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BLT/include/blt/std/queue.h

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/*
* Created by Brett on 26/12/22.
* Licensed under GNU General Public License V3.0
* See LICENSE file for license detail
*/
#ifndef BLT_QUEUE_H
#define BLT_QUEUE_H
#include <blt/std/memory_util.h>
/**
*
*/
namespace blt
{
/**
* Standard array backed first in first out queue
* @tparam T type stored in the queue
*/
template<typename T>
class flat_stack
{
private:
int m_size = 16;
int m_insertIndex = 0;
T* m_data = new T[m_size];
/**
* Expands the internal array to the new size, copying over the data and shifting its minimal position to index 0
* and deletes the old array from memory.
* @param newSize new size of the internal array
*/
void expand()
{
int new_size = blt::mem::next_byte_allocation(m_size);
auto tempData = new T[new_size];
for (int i = 0; i < m_insertIndex; i++)
tempData[i] = m_data[i];
delete[] m_data;
m_data = tempData;
m_size = new_size;
}
public:
void push(const T& t)
{
if (m_insertIndex >= m_size)
{
expand();
}
m_data[m_insertIndex++] = t;
}
/**
* Warning does not contain runtime error checking!
* @return the element at the "front" of the queue.
*/
[[nodiscard]] const T& top() const
{
return m_data[m_insertIndex - 1];
}
void pop()
{
if (empty())
return;
m_insertIndex--;
}
[[nodiscard]] inline bool empty() const
{
return m_insertIndex <= 0;
}
[[nodiscard]] inline int size() const
{
return m_insertIndex;
}
~flat_stack()
{
delete[](m_data);
}
};
/**
* Standard array backed first in last out queue (stack)
* @tparam T type stored in the queue
*/
template<typename T>
class flat_queue
{
private:
int m_size = 16;
int m_headIndex = 0;
int m_insertIndex = 0;
T* m_data;
/**
* Expands the internal array to allow for more storage of elements
*/
void expand()
{
int new_size = blt::mem::next_byte_allocation(m_size);
int removed_size = m_size - m_headIndex;
auto tempData = new T[new_size];
// only copy data from where we've removed onward
for (int i = 0; i < removed_size; i++)
tempData[i] = m_data[i + m_headIndex]; // but don't copy data we've pop'd
delete[] m_data;
m_headIndex = 0;
m_insertIndex = removed_size - 1;
m_data = tempData;
m_size = new_size;
}
public:
flat_queue(): m_data(new T[m_size])
{
}
inline void push(const T& t)
{
if (m_insertIndex + 1 >= m_size)
{
expand();
}
m_data[m_insertIndex++] = t;
}
/**
* Warning does not contain runtime error checking!
* @return the element at the "front" of the queue.
*/
[[nodiscard]] const T& front() const
{
return m_data[m_headIndex];
}
[[nodiscard]] T& front()
{
return m_data[m_headIndex];
}
inline void pop()
{
if (empty())
return;
m_headIndex++;
}
[[nodiscard]] inline bool empty() const
{
return m_headIndex >= m_size;
}
[[nodiscard]] inline int size() const
{
return m_insertIndex - m_headIndex;
}
inline T* begin()
{
return m_data[m_headIndex];
}
inline T* end()
{
return m_data[m_insertIndex];
}
~flat_queue()
{
delete[](m_data);
}
};
template<typename T>
class linked_stack
{
private:
struct node
{
T t;
node* next;
node(const T& t, node* node): t(t), next(node)
{}
node(T&& t, node* node): t(std::move(t)), next(node)
{}
};
node* head = nullptr;
public:
inline void push(const T& t)
{
head = new node(t, head);
}
inline void push(T&& t)
{
head = new node(std::move(t), head);
}
inline T& top()
{
return head->t;
}
inline const T& top() const
{
return head->t;
}
inline void pop()
{
auto* h = head;
head = head->next;
delete h;
}
~linked_stack()
{
auto* h = head;
while (h != nullptr)
{
auto* hc = h;
h = h->next;
delete hc;
}
}
};
}
#endif //BLT_QUEUE_H
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