89

Is there a way to specify the default value std::map's operator[] returns when an key does not exist?

12 Answers 12

58

No, there isn't. The simplest solution is to write your own free template function to do this. Something like:

#include <string>
#include <map>
using namespace std;

template <typename K, typename V>
V GetWithDef(const  std::map <K,V> & m, const K & key, const V & defval ) {
   typename std::map<K,V>::const_iterator it = m.find( key );
   if ( it == m.end() ) {
      return defval;
   }
   else {
      return it->second;
   }
}

int main() {
   map <string,int> x;
   ...
   int i = GetWithDef( x, string("foo"), 42 );
}

C++11 Update

Purpose: Account for generic associative containers, as well as optional comparator and allocator parameters.

template <template<class,class,class...> class C, typename K, typename V, typename... Args>
V GetWithDef(const C<K,V,Args...>& m, K const& key, const V & defval)
{
    typename C<K,V,Args...>::const_iterator it = m.find( key );
    if (it == m.end())
        return defval;
    return it->second;
}
  • 1
    Nice solution. You might want to add a few template arguments so that the function template works with maps that don't use the default template parameters for comparator and allocator. – sbi Feb 25 '10 at 12:19
  • 3
    +1, but to provide the exact same behavior as the operator[] with default value, the default value should be inserted into the map inside the if ( it == m.end() ) block – David Rodríguez - dribeas Feb 25 '10 at 12:19
  • 13
    @David I'm assuming the OP doesn't actually want that behaviour. I use a similar scheme for reading configurations, but I don't want the configuration updated if a key is missing. – anon Feb 25 '10 at 12:22
  • 2
    @GMan bool parameters are thought by some to be bad style because you can't tell by looking at the call (as opposed to the declaration) what they do - in this case does "true" mean "use default" or "don't use default" (or something else entirely)? An enum is always clearer but of course is more code. I'm in two minds on the subject, myself. – anon Feb 25 '10 at 18:48
  • 2
    This answer doesn't work if the default value is nullptr, but stackoverflow.com/a/26958878/297451 does. – Jon Feb 9 '16 at 5:02
45

While this does not exactly answer the question, I have circumvented the problem with code like this:

struct IntDefaultedToMinusOne
{
    int i = -1;
};

std::map<std::string, IntDefaultedToMinusOne > mymap;
  • 1
    This is the best solution for me. Easy to implement, very flexible, and generic. – acegs Apr 8 '19 at 1:36
11

The C++ standard (23.3.1.2) specifies that the newly inserted value is default constructed, so map itself doesn't provide a way of doing it. Your choices are:

  • Give the value type a default constructor that initialises it to the value you want, or
  • Wrap the map in your own class that provides a default value and implements operator[] to insert that default.
  • 8
    Well, to be precise the newly inserted value is value initialized (8.5.5) so: - if T is a class type with a user-declared constructor (12.1), then the default constructor for T is called (and the initialization is ill-formed if T has no accessible default constructor); — if T is a non-union class type without a user-declared constructor, then every non-static data member and baseclass component of T is value-initialized; — if T is an array type, then each element is value-initialized; — otherwise, the object is zero-initialized – Tadeusz Kopec Feb 25 '10 at 12:28
7

C++17 provides try_emplace which does exactly this. It takes a key and an argument list for the value constructor and returns a pair: an iterator and a bool.: http://en.cppreference.com/w/cpp/container/map/try_emplace

6

More General Version, Support C++98/03 and More Containers

Works with generic associative containers, the only template parameter is the container type itself.

Supported containers: std::map, std::multimap, std::unordered_map, std::unordered_multimap, wxHashMap, QMap, QMultiMap, QHash, QMultiHash, etc.

template<typename MAP>
const typename MAP::mapped_type& get_with_default(const MAP& m, 
                                             const typename MAP::key_type& key, 
                                             const typename MAP::mapped_type& defval)
{
    typename MAP::const_iterator it = m.find(key);
    if (it == m.end())
        return defval;

    return it->second;
}

Usage:

std::map<int, std::string> t;
t[1] = "one";
string s = get_with_default(t, 2, "unknown");

Here is a similar implementation by using a wrapper class, which is more similar to the method get() of dict type in Python: https://github.com/hltj/wxMEdit/blob/master/src/xm/xm_utils.hpp

template<typename MAP>
struct map_wrapper
{
    typedef typename MAP::key_type K;
    typedef typename MAP::mapped_type V;
    typedef typename MAP::const_iterator CIT;

    map_wrapper(const MAP& m) :m_map(m) {}

    const V& get(const K& key, const V& default_val) const
    {
        CIT it = m_map.find(key);
        if (it == m_map.end())
            return default_val;

        return it->second;
    }
private:
    const MAP& m_map;
};

template<typename MAP>
map_wrapper<MAP> wrap_map(const MAP& m)
{
    return map_wrapper<MAP>(m);
}

Usage:

std::map<int, std::string> t;
t[1] = "one";
string s = wrap_map(t).get(2, "unknown");
  • MAP::mapped_type& is not safe to return since typename MAP::mapped_type& defval can be out of scope. – Joe C Aug 17 '19 at 2:31
5

There is no way to specify the default value - it is always value constructed by the default (zero parameter constructor).

