BTPostOrderIterator<Data>::~BTPostOrderIterator(){
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curr = nullptr;
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stack.Clear();
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}
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template <typename Data>
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BTPostOrderIterator<Data>& BTPostOrderIterator<Data>::operator=(const BTPostOrderIterator& itr){
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curr = itr.curr;
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stack = itr.stack;
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return *this;
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}
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template <typename Data>
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BTPostOrderIterator<Data>& BTPostOrderIterator<Data>::operator=(BTPostOrderIterator&& itr) noexcept{
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std::swap(curr, itr.curr);
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std::swap(stack, itr.stack);
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return *this;
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}
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template <typename Data>
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bool BTPostOrderIterator<Data>::operator==(const BTPostOrderIterator& itr) const noexcept{
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return (curr == itr.curr && stack == itr.stack );
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}
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template <typename Data>
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bool BTPostOrderIterator<Data>::operator!=(const BTPostOrderIterator& itr) const noexcept{
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return !(*this == itr);
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}
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template <typename Data>
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Data& BTPostOrderIterator<Data>::operator*() const{
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if(Terminated()) throw std::out_of_range("Iterator is terminated!");
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return curr->Element();
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}
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template <typename Data>
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bool BTPostOrderIterator<Data>::Terminated() const noexcept{
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return (curr == nullptr);
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}
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template <typename Data>
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void BTPostOrderIterator<Data>::operator++(){
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/*
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* If we're coming from the left then we have to analyze the tree on the right
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* (if existent). Otherwise we just top 'n' pop.
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*/
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if(Terminated()) throw std::out_of_range("Iterator is terminated!");
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if(stack.Empty()){
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curr = nullptr;
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}else{
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if((stack.Top())->HasLeftChild() && curr == &((stack.Top())->LeftChild()) ){
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if( (stack.Top())->HasRightChild() ){
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curr = DeepestLeftLeaf(&((stack.Top())->RightChild()));
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}else{
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curr = stack.TopNPop();
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}
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}else{
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curr = stack.TopNPop();
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}
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}
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}
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/* ----- end of class BTPostOrderIterator ----- */
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/* ----- begin of class BTInOrderIterator ----- */
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template <typename Data>
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struct BinaryTree<Data>::Node* BTInOrderIterator<Data>::MostLeftNode(struct BinaryTree<Data>::Node& root){
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if(root.HasLeftChild()){
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stack.Push(&root);
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return MostLeftNode(root.LeftChild());
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}else{
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return &root;
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}
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}
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template <typename Data>
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BTInOrderIterator<Data>::BTInOrderIterator(const BinaryTree<Data>& tree){
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if(tree.Size() > 0)
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curr = MostLeftNode(tree.Root());
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else
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curr = nullptr;
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}
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template <typename Data>
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BTInOrderIterator<Data>::BTInOrderIterator(const BTInOrderIterator& itr){
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curr = itr.curr;
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stack = itr.stack;
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}
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template <typename Data>
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BTInOrderIterator<Data>::BTInOrderIterator(BTInOrderIterator&& toMove) noexcept{
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std::move(curr, toMove.curr);
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std::move(stack, toMove.stack);
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}
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template <typename Data>
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BTInOrderIterator<Data>::~BTInOrderIterator(){
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stack.Clear();
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curr = nullptr;
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}
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template <typename Data>
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BTInOrderIterator<Data>& BTInOrderIterator<Data>::operator=(const BTInOrderIterator& itr){
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curr = itr.curr;
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stack = itr.stack;
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return *this;
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}
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template <typename Data>
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BTInOrderIterator<Data>& BTInOrderIterator<Data>::operator=(BTInOrderIterator&& toMove) noexcept{
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std::move(curr, toMove.curr);
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std::move(stack, toMove.stack);
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return *this;
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}
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template <typename Data>
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bool BTInOrderIterator<Data>::operator==(const BTInOrderIterator& itr) const noexcept{
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return (curr == itr.curr && stack == itr.stack );
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}
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template <typename Data>
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bool BTInOrderIterator<Data>::operator!=(const BTInOrderIterator& itr) const noexcept{
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return !(*this == itr);
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}
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template <typename Data>
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Data& BTInOrderIterator<Data>::operator*() const{
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if(Terminated()) throw std::out_of_range("Iterator is terminated!");
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return curr->Element();
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}
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template <typename Data>
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bool BTInOrderIterator<Data>::Terminated() const noexcept{
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return (curr == nullptr);
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}
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template <typename Data>
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void BTInOrderIterator<Data>::operator++(){
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if(Terminated()) throw std::out_of_range("Iterator is terminated!");
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if(curr->HasRightChild()){
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curr = MostLeftNode(curr->RightChild());
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}else{
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if(stack.Empty()){
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curr = nullptr;
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}else{
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curr = stack.TopNPop();
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}
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}
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}
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/* ----- end of class BTInOrderIterator ----- */
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/* ----- begin of class BTBreadthIteratorOrderIterator ----- */
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template <typename Data>
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BTBreadthIterator<Data>::BTBreadthIterator(const BinaryTree<Data>& tree){
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if(tree.Size() > 0)
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curr = &(tree.Root());
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else
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curr = nullptr;
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}
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template <typename Data>
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BTBreadthIterator<Data>::BTBreadthIterator(const BTBreadthIterator& itr){
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curr = itr.curr;
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queue = itr.queue;
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}
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template <typename Data>
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BTBreadthIterator<Data>::BTBreadthIterator(BTBreadthIterator&& itr) noexcept{
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std::swap(curr, itr.curr);
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std::swap(queue, itr.queue);
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}
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template <typename Data>
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BTBreadthIterator<Data>::~BTBreadthIterator(){
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curr = nullptr;
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queue.Clear();
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}
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template <typename Data>
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BTBreadthIterator<Data>& BTBreadthIterator<Data>::operator=(const BTBreadthIterator& itr){
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curr = itr.curr;
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queue = itr.queue;
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return *this;
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}
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template <typename Data>
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BTBreadthIterator<Data>& BTBreadthIterator<Data>::operator=(BTBreadthIterator&& itr) noexcept{
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std::swap(curr, itr.curr);
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std::swap(queue, itr.queue);
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return *this;
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}
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template <typename Data>
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bool BTBreadthIterator<Data>::operator==(const BTBreadthIterator& itr) const noexcept{
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return ( curr==itr.curr && queue==itr.queue );
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}
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template <typename Data>
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bool BTBreadthIterator<Data>::operator!=(const BTBreadthIterator& itr) const noexcept{
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return !(*this == itr);
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}
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template <typename Data>
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Data& BTBreadthIterator<Data>::operator*() const{
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if(Terminated()) throw std::out_of_range("Iterator is terminated!");
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return curr->Element();
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}
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template <typename Data>
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bool BTBreadthIterator<Data>::Terminated() const noexcept{
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return curr == nullptr;
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}
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template <typename Data>
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void BTBreadthIterator<Data>::operator++(){
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if(Terminated()) throw std::out_of_range("Iterator is terminated!");
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if(curr->HasLeftChild()){
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queue.Enqueue(&(curr->LeftChild()));
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}
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if(curr->HasRightChild()){
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queue.Enqueue(&(curr->RightChild()));
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}
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if(!queue.Empty()){
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curr = queue.HeadNDequeue();
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}else{
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curr = nullptr;
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}
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}
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/* ************************************************************************** */
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}
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