BLT/include/blt/std/queue.h

/*
 * 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

/**
 * Do no use any queue in this file. They are slower than std::queue.
 */
namespace blt {
    
    template<typename T>
    struct node {
        T t;
        node* next;
        
        node(const T& t, node* next) {
            this->t = t;
            this->next = next;
        }
    };
    
    /**
     * 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 newSize) {
                auto tempData = new T[newSize];
                for (int i = 0; i < m_insertIndex; i++)
                    tempData[i] = m_data[i];
                delete[] m_data;
                m_data = tempData;
                m_size = newSize;
            }
        
        public:
            
            void push(const T& t) {
                if (m_insertIndex >= m_size) {
                    expand(m_size * 2);
                }
                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() {
                // TODO: throw exception when popping would result in a overflow?
                // I didn't make it an exception here due to not wanting to import the class.
                if (isEmpty())
                    return;
                m_insertIndex--;
            }
            
            bool isEmpty() {
                return m_insertIndex <= 0;
            }
            
            int size() {
                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 = 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 newSize) {
                auto tempData = new T[newSize];
                for (int i = 0; i < m_size - m_headIndex; i++)
                    tempData[i] = m_data[i + m_headIndex];
                delete[] m_data;
                m_insertIndex = m_size - m_headIndex;
                m_headIndex = 0;
                m_data = tempData;
                m_size = newSize;
            }
        
        public:
            
            void push(const T& t) {
                if (m_insertIndex+1 >= m_size) {
                    expand(m_size * 2);
                }
                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];
            }
            
            void pop() {
                // TODO: throw exception when popping would result in a overflow?
                // I didn't make it an exception here due to not wanting to import the class.
                if (isEmpty())
                    return;
                m_headIndex++;
            }
            
            bool isEmpty() {
                return m_headIndex >= m_size;
            }
            
            int size() {
                return m_insertIndex - m_headIndex;
            }
            
            T* begin(){
                return m_data[m_headIndex];
            }
            
            T* end(){
                return m_data[m_insertIndex];
            }
            
            ~flat_queue() {
                delete[](m_data);
            }
    };
    
    // avoid this. it is very slow.
    template<typename T>
    class node_queue {
        private:
            node<T>* m_head;
        public:
            
            void push(const T& t) {
                if (m_head == nullptr)
                    m_head = new node<T>(t, nullptr);
                else
                    m_head = new node<T>(t, m_head);
            }
            
            [[nodiscard]] const T& front() const {
                return m_head->t;
            }
            
            void pop() {
                auto nextNode = m_head->next;
                delete (m_head);
                m_head = nextNode;
            }
            
            ~node_queue() {
                auto next = m_head;
                while (next != nullptr) {
                    auto nextNode = next->next;
                    delete (next);
                    next = nextNode;
                }
            }
    };
}

#endif //BLT_QUEUE_H
Basic Queue 2022-12-26 00:31:00 -05:00			`/*`
			`* Created by Brett on 26/12/22.`
			`* Licensed under GNU General Public License V3.0`
			`* See LICENSE file for license detail`
			`*/`

Add stack, revert queue 2023-01-05 12:34:14 -05:00			`#ifndef BLT_QUEUE_H`
			`#define BLT_QUEUE_H`
Basic Queue 2022-12-26 00:31:00 -05:00
Profiler test 2022-12-26 23:36:34 -05:00			`/**`
			`* Do no use any queue in this file. They are slower than std::queue.`
			`*/`
Working on binary trees 2023-01-10 10:45:11 -05:00			`namespace blt {`
Basic Queue 2022-12-26 00:31:00 -05:00
			`template<typename T>`
			`struct node {`
			`T t;`
			`node* next;`
Finalized Queue 2023-01-05 12:10:38 -05:00
			`node(const T& t, node* next) {`
constructor 2022-12-26 00:57:11 -05:00			`this->t = t;`
			`this->next = next;`
			`}`
Basic Queue 2022-12-26 00:31:00 -05:00			`};`

