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I have the following C++ code:

Some_class * temp1 = findTemp1(...); // returns NULL or a valid pointer
Some_class * temp2 = findTemp2(...); // returns NULL or a valid pointer
Some_class * temp3 = findTemp3(...); // returns NULL or a valid pointer

Now I would like to count how many of these returned a valid pointer (0, 1, 2 or 3).

The only way I can think of is just to test them one by one:

int count = 0;
if (temp1)
if (temp2)
if (temp3)

For 3 pointers, it's not too bad, but it doesn't scale well. Is there a more efficient way assuming I don't redefine the findTempN funcitons (to maybe pass in the counter)?

Thanks a lot for your quick replies! No, I am not going to change the code, I was just wondering what were my other options. I also realized that I cannot be asking for something "scalable" if I am using distinct literals like that to define the 3 pointers. Of course, I didn't think of the things you replied :)

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Well, since this is C++ we can go crazy in the quest for terseness... for example:

int count = !!temp1 + !!temp2 + !!temp3;

Update: I probably owe Ivan an explanation of what's going on here.

Assuming temp is any kind of pointer, !temp forces the coercion of the pointer's value to bool (we want to do this) and negates the result (this is a side effect that we do not want). This results in true if the pointer is null and false if the pointer is not null, which is the opposite of what we 'd like. So we add another ! in front to negate the result again.

This leaves us with adding three bool values which coerces them to int and performs the addition, whereupon we have our final result.

You might find it easier to understand the completely equivalent

int count = (bool)temp1 + (bool)temp2 + (bool)temp3;

which I did not use because typing !! is three characters shorter than (bool) (note: you might think that this is a nice trick, but when writing code it is a really bad idea to make decisions based on how many characters you have to type).

The moral of the story is that doing this type of thing can be called either clever or atrocious, depending on who you ask -- but in C++ there has traditionally been high tolerance for atrocities.

Note that if the pointers were in some type of collection to begin with, you could write much better-looking code using std::count_if, e.g.:

bool isNotNull(void* ptr) {
    return ptr != 0;

std::vector<Some_class*> vec;

int count = std::count_if(vec.begin(), vec.end(), isNotNull);

See it in action.

Or, as very cleverly suggested by MSalters in the comments, you can lose the isNotNull function by counting the pointers which are 0 and subtracting this from the number of all pointers -- but for this, you will need to somehow know what this number is (easy if they are in a vector):

int count = vec.size() - std::count(vec.begin(), vec.end(), 0);

See it in action.

share|improve this answer
and better still, put all these pointers into a container of some sort and loop over it accumulating !!p – jk. Sep 12 '11 at 12:59
This is only more efficient if you define efficient as what the OP wants, which is scalability. But this is the answer to this question, so +1 – Seth Carnegie Sep 12 '11 at 13:02
@jk: I hope you're kidding. JFTR: std::count_if is much, much better than the !!p ugliness. At least, note that the absolutely equivalent (p?1:0) adds a little bit of readability. – Christopher Creutzig Sep 12 '11 at 13:02
@Christopher that's only equivalent in result. And now that I see it, that vector method looks dreadful. – Seth Carnegie Sep 12 '11 at 13:04
You'd be better of counting the ones that are 0: int count = vec.size() - std::count(vec.begin(), vec.end(), NULL); – MSalters Sep 12 '11 at 13:08
#define N 3
typedef Some_class *PointerGenerator(...);
PointerGenerator funcs[N];
func[0] = &findTemp1;
func[1] = &findTemp2;
func[2] = &findTemp3;

Some_class *ptrs[N];
for(size_t i = 0; i < N; ++i) ptrs[i] = func[i]();
for(size_t i = 0; i < N; ++i) { if(ptrs[i]) ++count; }

C++0x variant:

int count = std::count_if(ptrs, ptrs + N, [](const Some_class *i) -> bool { return i != NULL; } );
share|improve this answer

The code you have is Good Enough, don't mess with it.

Introducing subtlety is a common novice error, don't do it.

That said, NULL is a valid pointer value, and you can do e.g. count += !!temp1 + !!temp2 + !!temp3 (but that would be newbie obfuscation, do not actually do that).

Cheers & hth.,

share|improve this answer
What he has is good enough for three pointers, but as he said, it doesn't scale. What if he has 100 pointers? (Note that the !!temp1 + !!temp2... obfuscation doesn't scale either.) – James Kanze Sep 12 '11 at 13:06
@James: well I think that part of the question, with n different functions, is pure fantasy. not realistic. but of course the thing to do if one really had to deal with such lunacy, would be to put those function pointers in some kind of collection, such as an array. i think in general about half of the questions here on SO are at least partially made-up. so little of it makes sense! – Cheers and hth. - Alf Sep 12 '11 at 13:15
Could you explain that trick? :) – BlackBear Sep 12 '11 at 13:20
@BlackBear: Added an explanation in my own answer above. – Jon Sep 12 '11 at 13:27
@Alf It would be nice if the people asking questions asked something realistic:-). In this case, as you say, 100's of functions isn't realistic---it's not scalable either. But the idea of having a number of pointers to something, and wanting to count the valid ones, could occur in a more realistic context. (Or maybe not. In the cases I can think of, you'd probably be putting the pointers into a container, and you simply wouldn't insert the null pointers. So the count would be the size of the container.) – James Kanze Sep 12 '11 at 14:00

If all of the pointers are the same type, put the pointers in a table, or if you can't do that, make a table of pointers to the pointers. Then use std::count or std::count_if. Something like:

SomeClass** pointerTable[] =
    //  ...

struct IndirectIsNoNull
    bool operator()( SomeClass** p ) const
        return *p != NULL;

//  ...
int validPointerCount = std::count_if( begin( pointerTable ),
                                       end( pointerTable ),
                                       IndirectIsNoNull() );
share|improve this answer

Introduce a static counter.

template<typename T>
struct ValidPointer
  static unsigned int count;
template<typename T>
unsigned int ValidPointer<T>::count = 0;

template<typename T>
static void isValid (const T* const p)



At any point of time, if you want to retrieve then,

unsigned int count = ValidPointer<Some_class*>::count;

This code can be improved as per your requirement.

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Do you need the pointers afterwards? temp suggests otherwise. In that case, you can eliminate those:

int count = 0;
if (findTemp1())
if (findTemp2())
if (findTemp3())
share|improve this answer

Hide the counter in a class:

class Some_class {};

typedef Some_class* (*FindFunction_t)();

Some_class* findTemp1() {return NULL;}
Some_class* findTemp2() {return new Some_class;}
Some_class* findTemp3() {return new Some_class;}

class Finder
    Finder() : count_(0) {}

    Some_class* CallAndCount(FindFunction_t fn) {return Count(fn());}
    int GetCount() const {return count_;}

    Some_class* Count(Some_class* p) {if(p) count_++; return p;}

    int count_;

int main()
    Finder f;
    Some_class* temp1 = f.CallAndCount(findTemp1);
    Some_class* temp2 = f.CallAndCount(findTemp2);
    Some_class* temp3 = f.CallAndCount(findTemp3);
    std::wcout << f.GetCount() << L"\n";

The names aren't the best and there are memory leaks but you should get the idea. I think this meets your objective of scalability although you would need to add template functions if your find functions were to take parameters

share|improve this answer
-1: A class is simply overkill here for simply counting – cpburnz Sep 12 '11 at 15:00

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