lasd/librerie/exercise3/binarytree/lnk/binarytreelnk.cpp


namespace lasd {

/* ----- begin of struct NodeLnk ----- */

template <typename Data>
struct BinaryTreeLnk<Data>::NodeLnk& BinaryTreeLnk<Data>::NodeLnk::operator=(const BinaryTreeLnk<Data>::NodeLnk& node){
  data = node.data;
  left = node.left;
  right = node.right;
  return *this;
}

template <typename Data>
struct BinaryTreeLnk<Data>::NodeLnk& BinaryTreeLnk<Data>::NodeLnk::operator=(NodeLnk&& node) noexcept{
  std::swap(data, node.data);
  std::swap(left, node.left);
  std::swap(right, node.right);
  return *this;
}

template <typename Data>
bool BinaryTreeLnk<Data>::NodeLnk::IsLeaf() const noexcept{
  return (left==nullptr && right==nullptr);
}

template <typename Data>
bool BinaryTreeLnk<Data>::NodeLnk::HasLeftChild() const noexcept{
  return (left!=nullptr);
}

template <typename Data>
bool BinaryTreeLnk<Data>::NodeLnk::HasRightChild() const noexcept{
  return (right!=nullptr);
}

template <typename Data>
struct BinaryTreeLnk<Data>::NodeLnk& BinaryTreeLnk<Data>::NodeLnk::LeftChild() const{
  return *left;
}

template <typename Data>
struct BinaryTreeLnk<Data>::NodeLnk& BinaryTreeLnk<Data>::NodeLnk::RightChild() const{
  return *right;
}

/* ----- end of struct NodeLnk ----- */

/* ----- begin of class BinaryTreeLnk ----- */

// creates a tree from a linear container in breadth
template <typename Data>
BinaryTreeLnk<Data>::BinaryTreeLnk(const LinearContainer<Data>& lc){
  root = CreateTreeFromLinearContainerInBreadth(lc,0);
  size = lc.Size();
}

template <typename Data>
struct BinaryTreeLnk<Data>::NodeLnk*  BinaryTreeLnk<Data>::CreateTreeFromLinearContainerInBreadth(const LinearContainer<Data>& lc, ulong position){
  if(position >= lc.Size()) return nullptr;

  struct BinaryTreeLnk<Data>::NodeLnk* tmp = CreateNode(lc[position]);

  tmp->left = CreateTreeFromLinearContainerInBreadth(lc, (2*position)+1);
  tmp->right = CreateTreeFromLinearContainerInBreadth(lc, (2*position)+2);

  return tmp;

}

template <typename Data>
struct BinaryTreeLnk<Data>::NodeLnk* BinaryTreeLnk<Data>::CreateNode(const Data& data){
    struct BinaryTreeLnk<Data>::NodeLnk* newNode = new struct BinaryTreeLnk<Data>::NodeLnk();
    newNode->data = data;
    newNode->left = nullptr;
    newNode->right = nullptr;
    return newNode;
}

template <typename Data>
BinaryTreeLnk<Data>::BinaryTreeLnk(const BinaryTreeLnk<Data>& tree){
  if(tree.root == nullptr) return;
  size = tree.size;
  root = CopyTree(&tree.Root());
}

template <typename Data>
struct BinaryTreeLnk<Data>::NodeLnk* BinaryTreeLnk<Data>::CopyTree(struct BinaryTreeLnk<Data>::Node* nodeToCopy){
  if(nodeToCopy==nullptr) return nullptr;

  struct BinaryTreeLnk<Data>::NodeLnk* tmp = CreateNode(nodeToCopy->Element());

  if(nodeToCopy->HasLeftChild())
    tmp->left = CopyTree(&(nodeToCopy->LeftChild()));
  else
    tmp->left = nullptr;

  if(nodeToCopy->HasRightChild())
    tmp->right = CopyTree(&(nodeToCopy->RightChild()));
  else
    tmp->right = nullptr;

  return tmp;
}

template <typename Data>
BinaryTreeLnk<Data>::BinaryTreeLnk(BinaryTreeLnk<Data>&& tree) noexcept{
  std::swap(size, tree.size);
  std::swap(root, tree.root);
}

template <typename Data>
BinaryTreeLnk<Data>::~BinaryTreeLnk(){
  Clear();
}

template <typename Data>
void BinaryTreeLnk<Data>::DeleteTree(BinaryTreeLnk<Data>::NodeLnk* node){
  if(node == nullptr) return;
  DeleteTree(node->left);
  DeleteTree(node->right);
  delete node;
}

template <typename Data>
BinaryTreeLnk<Data>& BinaryTreeLnk<Data>::operator=(const BinaryTreeLnk<Data>& tree){
  Clear();
  size = tree.size;
  if(tree.root != nullptr)
    root = CopyTree(&tree.Root());
  return *this;

}

template <typename Data>
BinaryTreeLnk<Data>& BinaryTreeLnk<Data>::operator=(BinaryTreeLnk<Data>&& tree) noexcept{
  Clear();
  std::swap(size, tree.size);
  std::swap(root, tree.root);
  return *this;
}