Add stack, revert queue 2023-01-05 12:34:14 -05:00			`/**`
			`* Standard array backed first in first out queue`
			`* @tparam T type stored in the queue`
			`*/`
Basic Queue 2022-12-26 00:31:00 -05:00			`template<typename T>`
Naming conflict 2023-01-05 12:37:15 -05:00			`class flat_stack {`
flat queue 2022-12-26 01:10:37 -05:00			`private:`
Finalized Queue 2023-01-05 12:10:38 -05:00			`int m_size = 16;`
			`int m_insertIndex = 0;`
			`T* m_data = new T[m_size];`
flat queue 2022-12-26 01:10:37 -05:00
Randoms + Metaprogramming test. Added randoms using C++ templates. Might be able to change the profiler class to a template template without the need of the config file. 2023-01-04 14:35:57 -05:00			`/**`
			`* 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`
			`*/`
Finalized Queue 2023-01-05 12:10:38 -05:00			`void expand(int newSize) {`
flat queue 2022-12-26 01:10:37 -05:00			`auto tempData = new T[newSize];`
Finalized Queue 2023-01-05 12:10:38 -05:00			`for (int i = 0; i < m_insertIndex; i++)`
			`tempData[i] = m_data[i];`
			`delete[] m_data;`
			`m_data = tempData;`
			`m_size = newSize;`
flat queue 2022-12-26 01:10:37 -05:00			`}`

Finalized Queue 2023-01-05 12:10:38 -05:00			`public:`

flat queue 2022-12-26 01:10:37 -05:00			`void push(const T& t) {`
Finalized Queue 2023-01-05 12:10:38 -05:00			`if (m_insertIndex >= m_size) {`
			`expand(m_size * 2);`
flat queue 2022-12-26 01:10:37 -05:00			`}`
Finalized Queue 2023-01-05 12:10:38 -05:00			`m_data[m_insertIndex++] = t;`
flat queue 2022-12-26 01:10:37 -05:00			`}`
Finalized Queue 2023-01-05 12:10:38 -05:00
Randoms, String refactor, Time, System, + Profiler improvements 2023-01-05 01:52:56 -05:00			`/**`
			`* Warning does not contain runtime error checking!`
			`* @return the element at the "front" of the queue.`
			`*/`
Fix binary tree 2023-01-10 22:05:47 -05:00			`[[nodiscard]] const T& top() const {`
Finalized Queue 2023-01-05 12:10:38 -05:00			`return m_data[m_insertIndex - 1];`
flat queue 2022-12-26 01:10:37 -05:00			`}`
Finalized Queue 2023-01-05 12:10:38 -05:00
flat queue 2022-12-26 01:10:37 -05:00			`void pop() {`
Randoms, String refactor, Time, System, + Profiler improvements 2023-01-05 01:52:56 -05:00			`// TODO: throw exception when popping would result in a overflow?`
			`// I didn't make it an exception here due to not wanting to import the class.`
Fix Queue to be a FIFO instead of FILO data structure 2023-01-05 11:45:27 -05:00			`if (isEmpty())`
Randoms, String refactor, Time, System, + Profiler improvements 2023-01-05 01:52:56 -05:00			`return;`
Finalized Queue 2023-01-05 12:10:38 -05:00			`m_insertIndex--;`
Randoms, String refactor, Time, System, + Profiler improvements 2023-01-05 01:52:56 -05:00			`}`

Finalized Queue 2023-01-05 12:10:38 -05:00			`bool isEmpty() {`
			`return m_insertIndex <= 0;`
flat queue 2022-12-26 01:10:37 -05:00			`}`
Debug 2023-01-05 11:49:45 -05:00
Finalized Queue 2023-01-05 12:10:38 -05:00			`int size() {`
			`return m_insertIndex;`
Debug 2023-01-05 11:49:45 -05:00			`}`
Finalized Queue 2023-01-05 12:10:38 -05:00
Naming conflict 2023-01-05 12:37:15 -05:00			`~flat_stack() {`
Finalized Queue 2023-01-05 12:10:38 -05:00			`delete[](m_data);`
flat queue 2022-12-26 01:10:37 -05:00			`}`
Basic Queue 2022-12-26 00:31:00 -05:00			`};`

