# How can I sort two vectors in the same way, with criteria that uses only one of the vectors in C++?

How can I sort two vectors in the same way, with criteria that uses only one of the vectors in C++?

For example, suppose I have two vectors of the same size:

``````vector<MyObject> vectorA;
vector<int> vectorB;
``````

I then sort `vectorA` using some comparison function. That sorting reordered `vectorA`. How can I have the same reordering applied to `vectorB`?

One option is to create a struct:

``````struct ExampleStruct {
MyObject mo;
int i;
};
``````

and then sort a vector that contains the contents of `vectorA` and `vectorB` zipped up into a single vector:

``````// vectorC[i] is vectorA[i] and vectorB[i] combined
vector<ExampleStruct> vectorC;
``````

This doesn't seem like an ideal solution. Are there other options, especially in C++11?

-
Can you perhaps provide an example with some input and the corresponding desired output? I am having troubles understanding the question –  Andy Prowl Jun 12 '13 at 20:06
I think he wants to (effectively) sort the contents `vectorA` and `vectorB` both by the contents of `vectorB`. –  Mooing Duck Jun 12 '13 at 20:13
I think this question is a near duplicate if not an exact duplicate –  Mooing Duck Jun 12 '13 at 20:16
What about sorting a third vector (of indices 0, ... vectorA.size()), based on the values in vectorA and "apply" those indices on vectorB? E.g. like in stackoverflow.com/a/10581051/417197 –  Andre Jun 12 '13 at 20:26
Personally, i'd rather have a `vector<pair<MyObject, int>>`. Then you wouldn't have to worry about the two lists getting out of sync; one sort reorders both sets of data simultaneously. And there's no extra struct to have to write. –  cHao Jun 12 '13 at 21:03

# Finding a sort permutation

Given a `std::vector<T>` and a comparison for `T`'s, we want to be able to find the permutation you would use if you were to sort the vector using this comparison.

``````template <typename T, typename Compare>
std::vector<int> sort_permutation(
std::vector<T> const& vec,
Compare compare)
{
std::vector<int> p(vec.size());
std::iota(p.begin(), p.end(), 0);
std::sort(p.begin(), p.end(),
[&](int i, int j){ return compare(vec[i], vec[j]); });
return p;
}
``````

# Applying a sort permutation

Given a `std::vector<T>` and a permutation, we want to be able to build a new `std::vector<T>` that is reordered according to the permutation.

``````template <typename T>
std::vector<T> apply_permutation(
std::vector<T> const& vec,
std::vector<int> const& p)
{
std::vector<T> sorted_vec(p.size());
std::transform(p.begin(), p.end(), sorted_vec.begin(),
[&](int i){ return vec[i]; });
return sorted_vec;
}
``````

You could of course modify `apply_permutation` to mutate the vector you give it rather than returning a new sorted copy.

# Example

``````vector<MyObject> vectorA;
vector<int> vectorB;

auto p = sort_permutation(vectorA,
[](T const& a, T const& b){ /*some comparison*/ });

vectorA = apply_permutation(vectorA, p);
vectorB = apply_permutation(vectorB, p);
``````

# Resources

-

I'm assuming that vectorA and vectorB have equal lengths. You could create another vector, let's call it pos, where:

`pos[i] = the position of vectorA[i] after sorting phase`

and then, you can sort vectorB using pos, i.e create vectorBsorted where:

``````vectorBsorted[pos[i]] = vectorB[i]
``````

and then vectorBsorted is sorted by the same permutation of indexes as vectorA is.

-
1. Make a vector of pairs out of your individual vectors.
initialize vector of pairs
Adding to a vector of pair

2. Make a custom sort comparator:
Sorting a vector of custom objects
http://rosettacode.org/wiki/Sort_using_a_custom_comparator#C.2B.2B

3. Sort your vector of pairs.

4. Separate your vector of pairs into individual vectors.

5. Put all of these into a function.

Code:

``````std::vector<MyObject> vectorA;
std::vector<int> vectorB;

struct less_than_int
{
inline bool operator() (const std::pair<MyObject,int>& a, const std::pair<MyObject,int>& b)
{
return (a.second < b.second);
}
};

sortVecPair(vectorA, vectorB, less_than_int());

// make sure vectorA and vectorB are of the same size, before calling function
template <typename T, typename R, typename Compare>
sortVecPair(std::vector<T>& vecA, std::vector<R>& vecB, Compare cmp)
{

std::vector<pair<T,R>> vecC;
vecC.reserve(vecA.size());
for(int i=0; i<vecA.size(); i++)
{
vecC.push_back(std::make_pair(vecA[i],vecB[i]);
}

std::sort(vecC.begin(), vecC.end(), cmp);

vecA.clear();
vecB.clear();
vecA.reserve(vecC.size());
vecB.reserve(vecC.size());
for(int i=0; i<vecC.size(); i++)
{
vecA.push_back(vecC[i].first);
vecB.push_back(vecC[i].second);
}
}
``````
-
vector of pairs of references? –  Mooing Duck Jun 12 '13 at 20:31
I get what you mean, but pairs of references is not going to easily work. –  ruben2020 Jun 12 '13 at 20:47
@ruben2020: It can, but doing so just band-aids the issue. If you have two pieces of data intertwined enough that sorting one should sort the other, it would seem that what you really have is a not-yet-integrated object. –  cHao Jun 13 '13 at 15:06

# In-place sorting using permutation

I would use a permutation like Timothy, although if your data is too large and you don't want to allocate more memory for the sorted vector you should do it in-place. Here is a example of a O(n) (linear complexity) in-place sorting using permutation:

The trick is to get the permutation and the reverse permutation to know where to put the data overwritten by the last sorting step.

``````template <class K, class T>
void sortByKey(K * keys, T * data, size_t size){
std::vector<size_t> p(size,0);
std::vector<size_t> rp(size);
std::vector<bool> sorted(size, false);
size_t i = 0;

// Sort
std::iota(p.begin(), p.end(), 0);
std::sort(p.begin(), p.end(),
[&](size_t i, size_t j){ return keys[i] < keys[j]; });

// ----------- Apply permutation in-place ---------- //

// Get reverse permutation item>position
for (i = 0; i < size; ++i){
rp[p[i]] = i;
}

i = 0;
K savedKey;
T savedData;
while ( i < size){
size_t pos = i;
// Save This element;
if ( ! sorted[pos] ){
savedKey = keys[p[pos]];
savedData = data[p[pos]];
}
while ( ! sorted[pos] ){
// Hold item to be replaced
K heldKey  = keys[pos];
T heldData = data[pos];
// Save where it should go
size_t heldPos = rp[pos];

// Replace
keys[pos] = savedKey;
data[pos] = savedData;

// Get last item to be the pivot
savedKey = heldKey;
savedData = heldData;

// Mark this item as sorted
sorted[pos] = true;

// Go to the held item proper location
pos = heldPos;
}
++i;
}
}
``````
-
Though it looks like it is O(N^2), it is not. The inner while is only executed if the item is not sorted. As the inner while sorts the data, it kinda skips outer while iterations... –  MtCS Aug 2 '14 at 16:28

Implement `operator<` for `ExampleStruct`

``````bool operator<(ExampleStruct const& es1, ExampleStruct const& es2) {
return es1.i < es2.i;
}
``````

Then just use `std::sort` for `vectorC`.

``````std::sort(vectorC.begin(), vectorC.end());
``````
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