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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"?

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  • The expression *pX = *pY could be read as "the location of where pX is pointing will be assigned to the value of the location of where pY is pointing". It's basically the same as in the badSwap function where you have x = y, you wouldn't say it's equal to "1000 = 150" would you? Feb 28, 2015 at 18:45

3 Answers 3

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Why would you dereference both sides of the assignment? Isn't that the equivalent of saying "1000 = 150"?

No, just like the following:

int x = 1000;
int y = 150;

x = y;

is not the equivalent of saying "1000 = 150". You're assigning to the object, not to the value it presently contains.

The below is precisely the same (since the expression *px is an lvalue referring to the object x, and the expression *py is an lvalue referring to the object y; they're literally aliases, not some strange, disconnected version of the objects' numerical values):

int   x = 1000;
int   y = 150;
int* px = &x;
int* py = &y;

*px = *py;
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  • So what is actually being stored at a memory location? As far as I can tell it's only a value. Is the variable that originally held the value also stored there? Feb 28, 2015 at 18:54
  • @FireArrow5235: The variable is the value. What difference do you perceive there to be between the two, in memory? An object is a region of storage: in this case, four or eight bytes containing a [probably] two's complement numerical value equal to 1000. Your C++ program, when compiled, knows where these bytes are (because it put them there) and how to store and read from them. A "variable" is an abstract concept in C++ to allow you to refer to this block of bytes as an entity independent from whatever its location ends up being in memory at runtime. Feb 28, 2015 at 18:55
  • Ok! I get it now. The difference was that I was under the impression that a memory location could ONLY store data pertaining to an integer (or other assigned data type) and absolutely nothing else. Therefore a variable and the value that a variable held were in 2 separate places. I didn't see x as being the integer that was held in the memory location. Feb 28, 2015 at 18:58
  • 1
    @FireArrow5235: Well, yeah, memory does only contain numbers. It's a sequence of bytes. Ones and zeroes. Those ones and zeroes encode the integers and floating-point values in your program*. The notion of types and variables and objects is an abstraction that doesn't even exist in your compiled program. It's provided in the syntax of higher-level languages like C++ for programmer convenience only! That's the entire purpose of such languages (and their compilers), actually: so that you do not have to fiddle with raw data at various memory locations all by yourself! Feb 28, 2015 at 19:00
  • Your compiler is very clever and creates an executable that does a lot of work to manage those bits and bytes and keep everything in the right place, according to the semantics described by your higher-level program. But it doesn't actually "store" types and variables anywhere; that logic is built into the program. It's inherent. * (and, by composition, the more complex types that are built from them) Feb 28, 2015 at 19:01
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*px=*py means we are assigning the value not address, from address of py to address of px.

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  • But wouldn't dereferencing pX set pX equal to a value and not a variable? Feb 28, 2015 at 18:50
  • @FireArrow5235 In C++ a variable can hold address( memory location) then it is called a pointer variable. If a variable only holding a value not directly aadressing its memory location it is a non pointer variable.
    – Steephen
    Feb 28, 2015 at 18:58
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Skip the chapter of the book or buy another one: there is no need of using plain pointers in C++ nowadays.

Also there is a std::swap function, that does the things C++isch.

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