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What is the most efficient way of obtaining lists (as a vector) of the keys and values from an unordered_map?

For concreteness, suppose the map in question is a unordered_map<string, double>. I'd then like to obtain the keys as a vector<string>, and the values as a vector<double>.

unordered_map<string, double> um;

vector<string> vs = um.enum_keys();
vector<double> vd = um.enum_values();

I can just iterate across the map and collect the result, but is there a more efficient method? It would be nice to have a method that also works for regular map, since I might switch to that.

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  • 2
    Looking at the draft standard, I don't see an easy way to get what you want, but I may be missing something. You could say std::vector<std::pair<const Key, Val>> v(map.begin(), map.end()); which should give you a vector of key-value pairs.
    – Keith Layne
    Dec 13, 2011 at 3:34
  • @keith.layne: I'm looking for separate vectors for keys and values.
    – Faheem Mitha
    Dec 13, 2011 at 3:40
  • As I said, there's nothing built-in for that. See below.
    – Keith Layne
    Dec 13, 2011 at 3:42
  • 1
    @muntoo: Not sure what is with the edit. What is vector<string> vs = um.enum_keys(); supposed to signify?
    – Faheem Mitha
    Dec 13, 2011 at 4:22
  • Boost has a transform iterator which can pull just keys or just values, but its faster to do both at once as Keith suggests
    – Mooing Duck
    Dec 13, 2011 at 5:10

6 Answers 6

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85

Okay, here you go:

std::vector<Key> keys;
keys.reserve(map.size());
std::vector<Val> vals;
vals.reserve(map.size());

for(auto kv : map) {
    keys.push_back(kv.first);
    vals.push_back(kv.second);  
}

Efficiency can probably be improved, but there it is. You're operating on two containers though, so there's not really any STL magic that can hide that fact.

As Louis said, this will work for any of the STL map or set containers.

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    Ok, sO I guess there is nothing better than iterating over the map then. I don't recognize the syntax you are using. What does (auto kv : map) denote. I would have expected just an iteration (i.e. for loop) over the elements of the map.
    – Faheem Mitha
    Dec 13, 2011 at 4:01
  • 1
    @FaheemMitha That is the new C++11 for loop. It does exactly what it looks like it does, and combined with auto makes things a little more tidy. auto saves you from having to explicitly write the type of kv. There are several ways to accomplish essentially the same thing including a for loop over the iterators, for_each with a lambda, etc. Since you mentioned unordered_map I assumed you were using C++11.
    – Keith Layne
    Dec 13, 2011 at 4:17
  • 2
    Effienency can be improved with a reserve, but not much will be faster or easier than this.
    – Mooing Duck
    Dec 13, 2011 at 5:09
  • 7
    I would use auto& instead of auto here to avoid unnecessary copies of the pair (and underlying first/second members if they are structs). And it won't work for set containers because their value_type is not a std::pair<K, V> but the Key/Val type itself.
    – Juicebox
    Mar 30, 2017 at 12:15
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    instead of std::vector<Key> keys; keys.reserve(map.size()); you can write std::vector<Key> keys(map.size()); same with the other vector
    – fire in the hole
    Jan 15, 2020 at 9:11
23

Using C++-14 you could also do the following (edited to contain full source):

#include <algorithm>
#include <iostream>
#include <string>
#include <unordered_map>
#include <vector>

using namespace std;

typedef string Key;
typedef int Value;

auto key_selector = [](auto pair){return pair.first;};
auto value_selector = [](auto pair){return pair.second;};

int main(int argc, char** argv) {
  // Create a test map
  unordered_map<Key, Value> map;
  map["Eight"] = 8;
  map["Ten"] = 10;
  map["Eleven"] = 11;

  // Vectors to hold keys and values
  vector<Key> keys(map.size());
  vector<Value> values(map.size());

  // This is the crucial bit: Transform map to list of keys (or values)
  transform(map.begin(), map.end(), keys.begin(), key_selector);
  transform(map.begin(), map.end(), values.begin(), value_selector);

  // Make sure this worked: Print out vectors
  for (Key key : keys) cout << "Key: " << key << endl;
  for (Value value : values) cout << "Value: " << value << endl;

  return 0;
}

I compiled this with the following command:

g++ keyval.cpp -std=c++14 -o keyval

Testing it printed the keys and values as expected.

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8
  • Can you explain this more
    – Whitecat
    Nov 19, 2015 at 2:25
  • Could you write a self-contained example that can be compiled? Also, if you could mention what compiler to use and provide a command line to use to compile it, that would be helpful. thanks.
    – Faheem Mitha
    Nov 19, 2015 at 9:13
  • Also, what are Key and Value and um here? You haven't defined them. Perhaps you are using the definition from the question, namely "unordered_map<string, double> um;", but in that case, you should mention that here again, regardless.
    – Faheem Mitha
    Nov 19, 2015 at 9:34
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    Works here with clang 3.5 and gcc 4.9. Has this any efficiency advantages relative to a plain loop?
    – Faheem Mitha
    Nov 26, 2015 at 16:47
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    The lambas should introduce no overhead they (like any other functors) can be inlined into the transform loop. But when using auto be sure to remember it deduces value types, so those range based for loops introduce some copies. You can use const auto& instead of plain auto, where it makes sense to.
    – Paul Rooney
    Jun 4, 2016 at 13:26
4

In STL there is no built-in method to get all keys or values from a map.

There is no different to iterate a unordered map or regular map, the best way is to iterate it and collect key or value to a vector.

You can write a template function to iterate any kind of map.

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1

Joining late, but thought this might be helpful to someone.
Two template functions making use of key_type and mapped_type.

namespace mapExt
{
    template<typename myMap>
    std::vector<typename myMap::key_type> Keys(const myMap& m)
    {
        std::vector<typename myMap::key_type> r;
        r.reserve(m.size());
        for (const auto&kvp : m)
        {
            r.push_back(kvp.first);
        }
        return r;
    }

    template<typename myMap>
    std::vector<typename myMap::mapped_type> Values(const myMap& m)
    {
        std::vector<typename myMap::mapped_type> r;
        r.reserve(m.size());
        for (const auto&kvp : m)
        {
            r.push_back(kvp.second);
        }
        return r;
    }
}

Usage:

std::map<long, char> mO;
std::unordered_map<long, char> mU;
// set up the maps
std::vector<long> kO = mapExt::Keys(mO);
std::vector<long> kU = mapExt::Keys(mU);
std::vector<char> vO = mapExt::Values(mO);
std::vector<char> vU = mapExt::Values(mU);
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0

Similar to @Keith Layne answer, but reserve is done in one line; And the for loop is using reference (instead of copying it by value each entry) and making it const. But if C++14 can be used then @Marius Renn answer should be better.

std::map<long, char> mO;

// populate the mO

std::vector<long> keys(mO.size());
std::vector<char> vals(mO.size());

for(const auto &kv : mO) {
    keys.push_back(kv.first);
    vals.push_back(kv.second);  
}
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0

I'm using this with the range-v3 library, it will be soon in the STL library too, with a little luck in c++23 (ranges::to definitely and views::key maybe).

std::unordered_map<std::string, int> map {{"one", 1}, {"two", 2}, {"three", 3}};

auto keys = map | ranges::views::keys | ranges::to<std::vector>();
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