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I looked through some code and noticed that the convention was to turn pointer types like



typedef SomeStruct* pSomeStruct;

Is there any merit to this?

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Its common in C. Because you are trying to hide the fact that it is a pointer. This is the object you pass to all the interfaces in a library. In C++ it is not common and discouraged though not unheard of. – Loki Astari Apr 15 '09 at 4:37

11 Answers 11

up vote 64 down vote accepted

This can be appropriate when the pointer itself can be regarded as a "black box", that is, a piece of data whose internal representation should be irrelevant to the code.

Essentially, if your code will never dereference the pointer, and you just pass it around API functions (sometimes by reference), then not only does the typedef reduce the number of *s in your code, but also suggests to the programmer that the pointer shouldn't really be meddled with.

This also makes it easier to change the API in the future if the need arises, for instance using an ID rather than a pointer (or vice versa). Since the pointer was never supposed to be dereferenced in the first place, existing code won't break.

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Real world example: in OS X, the CoreFoundation framework makes extensive use of this technique, referring to them as "opaque" data types. – hbw Apr 15 '09 at 3:32
Also in OS X: pthread_t is an opaque type; it is typedef'ed to be a pointer to a 'struct _opaque_pthread_t', which is itself an opaque array of bytes. – Adam Rosenfield Apr 15 '09 at 4:42
Counter example: FILE *fp? Actually, I agree with you, but there is ample precedent for the contrary. – Jonathan Leffler Apr 15 '09 at 4:56
'Course, if you do this, you don't name the opaque type "pFoo". – MSalters Apr 15 '09 at 8:59
And the key point is that when you declare a variable of this opaque type, then (outside the library that implements support for the type) you never apply variable->member; you only ever refer to variable and pass it to functions, etc. You don't increment or decrement the variable either. – Jonathan Leffler Apr 16 '09 at 15:47

Not in my experience. Hiding the '*' makes the code hard to read.

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The only time I use a pointer inside the typedef is when dealing with pointers to functions:

typedef void (*SigCatcher(int, void (*)(int)))(int);

typedef void (*SigCatcher)(int);

SigCatcher old = signal(SIGINT, SIG_IGN);

Otherwise, I find them more confusing than helpful.

The struck-out declaration is the correct type for a pointer to the signal() function, not of the signal catcher. It could be made clearer (using the corrected SigCatcher type above) by writing:

 typedef SigCatcher (*SignalFunction)(int, SigCatcher);

Or, to declare the signal() function:

 extern SigCatcher signal(int, SigCatcher);

That is, a SignalFunction is a pointer to a function which takes two arguments (an int and a SigCatcher) and returns a SigCatcher. And signal() itself is a function which takes two arguments (an int and a SigCatcher) and returns a SigCatcher.

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Does this typedef with less punctuation work? "typedef void SigCatcher(int, void (*)(int))(int)" – sigjuice Apr 18 '09 at 0:13
No; gcc says "error: SigCatcher declared as function returning a function". – Jonathan Leffler Apr 18 '09 at 4:44
I just came across as even simpler typedef'd declaration of signal() – sigjuice Nov 6 '10 at 20:17
@Sigjuice: even without going to the BSD page (which I didn't do until after I'd edited the material), I saw huge problems with my answer, which are now fixed. And what BSD calls sig_t matches my SigCatcher, and yes, it simplifies the declaration of signal() enormously. – Jonathan Leffler Nov 6 '10 at 21:20
cool. The equivalent declaration with the explicit * does not look so bad, IMHO. typedef void SigCatcher(int); extern SigCatcher *signal(int, SigCatcher *); – sigjuice Nov 6 '10 at 22:20

This can help you avoid some errors. For example in following code:

int* pointer1, pointer2;

pointer2 is not an int *, it is simple int. But with typedefs this is not gonna happen:

typedef int* pInt;
pInt pointer1, pointer2;

They are both int * now.

