# sort one array and other array following?

here is the C++ sample

int a[1000] = {3,1,5,4}
int b[1000] = {7,9,11,3}

how do i make it so if i sort array a, array b also following array a

example

a[1000] = {1,3,4,5}
b[1000] = {9,7,3,11}

is it possible using sort function

sort(a,a+4)

but also sort array b aswell ?

edit: what if there are 3 arrays ?

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you sort with an index. see stackoverflow.com/questions/1577475/… –  andrew cooke Sep 5 '11 at 3:12
Why not call sort() twice? –  ben Sep 5 '11 at 3:15
@ben because b isn't sorted. it's re-arranged in the same way as a was. –  andrew cooke Sep 5 '11 at 3:22
Aha. Then zuelb ought to write his own sort function. –  ben Sep 5 '11 at 3:24
how bout 3 arrays ? –  zeulb Sep 5 '11 at 6:08

Instead of using two arrays, can you use an array of pairs and then sort THAT using a special comparison functor rather than the default less-than operator?

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what if there is 3 arrays, is it possible to use this method ? –  zeulb Sep 5 '11 at 6:02
Well you need a 3-tuple in that case (or write yourself a struct for it), but basically, sure. –  Voo Sep 5 '11 at 14:46

The simplest way is to rearrange your data into an array-of-structs instead of a pair of arrays so that each datum is contiguous; then, you can use an appropriate comparator. For example:

struct CompareFirst
{
bool operator() (const std::pair<int,int>& lhs, const std::pair<int,int>& rhs)
{
return lhs.first < rhs.first;
}
};

// c[i].first contains a[i], c[i].second contains b[i] for all i
std::pair<int, int> c[1000];
std::sort(c, c+1000, CompareFirst());

If you can't refactor your data like that, then you need to define a custom class that acts as a RandomAccessIterator:

struct ParallalArraySortHelper
{
ParallelArraySortHelper(int *first, int *second)
: a(first), b(second)
{
}

int& operator[] (int index) { return a[index]; }
int operator[] const (int index) { return a[index]; }

ParallelArraySortHelper operator += (int distance)
{
a += distance;
b += distance;
return *this;
}
// etc.
// Rest of the RandomAccessIterator requirements left as an exercise

int *a;
int *b;
};
...
int a[1000] = {...};
int b[1000] = {...};
std::sort(ParallalArraySortHelper(a, b), ParallelArraySortHelper(a+1000, b+1000));
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Generate an array the same size as the original, containing the indexes into the array: {0, 1, 2, 3}. Now use a custom comparator functor that compares the elements in an associated array rather than the indexes themselves.

template<typename T>
class CompareIndices
{
public:
CompareIndices(const T * array) : m_AssociatedArray(array) {}
bool operator() (int left, int right) const
{
return std::less(m_AssociatedArray[left], m_AssociatedArray[right]);
}
private:
const T * m_AssociatedArray;
};

std::sort(i, i+4, CompareIndices(a));

Once you have a sorted list of indices, you can apply it to the original array a, or any other b array you want.

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