Add stack, revert queue 2023-01-05 12:34:14 -05:00			`/**`
			`* Standard array backed first in last out queue (stack)`
			`* @tparam T type stored in the queue`
			`*/`
			`template<typename T>`
Naming conflict 2023-01-05 12:37:15 -05:00			`class flat_queue {`
Add stack, revert queue 2023-01-05 12:34:14 -05:00			`private:`
			`int m_size = 16;`
			`int m_headIndex = 0;`
			`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 newSize) {`
			`auto tempData = new T[newSize];`
			`for (int i = 0; i < m_size - m_headIndex; i++)`
			`tempData[i] = m_data[i + m_headIndex];`
			`delete[] m_data;`
			`m_insertIndex = m_size - m_headIndex;`
			`m_headIndex = 0;`
			`m_data = tempData;`
			`m_size = newSize;`
			`}`

			`public:`

			`void push(const T& t) {`
Better profiler 2023-01-26 00:59:36 -05:00			`if (m_insertIndex+1 >= m_size) {`
Add stack, revert queue 2023-01-05 12:34:14 -05:00			`expand(m_size * 2);`
			`}`
			`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];`
			`}`

			`void pop() {`
			`// TODO: throw exception when popping would result in a overflow?`
			`// I didn't make it an exception here due to not wanting to import the class.`
			`if (isEmpty())`
			`return;`
Forgot++ 2023-01-05 12:40:08 -05:00			`m_headIndex++;`
Add stack, revert queue 2023-01-05 12:34:14 -05:00			`}`

			`bool isEmpty() {`
			`return m_headIndex >= m_size;`
			`}`

			`int size() {`
			`return m_insertIndex - m_headIndex;`
			`}`

Better profiler 2023-01-26 00:59:36 -05:00			`T* begin(){`
			`return m_data[m_headIndex];`
			`}`

			`T* end(){`
			`return m_data[m_insertIndex];`
			`}`

Naming conflict 2023-01-05 12:37:15 -05:00			`~flat_queue() {`
Add stack, revert queue 2023-01-05 12:34:14 -05:00			`delete[](m_data);`
			`}`
			`};`

Randoms, String refactor, Time, System, + Profiler improvements 2023-01-05 01:52:56 -05:00			`// avoid this. it is very slow.`
Basic Queue 2022-12-26 00:31:00 -05:00			`template<typename T>`
			`class node_queue {`
			`private:`
Finalized Queue 2023-01-05 12:10:38 -05:00			`node<T>* m_head;`
Basic Queue 2022-12-26 00:31:00 -05:00			`public:`
Finalized Queue 2023-01-05 12:10:38 -05:00
flat queue 2022-12-26 01:10:37 -05:00			`void push(const T& t) {`
Finalized Queue 2023-01-05 12:10:38 -05:00			`if (m_head == nullptr)`
			`m_head = new node<T>(t, nullptr);`
qu 2022-12-26 01:02:46 -05:00			`else`
Finalized Queue 2023-01-05 12:10:38 -05:00			`m_head = new node<T>(t, m_head);`
Basic Queue 2022-12-26 00:31:00 -05:00			`}`
Finalized Queue 2023-01-05 12:10:38 -05:00
Const 2022-12-26 00:55:49 -05:00			`[[nodiscard]] const T& front() const {`
Finalized Queue 2023-01-05 12:10:38 -05:00			`return m_head->t;`
Basic Queue 2022-12-26 00:31:00 -05:00			`}`
Finalized Queue 2023-01-05 12:10:38 -05:00
Basic Queue 2022-12-26 00:31:00 -05:00			`void pop() {`
Finalized Queue 2023-01-05 12:10:38 -05:00			`auto nextNode = m_head->next;`
			`delete (m_head);`
			`m_head = nextNode;`
Basic Queue 2022-12-26 00:31:00 -05:00			`}`
Finalized Queue 2023-01-05 12:10:38 -05:00
Basic Queue 2022-12-26 00:31:00 -05:00			`~node_queue() {`
Finalized Queue 2023-01-05 12:10:38 -05:00			`auto next = m_head;`
			`while (next != nullptr) {`
Basic Queue 2022-12-26 00:31:00 -05:00			`auto nextNode = next->next;`
Finalized Queue 2023-01-05 12:10:38 -05:00			`delete (next);`
Basic Queue 2022-12-26 00:31:00 -05:00			`next = nextNode;`
			`}`
			`}`
			`};`
			`}`

Add stack, revert queue 2023-01-05 12:34:14 -05:00			`#endif //BLT_QUEUE_H`