You should not make any changes to DPQueue.h. ● Fill in the implementation of all the "stub" functions in the file (those with output statements containing the message "??? not implemented yet"), // FILE: DPQueue.h // CLASS PROVIDED: p_queue (priority queue ADT) // TYPEDEFS and MEMBER CONSTANTS for the p_queue class: // typedef _____ value_type // p_queue::value_type is the data type of the items in // the p_queue. It may be any of the C++ built-in types // (int, char, etc.), or a class with a default constructor, a // copy constructor, an assignment operator, and a less-than // operator forming a strict weak ordering. // // typedef _____ size_type // p_queue::size_type is the data type considered best-suited // for any variable meant for counting and sizing (as well as // array-indexing) purposes; e.g.: it is the data type for a // variable representing how many items are in the p_queue. // It is also the data type of the priority associated with // each item in the p_queue // static const size_type DEFAULT_CAPACITY = _____ // p_queue::DEFAULT_CAPACITY is the default initial capacity of a // p_queue that is created by the default constructor. // // CONSTRUCTOR for the p_queue class: // p_queue(size_type initial_capacity = DEFAULT_CAPACITY) // Pre: initial_capacity > 0 // Post: The p_queue has been initialized to an empty p_queue. // The push function will work efficiently (without allocating // new memory) until this capacity is reached. // Note: If Pre is not met, initial_capacity will be adjusted to // DEFAULT_CAPACITY. I.e., when creating a p_queue object, // client can override initial_capacity with something deemed // more appropriate than DEFAULT_CAPACITY; but if (in doing so) // client mis-specifies 0 (NOTE: size_type is unsigned, thus // can't be negative) as the overriding size, DEFAULT_CAPACITY // remains as the value to be used for initial_capacity (this // is to ensure no attempt is made at allocating memory that's // 0 in amount). // // MODIFICATION MEMBER FUNCTIONS for the p_queue class: // void push(const value_type& entry, size_type priority) // Pre: (none) // Post: A new copy of item with the specified data and priority // has been added to the p_queue. // // void pop() // Pre: size() > 0. // Post: The highest priority item has been removed from the // p_queue. (If several items have the equal priority, // then the implementation may decide which one to remove.) // // CONSTANT MEMBER FUNCTIONS for the p_queue class: // size_type size() const // Pre: (none) // Post: The return value is the total number of items in the // p_queue. // // value_type front() const // Pre: size() > 0. // Post: The return value is the data of the highest priority // item in the p_queue, but the p_queue is unchanged. // (If several items have equal priority, then the // implementation may decide which one to return.) // // bool empty() const // Pre: (none) // Post: The return value is true if the p_queue is empty, // otherwise false. // // VALUE SEMANTICS for the p_queue class: // Assignments and the copy constructor may be used with p_queue // objects. #ifndef D_P_QUEUE_H #define D_P_QUEUE_H #include // provides size_t namespace CS3358_SP2023_A7 { class p_queue { public: // TYPEDEFS and MEMBER CONSTANTS typedef int value_type; typedef size_t size_type; static const size_type DEFAULT_CAPACITY = 1; // CONSTRUCTORS AND DESTRUCTOR p_queue(size_type initial_capacity = DEFAULT_CAPACITY); p_queue(const p_queue& src); ~p_queue(); // MODIFICATION MEMBER FUNCTIONS p_queue& operator=(const p_queue& rhs); void push(const value_type& entry, size_type priority); void pop(); // CONSTANT MEMBER FUNCTIONS size_type size() const; bool empty() const; value_type front() const; // EXTRA CONSTANT MEMBER FUNCTION FOR DEBUG PRINTING void print_tree(const char message[] = "", size_type i = 0) const; void print_array(const char message[] = "") const; private: // STRUCT to store information about one item in the p_queue struct ItemType { value_type data; size_type priority; }; // PRIVATE MEMBER VARIABLES ItemType *heap; size_type capacity; size_type used; // HELPER FUNCTIONS void resize(size_type new_capacity); bool is_leaf(size_type i) const; size_type parent_index(size_type i) const; size_type parent_priority(size_type i) const; size_type big_child_index(size_type i) const; size_type big_child_priority(size_type i) const; void swap_with_parent(size_type i); }; } #endif

You should not make any changes to DPQueue.h.

