/* * Created by Brett on 26/12/22. * Licensed under GNU General Public License V3.0 * See LICENSE file for license detail */ #ifndef BLT_QUEUES_H #define BLT_QUEUES_H /** * Do no use any queue in this file. They are slower than std::queue. */ namespace BLT { template struct node { T t; node* next; node(const T& t, node* next){ this->t = t; this->next = next; } }; template class flat_queue { private: int size = 16; int insertIndex = 0; T* data = new T[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 < insertIndex; i++) tempData[i] = data[i]; delete[] data; data = tempData; size = newSize; } public: void push(const T& t) { if (insertIndex >= size){ expand(size * 2); } data[insertIndex++] = t; } /** * Warning does not contain runtime error checking! * @return the element at the "front" of the queue. */ [[nodiscard]] const T& front() const { return data[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; insertIndex--; } bool isEmpty(){ return insertIndex <= 0; } ~flat_queue() { delete[](data); } }; // avoid this. it is very slow. template class node_queue { private: node* head; public: void push(const T& t) { if (head == nullptr) head = new node(t, nullptr); else head = new node(t, head); } [[nodiscard]] const T& front() const { return head->t; } void pop() { auto nextNode = head->next; delete(head); head = nextNode; } ~node_queue() { auto next = head; while (next != nullptr){ auto nextNode = next->next; delete(next); next = nextNode; } } }; } #endif //BLT_QUEUES_H