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I see that more as a flaw in the C language – Unknown Apr 15 '09 at 4:01
If you put the * touching pointer1 rather than touching "int", the declaration makes much more sense that pointer2 is not a pointer, just an int. – dreamlax Apr 15 '09 at 4:34
I think C programmers would argue that using the dereferencing operator when declaring a pointer variable is more of an idiomatic thing. For examine, in K&R, they say: "'int *ip' intended as a mnemonic; it says that the expression '*ip' is an int." – hbw Apr 15 '09 at 4:38
But everyone knows this syntax, and it's best to declare and initialize one variable at a time anyway... I seldom if ever write int *pointer1, *pointer2; because in the next line you have two nice pointers with undefined value. – Daniel Daranas Apr 15 '09 at 12:16
What Roalt meant to say was: 'int *pointer1' instead of 'int* pointer1'. – Artelius Nov 8 '09 at 0:52

This is a matter of style. You see this kind of code very frequently in the Windows header files. Though they tend to prefer the all upper case version instead of prefixing with a lower case p.

Personally I avoid this use of typedef. It's much clearer to have the user explicitly say they want a Foo* than PFoo. Typedef's are best suited these days for making STL readable :)

typedef stl::map<stl::wstring,CAdapt<CComPtr<IFoo>> NameToFooMap;
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If you do this, you will be unable to create STL containers of const pSomeStruct since the compiler reads:

list<const pSomeStruct> structs;


list<SomeStruct * const> structs;

which is not a legal STL container since the elements are not assignable.

See this question .

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Sure, but one would never go about writing list<const ordinary_type>, as it wouldn't work anyway, so there is no confusion. – Tibor Apr 21 '14 at 14:32
I'm not sure what you mean by ordinary_type. list<const SomeStruct*> is perfectly valid as const SomeStruct* is CopyAssignable. – Dan Hook Apr 22 '14 at 17:08

It (like so many answers) depends.

In C this is very common as you are trying to disguise that an object is a pointer. You are trying to imply that this is the object that all your functions manipulate (we know it is a pointer underneath but it represents the object you are manipulating).

MYDB   db = MYDBcreateDB("Plop://djdjdjjdjd");

CallLocalFuc(db); // if db is not a pointer things could be complicated.

Underneath MYDB is probably a pointer at some object.

In C++ this is no longer required.
Mainly because we can pass things around by reference and the methods are incorporated into the class declaration.

MyDB   db("Plop://djdjdjjdjd");

CallLocalFuc(db);   // This time we can call be reference.
db.destroyDB();     // Or let the destructor handle it.
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Typedef is used to make code more readable, but making pointer as typedef will increase confusion. Better to avoid typedef pointers.

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Win32 API does this with just about every structure (if not all)


It's nice how it is consistent, but in my opinion it doesn't add any elegance.

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Thta's because the Win32 is a C API and it is common in C not C++ – Loki Astari Apr 15 '09 at 4:36
The question is tagged both C and C++, what's your point exactly? – dreamlax Apr 15 '09 at 7:38
Yeah this is a good example, of a very commonly used API. +1 – Matt Joiner Jun 9 '10 at 12:12

Some time ago, i'd have answered "no" to this question. Now, with the rise of smart pointers, pointers are not always defined with a star '*' anymore. So there is nothing obvious about a type being a pointer or not.

So now i'd say : it is fine to typedef pointers, as long as it is made very clear that it is a "pointer type". That means you have to use a prefix/suffix specifically for it. No, "p" is not a sufficient prefix, for instance. I'd probably go with "ptr".

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Unless you don't intend it to be used as a pointer, in which case you can name it what you will. If it's just used to pass stuff around (like a C FILE *), does it matter exactly what it is? – David Thornley Apr 15 '09 at 21:18
Good point. I was trying to add some pros to the list of cons that had been said against typedef'ing pointers... – Benoît Apr 16 '09 at 5:48

The purpose with typedef is to hide the implementation details, but typedef-ing the pointer property hides too much and makes the code harder to read/understand. So please do not do that.

If you want to hide implementation details (which often is a good thing to do), do not hide the pointer part. Take for instance at the prototype for the standard FILE interface:

FILE *fopen(const char *filename, const char *mode);
char *fgets(char *s, int size, FILE *stream);

here fopen returns a pointer to some structure FILE (which you do not know the implementation details for). Maybe FILE is not such a good example because in this case it could have worked with some pFILE type that hid the fact that it is a pointer.

pFILE fopen(const char *filename, const char *mode);
char *fgets(char *s, int size, pFILE stream);

However, that would only work because you never mess around with the content that is pointed to directly. The moment you typedef some pointer that you some places modify the code becomes very hard to read in my experience.

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