●

Fill in the implementation of all the "stub" functions in the file (those with output statements containing the message "??? not implemented yet"),

// FILE: DPQueue.h
// CLASS PROVIDED: p_queue (priority queue ADT)
// TYPEDEFS and MEMBER CONSTANTS for the p_queue class:
//   typedef _____ value_type
//     p_queue::value_type is the data type of the items in
//     the p_queue. It may be any of the C++ built-in types
//     (int, char, etc.), or a class with a default constructor, a
//     copy constructor, an assignment operator, and a less-than
//     operator forming a strict weak ordering.
//
//   typedef _____ size_type
//     p_queue::size_type is the data type considered best-suited
//     for any variable meant for counting and sizing (as well as
//     array-indexing) purposes; e.g.: it is the data type for a
//     variable representing how many items are in the p_queue.
//     It is also the data type of the priority associated with
//     each item in the p_queue
//   static const size_type DEFAULT_CAPACITY = _____
//    p_queue::DEFAULT_CAPACITY is the default initial capacity of a
//    p_queue that is created by the default constructor.
//
// CONSTRUCTOR for the p_queue class:
//   p_queue(size_type initial_capacity = DEFAULT_CAPACITY)
//     Pre:  initial_capacity > 0
//     Post: The p_queue has been initialized to an empty p_queue.
//       The push function will work efficiently (without allocating
//       new memory) until this capacity is reached.
//     Note: If Pre is not met, initial_capacity will be adjusted to
//       DEFAULT_CAPACITY. I.e., when creating a p_queue object,
//       client can override initial_capacity with something deemed
//       more appropriate than DEFAULT_CAPACITY; but if (in doing so)
//       client mis-specifies 0 (NOTE: size_type is unsigned, thus
//       can't be negative) as the overriding size, DEFAULT_CAPACITY
//       remains as the value to be used for initial_capacity (this
//       is to ensure no attempt is made at allocating memory that's
//       0 in amount).
//
// MODIFICATION MEMBER FUNCTIONS for the p_queue class:
//   void push(const value_type& entry, size_type priority)
//     Pre:  (none)
//     Post: A new copy of item with the specified data and priority
//           has been added to the p_queue.
//
//   void pop()
//     Pre:  size() > 0.
//     Post: The highest priority item has been removed from the
//           p_queue. (If several items have the equal priority,
//           then the implementation may decide which one to remove.)
//
// CONSTANT MEMBER FUNCTIONS for the p_queue class:
//   size_type size() const
//     Pre:  (none)
//     Post: The return value is the total number of items in the
//           p_queue.
//
//   value_type front() const
//     Pre:  size() > 0.
//     Post: The return value is the data of the highest priority
//           item in the p_queue, but the p_queue is unchanged.
//           (If several items have equal priority, then the
//           implementation may decide which one to return.)
//
//   bool empty() const
//     Pre:  (none)
//     Post: The return value is true if the p_queue is empty,
//           otherwise false.
//
// VALUE SEMANTICS for the p_queue class:
//   Assignments and the copy constructor may be used with p_queue
//   objects.

#ifndef D_P_QUEUE_H
#define D_P_QUEUE_H

#include <cstdlib> // provides size_t

namespace CS3358_SP2023_A7
{
   class p_queue
   {
   public:
      // TYPEDEFS and MEMBER CONSTANTS
      typedef int value_type;
      typedef size_t size_type;
      static const size_type DEFAULT_CAPACITY = 1;
      // CONSTRUCTORS AND DESTRUCTOR
      p_queue(size_type initial_capacity = DEFAULT_CAPACITY);
      p_queue(const p_queue& src);
      ~p_queue();
      // MODIFICATION MEMBER FUNCTIONS
      p_queue& operator=(const p_queue& rhs);
      void push(const value_type& entry, size_type priority);
      void pop();
      // CONSTANT MEMBER FUNCTIONS
      size_type size() const;
      bool empty() const;
      value_type front() const;
      // EXTRA CONSTANT MEMBER FUNCTION FOR DEBUG PRINTING
      void print_tree(const char message[] = "", size_type i = 0) const;
      void print_array(const char message[] = "") const;

   private:
      // STRUCT to store information about one item in the p_queue
      struct ItemType
      {
         value_type data;
         size_type priority;
      };
      // PRIVATE MEMBER VARIABLES
      ItemType *heap;
      size_type capacity;
      size_type used;
      // HELPER FUNCTIONS
      void resize(size_type new_capacity);
      bool is_leaf(size_type i) const;
      size_type parent_index(size_type i) const;
      size_type parent_priority(size_type i) const;
      size_type big_child_index(size_type i) const;
      size_type big_child_priority(size_type i) const;
      void swap_with_parent(size_type i);
   };
}

#endif

Transcribed Image Text:

P_queue::size_type p_queue: :parent_priority (size_type i) const // Pre: (i > 0) && (i < used) // Post: The priority of "the parent of the item at heap[i]" has // been returned. { }

Transcribed Image Text:

p_queue::size_type p_queue::big_child_priority (size_type i) const // Pre: is_leaf (i) returns false // Post: // // // { } The priority of "the bigger child of the item at heap[i]" has been returned. (The bigger child is the one whose priority is no smaller than that of the other child, if there is one.) cerr << "big_child_priority (size_type) not implemented yet" << endl; return 0; // dummy return value