I've been working on learning C++ lately and picked up the book "C++ Through Game Programming". I'm on the chapter on Pointers and I've been presented an example that I have a question about. The code is this:
#include "stdafx.h"
#include <iostream>
using namespace std;
void badSwap(int x, int y);
void goodSwap(int* const pX, int* const pY);
int main()
{
int myScore = 150;
int yourScore = 1000;
cout << "Original values\n";
cout << "myScore: " << myScore << "\n";
cout << "yourScore: " << yourScore << "\n\n";
cout << "Calling badSwap()\n";
badSwap(myScore, yourScore);
cout << "myScore: " << myScore << "\n";
cout << "yourScore: " << yourScore << "\n\n";
cout << "Calling goodSwap()\n";
goodSwap(&myScore, &yourScore);
cout << "myScore: " << myScore << "\n";
cout << "yourScore: " << yourScore << "\n";
cin >> myScore;
return 0;
}
void badSwap(int x, int y)
{
int temp = x;
x = y;
y = temp;
}
void goodSwap(int* const pX, int* const pY)
{
//store value pointed to by pX in temp
int temp = *pX;
//store value pointed to by pY in address pointed to by pX
*pX = *pY;
//store value originally pointed to by pX in address pointed to by pY
*pY = temp;
}
In the goodSwap() function there's the line:
*pX = *pY;
Why would you dereference both sides of the assignment? Isn't that the equivalent of saying "1000 = 150"?
*pX = *pY
could be read as "the location of wherepX
is pointing will be assigned to the value of the location of wherepY
is pointing". It's basically the same as in thebadSwap
function where you havex = y
, you wouldn't say it's equal to "1000 = 150" would you?