I am referring you to a previous link that compares the performance of qsort vs stdsort.

I have written a C program that populates a large std::map and I want to sort the array.I am currently using qsort.

typedef std::map<uint16_t, uint32_t> TSrcMap;
TPSrcMap sp;
TSrcMap::iterator its;
/*Code to populate the array_start.*/

/*Code to populate the array_end.*/

typedef struct port_count
        uint32_t port_number;
        uint32_t port_count;

port_count_t pcount[10];
size_t structs_len = sizeof(pcount)/sizeof(port_count_t);
for(its = stcp.begin(); its != stcp.end();its++)
      if(pcount[smallest_index].port_count < (*its).second)
            pcount[smallest_index].port_count = (*its).second;
            pcount[smallest_index].port_number = (*its).first;
            /*qsort(pcount, structs_len, sizeof(port_count_t), struct_cmp_by_port_count);*/

The qsort function is correctly sorting the array. I want to compare the performance of qsort with std::sort but the call std::sort call is giving a compile error

no matching function for call to ‘sort(port_count_t [10], long unsigned int)’

I would like to compare the performance of std::sort with qsort algorithm. How do I do that?

  • If you consider your question answered, please accept the corresponding answer. – Michael Wild Apr 23 '12 at 16:02

The signature of std::sort() is:

template <class RandomAccessIterator, class StrictWeakOrdering>
void sort(RandomAccessIterator first, RandomAccessIterator last,
          StrictWeakOrdering comp);

So it requires two iterators and a comparator, not a pointer and a length. To fix your code, call

std::sort(pcount, pcount+structs_len, cmp_port_count);

assuming that cmp_port_count is your comparator function which takes two port_count_t objects by reference and returns true when the first argument is to be ordered before the second argument, false otherwise.

  • 2
    +1. The last part is important; std::sort uses a different convention for the comparator. – MSalters Apr 23 '12 at 8:56

Try calling:

std::sort(pcount,pcount + 10);

std::sort takes as arguments a begin and an end iterator. So in order to sort an array you pass a pointer to the beginning of the array and a pointer to one element after the end of the array(which is always array_pointer + array_size).

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