lasd/librerie/exercise4/binarytree/vec/binarytreevec.cpp

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namespace lasd {
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/* ----- begin of struct NodeVec ----- */
template <typename Data>
BinaryTreeVec<Data>::NodeVec::NodeVec(Data& dat, ulong idx, BinaryTreeVec<Data>* ref){
data = dat;
index = idx;
ReferenceToTree = ref;
}
template <typename Data>
struct BinaryTreeVec<Data>::NodeVec& BinaryTreeVec<Data>::NodeVec::operator=(const BinaryTreeVec<Data>::NodeVec& node){
ReferenceToTree = node.ReferenceToTree;
data = node.data;
index = node.index;
return *this;
}
template <typename Data>
struct BinaryTreeVec<Data>::NodeVec& BinaryTreeVec<Data>::NodeVec::operator=(BinaryTreeVec<Data>::NodeVec&& node) noexcept{
std::swap(data, node.data);
std::swap(index, node.index);
std::swap(ReferenceToTree, node.ReferenceToTree);
return *this;
}
template <typename Data>
bool BinaryTreeVec<Data>::NodeVec::IsLeaf() const noexcept{
return (!HasLeftChild() && !HasRightChild());
}
template <typename Data>
bool BinaryTreeVec<Data>::NodeVec::HasLeftChild() const noexcept{
if( (index*2)+1 < ReferenceToTree->size){
return true;
}else{
return false;
}
}
template <typename Data>
bool BinaryTreeVec<Data>::NodeVec::HasRightChild() const noexcept{
if((index*2)+2 < ReferenceToTree->size){
return true;
}else{
return false;
}
}
template <typename Data>
struct BinaryTreeVec<Data>::NodeVec& BinaryTreeVec<Data>::NodeVec::LeftChild() const{
if(index*2+1 < ReferenceToTree->size)
return *((ReferenceToTree->tree)[index*2+1]);
else
throw std::out_of_range("Left child does not exist!");
}
template <typename Data>
struct BinaryTreeVec<Data>::NodeVec& BinaryTreeVec<Data>::NodeVec::RightChild() const{
if(index*2+2 < ReferenceToTree->size)
return *((ReferenceToTree->tree)[index*2+2]);
else
throw std::out_of_range("Right child does not exist!");
}
/* ----- end of struct NodeVec ----- */
/* ----- begin of class BinaryTreeVec ----- */
template <typename Data>
BinaryTreeVec<Data>::BinaryTreeVec(const LinearContainer<Data>& lc){
tree.Resize(lc.Size());
size = lc.Size();
for(ulong i=0 ; i<size ; ++i){
struct BinaryTreeVec<Data>::NodeVec* tmp = new BinaryTreeVec<Data>::NodeVec(lc[i], i, this);
tree[i] = tmp;
}
}
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template <typename Data>
BinaryTreeVec<Data>::BinaryTreeVec(const BinaryTreeVec<Data>& bt){
size = bt.size;
tree.Resize(size);
for(ulong i=0 ; i<size ; ++i){
struct BinaryTreeVec<Data>::NodeVec* tmp = new BinaryTreeVec<Data>::NodeVec( (bt.tree[i])->data , i, this);
tree[i] = tmp;
}
}
template <typename Data>
BinaryTreeVec<Data>::BinaryTreeVec(BinaryTreeVec<Data>&& bt) noexcept{
std::swap(size,bt.size);
std::swap(tree,bt.tree);
for(ulong i=0 ; i<size ; ++i){
tree[i]->ReferenceToTree = this;
}
}
template <typename Data>
BinaryTreeVec<Data>::~BinaryTreeVec(){
Clear();
}
template <typename Data>
BinaryTreeVec<Data>& BinaryTreeVec<Data>::operator=(const BinaryTreeVec<Data>& bt){
Clear();
size = bt.size;
tree.Resize(size);
for(ulong i=0 ; i<size ; ++i){
struct NodeVec* tmp = new BinaryTreeVec<Data>::NodeVec((bt.tree[i])->data,i,this);
tree[i] = tmp;
}
return *this;
}
template <typename Data>
BinaryTreeVec<Data>& BinaryTreeVec<Data>::operator=(BinaryTreeVec<Data>&& bt) noexcept{
std::swap(size, bt.size);
std::swap(tree, bt.tree);
for(ulong i=0 ; i<size ; ++i){
tree[i]->ReferenceToTree = this;
}
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for(ulong j=0 ; j<bt.Size() ; ++j){
(bt.tree[j])->ReferenceToTree = &bt;
}
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return *this;
}
template <typename Data>
bool BinaryTreeVec<Data>::operator==(const BinaryTreeVec& bt) const noexcept{
if(size==bt.size){
for(ulong i=0 ; i<size ; ++i){
if( tree[i]->data != (bt.tree[i])->data ) return false;
}
return true;
}
return false;
}
template <typename Data>
bool BinaryTreeVec<Data>::operator!=(const BinaryTreeVec& bt) const noexcept{
return !(*this == bt);
}
template <typename Data>
struct BinaryTreeVec<Data>::NodeVec& BinaryTreeVec<Data>::Root() const{
if(size==0) throw std::length_error("Empty tree!");
return *(tree.Front());
}
template <typename Data>
void BinaryTreeVec<Data>::Clear(){
for(ulong i=0 ; i<size ; ++i){
delete tree[i];
tree[i] = nullptr;
}
size = 0;
}
template <typename Data>
void BinaryTreeVec<Data>::MapBreadth(const MapFunctor func, void* par){
for(ulong i=0 ; i<size ; ++i){
func( (tree[i])->data, par);
}
}
template <typename Data>
void BinaryTreeVec<Data>::FoldBreadth(const FoldFunctor func, const void* par, void* acc) const{
for(ulong i=0 ; i<size ; ++i){
func( (tree[i])->data, par, acc);
}
}
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/* ************************************************************************** */
}