# Sorting Subsets of a Sorted Vector

I'm trying to figure out the best way to sort an array under multiple criteria. I want to sort an array, then sort a subset of that array if they were equal under the first criteria.

Example:

Say we have the data: `{ ("cat", 2), ("dog", 4), ("cat", 1), ("dog", 3) }`

We sort this first according to alphabetical order of the string:

`{ ("cat", 2), ("cat", 1), ("dog", 4), ("dog", 3) }`

Then we sort the two subsets (set of cats and the set of dogs) in increasing order of their numbers:

`{ ("cat", 1), ("cat", 2), ("dog", 3), ("dog", 4) }`

Also, I'm using a recursive quicksort method that has the following header:

``````void quickSort(vector<Type*>, int left, int right)
``````

where left and right are the bounding indices by which the vector should be sorted.

Should I add code to the sorting method itself or should i call the sorting method again somehow?

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You should think a little bit by yourself. The help of others won't help you to tackle the other problems by yourself. I recommend you not to use StackOverflow for solving your homework. –  Beginner Nov 30 '11 at 21:45
This isn't a homework assignment, teaching myself, FYI. And I have thought by myself. I've figured it out, I'm searching for the "best" way as I stated. I'm looking to optimize right now. –  HJM Nov 30 '11 at 21:55

Generally, you want a custom comparator to sort with.

``````struct Foo {
std::string name;
int count;
struct Less {
bool operator()(const Foo &lhs, const Foo &rhs) const {
if ((int c = lhs.name.compare(rhs.name)) != 0)
return c < 0;
return lhs.count < rhs.count;
}
};
};

std::vector<Foo> foos;
// ...
std::sort(foos.begin(), foos.end(), Foo::Less());
``````

If you can't just use a single custom operator, you can use a stable sort.

As pointed out by Mark, `std::sort` is not a stable sort. Instead you would need to use `std::stable_sort`.

You want to sort them independently in order of increasing importance. So, you sort by numbers and then by the string.

``````struct Foo {
std::string name;
int count;
struct NameLess {
bool operator()(const Foo &lhs, const Foo &rhs) const {
return lhs.name.compare(rhs.name) < 0;
}
};
struct CountLess {
bool operator()(const Foo &lhs, const Foo &rhs) const {
return lhs.count < rhs.count;
}
};
};

std::vector<Foo> foos;
// ...
std::stable_sort(foos.begin(), foos.end(), Foo::CountLess());
std::stable_sort(foos.begin(), foos.end(), Foo::NameLess());
``````

You would prefer the first obviously, but the latter can come in handy for keeping combinatorial and/or run-time configurable algorithms simplistic.

For reference:

cplusplus.com C++ : Reference : STL Algorithms : stable_sort

cplusplus.com C++ : Reference : STL Algorithms : sort

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If you were to use multiple sorts, would you sort in order of increasing importance? Like: sort(nums); sort(strings); ... ; sort(moreImportantCriteria); ? –  HJM Nov 30 '11 at 22:04
`std::sort` isn't stable so if you use multiple sorts there are no guarantees about what if any effect previous sorts would have on the final results. –  Mark B Nov 30 '11 at 22:09
@Howie Yes, that what I tried to communicate. That is different than using a single comparator version. –  Tom Kerr Nov 30 '11 at 22:11
@MarkB You are correct, updated to make that obvious. –  Tom Kerr Nov 30 '11 at 22:16

If you store your data as a `vector<pair<string, int> >` then you can just use `std::sort(vec.begin(), vec.end());` and it will just work because `pair`'s `operator<` will already use both parts of the object to do the sorting.

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you could overload your < operator then you could use vector.unique() and then vector.sort()

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In your case you need a custom comparator cause you are mixing data Types you couldn't compare your standart comparator could only compare same data Types and doesn't know with which criteria you would sort.

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