You are to complete a partial program  incorporating a function DelOddCopEven that is to delete all odd-valued nodes and copy each even-valued node of a given list:

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The original order in which the remaining (even-valued) nodes must be preserved, with each original node and its duplicate appearing together.

Algorithm should:

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NOT destroy any of the originally even-valued node.

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This means that the originally even-valued nodes should be retained as part of the resulting list.

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Destroy ONLY nodes that are originally odd-valued.

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Create new nodes and copy data between nodes ONLY when duplicating originally even-valued nodes.

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Only ONE new node should be created for each originally even-valued node.

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Creating pointer-to-node's (to provide temporary storage for node addresses) does not constitute creating new nodes or copying of items.

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NOT make any temporary copies of any of the data items (using any kind of data structures including but not limited to arrays, linked lists and trees).

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This means that the algorithm should largely involve the manipulation of pointers.

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Function must be iterative (NOT recursive) - use only looping construct(s), without the function calling itself (directly or indirectly).

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Function should not call any other functions to help in performing the task.

#ifndef LLCP_INT_H
#define LLCP_INT_H

#include <iostream>

struct Node
{
   int data;
   Node *link;
};

int    FindListLength(Node* headPtr);
bool   IsSortedUp(Node* headPtr);
void   InsertAsHead(Node*& headPtr, int value);
void   InsertAsTail(Node*& headPtr, int value);
void   InsertSortedUp(Node*& headPtr, int value);
bool   DelFirstTargetNode(Node*& headPtr, int target);
bool   DelNodeBefore1stMatch(Node*& headPtr, int target);
void   ShowAll(std::ostream& outs, Node* headPtr);
void   FindMinMax(Node* headPtr, int& minValue, int& maxValue);
double FindAverage(Node* headPtr);
void   ListClear(Node*& headPtr, int noMsg = 0);

// prototype of DelOddCopEven of Assignment 5 Part 1

#endif

 

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passed test on empty list ============= test case 1 of 1000000 initial: 6 7 5 3 ought2b: 6 6 outcome: 6 6 test case 2 of 1000000 initial: 6 29 1 27 ought2b: 6 6 2 2 2 2 outcome: 6 6 2 2 2 2 ===== test case 3 of 1000000 initial: 9 ought2b: outcome: test case 4 of 1000000 initial: 6 0 6 2 ought2b: 6 6 0 0 6 outcome: 6 6 0 0 6 test case 5 of 1000000 co co initial: 1 ought2b: 8 outcome: 8 8 2 8 7 ======= 8 2 6 2 2 62 2 ===== test case 40000 of 1000000 initial: 5 5 1 ought2b: outcome: 9 20 2 2 0 0 22 0 0 2 2 2 test case 80000 of 1000000 initial: 2 ought2b: 2 2 outcome: 2 2 test case 120000 of 1000000 initial: 4 4 1 8 ought2b: 4 4 4 4 8 8 outcome: 4 4 4 4 88 644 ===== test case 160000 of 1000000 initial: 0 4 ought2b: 0 0 outcome: 0 0 4 6 6 4 6 6 ==== test case 200000 of 1000000 initial: 1 7 0 3 7 7 3 ought2b: 0 outcome: 0 0 == =====

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_1234567898123456789281223242525728298123456劲89 ¥42²4 45 46 7 8 9 58 123456859 68 10 20 30 40 41 43 47 48 49 50 57 60 #include "nodes_LLOLL.h" #include "cnPtrQueue.h" #include <iostream> using namespace std; namespace CS3358_SP2023_A5P2 { // do breadth-first (level) traversal and print data void ShowA11_BF (PNode* pListHead, ostream& outs) // to be implemented (part of assignment) { } void Destroy_clist (CNode*& cListHead) int count = 0; CNode* cNodePtr = cListHead; while (cListHead != 0) { { } cout << "Dynamic memory for " << count << " CNodes freed" << endl; void Destroy_pList (PNode* & pListHead) cListHead = cListHead->link; delete cNodePtr; cNodePtr = cListHead; ++count; int count = 0; PNode* pNodePtr pListHead; while (plistHead != 0) { } plistHead pListHead->link; Destroy_clist (pNodePtr->data); } delete pNodePtr; pNodePtr = plistHead; ++count; cout << "Dynamic memory for " << count << " PNodes freed" << endl; = // do depth-first traversal and print data void ShowA11_DF (PNode* plistHead, ostream& outs) = while (plistHead != 0) { { CNode* cListHead pListHead->data; while (clistHead != 0) } plistHead outs <<clistHead->data << cListHead = clistHead->link; = pListHead->link;