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I have a question about my C++ homework. I am just confused about *this.

The code below is what I have.

My question is why the condition in the if statement in the = operator is true?

#include <cstring>
class abc {
      char p[9];
      int inc;
   public:
      abc( ) { inc = 8; strcpy(p, "10010101"); }
      ~abc( );
      abc& operator=(const abc &);

};

abc::~abc( ) {

}
abc& abc::operator=(const abc &c) {
   if(this != &c) { //my question is why this condition is true?
      inc = c.inc - 2;
      for(int i=0; i<inc; i++) {
     p[i] = c.p[i] + 2;
      }
   }
   return *this;
}

int main( ) {
   abc x, y;
   x = y;
   return 0;

}
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up vote 5 down vote accepted

because you don't want to make a copy if you are assigning to yourself, that is the reason for the if condition, *this returns self instance. It is true because you are trying to assign y to x and as they are both different instances you then make a copy of y to x.

share|improve this answer
    
Ok. I dont' understand how come the two objects x and y are not equal to make the if statement's condition true? – Jack Apr 8 '12 at 19:31
    
You are comparing addresses in the if condition, not the values, so their addresses will be different. – EdChum Apr 8 '12 at 19:31
    
oh yea!!!!! I got it. – Jack Apr 8 '12 at 19:34
    
so that means. "this" stands for x. and the == doesn't mean that the values of x and y are equal, right? – Jack Apr 8 '12 at 19:35
1  
@ahmadhussain it doesn't compare value but address! – dexametason Apr 8 '12 at 19:37

*this == &c only in case of the left operand of operator= is the same as the right operand.
In case of x = y ==> *this != &c.
In case of x = x ==> *this == &c because both are the same. It is commonly use because you don't need a copy if you assign to yourself.

share|improve this answer
    
ok!!!.. thank you – Jack Apr 8 '12 at 19:32

The condition

if(this != &c) { //my question is why this condition is true?

is used to detect self-assignment. If you have an object of type abc and write

abc a;
a = a;

Then you will call operator = on a, passing itself as a parameter. Many implementations of the assignment operator break in this case, because in cleaning up the object in preparation for the copy, the argument to operator = (in this case, a itself) will also be cleaned up. It can easily lead to crashes. Consequently, many implementations of operator = begin with a test that the argument and the receiver object aren't the same object. The above test does this by seeing if the this pointer (the receiver) and the address of the argument (&c) are the same. If so, the objects are the same and the assignment shouldn't be done. Otherwise, the objects aren't the same and the assignment should be done.

As for returning *this, since this is a pointer to the receiver object, *this is the receiver object itself. Returning *this by reference means that you can write things like

(a = b) = c;

Which, while silly, is supposed to be legal C++.

Hope this helps!

share|improve this answer

The ifstatement evaluates to true because you are not assigning an object instance to itself, thus satisfying the != operator. You have two separate objects, x and y. They have their own unique this values. Had you said x = x instead in main(), then the != operator in the if statement would evaluate to false instead because the two values would match.

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It is comparing the address of the object passed to the class with address object that is pointed by this . If the addresses are the same then you have passed the object itself which we don't want to operate upon. With *this you are in fact passing the pointer reference in the operator.

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