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I have a bunch of structs like:

struct A { ... }
struct B { ... }
struct C { ... }

I want to devise a function that can accept arrays of these structs and iterate through each element of the array and call another function like:

template <typename T>
ostream& process(ostream& os, const T* array) {
   // output each element of array to os (but how do we know the length?)
}

A a_array[10];

process(a_array);

I cannot pass in the size of the array explicitly as the process function is actually operator<<() (I just used process for demonstration purposees)

Update: I cannot use any of the std containers here. It has to be an array unfortunately!

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3  
Why are you not using std::vector or std::array? – Paul Manta Jan 4 '12 at 17:08
    
@PaulManta please see update – chriskirk Jan 4 '12 at 18:14
up vote 8 down vote accepted

Array-to-pointer decay is really, really bad.

Fortunately, C++ has array references, which know their size.

template<typename T, int N> ostream& process(ostream& os, const T (&arr)[N]) {
    // use N
}
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2  
I've always seen const T (&arr)[N], but I suppose it works the same. – zneak Jan 4 '12 at 17:06
    
I doubt it. Is this even valid? [edit: no, it's not.] – Lightness Races in Orbit Jan 4 '12 at 17:08
    
I've no idea, it's been a really long time since I used that syntax. – Puppy Jan 4 '12 at 17:09
    
I think it is advantageous to drop the const. The template will automatically make the type const if it needs to be, but if you pass in a non-const array I seem to recall it won't know how to handle it. – CashCow Jan 4 '12 at 17:33
1  
@Dietmar: Oh noes! Code bloat! My binary, it might consume a couple more KB, compared to my hundreds of MB of art and such. – Puppy Jan 5 '12 at 0:40

You could use a std::vector<T> instead of an simple array.

template <typename T>
ostream& process(ostream& os, const std::vector<T> &array) {
   for(std::vector<T>::const_iterator iterator = array.begin(); iterator != array.end(); ++iterator)
   {
      //...
   }
}

Or you can go the std::array way (If your compiler support it and N is constant).

template <typename T, int N>
ostream& process(ostream& os, const std::array<T, N> &array) {
   for(std::array<T, N>::const_iterator iterator = array.begin(); iterator != array.end(); ++iterator)
   {
      //...
   }
}

// Usage:
array<int, 10> test;
process(..., test);
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1  
why not std::array<T, N>? The size is known and constant. – user142019 Jan 4 '12 at 17:08
    
You are right, that is even better! – Fox32 Jan 4 '12 at 17:08
3  
If the compiler doesn't have std::array, boost::array is always an option – Grizzly Jan 4 '12 at 17:20

Or, a simple template bounds checked array.

template< typename T, unsigned int Size >
class Array
{
    public:

    T& operator[]( unsigned int index )
    {
       assert( index < Size );
       return mElements[ index ];
    }

    const T& operator[]( unsigned int index ) const
    {
       assert( index < Size );
       return mElements[ index ];
    }

    unsigned int Capacity() const
    {
        return Size;
    }

    private:
        T mElements[ Size ];
};

And then

template< typename T, unsigned int Size >
void Process( Array< T, Size >& array )
{
    for( unsigned int i = 0; i < Size; ++i )
    {
        //use array[i]
    }
}

And to tie it together

Array< int, 10 > array;
Process( array );

It's a bit of a roll your own solution, but it's probably roughly equivalent (although a less functional array class) to std::Array or boost

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You need to use the following format for arrays:

template <typename T, size_t N>
void foo(const T (&arr)[N]) {
    ...
}

Otherwise, size information will be lost.

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