/*
**  operator== and operator!= can be removed from BinaryTreeLnk since they are
**  inherited from BinaryTree. They're here just for clarity and  because they're
**  in the template.
**  Maybe you can make them more optimized here.
*/
template <typename Data>
bool BinaryTreeLnk<Data>::operator==(const BinaryTreeLnk<Data>& tree) const noexcept{
  return (BinaryTree<Data>::operator==(tree));
}

template <typename Data>
bool BinaryTreeLnk<Data>::operator!=(const BinaryTreeLnk<Data>& tree) const noexcept{
  return !(*this == tree);
}

template <typename Data>
struct BinaryTreeLnk<Data>::NodeLnk& BinaryTreeLnk<Data>::Root() const{
  if(size==0) throw std::length_error("Empty tree!");
  return *root;
}

template <typename Data>
void BinaryTreeLnk<Data>::Clear(){
  DeleteTree(root);
  root = nullptr;
  size = 0;
}

}
Library 3 Added template 2021-04-24 16:58:05 +02:00
			`namespace lasd {`

Library 3 cleaner code 2021-05-05 22:37:45 +02:00			`/* ----- begin of struct NodeLnk ----- */`

Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`template <typename Data>`
Library 3 fixed compile-time errors 2021-05-04 16:05:48 +02:00			`struct BinaryTreeLnk<Data>::NodeLnk& BinaryTreeLnk<Data>::NodeLnk::operator=(const BinaryTreeLnk<Data>::NodeLnk& node){`
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`data = node.data;`
			`left = node.left;`
			`right = node.right;`
			`return *this;`
			`}`
Library 3 Added template 2021-04-24 16:58:05 +02:00
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`template <typename Data>`
			`struct BinaryTreeLnk<Data>::NodeLnk& BinaryTreeLnk<Data>::NodeLnk::operator=(NodeLnk&& node) noexcept{`
			`std::swap(data, node.data);`
			`std::swap(left, node.left);`
			`std::swap(right, node.right);`
			`return *this;`
			`}`
Library 3 Added template 2021-04-24 16:58:05 +02:00
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`template <typename Data>`
			`bool BinaryTreeLnk<Data>::NodeLnk::IsLeaf() const noexcept{`
			`return (left==nullptr && right==nullptr);`
			`}`

			`template <typename Data>`
			`bool BinaryTreeLnk<Data>::NodeLnk::HasLeftChild() const noexcept{`
			`return (left!=nullptr);`
			`}`

			`template <typename Data>`
			`bool BinaryTreeLnk<Data>::NodeLnk::HasRightChild() const noexcept{`
			`return (right!=nullptr);`
			`}`

			`template <typename Data>`
Library 3 added tests on iterators, cleaner menu, fixes. 2021-05-09 16:07:20 +02:00			`struct BinaryTreeLnk<Data>::NodeLnk& BinaryTreeLnk<Data>::NodeLnk::LeftChild() const{`
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`return *left;`
			`}`

			`template <typename Data>`
Library 3 added tests on iterators, cleaner menu, fixes. 2021-05-09 16:07:20 +02:00			`struct BinaryTreeLnk<Data>::NodeLnk& BinaryTreeLnk<Data>::NodeLnk::RightChild() const{`
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`return *right;`
			`}`

Library 3 cleaner code 2021-05-05 22:37:45 +02:00			`/* ----- end of struct NodeLnk ----- */`

			`/* ----- begin of class BinaryTreeLnk ----- */`

Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`// creates a tree from a linear container in breadth`
			`template <typename Data>`
			`BinaryTreeLnk<Data>::BinaryTreeLnk(const LinearContainer<Data>& lc){`
			`root = CreateTreeFromLinearContainerInBreadth(lc,0);`
			`size = lc.Size();`
			`}`

Library 3 fixed compile-time errors 2021-05-04 16:05:48 +02:00			`template <typename Data>`
			`struct BinaryTreeLnk<Data>::NodeLnk* BinaryTreeLnk<Data>::CreateTreeFromLinearContainerInBreadth(const LinearContainer<Data>& lc, ulong position){`
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`if(position >= lc.Size()) return nullptr;`

			`struct BinaryTreeLnk<Data>::NodeLnk* tmp = CreateNode(lc[position]);`

			`tmp->left = CreateTreeFromLinearContainerInBreadth(lc, (2*position)+1);`
			`tmp->right = CreateTreeFromLinearContainerInBreadth(lc, (2*position)+2);`

			`return tmp;`

			`}`

			`template <typename Data>`
Library 3 fixed compile-time errors 2021-05-04 16:05:48 +02:00			`struct BinaryTreeLnk<Data>::NodeLnk* BinaryTreeLnk<Data>::CreateNode(const Data& data){`
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`struct BinaryTreeLnk<Data>::NodeLnk* newNode = new struct BinaryTreeLnk<Data>::NodeLnk();`
			`newNode->data = data;`
			`newNode->left = nullptr;`
			`newNode->right = nullptr;`
			`return newNode;`
			`}`

