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I have a method with the prototype:

 bool getAssignment(const Query& query, Assignment *&result);

I am a bit confused about the type of the second param (Assignment *&result) since I don't think I have seen something like that before. It is used like:

 Assignment *a;
 if (!getAssignment(query, a))
    return false;

Is it a reference to a pointer or the other way around ? or neither ? Any explanation is appreciated. Thanks.

share|improve this question
Hm, haven't seen something like that before... – besworland Jul 7 '12 at 15:24
C++ only, nobody really does it, ussually its done as a C style double pointers – Ulterior Jul 7 '12 at 18:00
up vote 18 down vote accepted

It's a reference to a pointer. The idea is to be able to change the pointer. It's like any other type.

Detailed explanation and example:

void f( char* p )
    p = new char[ 100 ];
int main()
    char* p_main = NULL;
    f( p_main );
    return 0;

will not change p_main to point to the allocated char array (it's a definite memory leak). This is because you copy the pointer, it's passed by value (it's like passing an int by value; for example void f( int x ) != void f( int& x ) ) .

So, if you change f:

void f( char*& p )

now, this will pass p_main by reference and will change it. Thus, this is not a memory leak and after the execution of f, p_main will correctly point to the allocated memory.

P.S. The same can be done, by using double pointer (as, for example, C does not have references):

void f( char** p )
    *p = new char[ 100 ];
int main()
    char* p_main = NULL;
    f( &p_main );

    return 0;
share|improve this answer
Well, a reference isn't really just like any other type. References aren't 'objects' in the C++ object model the way pointers and ints and every other type is, they can't be accessed after initialization because there's no syntax to distinguish between accessing the reference and accessing the referenced object, they don't follow the 'declaration mimics use' syntax, there are special rules for deducing reference types, etc. References are special. – bames53 Jan 15 '13 at 19:04

For something like this, you basically read the declaration from right to left (or inside out).

In other words, you want to start from the name of the item being declared, then progress outward. In this case, progressing directly from the name to the type, we get:

enter image description here

share|improve this answer
To add on, this site is good if you want a more detailed explanation. – chris Jul 7 '12 at 15:21
@chris: I'm not particularly fond of that explanation. He calls it the clockwise spiral rule, but "clockwise" has nothing to do with anything. It would work exactly the same way if you decided to go counter-clockwise instead. At best it's emphasizing something that's utterly irrelevant. – Jerry Coffin Jul 7 '12 at 16:51
True, clockwise has no special meaning, but you have to choose something to remember it by. I've also heard of going right-left-right-left. I never had a problem understanding anything after reading it when I found it, so it worked its magic on me pretty well, regardless of which way you choose to remember it. Much better than per-part memorization at any rate. – chris Jul 7 '12 at 17:03
clockwise because the clock starts at 12'oclock. Just to remind you that you take the first right hand element. – Jimmy Jul 7 '12 at 17:29
@Jimmy: and the first right and element would be at 3 o'clock, half- way between 12 and 6 ( there's an interesting question: "when is 3 halfway between 12 and 6?") – Jerry Coffin Jul 7 '12 at 19:41

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