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i'm working on a quicksort function that sorts a vector of objects created from a template. Specifically a vector of Points on a n dimention space. This is my Point template:

#ifndef POINT_H   
#define POINT_H   
template <int dimention, typename type>   
class Point{
public:
    Point(){mCoords = new type[dimention];}
    Point(type* pCoords);
    int getDimention(){return dimention;}
// Operators
//-----------

This is the quicksort function (i haven't written the actual implementation because i wish to solve this problem first):

#ifndef QUICK_S
#define QUICK_S
#include <vector>
#include "point.h"

// Generic quicksort function that works with points of any dimention
std::vector<Point<int dimention, typename type> > 
quicksort(std::vector<Point<int dimention, typename type> > unsorted)
{
// implementation --------------

The errors i'm getting (some of them):

In file included from convexHull.cpp:4:0:
quicksort.h:7:47: error: wrong number of template arguments (1, should be 2)

In file included from quicksort.h:4:0,
             from convexHull.cpp:4:
point.h:5:7: error: provided for ‘template<int dimention, class type> class Point’
 class Point{

In file included from convexHull.cpp:4:0:
quicksort.h:7:49: error: template argument 1 is invalid
std::vector<Point<int dimention, typename type> >

I would appreciate if you can point where i'm wrong, any tips or ideas are welcome, i'm sort of a self-taught programmer. Thanks.

6
  • 3
    You understand that C++ already has std::sort, right? Jul 16, 2014 at 23:59
  • @MooingDuck The points need to be sorted lexicografically starting from coordinate X, Y, Z and so on to the nth dimension. Can std::sort do that?
    – Mario Gil
    Jul 17, 2014 at 0:22
  • 2
    @GilLázaro you can pass a custom comparator to sort.
    – user657267
    Jul 17, 2014 at 0:25
  • @user657267 Point class already has an overriden < operator. I guess std::sortwill do fine then.
    – Mario Gil
    Jul 17, 2014 at 0:36
  • 1
    @GilLázaro: Yes, if you have operator<, then you should be able to "just sort it". Alternatively: coliru.stacked-crooked.com/a/041681fcc2aa0f16 Jul 17, 2014 at 0:40

2 Answers 2

2

Because quicksort can operate on vector<Point<int dimention, typename type> > for any values of dimention and type, it is a template function and must be declared as such:

template<int dimention, typename type>
std::vector<Point<dimention, type> > 
quicksort(std::vector<Point<dimention, type> > unsorted)

Also note that the int and typename in Point<dimention, type> are removed here.

3
  • 2
    It's also probably worth mentioning that it's unlikely that the proposed sort will perform any better than std::sort. I'd be inclined not to write it at all.
    – Edward
    Jul 16, 2014 at 23:58
  • @Edward there's a good chance it will be worse than std::sort, the c library quicksort invariably is.
    – user657267
    Jul 17, 2014 at 0:27
  • And, by passing the vector by value, you are not going to sort much more than a copy anyway ...
    – quantdev
    Jul 17, 2014 at 0:29
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Your quicksort definition should just declare its template like this:

std::vector<typename type> 
quicksort(std::vector<type> unsorted)
{
// implementation --------------

whenever you call quicksort, you add the template for your particular Point setup:

quicksort<Point<1,float> >(pointList);

As per Mooing Duck's comment, in this case, you don't need to supply your template type as it can be deduced by the compiler:

quicksort(pointList);

should be all you need.

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  • You don't need to explicitly specify the template parameters in that situation, they can be deduced. Jul 16, 2014 at 23:59
  • I suppose that is true too, in this case.
    – Lochemage
    Jul 17, 2014 at 0:00

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