Assign negativeCntr with the number of negative values in the linked list. #incl
ID: 3879121 • Letter: A
Question
Assign negativeCntr with the number of negative values in the linked list.
#include <iostream>
#include <cstdlib>
using namespace std;
class IntNode {
public:
IntNode(int dataInit = 0, IntNode* nextLoc = nullptr);
void InsertAfter(IntNode* nodePtr);
IntNode* GetNext();
int GetDataVal();
private:
int dataVal;
IntNode* nextNodePtr;
};
// Constructor
IntNode::IntNode(int dataInit, IntNode* nextLoc) {
this->dataVal = dataInit;
this->nextNodePtr = nextLoc;
return;
}
/* Insert node after this node.
* Before: this -- next
* After: this -- node -- next
*/
void IntNode::InsertAfter(IntNode* nodeLoc) {
IntNode* tmpNext = nullptr;
tmpNext = this->nextNodePtr; // Remember next
this->nextNodePtr = nodeLoc; // this -- node -- ?
nodeLoc->nextNodePtr = tmpNext; // this -- node -- next
return;
}
// Grab location pointed by nextNodePtr
IntNode* IntNode::GetNext() {
return this->nextNodePtr;
}
int IntNode::GetDataVal() {
return this->dataVal;
}
int main() {
IntNode* headObj = nullptr; // Create intNode objects
IntNode* currObj = nullptr;
IntNode* lastObj = nullptr;
int i = 0;
int negativeCntr = 0;
headObj = new IntNode(-1); // Front of nodes list
lastObj = headObj;
for (i = 0; i < 10; ++i) { // Append 10 rand nums
currObj = new IntNode((rand() % 21) - 10);
lastObj->InsertAfter(currObj); // Append curr
lastObj = currObj; // Curr is the new last item
}
currObj = headObj; // Print the list
while (currObj != nullptr) {
cout << currObj->GetDataVal() << ", ";
currObj = currObj->GetNext();
}
cout << endl;
currObj = headObj; // Count number of negative numbers
while (currObj != nullptr) {
/* Your solution goes here */
currObj = currObj->GetNext();
}
cout << "Number of negatives: " << negativeCntr << endl;
return 0;
}
Explanation / Answer
#include <iostream>
#include <cstdlib>
using namespace std;
class IntNode {
public:
IntNode(int dataInit = 0, IntNode* nextLoc = nullptr);
void InsertAfter(IntNode* nodePtr);
IntNode* GetNext();
int GetDataVal();
private:
int dataVal;
IntNode* nextNodePtr;
};
// Constructor
IntNode::IntNode(int dataInit, IntNode* nextLoc) {
this->dataVal = dataInit;
this->nextNodePtr = nextLoc;
return;
}
/* Insert node after this node.
* Before: this -- next
* After: this -- node -- next
*/
void IntNode::InsertAfter(IntNode* nodeLoc) {
IntNode* tmpNext = nullptr;
tmpNext = this->nextNodePtr; // Remember next
this->nextNodePtr = nodeLoc; // this -- node -- ?
nodeLoc->nextNodePtr = tmpNext; // this -- node -- next
return;
}
// Grab location pointed by nextNodePtr
IntNode* IntNode::GetNext() {
return this->nextNodePtr;
}
int IntNode::GetDataVal() {
return this->dataVal;
}
int main() {
IntNode* headObj = nullptr; // Create intNode objects
IntNode* currObj = nullptr;
IntNode* lastObj = nullptr;
int i = 0;
int negativeCntr = 0;
headObj = new IntNode(-1); // Front of nodes list
lastObj = headObj;
for (i = 0; i < 10; ++i) { // Append 10 rand nums
currObj = new IntNode((rand() % 21) - 10);
lastObj->InsertAfter(currObj); // Append curr
lastObj = currObj; // Curr is the new last item
}
currObj = headObj; // Print the list
while (currObj != nullptr) {
cout << currObj->GetDataVal() << ", ";
currObj = currObj->GetNext();
}
cout << endl;
currObj = headObj; // Count number of negative numbers
while (currObj != nullptr) {
// check if currObj data is a negavite number and increment negativeCntr.
if(currObj->GetDataVal() < 0){
negativeCntr++;
}
currObj = currObj->GetNext();
}
cout << "Number of negatives: " << negativeCntr << endl;
return 0;
}
/*
sample output
-1, -9, -6, -1, 9, -2, 0, 0, -1, 5, 0,
Number of negatives: 6
*/