In fact operator[] probably does more than you expect as if a value does not exist for the given key in the map it will insert a new one with the value from the default constructor.

  • 2
    Right, to avoid adding new entries you could use find which does return the end iterator if no element exists for a given key. – Thomas Schaub Feb 25 '10 at 12:05
  • @ThomasSchaub How much is the time complexity of find in that case? – ajaysinghnegi Jul 29 '19 at 15:46
5
template<typename T, T X>
struct Default {
    Default () : val(T(X)) {}
    Default (T const & val) : val(val) {}
    operator T & () { return val; }
    operator T const & () const { return val; }
    T val;
};

<...>

std::map<KeyType, Default<ValueType, DefaultValue> > mapping;
  • 3
    Then modify it so it does work. I'm not going to bother to fix a case this code was not designed to accomplish. – Thomas Eding Dec 2 '16 at 21:16
3

The value is initialized using the default constructor, as the other answers say. However, it is useful to add that in case of simple types (integral types such as int, float, pointer or POD (plan old data) types), the values are zero-initialized (or zeroed by value-initialization (which is effectively the same thing), depending on which version of C++ is used).

Anyway, the bottomline is, that maps with simple types will zero-initialize the new items automatically. So in some cases, there is no need to worry about explicitly specifying the default initial value.

std::map<int, char*> map;
typedef char *P;
char *p = map[123],
    *p1 = P(); // map uses the same construct inside, causes zero-initialization
assert(!p && !p1); // both will be 0

See Do the parentheses after the type name make a difference with new? for more details on the matter.

2

One workaround is to use map::at() instead of []. If a key does not exist, at throws an exception. Even nicer, this also works for vectors, and is thus suited for generic programming where you may swap the map with a vector.

Using a custom value for unregistered key may be dangerous since that custom value (like -1) may be processed further down in the code. With exceptions, it's easier to spot bugs.

1

Maybe you can give a custom allocator who allocate with a default value you want.

template < class Key, class T, class Compare = less<Key>,
       class Allocator = allocator<pair<const Key,T> > > class map;
  • 4
    operator[] returns an object created by invoking T(), no matter what the allocator does. – sbi Feb 25 '10 at 12:17
  • 1
    @sbi: Doesn't the map call the allocators construct method? It would be possible to change that, I think. I suspect a construct function that doesn something other than new(p) T(t); isn't well-formed, though. EDIT: In hindsight that was foolish, otherwise all the values would be the same :P Where's my coffee... – GManNickG Feb 25 '10 at 16:04
  • 1
    @GMan: my copy of C++03 says (in 23.3.1.2) that operator[] returns (*((insert(make_pair(x, T()))).first)).second. So unless I'm missing something, this answer is wrong. – sbi Feb 26 '10 at 12:44
  • You are right. But that seems wrong to me. Why dont they use the allocator function for inserting? – VDVLeon Feb 26 '10 at 16:12
  • 2
    @sbi: No, I agree this answer is wrong, but for a different reason. The compiler indeed does insert with a T(), but inside insert is when it will use the allocator get memory for a new T then call construct on that memory with the parameter it was given, which is T(). So it is indeed possible to change the behavior of operator[] to have it return something else, but the allocator cannot differentiate why it's being called. So even if we made construct ignore it's parameter and use our special value, that would mean every constructed element had that value, which is bad. – GManNickG Feb 26 '10 at 19:10
1

Expanding on the answer https://stackoverflow.com/a/2333816/272642, this template function uses std::map's key_type and mapped_type typedefs to deduce the type of key and def. This doesn't work with containers without these typedefs.

template <typename C>
typename C::mapped_type getWithDefault(const C& m, const typename C::key_type& key, const typename C::mapped_type& def) {
    typename C::const_iterator it = m.find(key);
    if (it == m.end())
        return def;
    return it->second;
}

This allows you to use

std::map<std::string, int*> m;
int* v = getWithDefault(m, "a", NULL);

without needing to cast the arguments like std::string("a"), (int*) NULL.

1

Use std::map::insert().

Realizing that I'm quite late to this party, but if you're interested in the behaviour of operator[] with custom defaults (that is, find the element with the given key, if it isn't present insert an element in the map with a chosen default value and return a reference to either the newly inserted value or the existing value), There is already a function available to you pre C++17: std::map::insert(). insert will not actually insert if the key already exists, but instead return an iterator to the existing value.

Say, you wanted a map of string-to-int and inserts a default value of 42 if the key wasn't present yet:

std::map<std::string, int> answers;

int count_answers( const std::string &question)
{
    auto  &value = answers.insert( {question, 42}).first->second;
    return value++;
}

int main() {

    std::cout << count_answers( "Life, the universe and everything") << '\n';
    std::cout << count_answers( "Life, the universe and everything") << '\n';
    std::cout << count_answers( "Life, the universe and everything") << '\n';
    return 0;
}

which should output 42, 43 and 44.

If the cost of constructing the map value is high (if either copying/moving the key or the value type is expensive), this comes at a significant performance penalty, which I think would be circumvented with C++17's try_emplace.

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