			`template <typename Data>`
			`BinaryTreeLnk<Data>::BinaryTreeLnk(const BinaryTreeLnk<Data>& tree){`
			`if(tree.root == nullptr) return;`
			`size = tree.size;`
			`root = CopyTree(&tree.Root());`
			`}`

Library 3 fixed compile-time errors 2021-05-04 16:05:48 +02:00			`template <typename Data>`
			`struct BinaryTreeLnk<Data>::NodeLnk* BinaryTreeLnk<Data>::CopyTree(struct BinaryTreeLnk<Data>::Node* nodeToCopy){`
Library 3 binarytreevec 2021-05-01 23:58:12 +02:00			`if(nodeToCopy==nullptr) return nullptr;`

Library 3 fixed compile-time errors 2021-05-04 16:05:48 +02:00			`struct BinaryTreeLnk<Data>::NodeLnk* tmp = CreateNode(nodeToCopy->Element());`
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00
Library 3 fixed compile-time errors 2021-05-04 16:05:48 +02:00			`if(nodeToCopy->HasLeftChild())`
			`tmp->left = CopyTree(&(nodeToCopy->LeftChild()));`
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`else`
			`tmp->left = nullptr;`

Library 3 fixed compile-time errors 2021-05-04 16:05:48 +02:00			`if(nodeToCopy->HasRightChild())`
			`tmp->right = CopyTree(&(nodeToCopy->RightChild()));`
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`else`
			`tmp->right = nullptr;`

			`return tmp;`
			`}`

			`template <typename Data>`
			`BinaryTreeLnk<Data>::BinaryTreeLnk(BinaryTreeLnk<Data>&& tree) noexcept{`
			`std::swap(size, tree.size);`
			`std::swap(root, tree.root);`
			`}`

			`template <typename Data>`
			`BinaryTreeLnk<Data>::~BinaryTreeLnk(){`
			`Clear();`
			`}`

			`template <typename Data>`
			`void BinaryTreeLnk<Data>::DeleteTree(BinaryTreeLnk<Data>::NodeLnk* node){`
			`if(node == nullptr) return;`
			`DeleteTree(node->left);`
			`DeleteTree(node->right);`
			`delete node;`
			`}`

			`template <typename Data>`
			`BinaryTreeLnk<Data>& BinaryTreeLnk<Data>::operator=(const BinaryTreeLnk<Data>& tree){`
			`Clear();`
			`size = tree.size;`
			`if(tree.root != nullptr)`
			`root = CopyTree(&tree.Root());`
			`return *this;`

			`}`

			`template <typename Data>`
			`BinaryTreeLnk<Data>& BinaryTreeLnk<Data>::operator=(BinaryTreeLnk<Data>&& tree) noexcept{`
Library 3 cleaner code 2021-05-05 22:37:45 +02:00			`Clear();`
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`std::swap(size, tree.size);`
			`std::swap(root, tree.root);`
			`return *this;`
			`}`

Library 3 bug fix: when size==0 and a BinaryTree[Lnk/Vec] is casted to BinaryTree, and operator== is called, it crashed 2021-05-25 15:56:40 +02:00			`/*`
			`** operator== and operator!= can be removed from BinaryTreeLnk since they are`
			`** inherited from BinaryTree. They're here just for clarity and because they're`
			`** in the template.`
			`** Maybe you can make them more optimized here.`
			`*/`
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`template <typename Data>`
			`bool BinaryTreeLnk<Data>::operator==(const BinaryTreeLnk<Data>& tree) const noexcept{`
Library 3 bug fix: when size==0 and a BinaryTree[Lnk/Vec] is casted to BinaryTree, and operator== is called, it crashed 2021-05-25 15:56:40 +02:00			`return (BinaryTree<Data>::operator==(tree));`
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`}`

			`template <typename Data>`
			`bool BinaryTreeLnk<Data>::operator!=(const BinaryTreeLnk<Data>& tree) const noexcept{`
			`return !(*this == tree);`
			`}`

			`template <typename Data>`
Library 3 fixed bug #4 + enhancements 2021-05-06 19:46:16 +02:00			`struct BinaryTreeLnk<Data>::NodeLnk& BinaryTreeLnk<Data>::Root() const{`
Library 3 bugfix 2021-05-05 10:03:25 +02:00			`if(size==0) throw std::length_error("Empty tree!");`
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`return *root;`
			`}`

			`template <typename Data>`
Library 3 fixed compile-time errors 2021-05-04 16:05:48 +02:00			`void BinaryTreeLnk<Data>::Clear(){`
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`DeleteTree(root);`
Library 3 bugfix 2021-05-05 10:03:25 +02:00			`root = nullptr;`
			`size = 0;`
Library 3 binarytreelnk 2021-04-30 18:12:50 +02:00			`}`
Library 3 Added template 2021-04-24 16:58:05 +02:00
			`}`